b.tech. four years degree program
TRANSCRIPT
AR19 Mechanical Engineering
Aditya Engineering College (A) 1
PROGRAM STRUCTURE
AND SYLLABUS
For
BTECH FOUR YEARS DEGREE PROGRAM
(Applicable to the batches admitted from 2019-20)
(I To V Semesters)
ADITYA ENGINEERING COLLEGE (An Autonomous Institution)
Approved by AICTE Affiliated to JNTUK amp Accredited by NBA NAAC with A Grade
Recognized by UGC under the sections 2(f) and 12(B) of UGC act 1956
Aditya Nagar ADB Road SURAMPALEM - 533 437
MECHANICAL
ENGINEERING
AR19 Mechanical Engineering
Aditya Engineering College (A) 2
VISION amp MISSION OF THE COLLEGE
VISION
To induce higher planes of learning by imparting technical education with International
standards Applied research Creative ability and Value based instruction to emerge as a
premier institute
MISSION
Achieving academic excellence by providing globally acceptable technical education by
forecasting technology through
- Innovative research amp development
- Industry institute interaction
- Empowered manpower
VISION amp MISSION OF THE DEPARTMENT
VISION
To be a nationally preferred knowledge hub in mechanical engineering department with
commitment towards academics research innovation and critical thinking
MISSION
M1 Produce competent responsible mechanical engineering graduates by
imparting quality and value based education
M2 Inculcating strong mathematical amp computing fundamentals among
students that form the baseline for modern day solutions with emphasis on
design and development
M3 Prepare graduates to solve real time engineering problems using
professional knowledge and skills
M4 MoUrsquos with world class educational institutions and RampD organizations
for excellence in teaching research and consultancy services
AR19 Mechanical Engineering
Aditya Engineering College (A) 3
PROGRAM EDUCATIONAL OBJECTIVES (PEOs)
Graduates of the Program will
PEO 1 Progress in professional career with a solid foundation in mathematics
science and engineering
PEO 2 Solve real time engineering problems using professional knowledge and
skills resulting in significant societal development
PEO 3 Demonstrate multidisciplinary skills to analyze engineering issues in a
broader perspective with ethical responsibility towards sustainable
development
PEO 4 Demonstrate interpersonal skills leadership and team building to achieve
their career goals pursue lifelong learning and higher education necessary
for successful profession
PROGRAM OUTCOMES (POs)
After successful completion of the program the graduates will be able to
PO 1 Apply knowledge of mathematics science engineering fundamentals and an
engineering specialization to the solution of complex engineering problems
PO 2 Identify formulate research literature and analyze complex engineering
problems reaching substantiated conclusions using first principles of
mathematics natural sciences and engineering sciences
PO 3 Design solutions for complex engineering problems and design systems
components or processes that meet specified needs with appropriate
consideration for public health and safety cultural societal and
environmental considerations
PO 4 Conduct investigations of complex problems using research-based knowledge
and research methods including design of experiments analysis and
interpretation of data and synthesis of information to provide valid
conclusions
PO 5 Create select and apply appropriate techniques resources and modern
engineering and IT tools including prediction and modelling to complex
engineering activities with an understanding of the limitations
PO 6 Apply reasoning informed by contextual knowledge to assess societal health
safety legal and cultural issues and the consequent responsibilities relevant to
professional engineering practice
PO 7 Understand the impact of professional engineering solutions in societal and
environmental contexts and demonstrate knowledge of and need for
sustainable development
PO 8 Apply ethical principles and commit to professional ethics and responsibilities
and norms of engineering practice
PO 9 Function effectively as an individual and as a member or leader in diverse
teams and in multidisciplinary settings
PO 10 Communicate effectively on complex engineering activities with the
engineering community and with society at large such as being able to
comprehend and write effective reports and design documentation make
effective presentations and give and receive clear instructions
PO 11 Demonstrate knowledge and understanding of engineering management
principles and apply these to onersquos own work as a member and leader in a
AR19 Mechanical Engineering
Aditya Engineering College (A) 4
team and to manage projects in multidisciplinary environments
PO 12 Recognize the need for and have the preparation and ability to engage in
independent and life-long learning in the broadest context of technological
change
PROGRAM SPECIFIC OUTCOMES (PSOs)
After successful completion of the program the graduates will be able to
PSO 1 Ability to absorb analyse demonstrate and maintain latest developments in
mechanical engineering and allied areas
PSO 2 Conduct experiments and perform analysis by using research methods such
as design of experiments synthesizes the information and to provide valid
conclusions
PSO 3 Model design and analyse the mechanical systems and components taking
into account social economic and environmental implications
Mission of the department ndash PEOs mapping
PEOs Statements M1 M2 M3 M4
PEO 1 Progress in professional career with a solid
foundation in mathematics science and engineering 3 3 3 2
PEO 2 Solve real time engineering problems using
professional knowledge and skills resulting in
significant societal development
3 3 3 3
PEO 3 Demonstrate multidisciplinary skills to analyze
engineering issues in a broader perspective with
ethical responsibility towards sustainable
development
3 3 3 3
PEO 4 Demonstrate interpersonal skills leadership and team
building to achieve their career goals and pursue
lifelong learning and higher education necessary for
successful profession
2 2 2 2
Note
Bloomrsquos Taxonomy
Knowledge Level
Knowledge Level
Representation
Remember K1
Understand K2
Apply K3
Analyse K4
Evaluate K5
Create K6
Mapping Correlation levels
1 Slight (Low)
2 Moderate (Medium)
3 Substantial (High)
AR19 Mechanical Engineering
Aditya Engineering College (A) 5
PROGRAM STRUCTURE I SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191HS1T01 Communicative English HSMC 3 0 0 3 3
191BS1T01 Differential Equations and Linear
Algebra
BSC 3 0 0 3 3
191BS1T02 Engineering Physics BSC 3 0 0 3 3
191ES1T01 Programming for Problem Solving
Using C
ESC 3 0 0 3 3
191HS1L01 Communicative English Lab-I HSMC 0 0 3 3 15
191BS1L01 Engineering Physics Lab BSC 0 0 3 3 15
191ES1L01 Programming for Problem Solving
Using C Lab
ESC 0 0 3 3 15
191ES1L02 Basic Engineering Workshop ESC 0 0 3 3 15
191MC1A01 Environmental Science MC 2 0 0 2 0
191MC1A02 Constitution of India MC 2 0 0 2 0
TOTAL 16 0 12 28 18
II SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS2T05 Partial Differential Equations and
Vector Calculus
BSC 3 0 0 3 3
191BS2T06 Chemistry of Materials BSC 3 0 0 3 3
191ES2T02 Engineering Graphics and Design ESC 1 0 3 4 25
191ES2T03 Essential Electrical and Electronics
Engineering
ESC 3 0 0 3 3
191ES2T04 Engineering Mechanics ESC 3 0 0 3 3
191HS2L02 Communicative English Lab-II HSMC 0 0 2 2 1
191BS2L04 Engineering Chemistry Lab BSC 0 0 3 3 15
191ES2L03 Essential Electrical and Electronics
Engineering Lab
ESC 0 0 3 3 15
191ES2L07 Mechanical Engineering Workshop ESC 0 0 3 3 15
191PR2P01 Engineering Exploration Project PROJ 0 0 2 2 1
TOTAL 13 0 16 29 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 6
III SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS3T11 Integral Transforms And
Applications Of Partial
Differential Equations
(CE ME AgE)
BSC 3 0 0 3 3
191ME3T01 Fluid Mechanics and Hydraulic
Machinery
PCC 3 0 0 3 3
191ME3T02 Computer Aided Engineering
Drawing Practice
PCC 2 0 2 4 3
191ME3T03 Mechanics of Solids PCC 3 0 0 3 3
191ME3T04 Thermodynamics PCC 3 0 0 3 3
191ME3T05 Metallurgy amp Material Science PCC 3 0 0 3 3
191ME3L01 Fluid Mechanics amp Hydraulic
Machines Lab
PCC 0 0 3 3 15
191ME3L02 Mechanics of Solids amp Metallurgy
Lab
PCC 0 0 3 3 15
191MC3A03 Employability Skills ndash I MC 0 0 2 2 0
191MC3A04 Essence of Indian Traditional
Knowledge
MC 2 0 0 2 0
TOTAL 19 0 10 29 21
IV SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS4T16 Numerical methods amp Statistical
Techniques (CE ME Ag E)
BSC 3 0 0 3 3
191HS4T04 Managerial Economics amp
Financial Analysis
HSMC 3 0 0 3 3
191ES4T15 Internet of Things ESC 3 0 0 3 3
191ME4T06 Production Technology PCC 3 0 0 3 3
191ME4T07 Kinematics of Machinery PCC 3 0 0 3 3
191ME4T08 Thermal Engineering-I PCC 3 0 0 3 3
191ME4L03 Production Technology Lab PCC 0 0 3 3 15
191ME4L04 Computer Aided Machine
Drawing
PCC 0 0 3 3 15
191MC4A05 Employability Skills ndash II MC 0 0 2 2 0
191MC4A06 Biology for Engineers MC 2 0 0 2 0 TOTAL 20 0 8 28 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 7
V SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME5T09 Dynamics of Machinery PCC 3 0 0 3 3
191ME5T10 Design of Machine Members-I PCC 3 0 0 3 3
191ME5T11 Thermal Engineering-II PCC 3 0 0 3 3
---- PE-I PEC 3 0 0 3 3
---- OE-I OEC 3 0 0 3 3
191ME5L05 Metrology ICS lab PCC 0 0 3 3 15
191ME5L06 Theory of Machines Lab PCC 0 0 3 3 15
191ME5L07 Thermal Engineering Lab PCC 0 0 3 3 15
191HS5T06 Employability Skills ndash III HSMC 0 0 2 2 1
191PR5P02 Socially Relevant Project PROJ 0 0 0 0 1
TOTAL 15 0 11 26 215
VI SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME6T12 Heat Transfer PCC 3 0 0 3 3
191ME6T13 Design of Machine Members-II PCC 3 0 0 3 3
191ME6T14 Metal cutting and Machine Tools PCC 3 0 0 3 3
---- PE-II PEC 3 0 0 3 3
---- PE-III PEC 3 0 0 3 3
---- OE-II OEC 3 0 0 3 3
191ME6L08 Metal Cutting and Machine Tools
Lab
PCC 0 0 3 3 15
191ME6L09 Heat Transfer Lab PCC 0 0 3 3 15
191HS6T07 Employability Skills ndash IV HSMC 0 0 2 2 1
TOTAL 18 0 8 26 22
VII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME7T15 Operations Research PCC 3 0 0 3 3
191ME7T16 Finite Element Methods PCC 3 0 0 3 3
---- PE-IV PEC 3 0 0 3 3
---- PE-V PEC 3 0 0 3 3
---- OE-III OEC 3 0 0 3 3
191ME7P03 Internship PROJ 0 0 0 0 2
191ME7L10 CAM Mechatronics Lab PCC 0 0 3 3 15
191ME7L11 CAD CFD lab PCC 0 0 4 4 2
191ME7P04 Project Part 1 PROJ 0 0 0 0 2
TOTAL 15 0 7 22 225
AR19 Mechanical Engineering
Aditya Engineering College (A) 8
VIII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
---- PE-VI (MOOCs) PEC 3 0 0 3 3
---- OE-IV (MOOCs) OEC 3 0 0 3 3
191ME8P05 Project Part 2 PROJ 0 0 0 0 7
TOTAL 6 0 0 6 13
BSC Basic Sciences Courses HSMC Humanities and Social Sciences including Management
Courses ESC Engineering Sciences Courses PCC Professional Core Courses PEC
Professional Elective Courses OEC Open Elective Courses SSC Self Study Course MC
Mandatory Courses PROJ Project
PROFESSIONAL ELECTIVES
Professional Elective ndash I Professional Elective ndash II
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME5E01 Automobile Engineering 1 191ME6E07 Industrial Engineering amp
Management
2 191ME5E02 Composite Materials 2 191ME6E08 Mechatronics
3 191ME5E03 Fluid Engineering 3 191ME6E09 Non Destructive Evaluation
4 191ME5E04 Mechanical Vibrations 4 191ME6E10 Refrigeration and Air
Conditioning
5 191ME5E05 Metrology amp Instrumentation 5 191ME6E11 Robotics
6 191ME5E06 Organizational Behavior
Professional Elective ndash III Professional Elective ndash IV
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME6E12 Additive Manufacturing 1 191ME7E17 Advanced Automobile
Engineering
2 191ME6E13 Alternative Fuels 2 191ME7E18 Advanced Fluid Mechanics
3 191ME6E14 Design for Manufacturing 3 191ME7E19 Computational Fluid Dynamics
4 191ME6E15 Green Engineering Systems 4 191ME7E20 Nano materials amp Technology
5 191ME6E16 Lean Manufacturing 5 191ME7E21 Power Plant Engineering
Professional Elective ndash V Professional Elective ndash VI SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME7E22 CAD CAM 1 191ME8E27 Advanced Materials
2 191ME7E23 Condition Monitoring 2 191ME8E28 Manufacturing Methods in
Precision Engineering
3 191ME7E24 Design of Transmission
Systems
3 191ME8E29 Production Planning and
Control
4 191ME7E25 Flexible Manufacturing
Systems
4 191ME8E30 Thermal Equipment Design
5 191ME7E26 Gas Dynamics 5 191ME8E31 Total Quality Management
AR19 Mechanical Engineering
Aditya Engineering College (A) 9
OPEN ELECTIVE - I (V Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE5O01 Basic Concrete Technology CE EEE CE
2 191EE5O01 Electrical Safety EEE EEE
3 191EE5O02 Electrical Materials EEE EEE
4 191EE5O03 Basic Electrical Measurements EEE ECE EEE
5 191ME5O01 Renewable Energy Sources CE EEE ME Ag E ME
6 191ME5O02 Fundamentals of Mechanical
Engineering
ME ME
7 191ME5O03 Supply Chain Management ME ME
8 191ME5O04 3D Printing ME ME
9 191ME5O05 Entrepreneurship Development and
Incubation
ME
10 191EC5O01 Signals amp Systems EEE ECE ECE
11 191EC5O02 Digital Electronics and Logic
Design
EEE ECE CSE IT ECE
12 191EC5O03 Semi conductor devices EEE ECE ECE
13 191CS5O01 Data Structures EEE ECE CSE IT CSE
14 191CS5O02 Object Oriented Programming
through C++
CSE IT CSE
15 191CS5O03 Java Programming CSE IT CSE
16 191CS5O04 R Programming CSE
17 191IT5O01 Database Management Systems CSE IT IT
18 191IT5O02 Computer Graphics CSE IT IT
19 191MI5O01 Overview of Mining MinE MinE
20 191PT5O01 Process Intensification in Petroleum
Industry
PT PT
21 191PT5O02 Fundamentals of Petroleum
Industry
PT PT
22 191AG5O01 Basic Crop Production Practices AgE AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 10
OPEN ELECTIVE - II (VI Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE6O02 Disaster Management CE
2 191EE6O04 Energy Audit and Conservation
Management
EEE EEE
3 191EE6O05 Non Conventional Energy
resources
EEE EEE
4 191EE6O06 Instrumentation EEE ECE Ag E EEE
5 191ME6O06 Solar Energy Utilisation ME Ag E ME
6 191ME6O07 Basic Thermodynamics and
Heat Transfer
EEE ME PT AgE
MinE
ME
7 191ME6O08 Introduction to Hydraulics and
Pneumatics
CE ME PT ME
8 191ME6O09 3D Printing ME ME
9 191ME6O06 Robotics ME ME
10 191ME6O09 Management Science CE CSE IT PT Min
E
ME
11 191ME6O12 Entrepreneurship Development
and Incubation
ME
12 191ME6O07 Biomedical Instrumentation ECE
13 191ME6O08 ECAD Tools ECE ECE
14 191CS6O05 Python Programming EEE CSE IT CSE
15 191CS6O06 Operating Systems CSE IT CSE
16 191CS6O07 Web Technologies CSE IT CSE
17 191CS6O08 Cyber Security CSE IT CSE
18 191CS6O09 AR VR CSE
19 191IT6O03 Computer Organization CSE IT IT
20 191IT6O04 AI Tools amp Techniques CSE IT IT
21 191IT6O05 Robotic Process Automation
IT
22 191MI6O02 Industrial Safety Practices AgE MinE
23 191MI6O03 Electrical Equipmentrsquos in Mines MinE
24 191PT6O03 Unconventional Hydrocarbon
Resources
PT PT
25 191PT6O04 Asset Management PT
26 191AG6O02 Weather forecast in Agriculture AgE
27 191AG6O03 Bio-energy systems design and
applications
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 11
OPEN ELECTIVE - III (VII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE7O03 Waste Water Management CE CE
2 191EE7O07 Electrical and Hybrid Vehicles EEE EEE
3 191EE7O08 Special Electrical Machines EEE EEE
4 191EE7O09 Industrial Electrical Systems EEE EEE
5 191ME7O13 Optimization techniques
ME
6 191ME7O14 Energy Conservation
ME
7 191ME7O15 Introduction to Material Handling
Systems
ME
8 191ME7O16 Robotics ME ME
9 191ME7O17 Entrepreneurship Development and
Incubation
ME
10 191EC7O06 Overview of Digital Signal Processing EEE ECE ECE
11 191EC7O07 Basics of VLSI Design ECE ECE
12 191EC7O08 Micro Electro Mechanical Systems
ECE
13 191EC7O09 Image Processing ECE CSE IT ECE
14 191CS7O10 Big Data Analytics CSE IT CSE
15 191CS7O11 Mobile Application Development CSE IT CSE
16 191CS7O12 Data Science CSE IT CSE
17 191IT7O06 Machine Learning CSE IT IT
18 191IT7O07 Quantum Computing
IT
19 191IT7O08 Block Chain Technologies CSE IT IT
20 191MI7O04 Communication System in Mines
MinE
21 191MI7O05 Drilling amp Blasting MinE MinE
22 191PT7O05 Introduction to Earth Sciences CE PT Min E PT
23 191PT7O06 Basic Concepts in Petroleum Drilling and
Completions
PT PT
24 191AG7O04 Greenhouse Technology AgE AgE
25 191AG7O05 Reusability of Municipal Effluent in
Agriculture
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 12
OPEN ELECTIVE ndash IV (VIII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE8O04 Integrated Waste Management for a
Smart City
CE
2 191EE8O10 Fundamentals of Electrical Engineering EEE ECE EEE
3 191EE8O11 Basic Electrical Circuits EEE ECE EEE
4 191EE8O12 Electrical Machines EEE EEE
5 191EE8O13 Power Electronics EEE EEE
6 191EE8O14 Non-Conventional Energy Sources CE EEE ME EEE
7 191ME8O18 Fabrication processes ME ME
8 191ME8O19 Smart Materials ME
9 191EC8O10 Micro Electro Mechanical Systems ECE
10 191EC8O11 Basic Electronic Circuits EEE amp ECE ECE
11 191EC8O12 Principles of Communications ECE ECE
12 191EC8O13 Electronic Instrumentation EEE amp ECE ECE
13 191EC8O14 Digital Image Processing ECE CSE IT ECE
14 191CS8O13 Cyber Security CSE IT CSE
15 191CS8O14 Data Science CSE IT CSE
16 191CS8O15 Game Theory CSE IT CSE
17 191CS8O16 AR VR CSE
18 191IT8O09 Deep learning CSE IT IT
19 191IT8O10 Block Chain Technologies CSE IT IT
20 191PT8O07 Chemical Process Safety PT
21 191PT8O08 Mechanical Unit Operations PT
22 191AG8O06 GIS essentials in Agriculture and its
application
CE AgE
23 191AG8O07 Organic Farming for Sustainable
Agricultural Production
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 13
COMMUNICATIVE ENGLISH (Common to all branches)
I Semester L T P C
Course Code 191HS1T01 3 0 0 3
Introduction
In view of the growing importance of English as a tool for global communication and the
consequent emphasis on training the students to acquire communicative competence the
syllabus has been designed to develop linguistic and communicative competence of the
students of Engineering
As far as the detailed textbooks are concerned the focus should be on the skills of
listening speaking reading and writing The non-detailed textbooks are meant for
extensive reading for pleasure and profit
Thus the stress in the syllabus is primarily on the development of communicative skills
and fostering of ideas
Course Objectives
COB 1 To improve the language proficiency of the students in English with emphasis on
LSRW skills
COB 2 To enable the students to study and comprehend the prescribed lessons and
subjects more effectively relating to their theoretical and practical components
COB 3 To develop the communication skills of the students in both formal and informal
situations
COB 4 To develop the ways to overcome fear and use of words for irony
COB 5 To make the learners understand the development conditions and the core
Competences of the state to prioritize education system
COB 6 To discuss that water is the worlds most precious natural resources
COB 7 To discuss how human sensitivity changes in accordance to times and situations
in life
COB 8 To inform the learner that all men can come together to abolish the war
LISTENING SKILLS
Objectives
1 To enable the students to appreciate the role of listening skill and improve their
pronunciation
2 To enable the students to comprehend the speech of people belonging to different
backgrounds and regions
3 To enable the students to listen for general content to fill up information and for
specific information
SPEAKING SKILLS
Objectives
1 To make the students aware of the importance of speaking for their personal and
professional communication
2 To enable the students to express themselves fluently and accurately in social and
professional success
AR19 Mechanical Engineering
Aditya Engineering College (A) 14
3 To help the students describe objects situations and people
4 To make the students participate in group activities like role-plays discussions and
debates
5 To make the students participate in just a minute talks
READING SKILLS
Objectives
1 To enable the students to comprehend a text through silent reading
2 To enable the students to guess the meanings of words messages and inferences of
texts in given contexts
3 To enable the students to skim and scan a text
4 To enable the students to identify the topic sentence
5 To enable the students to identify discourse features
6 To enable the students to make intensive and extensive reading
WRITING SKILLS
Objectives
1 To make the students understand that writing is an exact formal skills
2 To enable the students to write sentences paragraphs e-mails and essays
3 To make the students identify and use appropriate vocabulary
4 To enable the students to narrate and describe
5 To enable the students to write coherently and cohesively
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the ways to overcome fear and use of words for irony
CO 2 Interpret the development conditions and the core competences of the state to
prioritize education system
CO 3 Explain water as the worlds most precious natural resources
CO 4 Illustrate human sensitivity to the changing times and situations in life
CO 5 Identify that all men can come together to abolish the war
CO 6 Rephrase coherent writing in social political and religious background
CO 7 Demonstrate writing and concepts of grammar skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - - 2 - -
CO2 (K2) - - - - - - - - - 3 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K2) - - - - - - - - - 3 - -
CO5 (K3) - - - - - - - - - 2 - -
CO6 (K2) - - - - - - - - - 3 - -
CO7 (K2) - - - - - - - - - 3 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
CO6 (K2) - - -
CO7 (K2) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 15
Methodology
1 The class is to be learner-centred where the learners are to read the texts to get a
comprehensive idea of those texts on their own with the help of the peer group and
the teacher
2 Integrated skill development methodology has to be adopted with focus on
individual language skills as per the tasksexercise
3 The tasksexercises at the end of each unit should be completed by the learners only
and the teacher intervention is permitted as per the complexity of the taskexercise
4 The teacher is expected to use supplementary material wherever necessary and also
generate activitiestasks as per the requirement
5 The teacher is permitted to use lecture method when a completely new concept is
introduced in the class
Recommended Topics
UNIT-I
1 An Astrologersrsquos Day - RK Narayan (Detailed)
2 Bade Bhai Saab - Munshi Premchand (Non-Detail)
UNIT-II
1 Building A New State - A P J Abdul Kalam (Detailed)
2 Morning Bells- Jayashree Mohan Raj (Non-Detail)
UNIT-III
1 WaterThe Elixer Of Life- C V Raman (Detailed)
2 The Power Of Plate Of Rice- Ifeoma Okoye (Non-Detail)
UNIT-IV
1 The Woodrose-Abburi Chaya Devi (Detailed)
2 The Cop And The Anthem- O Henry (Non-Detail)
UNIT-V
1 Progress- St John Ervine (Detailed)
2 Dial 000- Barry Rosenberg (Non-Detail)
Textbooks
Detailed Text Book lsquoUsing Englishrsquo by Orient Black Swan
Non Detailed Text Book lsquoLife language and Culture -Explorationsrsquo by Cengage
Reference Books
1 Objective English Pearson Publications
2 Effective English Communication Tata Mc Graw-Hill Publishing
3 Effective Technical English Scitech
Web Links
1 httpsittingbeecoman-astrologers-day-r-k-narayan
2 httpbbrenglishforallblogspotcom201401building-new-state-study-materialhtml
3 httpswwwliteraturewormscom201210water-elixir-of-life-by-sircvramanhtml
4 httpmaconholeswoodrose-abburi-chaya-devipdf
5 httpsardhendudeblogspotcom201307analysis-of-progress-by-st-john-ervinehtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 16
DIFFERENTIAL EQUATIONS AND LINEAR ALGEBRA (Common to all branches)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that
are essential for an engineering course
COB 2 To help the students form a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the concepts of Mean Value theorem Partial Differentiation and identify
the maxima and minima of a given function
CO 2 Solve the linear differential equations and model various situations involving
differential equations of first order
CO 3 Solve linear differential equations of higher order and model various situations
involving second order differential equations
CO 4 Calculate Rank of a matrix and solve the system of Linear equations and find the
Eigen values and Eigen vectors
CO 5 Compute various powers of a matrix and identify the nature of the quadratic form
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
UNIT I
Differential Calculus
Rollersquos theorem Lagrangersquos theorem Cauchy Mean Value theorem Taylorrsquos and Maclaurinrsquos
theorems (All theorems Without Proof)
Partial Differentiation Eulerrsquos theorem (without proof) Total derivative Chain rule Taylorrsquos
and Maclaurinrsquos series expansion of functions of two variables Jacobian Functional
dependence
Applications
Maxima and Minima of functions of several variables without constraints and with constraints
(Lagrangersquos method)
(SCILAB Exercise Plot graphs of various single and multivariable functions)
I Semester L T P C
Course Code 191BS1T01 3 0 0 3
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K3) 3 - -
CO 3 (K3) 3 - -
CO 4 (K3) - - -
CO 5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 17
UNIT II
Differential equations of first order
Introduction to differential equations linear differential equation of first order - Bernoulli
differential equation - Exact differential equations- Equations reducible to exact
Applications
Orthogonal trajectories Newtonrsquos Law of cooling RL circuit
UNIT III
Linear differential equations of second and higher order
Linear differential equations of higher order with constant coefficients Complementary function
and Particular integral with RHS term of the type polynomials in x eax sin ax
cos ax eax V(x) xV(x)- Method of Variation of parameters Equations reducible to constant
coefficients ndashCauchy-Euler equation Legendrersquos equation
Application LCR Circuit
(SCILAB Exercise Introduction to SCILAB commands and Solution of Initial Value
Problems)
UNIT IV
System of linear equations Eigen values and Eigen vectors
Definition of a Vector space Linear dependence and independence of vectors Rank of a matrix
Echelon form and Normal form solving system of Homogenous and Non homogenous linear
equations- Gauss Jordon elimination method Eigen values Eigen vectors Properties of eigen
values and eigen vectors (without proof )
Applications
Free vibrations of a two mass system
UNIT V
Quadratic forms
Cayley -Hamilton theorem (without proof ) Inverse and powers of a matrix by using Cayley -
Hamilton theorem Diagonalization of a matrix Quadratic forms Reduction of quadratic form to
canonical form using orthogonal transformation Nature of the quadratic form
(SCILAB Exercise Basic Operations on matrices computation of rank computation of eigen
values and eigen vectors)
Not to be examined
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley-India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson Publications
Reference Books
1 DGZill MICHAIL R CULTER Advanced Engineering Mathematics 3rd Edition Norosa
Publications 2009
2 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
3 Peter Orsquoneil Advanced Engineering Mathematics Cengage Learning
4 Glyn James Advanced modern engineering mathematics Pearson education
AR19 Mechanical Engineering
Aditya Engineering College (A) 18
Web Links
1 httpsnptelacincourses111106100
2 httpsnptelacincourses12210703714
3 httpsnptelacincourses111106051
4 httpmathworldwolframcom
5 httpswwwkhanacademyorg
6 httpsspoken-tutorialorgtutorial-
searchsearch_foss=Scilabampsearch_language=English
AR19 Mechanical Engineering
Aditya Engineering College (A) 19
ENGINEERING PHYSICS (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To identify different types of crystals analyze acoustic properties of for concert
halls NDT using ultrasonics
COB 2 To study different types of moduli and their relation applications of LASER light
in various Industries study different types of sensors
COB 3 To impart the knowledge of magnetic and dielectric materials and their
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basic concepts of crystal structure and X-ray diffraction Techniques
CO 2 Apply the knowledge of acoustics to improve acoustic quality of concert halls and
understand the concepts of flaw detection techniques using ultrasonics
CO 3 Apply the structure- property relationship exhibited by solid materials within the
elastic limit
CO 4 Explain the basic concepts of LASERs along with its Engineering applications and
familiarize with types of sensors for various engineering applications
CO 5 Explain about magnetic and dielectric properties of different materials
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K2) 2 - -
CO5 (K2) - - 2
UNIT-I
Crystal Structure Basis and lattice ndash Crystal Systems ndash Bravais Lattice - Symmetry
elements- Unit cell-packing fraction ndash coordination number- Miller indices ndash Separation
between successive (h k l) planes ndash Braggrsquos law-Braggrsquos x-ray spectrometer
Crystal Defects (qualitative description only) Point defects-Schottky Frenkel defects Line
defects-Edge screw dislocations
UNIT-II
Acoustics Introduction ndash Reverberation - Reverberation time - Sabinersquos formula (Derivation)ndash
I Semester L T P C
Course Code 191BS1T02 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 20
absorption coefficient and its determination- factors affecting acoustics of buildings and their
remedies
Ultrasonics Production of ultrasonics by Magnetostriction and piezoelectric methods ndash
Detection of ultrasonics - acoustic grating - Non-Destructive Testing- pulse echo system
through transmission and reflection modes - Applications
UNIT-III
Elasticity Stress strain Hookersquos law stress-strain curve generalized Hookersquos law with and
without thermal strains for isotropic materials different types of moduli and their relations
bending of beams ndash Bending moment of a beam ndash Depression of cantilever
UNIT-IV
Laser Introduction to wave optics amp Interferometer-CharacteristicsndashSpontaneous and
Stimulated emission of radiation ndash population inversion - Einsteinrsquos coefficients amp Relation
between them and their significance - Pumping Mechanisms - Ruby laser ndash Helium Neon laser
ndash CO2 laser-Applications
Sensors (qualitative description only) Different types of sensors and applications Strain and
Pressure sensors- Piezoelectric magnetostrictive sensors Temperature sensor - bimetallic
strip pyroelectric detectors
UNIT-V
Magnetism Introduction ndash Magnetic dipole moment ndash Magnetization-Magnetic susceptibility
and permeability ndash Origin of permanent magnetic moment ndash Bohr Magneton - Classification
of magnetic materials (Dia Para and Ferro) ndash Domain concept of Ferromagnetism - Hysteresis
ndash soft and hard magnetic materials ndash Applications of Ferromagnetic materials
Dielectrics Introduction - Dielectric polarization ndash Dielectric polarizability Susceptibility and
Dielectric constant-types of polarizations Electronic and Ionic (Quantitative) Orientational
polarizations (qualitative)-Lorentz internal field ndash Claussius_Mossoti equation- Frequency
dependence of polarization - Applications of dielectrics
Text Books
1 ldquoText book of Engineering Physicsrdquo by P G Kshirsagar amp M N Avadhanulu S Chand amp
Company Ltd
2 ldquoEngineering Physicsrdquo by R K Gaur and S L Gupta Dhanpat Rai Publications
3 ldquoSensor and Transducersrdquo by Ian R Sinclair Elsevier (Newnes) 3rd Eds
Reference Books
1 ldquoEngineering Physicsrdquo by M R Srinivasan New Age International Publishers
2 ldquoLectures on Physicsrdquo by Richard P Feynman Pearson Publishers New Millennium Eds
3 ldquoLasers and Non-linear Opticsrdquo by B B Laud New Age International Publishers (3rd
Eds)
Web Links
1 httpnptelacincourses12210703511
2 httpnptelacincourses115102023
3 httpsphetcoloradoeduensimulationscategoryphysics
4 httpphysicsgecgblogspotinpreading-materialshtml
5 httpssitesgooglecomsitephysicsbysureshsagantihome
AR19 Mechanical Engineering
Aditya Engineering College (A) 21
PROGRAMMING FOR PROBLEM SOLVING USING C (Common to all branches)
Course Objectives
COB 1 To impart adequate knowledge on the need of programming languages and problem
solving techniques and develop programming skills
COB 2 To enable effective usage of control structures and implement different operations on
arrays
COB 3 To demonstrate the use of strings and functions
COB 4 To impart the knowledge of pointers and understand the principles of dynamic
memory allocation
COB 5 To make the students understand the concepts of structures unions files and their
operations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the fundamental concepts of computers and basics of computer
programming
CO 2 Make use of control structures and arrays in solving complex problems
CO 3 Develop modular program aspects and strings fundamentals
CO 4 Demonstrate the ideas of pointers usage
CO 5 Solve real world problems using the concept of structures unions and File operations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K2) 2 1 - - 2 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 2
CO2 (K3) 3 2 3
CO3 (K3) 3 2 3
CO4 (K2) - - -
CO5 (K3) 3 2 3
UNIT-I
Computer History Hardware Software Programming Languages and Algorithms
Components and functions of a Computer System Concept of Hardware and Software
Programming Languages Low-level and High-level Languages Program Design Tools
Algorithm Flowchart Pseudo code
Introduction to C Programming Introduction Structure of a C Program Comments
Keywords Identifiers Data Types Variables Constants InputOutput Statements Operators
Type Conversion
I Semester L T P C
Course Code 191ES1T01 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 22
UNIT -II
Control Flow Relational Expressions amp Arrays Conditional Branching Statements if if-
else if-elsendashif switch Basic Loop Structures while do-while loops for loop nested loops
The Break and Continue Statements goto statement
Arrays Introduction Operations on Arrays One dimensional Array Two dimensional Array
Multi dimensional arrays
UNIT-III
Strings String Fundamentals String Processing with and without Library Functions
Functions Introduction Function Declaration Function Definition Function call Categories
of Functions passing parameters to Functions Arrays as Function Arguments Scope of
Variables Variable Storage Classes Recursion
UNIT-IV
Pointers Concept of a Pointer Declaring and Initializing Pointer Variables Pointer
Expressions and Address Arithmetic Null Pointers Generic Pointers Pointers as Function
arguments Pointers and Arrays Pointers and Strings Pointer to Pointer Dynamic Memory
Allocation Dangling Pointer Command line Arguments
UNIT-V
Structures Unions Bit Fields Introduction Nested Structures Arrays of Structures
Structures and Functions Self-Referential Structures Unions Enumerated Data Type ndashenum
variables Using Typedef keyword Bit Fields
Data Files Introduction to Files Using Files in C Reading from Text Files Writing to Text
Files Random File Access
Text Books
1 Computer Programming Reema Thareja Oxford University Press
2 Byron Gottfried Schaums Outline of Programming with C McGraw-Hill
3 Programming In C A-Practial Approach Ajay Mittal Pearson
Reference Books
1 C Programming ndash A Problem Solving Approach Forouzan Gilberg Cengage
2 The C Programming Language Dennis Richie And Brian Kernighan Pearson
Education
3 Programming In C Ashok Kamthane Second Edition Pearson Publication
Web Links
1 httpwwwc4learncom
2 httpwwwgeeksforgeeksorgc
3 httpnptelacincourses122104019
4 httpwwwlearn-corg
5 httpswwwtutorialspointcomcprogramming
AR19 Mechanical Engineering
Aditya Engineering College (A) 23
COMMUNICATIVE ENGLISH LAB ndashI (Common to all branches)
Course Objectives
COB 1 To facilitate computer-aided multi-media instruction enabling
Individualized and independent language learning
COB 2 To sensitize the students to the nuances of English speech sounds word
accent and intonation
COB 3 To bring about a consistent accent and intelligibility in their pronunciation
of English by providing an opportunity for practice in speaking
COB 4 To improve the fluency in spoken English and neutralize mother tongue
influence
COB 5 To train students to use language appropriately
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
A Greeting Introducing and taking leave
B Pure Vowel
PRACTICE 2
A Giving Information and Asking for Information B Diphthongs
I Semester L T P C
Course Code 191HS1L01 0 0 3 15
CO 1 Demonstrate nuances of language through audio-visual experience and
group activities
CO 2 Identify accent for intelligibility
CO 3 Demonstrate in conversation jams and public speaking
CO 4 Make use of the concepts to communicate confidently and competently in
English Language in all spheres
AR19 Mechanical Engineering
Aditya Engineering College (A) 24
PRACTICE 3
A Inviting Accepting and Declining Invitations
B Consonants
PRACTICE 4
A Commands Instructions and Requests
B Accent and Rhythm
PRACTICE 5
A Suggestions and Opinions
B Intonation
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra
JRaju and DrGSuvarna Lakshmi Maruthi Publications
2 English for Professionals by Prof Eliah BS Publications Hyderabad
3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata McGraw ndash Hill
Publishing Company
5 Word power made handy Dr Shalini verma S Chand Company
6 Let us hear them speak Jayashree Mohanraj Sage texts
AR19 Mechanical Engineering
Aditya Engineering College (A) 25
ENGINEERING PHYSICS LAB (Common to CE ME MinE PT AgE)
Course Objectives COB 1 To make the students gain practical knowledge to co- relate with the
theoretical studies
COB 2 To impart skills in measurements
COB 3 To plan the experimental procedure and to record and process the results
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the rigidity and youngrsquos modulus to understand material properties
CO 2 Determine Acceleration due to Gravity and Radius of Gyration and spring constant
by oscillatory mechanics
CO 3 Find the strength of the magnetic field
CO 4 Determine wave length of unknown source particle size using lasers
CO 5 Determination of velocity of sound moment of inertia
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - - -
CO3 (K2) - - -
CO4 (K3) - - -
CO 5 (K3) 3 - -
LIST OF EXPERIMENTS
(Any 10 of the following listed experiments)
1 Determination of Rigidity modulus of a material- Torsional Pendulum
2 Determination of Youngrsquos modulus by method of single cantilever oscillations
3 Determination of Acceleration due to Gravity and Radius of Gyration - Compound
Pendulum
4 Verification of laws of vibrations in stretched strings ndash Sonometer
5 Determination of spring constant of springs using coupled oscillators
6 Magnetic field along the axis of a current carrying coil ndash Stewart and Geersquos apparatus
7 Study the variation of B versus H by magnetizing the magnetic material (B-H curve)
I Semester L T P C
Course Code 191BS1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 26
8 Measurement of magnetic susceptibility by Gouyrsquos method
9 Determination of ultrasonic velocity in liquid (Acoustic Grating)
10 Determination of dielectric constant by charging and discharging method
11 Determination of wavelength of Laser by diffraction grating
12 Determination of particle size using Laser
13 Determeination of Pressure variation using strain Gauge sensor
14 Determination of Moment of Inertia of a Fly Wheel
15 Determination of Velocity of sound ndashVolume Resoantor
LIST OF AUGMENTED EXPERIMENTS
16 to 19 (Any two of the following experiments can be performed)
16 Determine the Youngs Modulus of the material of the bar subjected to uniform bending
17 Determine the Youngs Modulus of the material of the bar subjected to non-
uniform bending
18 V-I characteristics of P-N junction Diode
19 V-I characteristics and Breakdown voltage of Zener Diode
Reference Books
1 Engineering Physics Lab Manual by DrCVMadhusudhana Rao VVasanth Kumar
Scitech Publications
2 Laboratory Manual Cum Record for Engineering Physics I amp II by DrYAparna
DrKVenkateswara Rao VGS Technoseries
ENGINEERING PHYSICS - VIRTUAL LAB ndash ASSIGNMENTS
LIST OF EXPERIMENTS
1 Hall Effect
2 Crystal Structure
3 Brewsterrsquos angle
4 Numerical Aperture of Optical fiber
5 Photoelectric Effect
6 LASER ndash Beam Divergence and Spot size
7 Michelsonrsquos interferometer
8 Black body radiation
9 Flywheel ndash moment of inertia
10 AC Sonometer
11 Resistivity by four probe method
12 Newtonrsquos rings ndashRefractive index of liquid
Web Link
URL wwwvlabcoin
AR19 Mechanical Engineering
Aditya Engineering College (A) 27
PROGRAMMING FOR PROBLEM SOLVING USING C LAB (Common to all branches)
Course Objectives
COB 1 To impart knowledge on basic Linux commands various Editors Raptor
COB 2 To make the students understand the concepts of C programming
COB 3 To nurture the students on Control Structures and develop different operations on
arrays
COB 4 To enable the students to learn string fundamentals and modular programming
constructs
COB 5 To impart knowledge on dynamic memory allocation
COB 6 To explain the concepts of Structure Unions and files for solving various
problems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Develop the basic programs in C and draw the flowcharts using Raptor
CO 2 Make use of conditional and iterative statements to solve real time scenarios in C
CO 3 Apply the concept of arrays modularity and strings to handle complex problems
CO 4 Apply the dynamic memory allocation functions using pointers
CO 5 Develop programs using structures and Files
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K3) 2 1 - - 3 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1(K2) 2 1 2
CO2(K3) 3 2 3
CO3(K3) 3 2 3
CO4(K3) - - -
CO5(K3) 3 2 3
1 Introduction to C Programming
11) Basic Linux Commands
12) Exposure to Turbo C Vi Emacs Code Blocks IDE Dev C++
13) Writing simple programs using printf() scanf()
2 Raptor
21) Installation and Introduction to Raptor
22) Draw a flow chart to find the Sum of 2 numbers
23) Draw a flow chart to find Simple interest
I Semester L T P C
Course Code 191ES1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 28
For the following experiments develop flow charts using Raptor and implement C
programs to
3 Basic Math
31) Convert Celsius to Fahrenheit and vice versa
32) Find largest of three numbers using ternary operator
33) Calculate area of a Triangle using Herons formula
4 Control Flow- I
41) Find Whether the Given Year is a Leap Year or not
42) Find the roots of a Quadratic Equation
43) Make a simple Calculator to Add Subtract Multiply or Divide Using switchhellipcase
5 Control Flow- II
51) Find Whether the Given Number is Prime number or not
52) Find Whether the Given Number is Armstrong Number or not
53) Print Floyd Triangle
6 Control Flow- III
61) Find the sum of individual digits of a positive integer
62) Check whether given number is palindrome or not
63) Read two numbers x and n and then compute the sum of the geometric progression
1+x+x2 +x3 +helliphelliphelliphellip+xn
7 Arrays
71) Search an element in the given array (Linear Search)
72) Perform matrix addition
73) Perform matrix multiplication
8 Strings
81) Implementation of string manipulation operations with library function
a) copy
b) concatenate
c) length
d) compare
82) Implementation of string manipulation operations without library function
a) copy
b) concatenate
c) length
d) compare
83) Verify whether the given string is a palindrome or not
9 Functions Array amp Pointers
91) Demonstrate parameter passing in Functions
92) Find Fibonacci Factorial of a number with Recursion and without Recursion
93) Find the sum of given numbers with arrays and pointers
10 Pointers
101) Perform Addition Subtraction Multiplication and Division of two numbers using
Command line arguments
102) Find sum of n elements entered by user To perform this program allocate memory
dynamically using malloc () function
AR19 Mechanical Engineering
Aditya Engineering College (A) 29
103) Find sum of n elements entered by user To perform this program allocate memory
dynamically using calloc () function
11 Structures
111) Store Information of a book Using Structure
112) Add Two Complex Numbers by Passing Structure to a Function
12 Files
121) Open a file and to print the contents of the file on screen
122) Copy content of one file to another file
123) Merge two files and store content in another file
LIST OF AUGMENTED EXPERIMENTS
13 to 16 (Any 2 of the following experiments can be performed)
13 Atm Pin Generation
Aditya purchased a credit card He has to generate a PIN number to access the ATM and Net
banking for which OTP was sent to his registered mobile number Using this OTP number he
has to generate ATM PIN number After generating PIN number he can use it for further
transactions Maximum login he can make is 3 times
Sample Input
OTP 6732
If valid
Enter PIN 8858
Confirm your PIN 8858
Sample output
validInvalid
PIN generated successfully
Note OTP is hard coded
14 Reset Password
Aditya was using Syndicate Bankrsquos Online Account She wanted to pay her bills through
Online But she forgets her password Now she has to reset the password For resetting the
password she has to select reset option from the Menu
NOTE using switch case
Sample input
Fast withdrawal
Mini Statement
Balance Enquiry
Reset Password Enter your choice 4
Sample Output
Reset password New password Confirm password
15 Student Attendance Report Generation
Some of the school staff had failed to maintain the attendance of the students causing lack of
essential records related to students attendance that should be submitted in a parents meet The
school management has decided to automate the process in order to maintain the attendance of
every student effectively You are asked to write a program to the above scenario and display
whether the student is allowed to write the Exam or not
AR19 Mechanical Engineering
Aditya Engineering College (A) 30
Percentagelt65 Detained
gt=65 and lt75 should pay condonation to appear for
Exams
gt=75 Allowed for exams
Sample Input
Enter no of students 5
Enter Students Details
Rno1 NameKalyan Attendance() 67 Should pay
condonation to appear for exams
Rno2 Name Laxman Attendance() 56 Rno3 NameYamini Attendance() 79 Rno4 Name Aryan Attendance() 60 Rno5 Name Raghav Attendance() 88
Sample output Rno Name Attendance () Remarks
1 Kalyan 67 67 should pay condonation to
appear for Exams 2 Laxman 56 detained 3 Yamini 79 allowed for Exams 4 Aryan 60 detained 5 Raghav 88 allowed for Exams
16 Library Management
Shilpa is a student of PGEC got the Library Card She wants to lend the books from the Library
The college gave two cards to each and every student The students can lend only two books at
a time and it has to be returned back after 15 days If the books are not returned late fee will be
collected for no of days the books were returned after the due date Late fee per day is Rs50-
Sample output
Enter the name of student nalini
Enter the Roll No555
Enter the branch cse
Enter the section A
Enter the year 3
Enter the Date of Lend (dd mm yyyy ) 08 08 2017
Enter the Date of return (dd mm yyyy ) 09 10 2017
The no of days book used by the student = 62
Extra days used by the student = 47
Late return fine fee = 2350
Reference Books
1 Let Us C Yashwanth Kanetkar Eighth edition BPB Publications
2 Programming in C A-Practial Approach Ajay Mittal Pearson Education
3 The C programming Language Dennis Richie and Brian Kernighan Pearson
Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 31
Web Links
1 httpswwwhackerrankcom
2 httpswwwcodechefcom
3 httpswwwtopcodercom
4 httpscode-crackergithubio
5 httpsraptormartincarlislecom
6 httpsnptelacincourses1061050852
AR19 Mechanical Engineering
Aditya Engineering College (A) 32
BASIC ENGINEERING WORKSHOP (Common to all branches)
I Semester L T P C
Course Code 191ES1L02 0 0 3 15
Course Objectives
COB 1 To make the students practice basic engineering trades and skills
COB 2 To nurture the students build various joints used in different trades for several
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct the various wooden joints
CO 2 Develop various fitting joints
CO 3 Develop components for making the various sheet metal models
CO 4 Experiment with the various house wiring connections
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 - 3 - - - - - - -
CO2 (K3) 3 2 1 - 3 - - - - - - -
CO3 (K3) 3 2 1 - 3 - - - - - - -
CO4 (K3) 3 2 1 - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) - - -
List of Experiments
Carpentry
1 Cross Lap Joint
2 Dovetail Joint
3 T - Joint
Fitting
4 Vee Fit
5 Square Fit
House Wiring
6 Parallel Connection of three bulbs
7 Series Connection of three bulbs
Tin Smithy
8 Taper Tray
9 Funnel
10 Plain Pipe
AR19 Mechanical Engineering
Aditya Engineering College (A) 33
List of Augmented Experiments
(Student can perform any one of the following experiments)
1 Stair Case wiring
2 Florescent Lamp Fitting
Reference Books
1 Engineering Workshop by Dr A B Srinivasa Rao AMIGO Books
2 Manual on Workshop practice by Dr PKannaiah amp Dr KLNarayana Scitech
publications
Web Links
1 httptiteacinindexphpdepartmentsmechanical-engineeringworkshop
2 httpswwwgopracticalscombasic-engineeringworkshop
AR19 Mechanical Engineering
Aditya Engineering College (A) 34
ENVIRONMENTAL SCIENCE (Common to all branches)
I Semester L T P C
Course Code 191MC1A01 2 0 0 0
Course Objectives
COB 1 To define the various ecosystems and its diversity
COB 2 To summarize the overall natural resources
COB 3 To classify environmental impacts of developmental activities
COB 4 To discuss social issues environmental legislation and global t treaties
COB 5 To educate human population and environment
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the need for protecting the producers and consumers in various ecosystems
and their role in the food web
CO 2 Outline the natural resources and their importance for the sustenance of the life
CO 3 List out the biodiversity of India threats and its conservation methods
CO 4 Illustrate various attributes of the pollution impacts and measures to control the
pollution along with waste management practices
CO 5 Describe social issues both rural and urban environment to combat the
challenges
CO 6 Summarize the legislations of India in environmental protection
CO 7 Explains the population growth and its implications
CO 8 Transforms existing campus into self sustaining green campus with environment
Friendly aspects of ndash Energy Water and waste water reuse plantation rain water
Harvesting and Parking Curriculum
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K1) 1 - - - - 1 2 1 - - - -
CO2 (K2) 1 - - - - 1 2 1 - - - -
CO3 (K1) 1 - - - - 1 2 1 - - - -
CO4 (K2) 1 - - 1 - 1 2 1 - - - -
CO5 (K2) 1 - - - - 1 2 1 - 3 - -
CO6 (K2) 1 - - - - 1 2 1 - - - -
CO7 (K4) 1 - - - - 1 2 1 - - - -
CO8 (K2) 2 1 2 1 - 2 3 2 3 3 2 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K1) - - -
CO2 (K2) - - 2
CO3 (K1) - - -
CO4 (K2) 2 - -
CO5 (K2) - - -
CO6 (K2) - - -
CO7 (K4) - - -
CO8 (K2) 2 1 2
AR19 Mechanical Engineering
Aditya Engineering College (A) 35
UNIT- I
Multidisciplinary Nature Of Environmental Studies
Definition Scope and Importance Need for Public Awareness
Natural Resources Renewable and non-renewable resources ndash Natural resources and
associated problems
UNIT - II
Ecosystem Biodiversity And Its Conservation
Ecosystems Concept of an ecosystem ndash Structure and function of an ecosystem ndash Producers
consumers and decomposers Food chains food webs and ecological pyramids
Biodiversity And Its Conservation Definition genetic species and ecosystem diversity ndash Bio-
geographical classification of India ndash Values of biodiversity Hot-spots of biodiversity ndash
Threats to biodiversity Conservation of biodiversity In-situ and Ex-situ conservation of
biodiversity
UNIT - III
Environmental Pollution And Solid Waste Management
Environmental Pollution Definition Cause effects and control
measures of
a Air Pollution
b Water pollution
c Soil pollution
d Marine pollution
e Noise pollution
Solid Waste Management Causes effects and control measures of urban and industrial
wastes ndash Role of an individual in prevention of pollution
UNIT - IV
Social Issues And The Environment
Social Issues and the Environment From Unsustainable to Sustainable development ndash
Urban problems related to Energy ampWater Resettlement and rehabilitation of people
Environmental ethics Climate change global warming acid rain ozone layer depletion
nuclear accidents and holocaust Environment Protection Act ndash Air (Prevention and Control
of Pollution) Act ndash Water (Prevention and control of Pollution) Act-Wildlife Protection Act
ndash Forest Conservation Act ndash Issues involved in enforcement of environmental legislation ndash
Public awareness
UNIT - V
Human Population And The Environment
Human population and the environment Population growth variation among nations
Environment and human health Human Rights Value Education Role of Information
Technology in Environment and human health
AR19 Mechanical Engineering
Aditya Engineering College (A) 36
Text Books
1 Text book of Environmental Studies for Undergraduate Courses by Erach Bharucha
for University Grants Commission Universities Press
2 Environmental Studies by Palaniswamy ndash Pearson education
3 Environmental Studies by DrSAzeem Unnisa Academic Publishing Company
Reference Books
1 Textbook of Environmental Science by Deeksha Dave and ESai Baba Reddy Cengage
Publications
2 Text book of Environmental Sciences and Technology by MAnji Reddy BS
Publication
3 Comprehensive Environmental studies by JPSharma Laxmi publications
4 Environmental sciences and engineering ndash J Glynn Henry and Gary W Heinke ndash
Prentice hall of India Private limited
5 A Text Book of Environmental Studies by GRChatwal Himalaya Publishing House
6 Introduction to Environmental engineering and science by Gilbert M Masters and
Wendell P Ela - Prentice hall of India Private limited
Web Links
1 httpswwwyoutubecomwatchv=mOwyPENHhbc
2 httpswwwyoutubecomwatchv=_mgvsPnCYj4
3 httpswwwyoutubecomwatchv=L5B-JMnBIyQ
4 httpswwwyoutubecomwatchv=3RDGV5i82_Q
AR19 Mechanical Engineering
Aditya Engineering College (A) 37
CONSTITUTION OF INDIA (Common to all branches)
I Semester L T P C
Course Code 191MC1A02 2 0 0 0
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain historical background of the constitution making and its importance for
building a democratic India
CO 2 Compare the functioning of three wings of the government ie executive
legislative and judiciary
CO 3 Interpret the value of the fundamental rights and duties for becoming good citizen
of India
CO 4 Compare the decentralization of power between central state and local self-
government
CO 5 Extend the knowledge in strengthening of the constitutional institutions like CAG
Election Commission and UPSC for sustaining democracy
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 2 - - -
CO2 (K2) - - - - - - - - 3 - - -
CO3 (K2) - - - - - - - - 3 - - -
CO4 (K2) - - - - - - - - 3 - - -
CO5 (K3) - - - - - - - - 2 - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Indian Constitution Constitutionrsquo meaning of the term Indian Constitution -
Sources and constitutional history Features - Citizenship Preamble Fundamental Rights and
Duties Directive Principles of State Policy
COB 1 To enable the student to interpret the importance of constitution
COB 2 To facilitate the students to illustrate the structure of executive legislature and
judiciary
COB 3 To allow the students to classify philosophy of fundamental rights and duties
COB 4 To facilitate the students to outline the autonomous nature of constitutional bodies
like Supreme Court High Court Comptroller and Auditor General of India and
Election Commission of India
COB 5 To enable the student to interpret the central and state relations of finance and
administration
AR19 Mechanical Engineering
Aditya Engineering College (A) 38
UNIT-II
Union Government and its Administration Structure of the Indian Union Federalism Centre-
State relationship President Role power and position PM and Council of ministers Cabinet
and Central Secretariat Lok Sabha Rajya Sabha The Supreme Court and High Court Powers
and Functions
UNIT-III
State Government and its Administration Governor - Role and Position - CM and Council of
ministers State Secretariat Organisation Structure and Functions
UNIT-IV
A Local Administration - Districtrsquos Administration Head - Role and Importance
Municipalities - Mayor and role of Elected Representative - CEO of Municipal Corporation
PachayatiRaj Functions PRI Zila Panchayat Elected officials and their roles CEO Zila
Panchayat Block level Organizational Hierarchy - (Different departments) Village level -
Role of Elected and Appointed officials - Importance of grass root democracy
UNIT-V
Election Commission Election Commission- Role of Chief Election Commissioner and
Election Commissionerate State Election Commission Functions of Commissions for the
welfare of SCSTOBC and women
Text Books
1 Durga Das Basu Introduction to the Constitution of India Prentice ndash Hall of India Pvt
Ltd New Delhi
2 Subash Kashyap Indian Constitution National Book Trust
Reference Books
1 JA Siwach Dynamics of Indian Government amp Politics
2 DC Gupta Indian Government and Politics
3 HMSreevai Constitutional Law of India 4th edition in 3 volumes (Universal Law
Publication)
4 JC Johari Indian Government and Politics Hans
Web Links
1 nptelacincourses1091040748
2 nptelacincourses109104045
3 nptelacincourses101104065
4 wwwhssiitbacinenlecture-details
5 wwwiitbacinenevent2nd-lecture-institute-lecture-series-indian-constitution
AR19 Mechanical Engineering
Aditya Engineering College (A) 39
PARTIAL DIFFERENTIAL EQUATIONS AND VECTOR CALCULUS (Common to CE EEE ME MinE PT AgE)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that are
essential for an engineering course
COB 2 To help the students acquire a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Solve improper integrals using beta and gamma functions
CO 2 Solve partial differential equations of first order
CO 3 Compute the double integral over a region and triple integral over a volume
CO 4 Calculate the gradient of a scalar function divergence and curl of a vector function
CO 5 Apply line surface and volume integrals
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT - I
Special Functions
Beta and Gamma functions Properties Relation between Beta and Gamma functions
Evaluation of improper integrals
UNIT II
Partial Differential Equations
Formation of partial differential equations by elimination of arbitrary constants and arbitrary
functions Solutions of first order linear partial differential equations nonlinear partial
differential equations (standard types) Homogeneous linear partial differential equations with
constant coefficients
UNIT III
Multiple Integrals
Double integrals Change of order of integration Change of variables Double integral in polar
coordinates Triple integrals Finding Area and Volume as a double integral
II Semester L T P C
Course Code 191BS2T05 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 40
UNIT IV
Vector Differentiation
Introduction Gradient of a scalar field Directional Derivative Divergence of a vector field
Curl of a vector field Solenoidal and irrotational fields Conservative force field Scalar
potential Laplace operator Vector identities
UNIT V
Vector Integration
Introduction Line integral Work done Surface and volume integrals Greenrsquos theorem Stokes theorem and Gauss Divergence theorem (All theorems without proof) and related problems
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley- India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson
Publications
Reference Books
1 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
2 Dass HK Rajnish Verma Er Higher Engineering Mathematics S Chand Co Pvt
Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited 2006
Web Links
4 httpsnptelacincourses11110710825
5 httpsnptelacincourses111103021
6 httpsnptelacincourses111105122
7 httpmathworldwolframcom
8 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 41
CHEMISTRY OF MATERIALS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191BS2T06 3 0 0 3
Course Objectives
COB 1 To acquaint the students with soft and hard water types and softening methods
COB 2 To impart the knowledge on the basic concepts of electrochemical cells and battery
technology
COB 3 To impart knowledge about engineering materials their properties and
applications
COB 4 To impart knowledge on corrosion and its significance
COB 5 To explain Nano and smart materials and their uses
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare the quality of drinking water and problems associated with hard water
CO 2 Outline the difference between primary and secondary cells
CO 3 Explain about polymers and engineering materials
CO 4 Explain corrosion and their control methods
CO 5 Summarize the importance of Nano materials Semi conductors and Super
conductors
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - - - - -
CO2 (K2) 2 - - - - - - - - - - -
CO3 (K2) 2 - - - - - - - - - - -
CO4 (K2) 2 - - - - - - - - - - -
CO5 (K2) 2 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 -
CO2 (K2) 2 - -
CO3 (K2) 2 - -
CO4 (K2) - - -
CO5 (K2) - 1 -
UNIT- I
Water Technology
Introduction ndash Soft Water and hardness of water types of hardness of water degree of hardness
of water Units of hardness of water problems on hardness Boiler troubles - scale and sludge
Boier corrosion Industrial water treatment- zeolite and ion-exchange processes
Specifications for drinking water Bureau of Indian Standards (BIS) and World health
organization (WHO) standards - desalination of brackish water reverse osmosis (RO) and
electrodialysis
AR19 Mechanical Engineering
Aditya Engineering College (A) 42
UNIT - II
Electrochemical Energy Systems
Introduction- Electrochemical Cell (Galvanic cell) Electrochemical series Applications
single electrode potential Hydrogen and Calomel electrode Nernst Equation for a single
electrode Concentration Cells (Electrode amp Electrolyte) Construction of glass electrode
Batteries ndash Classical batteries-dryLeclanche cell Modern batteries-zinc air lithium cells-Li
MnO2 cell- challenges of battery technology Fuel cells- Introduction - classification of fuel
cells ndash hydrogen and oxygen fuel cell propane and oxygen fuel cell- Merits of fuel cell
UNIT - III
Polymers and Building Materials
Introduction to polymers functionality of monomers chain growth and step growth
polymerization coordination polymerization copolymerization (stereospecific
polymerization) with specific examples and mechanisms of polymer formation (Free radical
mechanism for addition ploymerization)
Plastics - Thermoplastics and Thermo settings Preparation properties and applications of ndash
PVC Bakelite
Steel ndash Types of Steel chemical composition ndash applications of alloy steels
Cement Portland cement constituents Manufacture of Portland Cement chemistry of setting
and hardening of cement
UNIT - IV
Corrosion Engineering
Corrosion Definition ndash theories of corrosion dry corrosion and electro chemical corrosion ndash
factors affecting corrosion nature of the metal and nature of the environment
Corrosion controlling methods Sacrificial and Impressed current cathodic protection
Metallic coatings anodic coatings cathodic coating galvanizing and tinning metal cladding
Electroplating ndashorganic coatings paints (constituents and their functions)
UNIT - V
Material Science and Engineering
Nano Materials Introduction to Nano materials chemical synthesis of nanomaterials Sol-
gel method characterization of nanomateirals by TEM (includes basic principle of TEM)
Applications of nanomaterials in waste water treatment lubricants and engines
Nano Tubes Carbon nano tubes- Types of CNTrsquos-preparation methodsndashArc vapourisation
Laser abiliation and chemical vapour deposition ndashproperties and applications
Band Theory of Solids Introduction ndashExplanation of conductors semi conductors Insulators
by Band Theory- Super conductors-Types-Preparation-Properties and Applications
Appendix Introduction to Smart Materials
Text Books
1 PC Jain and M Jain Engineering Chemistry 16e Dhanapat Rai amp Sons (2014)
2 BK Sharma Engineering Chemistry Krishna Prakasham (2014)
3 Engineering Chemistry by Shikha Agarwal Cambridge University Press 2015
edition
Reference Books
1 Sashi Chawla A Textbook of Engineering Chemistry Dhanapath Rai and sons (2003)
2 BS Murthy and P Shankar A Text Book of Nano Science and Nano Technology
University Press (2013)
AR19 Mechanical Engineering
Aditya Engineering College (A) 43
3 SS Dara A Textbook of Engineering Chemistry SChand amp Co (2010)
Web Links 1 httpwwwnptelvideosin201211chemistry-of-materials
2 httpwwwnptelvideoscomlecturephpid=2946
3 httpwwwnptelvideoscomlecturephpid=2922
4 httpwwwnptelvideoscomlecturephpid=2954
AR19 Mechanical Engineering
Aditya Engineering College (A) 44
ENGINEERING GRAPHICS AND DESIGN (Common to CE ME ECE CSE IT MinE PT amp AgE)
II Semester L T P C
Course Code 191ES2T02 1 0 3 25
Course Objectives
COB 1 To teach the practices for accuracy and clarity in presenting the technical
information used in industry
COB 2 To train the students with graphical skills in design of mechanical engineering
components
COB 3 To impart the knowledge of drawing machine components using AutoCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Make use of fundamentals of Engineering Drawing to sketch basic curves conic
sections cycloid epicycloid hypocycloid and involute
CO 2 Apply the principles of orthographic projections for points lines and planes
CO 3 Apply the principles of orthographic projections for solids
CO 4 Apply the AutoCAD software for the orthographic projection of the machine parts
CO 5 Apply the AutoCAD software for the isometric projection of the machine parts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K3) 3 - - - - - - - - 3 - -
CO2(K3) 3 - - - - - - - - 3 - -
CO3(K3) 3 - - - - - - - - 3 - -
CO4(K3) 3 - - - 3 - - - - 3 - 3
CO5(K3) 3 - - - 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - 3
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CONVENTIONAL DRAFTING
Unit-I
Introduction to Engineering graphics Principles of Engineering Graphics and their
significance- conventions in drawing- lettering ndash BIS Conventions- - Conic sections -Cycloid
epicycloids and hypocycloid-Involutes
UNIT-II
Projection of points lines and planes Projection of points in any quadrant lines inclined to
one or both planes finding true lengths angle made by line Projections of regular plane
surfaces
UNIT-III
Projections of solids Projections of regular solids inclined to one or both planes by rotational
AR19 Mechanical Engineering
Aditya Engineering College (A) 45
or auxiliary views method COMPUTER AIDED DRAFTING
UNIT-IV
Introduction to Computer Aided Drafting Basic drawing and editing commands-
Dimensioning principles and conventional representations Systems of projections
Conventions and application to orthographic projections
UNIT-V
Isometric Projections Principles of isometric projection- Isometric scale Isometric views
lines planes figures simple and compound solids
Text Books
1 NDBhatt Engineering Drawing 53rd Edition Charotar Publishers 2016
2 KLNarayana amp PKannaiah Engineering Drawing 3rd Edition Scitech Publishers
Chennai 2012
Reference Books
1 Dhanajay A Jolhe Engineering Drawing Tata McGraw-Hill Copy Right 2009
2 Shah and Rana Engineering Drawing 2e Pearson Education 2009
3 Venugopal Engineering Drawing and Graphics 3e New Age Publishers 2000
4 KCJohn Engineering Graphics 2e PHI 2013
5 Basant Agarwal amp CMAgarwal Engineering Drawing Tata McGraw-Hill Copy
Right 2008
Note
1 Manual and Computer Aided Drafting classes can be held in alternative weeks for
optimal utilization of computer facilities
2 External examinations to be conducted both manual and computer mode with equal
weightage of marks
Web Links
1 httpswwwwiziqcomtutorialsengineering-drawing
2 wwwmeumneducourses
3 Youtube http-seworCarletoncagkardos88403drawingshtml conic sections-online
red woodsedu
AR19 Mechanical Engineering
Aditya Engineering College (A) 46
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING (Common to CE ME CSE IT MinE PT AgE)
Course Objectives
COB 1 To impart the principles of basic lawrsquos for electrical networks
COB 2 To explain the concepts of electrical machines and their characteristics
COB 3 To expose the principle of operation construction details and testing methods of
transformer
COB 4 To impart the adequate knowledge about the operation of AC rotating machines
COB 5 To describe the characteristics of diodes transistors and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct simple electrical circuits using basic laws
CO 2 Explain the constructional features of DC Machines and working
CO 3 Examine the performance of single phase transformer
CO 4 Illustrate the principle of AC rotating machines
CO 5 Analyze the device structure operation and application of diode and BJT
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - - - -
CO2 (K2) 3 3 2 - - - - - - - - -
CO3 (K4) 2 1 - - - - - - - - - -
CO4 (K3) 2 1 - - - - - - - - - -
CO 5 (K4) 3 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) 2 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO 5 (K4) - - -
UNIT- I
Basic laws and Theorems Electrical circuit elements (R-L and C) ac and dc independent
sources and their V-I relationship Ohms law Kirchoffs Laws mesh analysis series and
parallel circuits delta-star and delta-star conversion Network Theorems (with DC Excitation)
superposition theorem Thevenins and Nortons theorem maximum power transfer theorem
with simple examples
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- II
DC Machines Constructional features Principle of operation of DC generator EMF equation
types of dc generators OCC characteristics of dc shunt generator Principle of operation of dc
II Semester L T P C
Course Code 191ES2T03 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 47
motor torque expressions 3-point starter losses and efficiency Swinburnersquos test efficiency
by direct loading Speed control methods of dc motor
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- III
Transformers Principle of operation and construction of single phase transformer EMF
equation voltage regulation losses and efficiency openshort- circuit tests and determination
of efficiency
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- IV
AC Rotating Machines Principle of operation of alternators Types of alternators Principle
of operation of synchronous motor Principle of operation of 3-Phase induction motor Slip-
torque characteristics Efficiency calculations from direct loading
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- V
Semiconductor Devices p-n Junction diode principle V-I characteristics rectifier circuits
(half-wave full-wave Descriptive treatment only) Zener diode as Voltage Regulator
Construction and working P-N-P and N-P-N Junction transistor Transistor as an CE amplifier
Text Books
1 Electrical Technology by Surinder Pal Bali Pearson Publications Vol I and Vol II
2 Electronic Devices and Circuits R L Boylestad and Louis Nashelsky 9th edition
PEIPHI 2006
Reference Books
1 Basic Electrical Engineering by M S Naidu and S Kamakshiah TMH Publications
2 DP Kothari IJ Nagrath Basic Electrical and Electronics Engineering 1st edition
McGraw Hill Education (India) Private Limited 2017
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 RK Rajput Basic Electrical and Electronics Engineering University Science Press
New Delhi 2012
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 wwwfalstadcomcircuits
AR19 Mechanical Engineering
Aditya Engineering College (A) 48
ENGINEERING MECHANICS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191ES2T04 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the concept of forces and their resolution in different planes
resultant of force system forces acting on a body their free body diagrams using
graphical methods and to know the concept of friction
COB 2 To make the students calculate the centre of gravity and moment of inertia of solids
and surfaces
COB 3 To educate the students about kinematics kinetics work - energy and impulse -
momentum principles
Course Outcomes
At the end of the Course Students will be able to
CO 1 Determine the resultant force and moment for a given force system
CO 2 Solve the member forces in trusses
CO 3 Apply concept of Virtual work to find the work done by force and couple
CO 4 Solve the centre of gravity and moment of inertia for various geometric shapes
CO 5 Determine the displacement velocity and acceleration relations in dynamic systems
CO 6 Apply the concepts of kinematics kinetics work - energy and impulse - momentum
methods to particle motion
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 3 - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 2 1 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K5) 3 3 3 - - - - - - - - -
CO6 (K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K5) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 3 -
CO6 (K3) 3 - -
UNIT I
Introduction to Engineering Mechanics Composition and resolution of forces
parallelogram law principle of transmissibility types of force systems - concurrent and
concurrent coplanar forces resultant of coplanar force systems couple moment of a force
Varignons theorem concept of free body diagrams concept of equilibrium of coplanar force
systems
AR19 Mechanical Engineering
Aditya Engineering College (A) 49
UNIT II
Analysis of Structures Introduction to plane trusses analysis of plane trusses by method of
joints and method of sections
Virtual Work Equilibrium of ideal systems work done by a force work done by a couple
principle of virtual work
UNIT III
Properties of Surfaces and Volumes Centroid and center of gravity derivation of centroids
from first moment of area centroids of composite sections center of gravity of common
volumes - cylinder cone sphere theorem of Pappus
Moment of Inertia Area moment of inertia of plane and composite shapes parallel axis
theorem perpendicular axis theorem polar moment of inertia mass moment of inertia of
common volumes -thin plates thin rod cylinder cone sphere rectangular prism radius of
gyration
UNIT IV
Kinematics Fundamentals of kinematics of motion- Rotation of a rigid body about a fixed
axis introduction to plane motion
Kinetics Principles of dynamics - Newtons Laws of motion DAlemberts principle in
rectilinear translation Concepts of Friction
UNIT V
Applications Principle of work and energy- Principle of conservation of energy Concept of
power Conservation of linear and angular momentum Principle of momentum and impulse
Types of impact
Text Books
1 Engineering Mechanics- Statics and Dynamics- ANelson Mc Graw Hill publishers
2 STimoshenko DH Young JV Rao Sukumar Pati Engineering Mechanics (in SI
units) 5e McGraw Hill 2013
3 N H Dubey Engineering Mechanics Statics and Dynamics McGraw Hill 2014
Reference Books
1 Basudeb Bhattacharya Engineering Mechanics 2e Oxford University Press (India)
2015
2 Irving Shames G K M Rao Engineering Mechanics Statics and Dynam-ics 4e
Pearson 2009
3 K L Kumar Veenu Kumar Engineering Mechanics 4e Tata McGraw Hill 2010
4 S S Bhavikatti Engineering Mechanics 4e New Age International 2008
Web Links
1 httpswwwiitgacinrkbcme101PresentationL01-03pdf
2 httpswwwhzgdeimperiamdcontenthzginstitut_fuer_werkstoffforschungwmsen
g_mech_2006pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 50
COMMUNICATIVE ENGLISH LAB ndashII (Common to all branches)
II Semester L T P C
Course Code 191HS2L02 0 0 2 1
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate interpersonal skills using language confidently and effectively for
personal and profession growth
CO 2 Make use of effective delivery strategies to select compile and synthesize
information for an oral presentation
CO 3 Demonstrate in mock interviews mock group discussion and public speaking
CO 4 Identify communicative competency to respond to others in different
situations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
Body Language
PRACTICE 2
Dialogues
PRACTICE 3
Presentation Skills
COB 1 To facilitate computer-aided multi-media instruction enabling individualized
and independent language learning
COB 2 To improve the fluency in spoken English and neutralize mother tongue
Influence
COB 3 To train students to use language appropriately
AR19 Mechanical Engineering
Aditya Engineering College (A) 51
PRACTICE 4
Group Discussion
PRACTICE 5
Interviews and Telephonic Interviews
PRACTICE 6
Debates
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra JRaju
and DrGSuvarna Lakshmi Maruthi Publications 2 English for Professionals by Prof Eliah BS Publications Hyderabad 3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata Mcraw ndash Hill
Publishing Company 5 Cornerstone Developing soft skills Pearson Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 52
ENGINEERING CHEMISTRY LAB (Common to CE ME ECE CSE MinE PT AgE)
II Semester L T P C
Course Code 191BS2L04 0 0 3 15
Course Objectives
COB 1 To acquaint the students with the basic concepts of Engineering Chemistry lab
COB 2 To demonstrate the digital instrument methods of analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the hardness of water
CO 2 Calculate the strength of acids amp bases by instrumental analysis
CO 3 Prepare advanced polymer materials
CO 4 Prepare alternative fuel like Bio-Diesel
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - 3 - - - - - - -
CO2 (K3) 3 - - - 3 - - - - - - -
CO3 (K3) 3 - - - 3 - - - - - - -
CO4 (K3) 3 - - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - - -
Introduction to Chemistry laboratory ndash Molarity Normality Primary secondary
standard solutions Volumetric titrations Quantitative analysis Qualitative analysis etc
Exercise 1 Determination of Total Hardness of a water sample
Exercise 2
Determination of Dissolved Oxygen in Water Sample
Exercise 3
Determination of Zinc by Complexometric method
Exercise 4
PH metric titration of (i) strong acid vs strong base
Exercise 5
Determination of Fe (II) in Mohrrsquos salt by potentiometric method
Exercise 6 Potentiometry ndash Titration between strong acid ndash strong base
Exercise 7
AR19 Mechanical Engineering
Aditya Engineering College (A) 53
Conductometric titrations(Strong acid vs Strong base)
Exercise 8
Preparation of Phenol- Formaldehyde resin
Exercise 9
Preparation of Urea-Formaldehyde resin
Exercise 10
Preparation of bio diesel
Exercise 11
Determination of Vitamin ndash C
LIST OF AUGMENTED EXPERIMENTS
12 to 15 (Any two of the following experiments can be performed)
Exercise 12
Determination of percentage Moisture content in a coal sample
Exercise 13
Determination of acid value and saponification value of a given lubricant
Exercise 14
Determination of viscosity of a liquid
Exercise 15 Estimation of Calcium in port land Cement
Reference Books
1 A Textbook of Quantitative Analysis Arthur J Vogel
2 DrJyotsna Cherukuris (2012) Laboratory Manual of engineering chemistry - II
VGS Techno Series
3 Chemistry Practical Manual Lorven Publications K Mukkanti (2009) Practical
Engineering Chemistry BSPublication
AR19 Mechanical Engineering
Aditya Engineering College (A) 54
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING
LAB (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To enable the students learn various network reduction techniques
COB 2 To impart the knowledge of efficiency of machines with direct and indirect
loading
COB 3 To make the students understand the performance of single phase transformer
COB 4 To enable the students learn the characteristics of diode and its applications
COB 5 To make the students learn the simulation of diode and transistor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the electrical networks using network theorems
CO 2 Analyze the performance of AC and DC Machines
CO 3 Estimate the performance of 1-phase transformer
CO 4 Explain diode characteristics and its applications
CO 5 Explain the simulation of diode and transistor
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 - - - - - - - -
CO2 (K4) 3 3 2 - - - - - - - - -
CO3 (K3) 3 2 1 1 - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K4) 3 - -
CO3 (K3) 3 - -
CO4 (K2) - - -
CO5 (K2) - - -
All the 10 experiments need to perform from
1 Verification of Kirchhoffrsquos Laws KVL and KCL
2 Verification of Superposition Theorem
3 Verification of Thevenins Theorem and Nortons Theorem
4 Speed control of DC shunt motor
5 OCC characteristics of DC shunt generators
6 Swinburnes test on a DC shunts machine
7 Brake Test on DC shunt motor
8 OC and SC Tests on single phase transformer
9 Current Voltage Characteristics of a p-n Junction Diode
10 Characteristics of single phase full wave bridge rectifier
II Semester L T P C
Course Code 191ES2L03 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 55
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 Voltage Regulation with Zener Diodes
12 Brake test on three phase induction motor
13 Regulation of Alternator by synchronous impedance method
14 Simulation of Diode and Transistor Circuit Analysis using PSPICE
Reference Books
1 Electrical Technology M S Naidu and S Kamakshiah TMH Publications 2006
2 Fundamentals of Electrical Engineering Rajendra Prasad PHI Publications 2nd
Edition
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 Electrical Circuit Theory and Technology by John Bird Routledge Taylor amp
Francis Group
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 httpnptelacincourses117106101
3 httpnptelacincourses122106025
AR19 Mechanical Engineering
Aditya Engineering College (A) 56
MECHANICAL ENGINEERING WORKSHOP II Semester L T P C
Course Code 191ES2L07 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To develop the knowledge for plastics processing techniques
COB 4 To impart the concept of assembling and disassembling of machine parts
COB 5 To provide basic knowledge about machine tools and power tools
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate pattern making process mould making process by using greens
and and casting process
CO 2 Distinguish among various metal fabrication processes such as Arc welding
Gas Welding Resistance spot welding process and Soldering amp Brazing
CO 3 Create the plastic object through different plastic processing techniques
CO 4 Experiment with assembling and disassembling of machine parts
CO 5 Make use of the basic machine tools and power tools used in manufacturing
Mapping of Course Outcomes with Program Outcomes
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) 3 3 -
CO3 (K6) 3 3 -
CO4 (K3) 3 2 -
CO5 (K3) 3 - -
List of Experiments
I Foundry Technology
1 Pattern Design and making - for casting drawing
2 Determination of average grain size for sand sample using sieve shaker
3 Mould preparation by Using Green Sand
4 Metal Melting and Casting of molten metal
II Metal Fabrication Techniques
5 Lap amp Butt Joint by Gas welding
6 Lap amp Butt Joint Double V butt Joint on thick plate by Arc welding
III Plastic Processing Techniques
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - - - -
CO2(K4) 3 3 - - - - - 3 - - - -
CO3(K6) 3 3 - - - - - - - - - -
CO4(K3) 3 2 - - - - - 3 - - - -
CO5(K3) 3 2 - - - - - 2 - - 3 -
AR19 Mechanical Engineering
Aditya Engineering College (A) 57
7 Injection Moulding (Jewelry Box and Bottle cap)
8 Blow Moulding (Water Bottle with cap)
IV AssemblingDisassembling Practice
9 Clutch and carburettor
10 Two-wheeler engine parts
V Basic Manufacturing Machine Tools And Power Tools
11 Drilling Boring Dieing and Tapping
12 Basic knowledge of Power Tools
List of Augmented Experiments
(Any one of the following experiments can be performed)
1 Lap amp Butt strap Joint by Resistance Spot Welding
2 Brazing and soldering
Reference Books
1 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II fourth
edition
2 Elements of Manufacturing Technology Vol II Hajra ChoudharySK and Hajra
Choudhary AK Media Publishers 2007 Edition
Web Links
1 httpssjceacinwp-contentuploads201804Foundry-and-Forging-Laboratory -
Manualpdf
2 httpwwwiitkacinmmetestTA201pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 58
ENGINEERING EXPLORATION PROJECT (Common to all branches)
Course Objectives
bull Build mindsets amp foundations essential for designers
bull Learn about the Human-Centered Design methodology and understand
their real-world applications
bull Use Design Thinking for problem solving methodology for investigating
illdefined problems
bull Undergo several design challenges and work towards the final design
challenge
Apply Design Thinking on the following Streams to
bull Project Stream 1 Electronics Robotics IOT and Sensors
bull Project Stream 2 Computer Science and IT Applications
bull Project Stream 3 Mechanical and Electrical tools
bull Project Stream4 Eco-friendly solutions for waste management
infrastructure safety alternative energy sources Agriculture
Environmental science and other fields of engineering
HOW TO PURSUE THE PROJECT WORK
bull The first part will be learning-based-masking students to embrace the
methodology by exploring all the phases of design thinking through the
wallet bag challenge and podcasts
bull The second part will be more discussion-based and will focus on building
some necessary skills as designers and learning about complementary
material for human- centered design
bull The class will then divide into teams and they will be working with one
another for about 2 ndash 3 weeks These teams and design challenges will be
the basis for the final project and final presentation to be presented
bull The teams start with Design Challenge and go through all the phases more
in depth from coming up with the right question to empathizing to ideating
to prototyping and to testing
bull Outside of class students will also be gathering the requirements identifying the challenges usability importance etc
bull At the end Students are required to submit the final reports and will be
evaluated by the faculty
TASKS TO BE DONE
Task 1 Everyone is a Designer
bull Understand class objectives amp harness the designer mindset
II Semester L T P C
Course Code 191PR2P01 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 59
Task 2 The WalletBag Challenge and Podcast
bull Gain a quick introduction to the design thinking methodology
bull Go through all stages of the methodology through a simple design challenge
bull Podcast Observe Listen and Engage with the surrounding
environment and identify a design challenge
Task 3 Teams amp Problems
bull Start Design Challenge and learn about teams amp problems through this
bull Foster team collaboration find inspiration from the environment and
learn how to identify problems
Task 4 Empathizing
bull Continue Design Challenge and learn empathy
bull Learn techniques on how to empathize with users
bull Go to the field and interview people in their environments
bull Submit Activity Card
Task 5 Ideating
bull Continue Design Challenge and learn how to brainstorm effectively
bull Encourage exploration and foster spaces for brainstorming
bull Submit Activity Card
Task 6 Prototyping
bull Continue Design Challenge and learn how to create effective prototypes
bull Build tangible models and use them as communication tools
bull Start giving constructive feedback to classmates and teammates
bull Submit Activity Card
Task 7 Testing
bull Finish Design Challenge and iterate prototypes and ideas through user
feedback
bull Evolve ideas and prototypes through user feedback and constructive
criticism
bull Get peer feedback on individual and group performance
bull Submit Activity Card
Task 8
bull Final Report Submission and Presentation
AR19 Mechanical Engineering
Aditya Engineering College (A) 60
Note The colleges may arrange for Guest Speakers from Various Design Fields
Graphic Design Industrial Design Architecture Product Design Organizational
Design etc to enrich the students with Design Thinking Concept
References
1 Tom Kelly The Art of Innovation Lessons in Creativity From IDEO
Americarsquos Leading Design Firm (Profile Books 2002)
2 Tim Brown Change by Design How Design Thinking Transforms
Organizations and Inspires Innovation (Harper Business 2009)
3 Jeanne Liedtka Randy Salzman and Daisy Azer Design Thinking for the
Greater Good Innovation in the Social Sector (Columbia Business School
Publishing 2017)
Web Links
bull Human-Centered Design Toolkit (IDEO)
httpswwwideocompostdesign-kit
bull Design Thinking Boot Camp Bootleg
(Stanford D-School)
httpsdschoolstanfordeduresource
sthe-bootcamp-bootleg bull Collective Action Toolkit (frogdesign)
httpswwwfrogdesigncomwpcontent
o uploads201603CAT_20_Englishpdf
bull Design Thinking for Educators (IDEO) httpsdesignthinkingforeducatorscom
AR19 Mechanical Engineering
Aditya Engineering College (A) 61
INTEGRAL TRANSFORMS AND APPLICATIONS OF PARTIAL
DIFFERENTIAL EQUATIONS (Common to CE ME Ag E)
III Semester L T P C
Course Code 191BS3T11 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
that are essential for an engineering course
COB 2 To help the students acquire problem analysis and problem solving skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compute the Fourier series of a function
CO 2 Compute the Fourier transform of a function
CO 3 Compute Laplace transform of a function
CO 4 Apply Laplace transform to solve initial value problems
CO 5 Solve one dimensional heat equation wave equation and two dimensional
Laplace equation
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO1 PSO2 PSO3 PSO4
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Fourier series
Fourier series of periodic function Dirichletrsquos conditions for Fourier expansion
Functions having points of discontinuities Change of interval Even and odd functions
Half-range series
UNIT-II
Fourier Transforms
Fourier integral theorem (without proof) Fourier sine and cosine integrals Fourier
Transforms Fourier sine and cosine transforms properties inverse transforms Finite
Fourier transforms
UNIT-III
Laplace Transforms
Laplace transforms of standard functions First Shifting theorem Change of scale
AR19 Mechanical Engineering
Aditya Engineering College (A) 62
Multiplication with t Division by t Transforms of derivatives and integrals Unit step
function Dirac delta function Periodic function Evaluating improper integrals by
using Laplace Transform
UNIT-IV
Inverse Laplace Transforms
Inverse Laplace transforms Convolution theorem (without proof) Second shifting
theorem
Solving differential equations and integro-differential equations using Laplace
transforms
(MATLAB Exercise Computing Laplace transform of f(t) using symbolic toolbox
Solving initial value problems)
UNIT-V
Application of PDE Classification of Higher order PDE - Method of separation of Variables- Solution of One dimensional Wave equation Heat equation and two-dimensional Laplace equation
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyengar 4th Edition Alpha
Science Publications
2 Advanced Engineering Mathematics Erwin Kreyszig 10th Edition Wiley-
3 Higher Engineering Mathematics BSGrewal 43rd Edition Khanna Publishers
Reference Books
1 Advanced engineering mathematics with MATLAB Dean G Duffy CRC Press
2 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited
2006
Web Links
1 httpsnptelacincourses111105123
2 httpsnptelacincourses111105093
3 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 63
FLUID MECHANICS AND HYDRAULIC MACHINERY
III Semester L T P C
Course Code 191ME3T01 3 0 0 3
Course Objectives
COB 1 Explain the properties of fluids and its applications
COB 2 Understand the principle of buoyancy stability of a floating body
COB 3 Analyze the losses in various flow systems
COB 4 Estimate the impact of jets on various vane geometries
COB 5 Understand the concepts of hydraulic machines and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Fluid Statics Kinematics and Dynamics
CO 2 Calculate the meta centric height of a submerged body
CO 3 Analyze the concepts of Boundary Layer Theory and its applications
CO 4 Model the derived Quantities with Dimensional Analysis
CO 5 Solve the hydrodynamic force of jet on various vanes
CO 6 Compare different types of Turbines and Pumps characteristics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 1 - - - - - - - - -
CO2 (K3) 3 3 1 - - - - - - - - -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 2 2 1 - - - - - - - - -
CO6 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K4) PSO 2(K4) PSO 3(K6)
CO1 (K2) - 3 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - 3 -
CO5 (K3) - - -
UNIT-I
Fluid Statics Dimensions and units Physical properties of fluidsndashMass Density
Specific weight Specific volume Specific gravity Viscosity Surface tension Vapor
pressure and their influence on fluid motion Atmospheric pressure Gauge pressure and
vacuum pressure Measurement of pressure Piezometers U-tube and differential
manometers
Buoyancy and Flotation Meta center Stability of floating body Submerged bodies
Calculation of metacentric height Stability analysis and applications
UNIT-II
Fluid Kinematics Streamline Path line and streak lines and stream tubes
Classification of flows ideal fluid and real fluidndashsteady and unsteady flows Uniform
and non-uniform flows Laminar and turbulent flows Rotational and irrotational flows
Equation of continuity for one-dimensional flows
AR19 Mechanical Engineering
Aditya Engineering College (A) 64
Fluid Dynamics Various forces acting on a fluid element- Eulerrsquos and Bernoullirsquos
equation for flow along a stream line Momentum equation and its applications for pipe
bend problem
UNIT-III
Closed Conduit Flow Reynolds number Reynolds experimentndashDarcyndashWeisbach
equationndashMinor losses in pipes Pipes in series and pipes in parallel Total energy line
Hydraulic gradient line
Boundary Layer Theory Introduction Momentum Integral equation Displacement
Momentum and energy thickness and Introduction to Aerodynamic forces like Drag
and Lift
UNIT-IV
Impact of Jet on Vanes Hydrodynamic force on jets on stationary and moving flat
Inclined and curved vanes Jet striking centrally and at tip Velocity diagrams Work
done and efficiency Flow over radial vanes
Introduction to Hydraulic Machinery
Hydraulic Turbines Classification of turbinesndashImpulse and reaction turbines Pelton
wheel Working principle
UNIT-V
Francis turbine and Kaplan turbinendashWorking principles Draft tube theory Functions
Introduction to Performance of turbines
Centrifugal and Reciprocating Pumps Classification Working of centrifugal pump
Working of Reciprocating pumps Discharge through Centrifugal Pumps Comparison
between Centrifugal and Reciprocating pumps Introduction to Performance of pumps
Text Books
1 Fluid Mechanics and Hydraulic Machines RKBansal Laxmi Publications (P)
Ltd 9th Edition
2 Fluid Mechanics Frank MWhite Mcgraw-Hill series 7th edition
Reference Books
1 Hydraulics and Fluid mechanics including Hydraulics machines by PNModi amp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
2 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
3 Fluid Mechanics and Fluid Power Engineering DS Kumar Kotaria amp Sons
Revised Edition
4 Fluid Mechanics and Machinery D Rama Durgaiah New Age International
Revised Edition
Web Links
1 httpnptelacincourses1121051711
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 65
COMPUTER AIDED ENGINEERING DRAWING PRACTICE (Common to ME amp Min E)
III Semester L T P C
Course Code 191ME3T02 2 0 2 3
Course Educational Objectives
COB 1 To train the students to improve the graphical skills in design of mechanical
components
COB 2 To impart the knowledge of drawing machine components in
AUTOCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Draw the sectional view of the solids
CO 2 Develop the surfaces of solids like prism pyramid cone and cylinder
CO 3 Sketch the intersection of solids and Isometric Views
CO 4 Draw the isometric and orthographic projections of the machine parts
through AutoCAD
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - 3 - -
CO2 (K3) 3 - - - - - - - - 3 - -
CO3 (K3) 3 - - - 3 - - - - 3 - 3
CO4 (K3) 3 - - - 3 - - - - 3 - 3
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) - - 1
CO4 (K3) - - 1
UNIT-I
Sections of Solids Cylinder Cone Prism and Pyramid
Development of Surfaces Cylinder Cone Prism and Pyramid
UNIT-II
Intersection of Solids Cylinder Cone Prism and Pyramid
UNIT-III
Isometric Projections Conversion of orthographic views to isometric views
UNIT-IV
Computer Aided Drafting 2D wire frame modelling 3D wire frame modelling View
point coordinates and view(s) displayed Examples to exercise different options like
save Restore Delete Joint Single option
UNIT-V
Computer Aided Solid Modeling Isometric projections Orthographic projections
of isometric projections
AR19 Mechanical Engineering
Aditya Engineering College (A) 66
Modeling of simple solids Modeling of Machines amp Machine Parts
Text Books
1 Engineering Drawing ND Bhatt Charotar Publications 53rd Edition
2 Text book of Engineering Drawing with Auto-CAD K Venkata Reddy BS
Publications 4th Edition
Reference Books
1 Mastering Auto CAD 2013 and Auto CAD LT 2013 ndash George Omura Sybex
Publication
2 Auto CAD 2013 fundamentals- Elisemoss SDC Publication
3 Engineering Drawing and Graphics using AutoCAD T Jeyapoovan Vikas
Publication
4 Engineering Drawing Auto CAD K Venugopal V Prabhu Raja New Age
Publication
Web Links
1 httpnptelacincourses11210301935
2 httpnptelacincourses11210301933
3 httpwwwengineeringdrawingorgcategoryprojection_of_solids
4 httpwwwengineeringdrawingorgcategorysection_of_solids
AR19 Mechanical Engineering
Aditya Engineering College (A) 67
MECHANICS OF SOLIDS
III Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make the student calculate the various types of stresses and strains in a
body for various loading conditions
COB 2 To make the student draw the shear force and bending moment diagrams for
beams of various loading conditions
COB 3 To train the students calculate the bending and shear stresses across the
beams of various cross-sections
COB 4 To enable the student determine the slope and deflection of beam under
various loads
COB 5 To make the student solve the shear stress due to twisting and buckling load
in columns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the stresses and strains in bodies of varying cross-section
Composite bars
CO 2 Sketch the shear force and bending moment diagrams for beams of various
supports and loads
CO 3 Analyze the variation of bending and shear stresses across a beam cross-
section
CO 4 Calculate the slope and deflection for beams of various load and support
arrangements
CO 5 Compute the shear stresses due to application of twisting moment
CO 6 Evaluate the buckling loads for various columns
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 2 2 - - 1 - - 1 - 1
CO2 (K3) 3 2 1 - - - 1 - - 1 - 1
CO3 (K4) 3 3 2 2 - - 1 - - 1 - 1
CO4 (K3) 3 2 1 2 - - 1 - - 1 - 1
CO5 (K3) 3 2 1 2 - - 1 - - 1 - 1
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 1 -
CO2 (K3) 1 1 -
CO3 (K4) 1 1 -
CO4 (K3) 1 1 -
CO5 (K3) 1 1 -
UNIT-I
Simple Stresses amp Strains Elasticity and plasticity ndash Types of stresses amp strainsndash
Hookersquos law ndash stress ndash strain diagram for mild steel ndash Working stress ndash Factor of safety
ndash Lateral strain Poissonrsquos ratio amp Volumetric strain ndash Bars of varying section ndash
Composite bars ndash Temperature stresses- Relation between elastic constants- Strain
energy ndash Resilience ndash Gradual Sudden Impact and Shock loadings
AR19 Mechanical Engineering
Aditya Engineering College (A) 68
UNIT-II
Shear Force and Bending Moment Definition of beam ndash Types of beams ndash Concept
of shear force and Bending moment ndash SF and BM diagrams for Cantilever Simply
supported and Overhanging beams subjected to point loads Uniformly distributing
loads Uniformly varying loads Simple couples Eccentric loads and combination of
these loads ndash Point of contra flexure ndash Relation between SF BM and rate of loading
at a section of a beam
UNIT-III
Flexural Stresses Theory of simple bending ndash Assumptions ndash Bending equation-
Neutral axis ndash Bending stresses ndash Section modulus of rectangular and circular sections
(Solid and Hollow)-I-section T-section Angle and Channel section ndash Design of simple
beam sections
Shear Stresses Shear stress distribution across various beams sections-Rectangular
Circular Triangular I-section T-section Angle section
UNIT-IV
Deflection of Beams Bending into a circular arc ndash Slope Deflection and Radius of
curvature ndash Differential equation for the elastic line of a beam ndash Double integration and
Macaulayrsquos methods ndash Determination of slope and deflection for cantilever and simply
supported beams subjected to point loads ndash Uniformly distributing loads ndash Uniformly
varying loadndash Moment area method ndash Mohrrsquos theorems -Application to simple cases
including overhanging beams
UNIT-V
Torsion Introduction ndash Derivation ndash Torsion of Circular shafts ndash Pure Shear ndash
Transmission of power by circular shafts Shafts in series Shafts in parallel
Columns Buckling and Stability Columns with Pinned ends Columns with other
support conditions Limitations of Eulerrsquos Formula Rankinersquos Formula
Text Books
1 Mechanics of Materials B C Punmia Laxmi Publications
2 Strength of Materials GH Ryder 3rd Edition
Reference Books
1 Mechanics of Materials James M Gere Nelson Thornes Publication 6th
Edition
2 Mechanics of Materials E Russell Johnston and John T Dewolf Mc Graw Hills
3rd Edition
3 Strength of Materials Part-1 STimshenko CBS Publication 3rd Edition
4 Strength of Materials S Ramamrutham Dhanapat Rai Publications 16th Edition
Web Links
1 httpnptelacincourses112107147
2 httpwwwnptelacincoursesWebcoursecontentsIITROORKEEstrength20of
20materialshomepagehtm
3 httpswwwaccessengineeringlibrarycommapsstrength-of-materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 69
THERMODYNAMICS
III Semester L T P C
Course Code 191ME3T04 3 0 0 3
Course Objectives
COB 1 To impart the knowledge of basic concepts of thermodynamics
COB 2 To illustrate the concept of first law of thermodynamics and applications
COB 3 To illustrate the concept of second law of thermodynamics
COB 4 To facilitate the students to know the concepts of pure substance and their
properties
COB 5 To help the students learn the properties of gas mixtures and power cycles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain basic concepts properties of substances and Laws of
thermodynamics
CO 2 Analyze thermodynamic processes using laws of thermodynamics
CO 3 Analyze thermodynamic processes to calculate heat and work transfer
CO 4 Suggest solutions for thermodynamic cycles application
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 - - - - - - - - - -
CO2 (K4) 3 3 - - - - - - - - - 1
CO3 (K4) 3 2 1 1 - - - - - - - 1
CO4 (K4) 3 3 1 1 - - - - - - - 1
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K4) 1 2 -
CO3 (K4) 1 2 -
CO4 (K4) 1 2 -
UNIT-I
Basic Concepts of Thermodynamics Introduction system boundary surrounding
control volume universe types of system Macroscopic and Microscopic View Point
concept of Continuum control volume control space Thermodynamic Equilibrium
State property process cycle Reversibility Quasi static process irreversible process
causes of irreversibility energy in state and energy in transition types of work and heat
point and path function Zeroth law of Thermodynamics- Concept of temperature
principles of thermometry reference points constant volume gas thermometer Scales
of temperature ideal gas scale
First Law of Thermodynamics Joulersquos Experiment- First law of thermodynamics
PMM-I Corollaries- First law applied to a Process applied to a system Steady Flow
Energy Equation throttling and free expansion processes Energy Balance deviations
from perfect gas model Vander walls equation of state compressibility charts variable
specific heats gas tables
AR19 Mechanical Engineering
Aditya Engineering College (A) 70
UNIT-II
Second Law of Thermodynamics Limitations of first law of thermodynamics
thermal reservoir heat engine heat pump parameters of performance second law of
thermodynamics Kelvin Planck and Clausius statements and their equivalence
collieries PMM-II Carnot Principle Carnot cycle and its specialities Thermodynamic
scale of temperature Clausius inequality Entropy principle of entropy increase
energy equation availability and irreversibility thermodynamic potentials Gibbs and
Helmholtz functions Maxwell relations elementary treatment of the third law of
thermodynamics
UNIT-III
Properties of Pure Substances Pure substance P-V-T surfaces T-S amp h-s diagrams
Mollier chart phase transformations triple point at critical state properties during the
change of phase dryness fraction Clausius Clapeyron equation property tables
Various thermodynamic processes energy transfer steam calorimetry
UNIT-IV
Properties of Gas Mixtures Mixture of perfect gases mole fraction mass fraction
gravimetric amp volumetric analysis Daltonrsquos law of partial pressure Avogadrorsquos law of
additive volumes equivalent gas constant molecular internal energy enthalpy of
specific heats and entropy of mixture of perfect gasses vapour and atmospheric air
UNIT-V
Thermodynamic Cycles
Air Standard Cycles Carnot Cycle Otto Cycle Diesel amp Dual Cycle
Gas Power Cycles Sterling Cycle Atkinson Cycle Ericson Cycle Lenoir Cycle
Refrigeration Cycles Carnot cycle Bell Coleman cycle Vapor Refrigeration cycles-
Description and representation on PndashV and T-S diagram Thermal Efficiency Mean
Effective pressures on Air standard basis ndash Comparison of Cycles
Text Books
1 Engineering Thermodynamics PK Nag Tata McGraw Hill Publishers 5th
Edition
2 Heat Engineering VPVasandhani amp DS Kumar Metropolitan Book Depot
2011 Edition
Reference Books
1 Thermodynamics An Engineering Approach YA Cengel and MA Boles Tata
Mc-Graw Hill Publishers 7th Edition
2 Engineering Thermodynamics Mayhew and Rogers Longman Green amp Co Ltd
London ELBS 8th Edition
3 Fundamentals of Classical Thermodynamics (SI Version) Van Wylen GJ and
Sonntag RE 2nd Edition
Web Links
1 httpswwwnptelacincourses1121051231
2 httpswww3ndedu~powersame20231planckdoverpdf
3 httpswwweduinformercomengineering-thermodyna
AR19 Mechanical Engineering
Aditya Engineering College (A) 71
METALLURGY AND MATERIALS SCIENCE
III Semester L T P C
Course Code 191ME3T05 3 0 0 3
Course Objectives
COB 1 To make the students familiarize with the concepts of structure of metals and
mechanical behaviour of materials
COB 2 To make the students understand the basic knowledge in the constitution of
alloys and in different types of alloy systems
COB 3 To teach the basic concept of iron-iron carbide equilibrium diagram and heat
treatment of alloys
COB 4 To make the students comprehend the areas of non-ferrous metals and alloys
COB 5 To make the students understand the basic concepts in the area of ceramic
and composite materials
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concepts of structure of metals and mechanical behavior under
different loading conditions
CO 2 Apply the concepts of equilibrium diagrams to make use of various alloys in
various industrial applications
CO 3 Discuss the concept of solidification of alloys and the analyze phases of iron-
iron carbide equilibrium diagram
CO 4 Apply the processes of heat treatment on different types of Cast irons and
Steels
CO 5 Use the concepts of non-ferrous metals and alloys in industrial applications
CO 6 Summarize the properties and applications of ceramic and composite
materials
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 - - - - - - - - - - -
CO2 (K3) 2 - - - - 1 1 - - - - -
CO3 (K3) 2 - - - - - - - - - - -
CO4 (K3) 2 - - - - 2 2 - - - - -
CO5 (K3) 2 - - - - 1 1 - - - - -
CO6 (K3) 2 - - - - 1 1 - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
CO6(K3) 1 - -
UNIT-I
Structure of Metals Bonds in solids-metallic bond-crystal structure - BCC FCC HCP
Unit cells Packing factor Crystallization of metals Grains and grain boundaries Effect of
grain boundaries on properties of metals Crystal imperfections
Mechanical Behavior of Materials Elastic deformation Plastic deformation - Twinning
AR19 Mechanical Engineering
Aditya Engineering College (A) 72
Fracture
Constitution of alloys Necessity of alloying Types of solid solutions Hume Rothery
rules Intermediate alloy phases and Electron compounds
UNIT-II
Equilibrium Diagrams Phase rule Experimental method of construction of equilibrium
diagrams Isomorphous alloy systems Equilibrium cooling and heating of alloys Lever rule
Coring miscibility gaps Eutectic systems Congruent melting intermediate phases Peritectic
reaction Transformations in solid state ndash allotropy Eutectoid Peritectoid reactions
Relationship between equilibrium diagrams and properties of alloys Study of important
binary phase diagrams of Cu-Ni Al-Cu Bi-Cd Cu-An Cus-Sn and Fe-Fe3C
UNIT-III
Metallurgy of Iron and Steels Fe-Fe3C equilibrium diagram Micro constituents in steels
Classification of steels Structure and properties of plain carbon steels Heat treatment of
steels- Annealing Normalizing Hardening TTT diagrams Tempering Hardenability
Surface hardening methods Age hardening treatment Cryogenic treatment of alloys Effect
of alloying elements on Fe-Fe3C system Low alloy steels Stainless steels Hadfield
manganese steels Tool steels and Die steels Structure and properties of White cast iron
Malleable cast iron Grey cast iron and Spheroidal grey cast iron
UNIT-IV
Non-Ferrous Metals and Alloys
Structure and properties of Copper and its alloys Aluminum and its alloys and Titanium and its alloys
UNIT-V
Ceramic Materials Crystalline ceramics Glasses Cermets Abrasive materials Nano
materials - Definition Properties and Applications
Composite Materials Classification of Composites Particle reinforced materials Fiber
reinforced materials Metal ceramic mixtures Metal-matrix composite and C-C composites
Introduction to Powder metallurgy Preparation methods and Applications of Powder
metallurgy- Selection of materials for various industrial applications
Text Books
1 Introduction to Physical Metallurgy Sidney H Avner TMH Publications 2nd Edition
2 Materials Science and Metallurgy VD Kodgire Everest Publishing House 39th
Edition
Reference Books
1 Materials Science and Engineering An Introduction William DCallister Wiley
Publications 9th Edition
2 Elements of Materials Science VRaghavan Pearson Education 6th Edition
3 Engineering Materials amp Metallurgy RK Rajput S Chand Publications 2nd Edition
4 Essentials of Material Science Donald Askeland SI Edition 3rd Edition
Web Links
1 httpnptelacincourses113105021
2 wwwthemetalcastingcom
3 httpswwwtuenl
4 httpswwweurothermcommetallic-alloys
AR19 Mechanical Engineering
Aditya Engineering College (A) 73
FLUID MECHANICS AND HYDRAULIC MACHINERY LAB
III Semester L T P C
Course Code 191ME3L01 0 0 3 15
Course Objectives
COB 1 Apply Bernoullirsquos principle for practical pipe flow applications
COB 2 Distinguish performance of venture meter and orifice meters
COB 3 Choosing the Centrifugal and Reciprocating pumps based on application
COB 4 Understand the impact of water jets on various vane geometries
COB 5 Select the Impulse and Reaction turbines based on application
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the head losses causing decrease in energy of flow experimentally
and by the verification of Bernoullirsquos theorem
CO 2 Compare the flow meters for their better performing characteristics when
used in pipes of turbines etc
CO 3 Calculate the efficiencies of Centrifugal and Reciprocating pumps while
maintaining similar conditions
CO 4 Evaluate performance characteristic curves and efficiencies of different
hydraulic turbines
CO 5 Calculate the work done and efficiency of various vane shapes for turbine
applications
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - 2 - - - - 2 1 - 2
CO2 (K2) 2 2 - 2 - - - - 2 1 - 2
CO3 (K3) 3 2 - 2 - - - - 2 1 - 2
CO4 (K5) 3 2 - 2 - - - - 2 1 - 2
CO5 (K3) 3 2 - 2 - - - - 2 1 - 2
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K2) - 2 -
CO3 (K3) - 2 -
CO4 (K5) - 3 -
CO5 (K3) - 2 -
The following experiments are required to be conducted as compulsory
experiments
1 To determine the of major losses (friction factor) in pipes
2 To determine the minor losses in pipes
3 To determine the of co-efficient of discharge of a Venturi meter
4 To determine the of co-efficient of discharge of an Orifice meter
5 To determine the Discharge and efficiency of a Centrifugal pump
6 To determine the Discharge and efficiency of a Reciprocating pump
7 To determine the Head Discharge and efficiency of a Pelton wheel
8 To determine the Head Discharge and efficiency of a Francis turbine
AR19 Mechanical Engineering
Aditya Engineering College (A) 74
9 To determine the Head Discharge and efficiency of a Kaplan turbine
10 To determine the velocity of flow at any point in a pipe using Pitot tube
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 To verify the Bernoullirsquos theorem using experimental setup
12 To find the Laminar and Turbulent flow types using Reynoldsrsquos Experiment
13 To determine the co-efficient of discharge of a Rotameter
14 To determine the co-efficient of the discharge of a water meter
Reference Books
1 Hydraulic Machines by Banga amp Sharma Khanna Publishers6th Edition
2 Hydraulics and Fluid mechanics including Hydraulics machines by
3 PNModi amp SMSeth Rajsons publications pvt ltd Standard Book House
(2017 edition)
4 Fluid Mechanics and Hydraulic Machines RK Rajput SChand
Web Links
1 httpwwwscience-animationscomfluidmechanicshtml
2 httpsiitbmechdampwordpress
AR19 Mechanical Engineering
Aditya Engineering College (A) 75
MECHANICS OF SOLIDS AND METALLURGY LAB
III Semester L T P C
Course Code 191ME3L02 0 0 3 15
Course Objectives
COB 1 To impart the practical knowledge on testing of material mechanical
behavior under various direct loads
COB 2 To make the students to test the mechanical behavior of spring and cube
under load
COB 3 To impart the practical knowledge on testing of material under various
indirect loads
COB 4 To make the students to study of the Micro Structure of pure metals and
alloys
COB 5 To aware the students to calculate the hardness of various treated and
untreated steels
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the material mechanical behavior under various direct loads
CO 2 Calculate the mechanical strength of spring and cube
CO 3 Demonstrate the materials mechanical behavior under various indirect loads
CO 4 Analyze the Structure of pure metals and alloys
CO 5 Estimate the hardness of various treated and untreated steels
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - 3 - 2 2 - -
CO2(K3) 3 2 - - - - 3 - 2 2 - -
CO3(K2) 2 1 - - - - 3 - 2 2 - -
CO4(K4) 3 3 - - - - 3 - 2 2 - -
CO5(K2) 2 1 - - - - 3 - 2 2 - -
Mapping of course outcomes with program Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1(K2) 1 2 -
CO2(K3) 1 2 -
CO3(K2) 1 2 -
CO4(K4) - 2 1
CO5(K2) - 2 1
The following experiments are required to be conducted as compulsory
experiments
Section A Mechanics of Solids
1 To conduct direct tension test on mild steel bar
2 To conduct bending test on Simply supported beam amp Cantilever beam
3 To determine Modulus of rigidity of given specimen by conducting Torsion
4 To determine hardness value for the given metal specimen using
(a) Brinell hardness tester (b) Rockwell hardness tester
5 To conduct compression and tension test on springs
6 To determine the compression strength on cube by UTM
AR19 Mechanical Engineering
Aditya Engineering College (A) 76
The following experiments are required to be conducted as compulsory
experiments
Section B Metallurgy amp Material Science
7 To Analyze the Micro Structure of pure metals like Iron Cu and Al
8 To Analyze the Microstructure of Mild steels low carbon steels high carbon
steels
9 To Analyze the Micro Structures of Cast Irons
10 To Analyze the Micro Structures of Non-Ferrous alloys
11 To Analyze the Micro structures of Heat treated steels
12 To determine the hardenability of steels by Jominy End Quench Test
List of Augmented Experiments - Mechanics of Solids
(Any one of the following experiments can be performed)
13 To conduct Impact test by (a) Izod test (b) Charpy test
14 To find shear strength on given specimen by Punch shear test
15 To determine the maximum shear stress induced in circular beam
List of Augmented Experiments - Metallurgy amp Material Science
(Any one of the following experiments can be performed)
16 To find out the hardness of various treated and untreated steels
17 To study the microstructure of high speed steels
18 To find the increase in hardness values for the given steel alloys (EN8) specimen
by (oil quenching) medium hardening method
Reference Books
1 A laboratory manual of Metals and Alloys S M Ashram Sharif Ahmed Volume
2 Strength of Materials RKRajput SChand Publications 4th edition
3 Introduction to Physical Metallurgy Sidney H Avener TMH 2nd edition
Web Links
1 httpwwwmlrinstitutionsacinsitesdefaultfileslab1cb1938e0e081ecdd712d1c
8778bd2fc 1- MMS-labpdf
2 httpwwwiitkacinmseoldmse_newfacilitieslaboratoriesMaterial_Testing_
LabMSE313Apdf
3 httpwebmiteduemechdontindex-build
AR19 Mechanical Engineering
Aditya Engineering College (A) 77
EMPLOYABILITY SKILLS-I (Common to all branches)
III Semester L T P C
Course Code 191MC3A03 0 0 2 0
Course Objectives
COB 1 To provide necessary training to impart employability skills
COB 2 To Prepare Students for Campus Placements
COB 3 To Improve Confidence Decision Making in Career planning
COB 4 To Achieve Life Goals with Proper Time Management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the number and letter series techniques in different models
CO 2 Differentiate Career Objectives ampGoals
CO 3 Compare the different types of number and letter analogy models
CO 4 Transfer the different models of coded elements to decoded elements
CO 5 Illustrate Out Of Box thinking in Students
CO 6 Solve LCM amp HCF Simple Equations by using simple logics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
UNIT-I
Aptitude Number series
Soft Skills Attitude SWOT analysis self-confidence self esteem
UNIT-II
Aptitude Number Analogy
Soft Skills Decision Making Situation Reaction Test
UNIT-III
Aptitude Letter series Letter Analogy Coding amp Decoding
Soft Skills Verbal Aptitude-I synonyms Antonyms Spotting of errors
AR19 Mechanical Engineering
Aditya Engineering College (A) 78
UNIT-IV
Aptitude Divisibility Rules LCMampHCF
Soft Skills Creativity Out of box thinking lateral thinking
UNIT-V
Aptitude Simple Equations
Soft Skills Goal setting Smart goals Time Management
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 79
ESSENCE OF INDIAN TRADITIONAL KNOWLEDGE (Common to all branches)
III Semester L T P C
Course Code 191MC3A04 2 0 0 0
Course Objectives
COB 1 To facilitate the students with the concepts of Indian traditional knowledge
and to make them understand the Importance of roots of knowledge system
COB 2 To make the students understand the traditional knowledge and analyse it
and apply it to their day to day life
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the concept of Traditional knowledge and its importance
CO 2 Explain the need and importance of protecting traditional knowledge
CO 3 Illustrate the various enactments related to the protection of traditional
knowledge
CO 4 Interpret the concepts of Intellectual property to protect the traditional
knowledge
CO 5 Explain the importance of Traditional knowledge in Agriculture and
Medicine
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K3) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K3) - - - - - - - - - - - -
CO 5 (K3) - - - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Introduction to traditional knowledge Define traditional knowledge nature and
characteristics scope and importance kinds of traditional knowledge Indigenous
Knowledge (IK) characteristics traditional knowledge vis-agrave-vis indigenous
knowledge traditional knowledge Vs western knowledge traditional knowledge
UNIT-II
Protection of traditional knowledge The need for protecting traditional knowledge
Significance of TK Protection value of TK in global economy Role of Government
to harness TK
AR19 Mechanical Engineering
Aditya Engineering College (A) 80
UNIT-III
Legal framework and TK
The Scheduled Tribes and Other Traditional Forest Dwellers (Recognition of Forest
Rights) Act 2006 Plant Varieties Protection and Farmers Rights Act 2001 (PPVFR
Act) The Biological Diversity Act 2002 and Rules 2004 the protection of traditional
knowledge bill 2016
UNIT-IV
Traditional knowledge and intellectual property Systems of traditional knowledge
protection Legal concepts for the protection of traditional knowledge Patents and
traditional knowledge Strategies to increase protection of traditional knowledge
UNIT-V
Traditional knowledge in different sectors Traditional knowledge and engineering
Traditional medicine system TK in agriculture Traditional societies depend on it for
their food and healthcare needs Importance of conservation and sustainable
development of environment Management of biodiversity Food security of the
country and protection of TK
Text Books
1 Traditional Knowledge System in India by Amit Jha 2009
2 Traditional Knowledge System and Technology in India by Basanta Kumar
Reference Books
1 Traditional Knowledge System in India by Amit Jha Atlantic publishers 2002
2 Knowledge Traditions and Practices of India Kapil Kapoor1 Michel Danino2
Web Links
1 httpswwwyoutubecomwatchv=LZP1StpYEPM
2 httpnptelacincourses121106003
AR19 Mechanical Engineering
Aditya Engineering College (A) 81
NUMERICAL METHODS amp STATISTICAL TECHNIQUES (Common to CE ME amp AgE)
IV Semester L T P C
Course Code 191BS4T16 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
those are essential for an engineering course
COB 2 To familiarize the students with the foundations of probability and statistical
methods and solve application problems in their disciplines
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply numerical methods to solve equations and interpolation of polynomials
CO 2 Apply numerical methods to solve initial value problems and problems
involving integration
CO 3 Apply discrete and continuous probability distributions
CO 4 Compute the components of a classical hypothesis test
CO 5 Apply the statistical inferential methods based on small and large sampling
tests
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Solution of Algebraic and Transcendental Equations
Introduction Bisection method Secant method Method of false position Iteration
method Newton - Raphson method
Interpolation
Introduction to Interpolation Finite differences Forward differences Backward
differences Central difference Relation between operators Newtonrsquos formula for
interpolation Lagrangersquos interpolation Newtonrsquos divided difference interpolation
UNIT-II
Numerical Integration and solution of Ordinary Differential Equations
Trapezoidal rule Simpsonrsquos 13rd and 38th rule Solution of ordinary differential
equations by Taylorrsquos series Picardrsquos method of successive Eulerrsquos method Modified
Eulerrsquos method Runge-Kutta method (fourth order)
AR19 Mechanical Engineering
Aditya Engineering College (A) 82
UNIT-III
Probability and Distributions
Review of probability and Bayersquos theorem ndash Random variables ndash Discrete and
Continuous random variables ndash Distribution function ndash Mathematical Expectation and
Variance ndash Binomial Poisson Uniform and Normal distributions
UNIT - IV
Sampling Theory
Introduction ndash Population and samples ndash Sampling distribution of Means and Variance
(definition only) ndash Central limit theorem (without proof) ndash Introduction to t 2 and F-
distributions ndash Point and Interval estimations ndash Maximum error of estimate
UNIT- V
Tests of Hypothesis
Introduction ndash Hypothesis ndash Null and Alternative Hypothesis ndash Type I and Type II
errors ndash Level of significance ndash One tail and two-tail tests ndash Tests concerning one mean
and two means (Large and Small samples) ndash Tests on proportions
Text Books
1 Advanced Engineering Mathematics R K Jain S R K Iyengar 4th Edition
Alpha Science Publications
2 Miller and Freundrsquos Probability and Statistics for Engineers 7e Pearson 2008
3 Higher Engineering Mathematics B S Grewal 43rdEdition Khanna Publishers
Reference Books
1 M K Jain S R K Iyengar and R K Jain Numerical Methods for Scientific
and engineering Computations New age International Publication (P) Ltd
2 S C Gupta and V K Kapoor Fundamentals of Mathematical Statistics 11e
Sultan Chandamp Sons Publications 2012
3 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
4 Sheldon M Ross Introduction to probability and statistics Engineers and the
Scientists 4th Edition Academic Foundation 2011
Web Links
1 httpsnptelacincourses111107111107105
2 httpsnptelacincourses111105111105041
3 httpsnptelacincourses111105111105090
4 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 83
MANAGERIAL ECONOMICS AND FINANCIAL ANALYSIS (Common To CE EEE ME ECE CSE IT AgE amp PT)
IV Semester L T P C
Course Code 191HS4T04 3 0 0 3
Course Objectives
COB 1 To equip the students with the basic inputs of managerial economics and
demand concepts
COB 2 To understand the nature of markets Methods of Pricing in the different
market structures and to know the different forms of Business organization
and the concept of Business Cycles
COB 3 To impart the knowledge on production theories its factors and cost
analysis
COB 4 To make the students take optimal decisions and acquiring the knowledge
on financial accounting and its analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Managerial Economic concepts for decision making and forward
planning
CO 2 Illustrate the law of demand and its exceptions by using different forecasting
methods
CO 3 Identify the cost behavior for managerial decision making and Break Even
Point (BEP) of an enterprise
CO 4 Classify the different types of business organizations along with basic
knowledge on business cycle
CO 5 Make use of the process amp principles of accounting for the preparation of
final accounts
CO 6 Utilize various techniques on investment project proposals with the help of
capital budgeting techniques for decision making
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) - - - - - - - - - - - -
CO 2(K2) 1 1 - - - - - - - 1 - -
CO 3(K3) - - - - - - - - - - 1 -
CO 4(K2) 1 1 - - - - - - - - 1 -
CO 5(K3) 1 1 - - - - - 2 - 1 - -
CO 6(K3) 1 1 - - - - - - - - 1 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K2) - - -
CO 2(K2) - - -
CO 3(K3) - - -
CO 4(K2) - - -
CO 5(K3) - - -
CO 6(K3) - - -
UNIT-I
Introduction to Managerial Economics and demand Analysis
Definition of Managerial Economics ndashScope of Managerial Economics and its
relationship with other subjects ndashConcept of Demand Types of Demand Determinants
of Demand- Demand schedule Demand curve Law of Demand and its limitations-
AR19 Mechanical Engineering
Aditya Engineering College (A) 84
Elasticity of Demand Types and Measurement-Demand forecasting and its Methods
UNIT-II
Production and Cost Analyses
Concept of Production function- Cobb-Douglas Production function ndash Law of Variable
proportions-Isoquants and Isocosts and choice of least cost factor combination-Concepts
of Returns to scale and Economies of scale-Different cost concepts opportunity costs
explicit and implicit costs- Fixed costs Variable Costs and Total costs ndash Cost ndashVolume-
Profit analysis-Determination of Breakeven point(simple problems)- Managerial
significance and limitations of Breakeven point
UNIT-III
Introduction to Markets Pricing Policies amp Types of Business Organization and
Business Cycles
Market Structures Perfect Competition Monopoly Monopolistic competition and
Oligopoly ndash Features ndash Price and Output Determination ndash Methods of Pricing Average
cost pricing Limit Pricing Market Skimming Pricing and Internet Pricing Flat Rate
Pricing Usage sensitive pricing and Priority Pricing Features and Evaluation of Sole
Trader Partnership Joint Stock Company ndash Business Cycles Phases of Business Cycles
UNIT-IV
Introduction to Accounting amp Financing Analysis
Introduction to Double Entry Systems ndash Journal entries ndash Ledger ndash Trail Balance ndash
Trading and Profit and Loss Account - Preparation of Financial Statements - Introduction
to Ratio Analysis
UNIT-V
Capital and Capital Budgeting Capital Budgeting Meaning of Capital- Capitalization-
Meaning of Capital Budgeting-Time value of money- Methods of appraising Project
profitability Traditional Methods(pay back period accounting rate of return) and modern
methods(Discounted cash flow method Net Present Value method Internal Rate of
Return Method and Profitability Index)
Text Books
1 Dr A R Aryasri ndash Managerial Economics and Financial Analysis TMH 2011
2 Dr N Appa Rao Dr P Vijay Kumar lsquoManagerial Economics and Financial
Analysisrsquo Cengage Publications New Delhi ndash 2011
3 Prof JVPrabhakara rao Prof P Venkatarao lsquoManagerial Economics and Financial
Analysisrsquo Ravindra Publication
Reference Books
1 V Maheswari Managerial Economics Sultan Chand
2 Suma Damodaran Managerial Economics Oxford 2011
3 Dr B Kuberudu and Dr T V Ramana Managerial Economics amp Financial
Analysis Himalaya Publishing House 2011
4 Vanitha Agarwal Managerial Economics Pearson Publications 2011
5 Sanjay Dhameja Financial Accounting for Managers Pearson
6 Maheswari Financial Accounting Vikas Publications
7 S A Siddiqui amp A S Siddiqui Managerial Economics and Financial Analysis
New Age International Publishers 2012
Web Links
1 wwwmanagementstudyguidecom
2 wwwtutorialspointcom
AR19 Mechanical Engineering
Aditya Engineering College (A) 85
INTERNET OF THINGS
IV Semester L T P C
Course Code 191ES4T15 3 0 0 3
Course Objectives
COB 1 To present interconnection and integration of the physical world and the cyber
space
COB 2 To demonstrate applications of Internet of Things
COB 3 To educate building blocks and characteristics of Internet of Things
COB 4 To introduce communication protocols used in Internet of Things
COB 5 To impart knowledge on design amp develop IoT devices
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the application areas of IoT
CO 2 Illustrate revolution of Internet in Mobile Devices Cloud amp Sensor Networks
CO 3 Explain communication protocols used in IoT
CO 4 Make use of Raspberry PI programming to implement Internet of Things
through Arduino
CO 5 Apply the principles of IoT in real world scenario
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 3 - - - - - - - - - -
CO2 (K3) 2 2 2 - - - - - - - - -
CO3 (K4) 3 2 2 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K3) 3 1 3 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to IoT
Internet of Things - Physical Design- Logical Design- IoT Enabling Technologies - IoT
Levels amp Deployment Templates - Domain Specific IoTs - IoT and M2M - IoT System
Management with NETCONF-YANG- IoT Platforms Design Methodology
UNIT-II
IoT Architecture
M2M high-level ETSI architecture - IETF architecture for IoT - OGC architecture - IoT
reference model - Domain model - information model - functional model - communication
model - IoT reference architecture
AR19 Mechanical Engineering
Aditya Engineering College (A) 86
UNIT-III
IoT Protocols
Protocol Standardization for IoT ndash Efforts ndash M2M and WSN Protocols ndash SCADA and RFID
Protocols ndash Unified Data Standards ndash Protocols ndash IEEE 802154 ndash BACNet Protocol ndash
Modbusndash Zigbee Architecture ndash Network layer ndash 6LowPAN - CoAP ndash Security
UNIT-IV
Building IoT with Raspberry PI amp Arduino
Building IOT with RASPERRY PI- IoT Systems - Logical Design using Python ndash IoT
Physical Devices amp Endpoints - IoT Device -Building blocks -Raspberry Pi -Board - Linux
on Raspberry Pi - Raspberry Pi Interfaces -Programming Raspberry Pi with Python - Other
IoT Platforms - Arduino
UNIT-V
Case Studies And Real-World Applications
Biometric Car Door opening system Accident monitoring system Engine oil and Coolant
level monitoring system Fleet and Driver Management system Smart road communication
system Road Vehicle communication at hilly areas real time car telematics tracking system
Text Books
1 Rajesh Singh Anita Gehlot etal - Internet of Things in Automotive Industries and
Road Safety Electronic Circuits program Coding and Cloud Servers River
publishers ISBN- 978-87-7022-010-1
2 Arshdeep Bahga Vijay Madisetti ―Internet of Things ndash A hands-on approach
Universities Press 2015
Reference Books
1 Dieter Uckelmann Mark Harrison Michahelles Florian (Eds) ―Architecting the
Internet of Things Springer 2011
2 Honbo Zhou ―The Internet of Things in the Cloud A Middleware Perspective
CRC Press 2012
3 Olivier Hersent David Boswarthick Omar Elloumi ―The Internet of Things ndash Key
applications and Protocols Wiley 2012
Web Links
1 httpsonlinecoursesnptelacinnoc18_cs46preview
2 httpsswayamgovincoursespublickeyword=Introduction20to20internet20
of20things
3 httpsswayamgovincoursespublickeyword=Design20for20internet20of
20things
4 httpswwwcourseraorgspecializationsiot
AR19 Mechanical Engineering
Aditya Engineering College (A) 87
PRODUCTION TECHNOLOGY
IV Semester L T P C
Course Code 191ME4T06 3 0 0 3
Course Objectives
COB 1 To make the students to understand the fundamentals of casting and their
application
COB 2 To impart the knowledge of special types of casting processes solidification of
metals and different casting defects
COB 3 To perceive the students various types of welding processes and welding defects
COB 4 To introduce the fundamentals of various sheet metal forming techniques and
plastic processing techniques
COB 5 To enable the students to acquire the types of bulk forming processes rolling and
various extrusion methods
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basics of casting and its applications
CO 2 Demonstrate various special casting processes
CO 3 Distinguish between the different joining techniques
CO 4 Explain the basics of sheet metal forming and plastics processing techniques
CO 5 Summarize the bulk metal deforming process
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 - - - - - - - 2 2 - -
CO2 (K3) 2 - - - - - - - 2 - - -
CO3 (K4) 2 - - - - - - - - - - -
CO4 (K3) - - - - - - - - - - - -
CO5 (K3) 1 - - - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 3 - -
CO3 (K4) 3 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction
Engineering materials and its properties and classification of various manufacturing
processes
Casting Introduction to casting Requirements of casting Steps involved in making a
casting Advantage of casting and its applications
Patterns Types of patterns Materials used for patterns
Allowances All Pattern allowances and their construction
Gating Principles of Gating Gating ratio and design of gating systems
Runner amp Risers Types function and design of riser Cleaning of castings
AR19 Mechanical Engineering
Aditya Engineering College (A) 88
UNIT-II
Special Casting Techniques
Molding sand Preparation and Composition Sand property test Casting shakeout Core
Types of core Core print Chaplets Chills and Exothermic materials applications in sand
casting Metal fluidity
Furnace Crucible furnace Cupola Induction furnace Reverberatory furnace Open
hearth Arc furnace
Casting design considerations
Solidification of casting Concept of Solidification of metal and Alloys Problems on
solidification time
Special casting processes Centrifugal casting Die casting and Investment casting Shell
molding
Casting defects Causes and remedies
UNIT-III
Metal Joining Methods
Introduction to welding process Classification of welding processes Types of welded
joints and their characteristics
Gas welding Different types of flames Oxy-acetylene welding and Cutting
Arc welding Basic principles of Arc welding V-I Characteristic curves of power source
Problems on V-I Characteristic Duty cycle MMAW SAW TIG MIG
Solid state welding processes Friction welding Friction stir welding Forge welding
Explosive welding Thermit welding PAW Laser beam welding EBW Soldering amp
Brazing Resistance welding and its types Heat affected zone (HAZ)
Welding defects ndash Causes and Remedies
Testing Destructive and Non-destructive of welds
UNIT-IV
Sheet Metal Forming amp Plastic Processing Techniques
Introduction Role of sheet components Shearing mechanism Various press working
operations Presses for sheet metal working and press tools Die and Punch Different type
of dies Blanking and Piercing Forces and Load estimation in forming Deep drawing
Stretch forming Bending Coining Spinning Spring back and its remedies
High energy rate forming process Principles of explosive forming Electromagnetic
forming Electro hydraulic forming and Rubber pad forming Advantage and Limitations
Plastic Processing Types of Plastics Properties Applications and their processing
methods Blow molding and Injection molding
UNIT-V
Bulk Metal Deforming Processes
Introduction to bulk deforming process Plastic deformation Yield and flow criteria
Machine and equipmentrsquos for the metal deforming processes Parameters and force
calculations for different processes
Classification of metal deforming processes Swaging Forging and itrsquos all types
Forging defects
Rolling Fundamentals and Types of rolling mills and Products
Extrusion Basics and its characteristics Types of extrusion Impact extrusion
Hydrostatic extrusion Wire drawing and Tube drawing
AR19 Mechanical Engineering
Aditya Engineering College (A) 89
Text Books
1 Manufacturing Technology Volume I PN Rao TMH Publications 6th Edition
2 Hajra Choudhry Elements of Workshop Technology Vol ndash II Media Promoters amp
Publishers 1994
Reference Books
1 Manufacturing Processes for Engineering Materials Kalpakjian S amp Steven R
Schmid Pearson Publication 5th Edition
2 Manufacturing Science AGhosh amp AK Mallik East West Press Pvt Ltd
Publication 3rd Edition
3 Process and materials of manufacture Lindberg PHI Publications 4th Edition
4 Advance Welding Processes RSParmar Khanna Publishers
Web Links
1 httpnptelacincourses112107144
2 httpstudycomarticlesOnline_Welding_Classes_and_Training_Programs
3 httpnptelacincourses112107089
4 httpnptelacincoursephp
AR19 Mechanical Engineering
Aditya Engineering College (A) 90
KINEMATICS OF MACHINERY
IV Semester L T P C
Course Code 191ME4T07 3 0 0 3
Course Objectives
COB 1 To understand the kinematics and rigid-body dynamics of kinematically
driven machine components
COB 2 To understand the motion of linked mechanisms in terms of the displacement
velocity and acceleration at any point in a rigid link
COB 3 To be able to design some linkage mechanisms and cam systems to generate
specified output motion
COB 4 To understand the kinematics of gear trains
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the inversions and applications of a kinematic chain
CO 2 Construct the velocity and acceleration diagrams using Relative velocity
method and Instantaneous centre method
CO 3 Construct displacement diagram and profile of Cam with different types of
follower motions
CO 4 Calculate the velocities of different components of a gear train
CO 5 Explain how real time machines work and operate
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 1 1 - - - - - - - -
CO2 (K3) 2 2 1 1 - - - - - - - 1
CO3 (K4) 2 2 2 1 - - 1 - - - - 1
CO4 (K3) 3 2 2 1 - - 1 - - - - 1
CO5 (K3) 2 2 2 1 - - 1 - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Classification of mechanisms- Basic kinematic concepts and definitions- Degree of
freedom mobility- Grashofrsquos law Kinematic inversions of four bar chain and slider
crank chains-Limit positions- Mechanical advantage- Transmission angle- Description
of some common mechanisms- Quick return mechanism straight line generators-
Universal Joint- Rocker mechanisms
UNIT-II
Kinematics Plane motion of body Instantaneous centre of rotation centrode and axode
- relative motion between two bodies ndash Kennedyrsquos three centres in line theorem ndash
Graphical determination of instantaneous centre for simple bar four bar and single slider
AR19 Mechanical Engineering
Aditya Engineering College (A) 91
crank chain mechanisms and determination of angular velocity of points and links
Motion of a link in machine - Determination of Displacement velocity and acceleration
for a Simple Four Bar Mechanism Single slider crank chain mechanism Double slider
crank chain mechanism (Whitworth Quick Return Motion mechanisms)
UNIT-III
CAMS Definition and classification of cams and followers - their uses - Terminology
- Types of follower motion Uniform velocity Simple harmonic motion and uniform
acceleration and retardation Cycloidal motion for Knife edge Flat face and Roller
follower and offset follower
UNIT-IV
Power Transmission Introduction ndashModes of power transmission applications
Gears and Gear trains Classification Terminology Law of Gearing path of contact
arc of contact Interferences methods of avoiding interferences Simple gear train
compound gear train reverted gear train epicyclical gear train and Differential
UNIT-V
Practical Applications Design and fabrication of any one of the following
mechanisms Whitworth Quick Return Mechanism Oscillating Cylinder Mechanism
Elliptical Trammel ManualMotorized Scotch Yoke Mechanism Piston Bench Tapping
Machine Mini Conveyor using Geneva Mechanism Mini Hacksaw Powered by Beam
Engine
Text Books
1 Theory of Machines Thomas Bevan 3rd edition CBS Publishers amp Distributors
2005
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East-
West Press
Reference Books
1 Cleghorn WL Mechanisms of Machines Oxford University Press 2005
2 Robert L Norton Kinematics and Dynamics of Machinery Tata McGrawHill
2009
3 Ghosh A and Mallick AK Theory of Mechanisms and Machines Affiliated East
West Pvt Ltd New Delhi 1988
4 Kinematics of Machinery through Hyper Works JS Rao Springer Publ
5 Theory of Machines by Jagadishlal-Metropolitan Book Co
6 Theory of Machines by RS Khurmi and J K Gupta ndash S Chand Publishers
AR19 Mechanical Engineering
Aditya Engineering College (A) 92
THERMAL ENGINEERING-I
IV Semester L T P C
Course Code 191ME4T08 3 0 0 3
Course Objectives
COB 1 To impart the knowledge and providing holistic view on IC Engines and its
developments
COB 2 To enable the students to calculate the performance and testing of IC engines
COB 3 To fetch with SI amp CI fueling system and combustion behaviour and its
advancements to meet the stringent emission norms
COB 4 Understanding the formation and control strategies of SI and CI Engine
emissions
Course Outcomes
At the end of the Course Student will be able to
CO 1 Differentiate the ideal air standard cycles and actual thermodynamic cycles
CO 2 Evaluate the Engine performance based on the experimental data
CO 3 Analyze the fueling system and combustion behaviour of SI engine
CO 4 Analyze the fueling system and combustion behaviour of CI engine
CO 5 Explain the formation of emissions and its control strategies of bot SI amp CI
Engines
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K4) 3 3 2 2 3 3 - - - 3 3 -
CO3 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO4 (K2) 2 1 - - 2 2 - - - 3 2 -
CO5 (K3) 3 2 1 1 3 3 - - - 3 3 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) - - -
CO3 (K3) 3 - -
CO4 (K2) 2 - -
CO5 (K3) - - -
UNIT-I
Actual Cycles and Engine Construction Introduction Comparison of Air Standard
and Actual Cycles Time Loss Factor Heat Loss Factor Exhaust Blow down-Loss due
to Gas exchange process Volumetric Efficiency Loss due to Rubbing Friction Actual
and Fuel-Air Cycles of CI Engines Constructional Details of Four Stroke SI and CI
Engines Working Principle Actual Indicator Diagram Two Stroke Engine
Construction and Operation Comparison of Four Stroke and Two Stroke Engine
Operation Firing Order and Its Significance UNIT-II
ENGINE TESTING amp PERFORMANCE
Engine Performance Testing amp Numerical- methods and Performance
Characteristics
AR19 Mechanical Engineering
Aditya Engineering College (A) 93
Testing and measurement equipment- dynamometers Air amp Fuel consumption
temperature etc Variables Affecting Engine Performance Performance Maps
Lubrication and Cooling systems Introduction to Supercharging and Turbocharging
UNIT-III
SI ENGINE FUELING amp COMBUSTION
Carburetor Working Principle Requirements of an Automotive Carburetor and types
Fuel Injection Systems Pre-mixed charge combustion SI Engine Combustion
Conceptual models Thermodynamic Analysis of Combustion Cycle-to-Cycle
Combustion variations and Knocking Combustion
UNIT-IV
CI ENGINE FUELING amp COMBUSTION
Fuel Injection and Spray Structure Fuel Atomization and Droplet size distribution Sauter
Mean Diameter Spray Penetration CI Engine Combustion Conceptual Models
Conventional and Decrsquos Combustion Models Diesel Combustion Process
Characterization Ignition Delay Effect of Engine and Operational Parameters on Delay
Pre-mixed Combustion Mixing Controlled Combustion Thermodynamic Analysis
Multi Pulse Injections Introduction to Low Temperature Combustion Like
Homogeneous Charge Compression Ignition(HCCI) Fuel Stratified Charge combustion
Reactivity Controlled Compression Ignition (RCCI) Technologies Pre-mixed Charge
Compression (PCCI) and Dual fuel technologies
UNIT-V FORMATION OF ENGINE EMISSIONS amp CONTROL TECHNOLOGIES (SI amp CI)
Emission Effects on Health amp Environment Sources of Engine emissions Formation of
CO NO UBHC Soot and Particulate Matter Diesel NOx-Particulate Trade off Effect
of SI Design and operating variables Effect of Diesel Engine Design and operating
Variables SI Engine Emission Control Technology Add-on systems for treatment of
Emissions with in Engine Exhaust After treatment CI Engine Emission Control
Technology Application of EGR Exhaust after treatment and new engine technologies
for emission control
Text Books
1 IC Engines ML Mathur amp RP Sharma Dhanpath Rai amp Sons
2 Engine Emissions Pollutant Formation and Advances in Control Technology BP
Pundir Narosa Publishing House
Reference Books
1 IC Engines Fundamentals John B Heywood Mc Graw Hill Publications
2 Engineering Fundamentals of I C Engines Wiliard WPulkrabek Prentice Hall
Publications
3 Mixture Formation in Internal Combustion Engines Carsten Baumgaten Springer
Pub
4 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
Web Links
1 httpnptelacincourses112105123
2 httpnptelacincourses112108148
3 httpnptelacincourses112104113
4 httpnptelacincourses112104033
AR19 Mechanical Engineering
Aditya Engineering College (A) 94
PRODUCTION TECHNOLOGY LAB
IV Semester L T P C
Course Code 191ME4L03 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To impart knowledge of metal forming processes
COB 4 To develop the knowledge for plastics processing techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate mould making process for casting process and sand preparation
methods
CO 2 Identify basic knowledge of casting defects and their remedies
CO 3 Differentiate between various gas welding arc welding processes and Solid
state welding process
CO 4 Apply the principles of sheet-metal forming process for making a
component
CO 5 Produce the plastic object through different plastic processing techniques
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - 3 - -
CO2 (K3) 2 1 - - - 2 - - - - - -
CO3 (K4) 2 1 - - - - - - 3 3 2 -
CO4 (K5) 3 2 - - - - - - - 3 3 -
CO5 (K3) 3 2 - - - - - - - 3 3 -
Mapping of course outcomes with program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 2 1 -
CO3 (K4) 2 1 2
CO4 (K5) 3 2 -
CO5 (K3) 3 - 3
The following experiments are required to be conducted as compulsory experiments
Casting
1 To design and manufacture a Wooden Pattern for a given Casting
2 To prepare a Casting for the given Solid Pattern using Green Sand Molding
Processes
3 To Prepare a Aluminium Casting for the given Split Pattern using Green Sand
Molding Processes
Welding
4 To prepare a V Butt amp Lap Joint using Arc Welding Process
5 To prepare a lap Joint on the given work pieces using spot welding equipment
6 To prepare a V Butt Joint Using TIG Welding
7 To prepare a corner Joint amp T Joint using Arc Welding Process
AR19 Mechanical Engineering
Aditya Engineering College (A) 95
Sheet metal experiment
8 To perform the punching and blanking operation
9 To prepare a work piece using Compound die
Bulk deformation
10 To perform Bending Operation on a given pipe
Plastic Processing technique
11 To make an Air Tight Bottle Cap amp Screw type Bottle Cap by Using Injection
Moulding
12 To prepare a plastic bottle by using Blow Moulding
LIST OF AUGMENTED EXPERIMENTS
13 to 17 (Any two of the following experiments can be performed)
13 To determine the Grain size Permeability and Compressive Strength of the
Molding Sand
14 To prepare a Single Strap Butt Joint on the given work pieces using spot welding
equipment
15 To prepare a Lap Joint Using TIG welding and MIG welding
16 To study the progressive tool and perform blanking and piercing operations
17 To determine the punching force and blanking force theoretically and compare
obtained readings
Reference Books
1 Aditya Engineering College Laboratory Manual
2 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II 4th
Edition
3 Elements of Manufacturing Technology Vol II Hajra ChoudharySK amp Hajra
Web Links
1 httpwwwsmeorgfmp
2 httpscosmolearningorgcoursesmanufacturing-processes-i-538video-lectures
AR19 Mechanical Engineering
Aditya Engineering College (A) 96
COMPUTER AIDED MACHINE DRAWING
IV Semester L T P C
Course Code 191ME4L04 0 0 3 15
Course Objectives
COB 1 To impart the fundamental knowledge of machine drawing by elaborating
on how to concretize the idea of new structure such as a machine element
COB 2 To study the conventions and rules to be followed by engineers for making
accurate drawings
COB 3 To understand the basic dimensioning practices that has to be followed in
the preparation of drawings
COB 4 To inculcate the reading of the drawings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Discuss the conventional representation of materials and machine
components
CO 2 Apply the principles of engineering drawing in machine drawing
CO 3 Construct various types of temporary fasteners
CO 4 Sketch various types of permanent fasteners
CO 5 Practice assembly drawings from the given part drawings for
manufacturing
CO 6 Construct part drawings from the given assembly drawing
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - 3 - -
CO2 (K3) 3 - 1 - - - - - - 3 - -
CO3 (K3) 3 - 1 - - - - - - 3 - -
CO4 (K3) 3 - 1 - - - - - - 3 - -
CO5 (K3) 3 - 1 - - - - - - 3 - -
CO6 (K3) 3 - 1 - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - 2
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CO6 (K3) 3 - 3
UNIT-I
Machine Drawing Conventions
Need for drawing conventions ndash introduction to standard conventions
A) Conventional representation of materials common machine elements and parts such
as screws nuts bolts keys gears webs ribs
B) Types of sections ndash selection of section planes and drawing of sections and auxiliary
sectional views Parts not usually sectioned
C) Drawing of machine elements and simple parts Selection of views additional views
for the following machine elements and parts with easy drawing proportions
AR19 Mechanical Engineering
Aditya Engineering College (A) 97
i) Standard forms of screw threads bolts nuts stud bolts tap bolts set screws
ii) Keys cotter joint and knuckle joint
iii) Riveted joints for plates
iv) Shaft coupling spigot and socket pipe joint
v) Journal bearing and foot step bearing
UNIT-II
Assembly Drawings
Drawings of assembled views for the part drawings of the following using conventions
and easy drawing proportions
A) Engine parts ndash eccentric petrol engine connecting rod piston assembly
B) Other machine parts - screw jack machine vice Plummer block lathe tailstock
C) Valves- steam stop valve non-return valve and feed check valve
Production Drawing (only for Practice not for Examination)
Introduction to Limits Fitsamp Tolerances Types of Assembly systems Importance of
BOM Part drawing procedure construction of part drawings from the given assembly
drawings using conventions and easy drawing proportions Part drawings of Eccentric
Single tool post Plummer block Screw Jack
Note Sheets under unit I need to be practiced with any one basic 2D drafting software
Sheets under assembly drawing need to be practiced with any one solid modelling
software Sheets under production drawing need to be practiced with Drafting and solid
modelling software
Note for question paper Students should answer 2 questions from unit I and 1 question
from unit II Each question will have internal choice Unit I carries 20 Marks and Unit
II carries 40 Marks
Text Books
1 Machine Drawing NSiddeswarPKannaiahVVSSastry Mcgraw hill education
2
3
Machine Drawing GRNagpal Khanna publications
Machine Drawing NDBhatt
Reference Books
1 Ajeet Singh Machine Drawing includes AutoCAD McGraw Hill 2nd Edition
2 Machine drawing PSGill SKKataria amp Sons 3rd Edition
3 Goutam Pohit Goutam Ghosh Machine Drawing with AutoCAD Pearson
Education 1st Edition
Web Links
1 nptelacinsyllabus112106075
2 wwwmachinedesignonlinecom
AR19 Mechanical Engineering
Aditya Engineering College (A) 98
EMPLOYABILITY SKILLS-II (Common to all branches)
Course Objectives
COB 1 To Teach Empathy For Solving Complex Problems
COB 2 To Inculcate Reading Skills
COB 3 To Teach Competitive Written English
COB 4 To Teach Team Building ampLeadership Skills
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
UNIT-I
Aptitude Symbols ampNotations Direction test
Soft Skills Team work leadership skills
UNIT-II
Aptitude Venn Diagrams Blood Relations
Soft Skills Negotiation skills persuasionamp Negotiation stages of Negotiation
UNIT-III
Aptitude Problems on Numbers
Soft Skills Listening skills types of listening Active listening
IV Semester L T P C
Course Code 191MC4A05 0 0 2 0
CO 1 Examine the symbols notations and Venn -diagrams
CO 2 Explain Empathy to Create Positive
CO 3 Observe Different Types Of Number Systems
CO 4 Deduct the logics in the puzzles and arrangements
CO 5 Solve Ratio ampProportion Ages and Averages By Using Simple Logics
CO 6 Correlate Teambuilding ampLeadership Skills
AR19 Mechanical Engineering
Aditya Engineering College (A) 99
UNIT-IV
Aptitude Ratio ampproportion
Soft Skills Verbal Aptitude -II Idioms amp phrases
UNIT-V
Aptitude Average and Ages
Soft Skills Verbal Aptitude -III sentence Anagram Reading Comprehension
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 100
BIOLOGY FOR ENGINEERS (Common to all branches)
Course Objectives
COB 1 To introduce students to modern biology with an emphasis on evolution of
biology as a multi-disciplinary field
COB 2 To make them aware of application of engineering principles in biology
and engineering robust solutions inspired by biological examples
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K2) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K2) - - - - - - - - - - - -
CO 5 (K2) - - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K2) - - -
CO 3 (K3) - - -
CO 4 (K2) - - -
CO 5 (K2) - - -
UNIT-I
Introduction to life
Characteristics of living organisms-Basic classification-cell theory-structure of
prokaryotic and eukaryotic cell-Introduction to biomolecules definition-general
classification and important functions of carbohydrates-lipids-proteins-nucleic acids
vitamins and enzymes-genes and chromosome
UNIT-II
Biodiversity
Plant System basic concepts of plant growth-nutrition-photosynthesis and nitrogen
IV Semester L T P C
Course Code 191MC4A06 2 0 0 0
CO 1
Apply biological engineering principles procedures needed to solve real-
world problems
CO 2 Demonstrate the fundamentals of living things their classification cell
structure and biochemical constituents
CO 3 Apply the concept of plant animal and microbial systems and growth in real
life situations
CO 4 Explain genetics and the immune system to know the cause symptoms
diagnosis and treatment of common diseases
CO 5 Demonstrate basic knowledge of the applications of biological systems in
relevant industries
AR19 Mechanical Engineering
Aditya Engineering College (A) 101
fixation-Animal System elementary study of digestive-respiratory-circulatory-excretory
systems and their functions Microbial System history-types of microbes-economic
importance and control of microbes
UNIT-III
Genetics and immune system
Evolution theories of evolution-Mendelrsquos cell divisionndashmitosis and meiosis-evidence of
e laws of inheritance-variation and speciation- nucleic acids as a genetic material-central
dogma immunity antigens-antibody-immune response
UNIT-IV
Human diseases
Definition- causes symptoms diagnosis treatment and prevention of diabetes cancer
hypertension influenza AIDS and Hepatitis
UNIT-V
Biology and its industrial application
Transgenic plants and animals-stem cell and tissue engineering-bioreactors-
biopharming-recombinant vaccines-cloning-drug discovery-biological neural networks-
bioremediation-biofertilizer-biocontrolbiofilters-biosensors-biopolymers-bioenergy-
biomaterials-biochips-basic biomedical instrumentation
Text Books
1 A Text book of Biotechnology RCDubey S Chand Higher Academic
Publications 2013
2 Diseases of the Human Body Carol D Tamparo and Marcia A Lewis FA Davis
Company 2011
3 Biomedical instrumentation Technology and applications R Khandpur McGraw
Hill Professional 2004
Reference Books
1 Biology for Engineers Arthur T Johnson CRC Press Taylor and Francis 2011
2 Cell Biology and Genetics (Biology The unity and diversity of life Volume I) Cecie
Starr Ralph Taggart Christine Evers and Lisa Starr Cengage Learning 2008
3 Biotechnology Expanding horizon BD Singh Kalyani Publishers 2012
Web Links
1 httpswwwbiology-onlineorg
2 httpwwwbiologyreferencecom
3 httpwwwallexpertscombrowsecgicatLvl=2ampcatID=229
4 httpswwwlibraryqmulacuksubject-guidesbiological-sciences
AR19 Mechanical Engineering
Aditya Engineering College (A) 102
DYNAMICS OF MACHINERY
V semester L T P C
Course Code 191ME5T09 3 0 0 3
Course Objectives
COB 1 To equip the student with fundamental knowledge of dynamics of machines so
that student can appreciate problems of dynamic force balance transmissibility
of forces isolation of systems vibrations
COB 2 To develop knowledge of analytical and graphical methods for calculating
balancing of rotary and reciprocating masses
COB 3 To develop understanding of vibrations and its significance on engineering
design
COB 4 To develop understanding of dynamic balancing flywheel analysis gyroscopic
forces and moments
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze stabilization of sea vehicles aircrafts and automobile vehicles
CO 2 Compute frictional losses and torque transmission of mechanical systems
CO 3 Calculate the dynamic forces acting on the flywheels and governors
CO 4 Apply analytical and graphical methods of calculating balancing of rotary and
reciprocating masses
CO 5 Determine the natural frequencies of vibrating system
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - 1
CO2 (K3) 3 2 2 1 - - - - - - - 1
CO3 (K3) 2 2 2 1 - - - - - - - 1
CO4 (K4) 2 2 2 1 - - - - - - - 1
CO5 (K3) 2 2 2 1 - - - - - - - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K4) 1 - -
CO5 (K3) 1 - -
UNIT-I
Precession Gyroscopes effect of precession motion on the stability of moving vehicles
such as motor car motor cycle aero planes and ships (Demonstration of models in video
show)
UNIT-II
Clutches Friction clutches- uniform pressure uniform wear single disc or plate clutch
multiple disc clutch cone clutch centrifugal clutch
Brakes And Dynamometers Simple block brakes internal expanding brake band brake
AR19 Mechanical Engineering
Aditya Engineering College (A) 103
of vehicle General description and operation of dynamometers Prony Rope brake
Epicyclic Bevis Gibson and belt transmission
UNIT-III
Turning Moment Diagrams Dynamic force analysis of slider crank mechanism inertia
torque angular velocity and acceleration of connecting rod crank effort and turning
moment diagrams ndash fluctuation of energy ndash fly wheels and their design
Governers Watt porter and proell governors spring loaded governorsndash Hartnell and
Hartung with auxiliary springs Sensitiveness isochronism and hunting
UNIT-IV
Balancing Balancing of rotating masses single and multiple ndash single and different planes
use analytical and graphical methods Primary secondary and higher balancing of
reciprocating masses Analytical and graphical methods unbalanced forces and couples
locomotive balancing hammer blow swaying couple variation of tractive effort
UNIT-V
Vibrations Free and forced vibration of single degree of freedom systems effect of
damping vibration isolation and transmissibility resonance critical speeds of shafts
Text Books
1 Theory of machines- Thomas Bevan
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of machines and mechanisms ndash PLBallaney-Khanna publications
Reference Books
1 Theory of Machines ndash Sadhu Singh Pearsons Edn
2 Mechanical Vibrations ndash G K Grover
3 Mechanism and Machine Theory - JSRao RV Dukkipati New Age
4
5
Mechanism and Machine Theory ndash Ashok G Ambekar PHI Publication
Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East- West
Press
Web Links
1 httpswwwslidesharenethareeshangunit-7-gyroscope
2 httpwwwsvecweduinDocs5CMEDMLNotes2013pdf
3 httpswwwvidyarthipluscomvpattachmentphp
4 httpnptelacindownloads112101096
AR19 Mechanical Engineering
Aditya Engineering College (A) 104
DESIGN OF MACHINE MEMBERS-I
V Semester L T P C
Course Code 191ME5T10 3 0 0 3
Course Objectives
COB 1 To illustrate the design function in mechanical engineering the steps involved
in designing and the relation of design activity with manufacturing activity
COB 2 To enable the student select proper materials for different machine elements
based on their mechanical properties
COB 3 To impart knowledge about various theories of failure to design a machine
component
COB 4 To teach the student to estimate the strength of machine elements
COB 5 To make the student learn the design procedure for the different machine
elements such as fasteners shafts couplings keys axially loaded joints etc
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the design procedure to engineering problems including the consideration
of technical and manufacturing constraints
CO 2 Evaluate the strength stiffness and fatigue of machine elements
CO 3 Analyze various types of stresses on mechanical components subjected to both
static and dynamic loads
CO 4 Explain the design of fasteners subjected to eccentric amp fluctuating loads
CO 5 Calculate the design parameters of various components like springs and pressure
vessels
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 3 - 3 - - 3 -
CO2 (K5) 2 2 3 3 - - - - - - - -
CO3 (K4) 2 3 2 2 - - - - - - - -
CO4 (K4) 2 2 2 2 - - - - - - - -
CO5 (K3) 3 2 1 1 3 3 - 3 - - 3 -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K5) 3 - -
CO3 (K4) 3 - -
CO4 (K4) 3 - -
CO5 (K3) - 2 -
UNIT-I
Introduction to Machine Design
Introduction to machine design- Engineering Materials and their properties ndash selection
ndashManufacturing considerations in design- Preferred numbers- BIS Codes ndash Combined
Stresses - Complex Stresses - Stresses on an inclined plane under different uniaxial and
biaxial stress conditions - Principal planes and principal stresses - Mohrrsquos circle -
various theories of failure
AR19 Mechanical Engineering
Aditya Engineering College (A) 105
UNIT-II
Design Under Fluctuating Stresses
Stress concentration ndashTheoretical Stress Concentration Factor ndash Fatigue Stress
Concentration Factor - Notch Sensitivity ndash Design for fluctuating stresses ndash Endurance
limit ndashEstimation of endurance strength ndash Goodmanrsquos line ndash Soderbergrsquos line ndash Modified
Goodmanrsquos line
Design of Shafts
Design of solid and hollow shafts for strength and rigidity ndash Design of shafts for
combined bending and axial loads ndash shaft sizes - Design of shafts for gear and belt
drives
UNIT-III
Design of Keys and Couplings
Design of keys-stresses in keys- Rigid couplings ndash Muff Split muff and Flange
couplings-Flexible couplings ndash Flange coupling (Modified)
Cotter amp Knuckle Joints
Spigot and socket Sleeve and cotter Jib and cotter joints- Knuckle joints
UNIT-IV
Design of Fasteners
Riveted and welded joints ndash Design of joints with initial stresses ndash Eccentric loading
Bolted joints ndash Design of bolts with pre-stresses ndash Design of joints under eccentric
loading ndash Locking devices ndash Bolts of uniform strength Different seals
UNIT-V
Springs
Stresses and deflections of helical springs ndash Extension -Compression springs ndash Springs
for fatigue loading Energy storage capacity ndash Helical torsion springs ndash Co-axial springs
Leaf springs
Pressure Vessels
Thin seamless cylindrical shells ndash Derivation of formula for longitudinal and
circumferential stresses ndash Hoop Longitudinal and Volumetric strains ndash Changes in
diameter and volume of thin cylinders ndash Riveted boiler shells ndash Thin spherical shells -
Thick Cylinders- Lamersquos equation ndash Cylinders subjected to inside amp outside pressures
ndashCompound cylinders
Note Design data books are not allowed for End Semester Examinations
Text Books
1 Design of Machine Elements VBBhandari TMH Publishers 4th Edition
2 Machine Design Pandya amp Shah Charothar Publishers 17th Edition
Reference Books
1 Mechanical Engineering Design JEShigley amp CRMischkie Tata McGraw Hill
3rd Edition
2 Machine Design Sundararajamoorthy TVamp ShanmugamN Anuradha
Publications
3 Design of Machine Elements MFSpotts Pearson Education 8th Edition
4 Design Data PSG College of Technology Kalaikathir Achchagam Publishers 2nd
Edition
5 Design Data Hand Book SMdJalaludeen Anuradha Publications
AR19 Mechanical Engineering
Aditya Engineering College (A) 106
Web Links
1 httpnptelacincoursesWebcourse contents IIT 20Kharagpur Machine20
design1 New_index1html
2 httpwwwnptelacindownloads112105125
3 httpwwwalljntuworldindownloaddesign-machine-members-1-dmm-1-
materials- notes
4 wwwjntumaterialscoin201504jntujntuk-design-of-machine-members-ihtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 107
THERMAL ENGINEERING - II
V Semester L T P C
Course Code 191ME5T11 3 0 0 3
Course Objectives
COB 1 To develop basic knowledge of students on Rankine cycles
COB 2 To provide sufficient knowledge on Boilers and chimneys to the students
COB 3 To enable studentsrsquo knowledge on steam nozzles and steam turbines
COB 4 To improve the knowledge of students on steam formation process
COB 5 To provide sufficient knowledge to the students on gas turbines and its
application
Course Outcomes At the end of the Course Student will be able to
CO 1 Apply different methods used to improve the efficiency of Rankine Cycle
CO 2 Solve problems related to boiler efficiency and chimney
CO 3 Analyze the performance of Steam nozzles and steam turbines
CO 4 Distinguish different types of condenser used in a steam power plant
CO 5 Explain the methods to increase the performance of Gas Turbine and its
applications
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - 1
CO3 (K4) 3 3 - - - - - - - - - 1
CO4 (K4) 3 3 - - - - - - - - - -
CO5 (K4) 3 3 - - - - - - - - - 2
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 2 - -
CO3 (K4) 2 - -
CO4 (K4) 2 - -
CO5 (K4) 2 - -
UNIT-I
Introduction to Steam Power Cycles
Rankine cycle Schematic layout Thermodynamic analysis Methods to improve cycle
performance ndash Regeneration amp reheating
Combustion Fuels and combustion Concepts of heat of reaction Adiabatic flame
temperature Stoichiometry and flue gas analysis
UNIT-II
Boilers amp Draught
Classification Working principles of LP amp HP boilers with sketches mountings and
accessories Working principles Boiler horse power Equivalent evaporation Efficiency
and heat balance
Draught Classification height of chimney for given draught and discharge Condition
for maximum discharge Efficiency of chimney Artificial draught Induced and Forced
draught
AR19 Mechanical Engineering
Aditya Engineering College (A) 108
UNIT-III
Steam Nozzles
Function of a nozzle applications types Flow through nozzles and thermodynamic
analysis assumptions velocity of fluid at nozzle exit - Ideal and actual expansion in a
nozzle Velocity coefficient and condition for maximum discharge Critical pressure
ratio Super saturated flow and its effects Degree of super saturation and Degree of under
cooling Wilson line
Steam Turbines
Classification Impulse turbine-Mechanical details velocity diagram effect of friction
power developed Axial thrust Blade or diagram efficiency condition for maximum
efficiency De-Laval turbine methods to reduce rotor speed-Velocity compounding
Pressure compounding and velocity amp pressure compounding Velocity and pressure
variation along the flow combined velocity diagram for a velocity compounded impulse
turbine Condition for maximum efficiency
UNIT-IV
Reaction Turbine
Mechanical details principle of operation Thermodynamic analysis of a stage Degree
of reaction velocity diagram Parsonrsquos reaction turbine Condition for maximum
efficiency Calculation of blade height
Steam Condensers
Requirements of steam condensing plant Classification of condensers working principle
of different types vacuum efficiency and condenser efficiency air leakage Sources and
its affects Air pump cooling water requirement
UNIT-V
Gas Turbines
Simple gas turbine plant Ideal cycle Essential components parameters of performance
Actual cycle Regeneration Inter cooling and reheating Closed and semi-closed cycles
Merits and demerits Types of combustion chambers
Jet Propulsion
Principle of operation Classification of jet propulsive engines Working principles with
schematic diagrams and representation on T-S diagram thrust thrust power and
propulsion efficiency turbo jet engines - schematic diagram Thermodynamic cycle
Performance evaluation Thrust augmentation methods ndash Simple Problems
Rockets
Application working principle Classification propellant type thrust Propulsive
efficiency specific impulse Solid and Liquid propellant rocket engines
Text Books
1 Thermodynamics and Heat Engines Volume- II RYadav Central publishing house
6th Edition
2 Heat Engineering VP Vasandani and DS Kumar Metropolitan Book Company 6th
Edition
Reference Books 1 Thermal Engineering PLBallaney Khanna publishers25th Edition
2 Thermal Engineering MLMathur amp Mehta Jain bros 6th Edition
3 Gas Turbines V Ganesan Tata McGraw-Hill Education 3th Edition
4 Thermal Engineering RK Rajput Laxmi Publications 10th Edition
AR19 Mechanical Engineering
Aditya Engineering College (A) 109
Web Links 1 httpsnptelacincourses112103112103277
2 httpnptelacincourses112106166
3 httphomeiitkacin~sullerlectureslec29htm
AR19 Mechanical Engineering
Aditya Engineering College (A) 110
AUTOMOBILE ENGINEERING (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E01 3 0 0 3
Course Objectives
COB 1 To equip the students with fundamental working principles and technologies
in automotive engineering
COB 2 To introduce basic and entry level theories and terminology
COB 3 To make aware of the importance of transmission system
COB 4 To impart the principles of automobile systems sub systems and provides
the salient features of safety of automobiles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Summarize the Vehicle Chassis Layouts of 4-wheelers and Motor Vehicle
Act
CO 2 Identify the different constructional features and working principles of Un-
Sprung components of the given vehicle
CO 3 Identify the different constructional features and working principles Sprung
components of the given vehicle
CO 4 Summarize the functionalities of various Electrical systems of typical
Automobile
CO 5 Explain the different Active and Passive Vehicle Safety Systems
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
CO 1(K2) 2 1 - - - - 3 - 3 3
CO 2(K3) 2 1 - - - - 3 - - 3
CO 3(K3) 2 1 - - - - - - - 3
CO 4(K2) 2 1 - - - - - - 3 3
CO 5(K3) 3 2 - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 K2) 3 - -
CO 2(K3) 2 - -
CO 3(K3) 2 - -
CO 4(K2) 2 - -
CO 5(K3) 3 - 3
UNIT-I
Introduction
Components of four wheeler automobile ndash chassis and body ndashChassis Layout - power
transmission ndash rear wheel drive front wheel drive 4 wheel drive and Motor Vehicle Act
1988 ndash Legal AspectsCompliance of Automotive
Vehicles Introduction to Motor Vehicle Act Registration of Vehicles Inspection and
Fitness of vehicles and Homologation of Vehicles
UNIT ndash II
Transmission System
Clutches principle types gear boxes types Propeller shaft ndashHotch ndash Kiss drive
AR19 Mechanical Engineering
Aditya Engineering College (A) 111
Torque tube drive universal joint differential rear axlesndash types
Steering System
Steering geometry ndash camber castor king pin rake combined angle toe-in toe-out
center point steering Types of steering mechanism ndashAckerman steering mechanism
Davis steering mechanism steering linkages
UNIT ndash III
Suspension System
Objects of suspension systems ndash rigid axle suspension system torsion bar shock
absorber Independent suspension system Air Suspension Rubber Suspension
Hydrolastic suspension system Hydragas suspension system
Braking System
Mechanical braking system hydraulic braking system requirement of brake fluid
pneumatic and vacuum brakes Parking Braking system
UNIT ndash IV
Wheels And Tyres
Basic Requirements of Wheels and Tyres Construction of Wheel Assembly Tyre
Construction Types Tyre Sizes and Designation Aspect Ratio Tyre Tread Pattern
Selection of Tyre under Different Applications
UNIT ndash V
Electrical System
Charging circuit generator starting system lighting horn wiper fuel gauge oil
pressure gauge engine temperature indicator
Safety Systems
Introduction safety systems - seat belt air bags bumper anti-lock brake system (ABS)
Electronic Brake force Distribution (EBD) mirrors central locking speed control
Retractable Steering system Head restraints seats with anti-submarine effects and fuel
cut off switch
Text Books
1 Automobile Engineering Vol 1 Dr Kirpal Singh Standard Publishers13th
Edition
2 Automotive Mechanics William H Crouse TMH Distributors10th Edition
Reference Books
1 Advanced vehicle Technology by Heinz Heisher 2nd BH Pub
2 Automotive Chassis by Jonsen Reimpell BH Pub
3 Automobile Electrical amp Electronics by Tom Denton 3rd Elsevier Pub
4 The Motor Vehicle Act 1988 Bare Act with Amendments Law Literature
Publication
5 The Central Motor Vehicle Rules 1989 Bare Act with short notes Lexis Nexis
Publications
Web Links
1 httpsnptelacincourses125106002
2 httpswwwautomotive-onlinecom
3 https sciencelinksjpj-eastarticle
4 https wwwsciencedirectcomsciencebook9780750650540
AR19 Mechanical Engineering
Aditya Engineering College (A) 112
COMPOSITE MATERIALS
(Professional Elective-I)
V Semester L T P C
Course Code 191ME5E02 3 0 0 3
Course Objectives
COB 1 To make the student aware about the composite materials Matrix fibers etc
COB 2 To make the student classify the composites based on the matrix material
COB 3 To make the student classify the composites based on the reinforcements
COB 4 To enable the student determine the strength of an orthotropic laminate
COB 5 To make the student determine stiffness and strength of unidirectional
composites
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain about the composite materials matrix fibers etc
CO 2 Select the composites based on the matrix materials
CO 3 Select the composites based on the reinforcements
CO 4 Calculate the stress and strain of various types of laminates
CO 5 Evaluate stiffness and strength of unidirectional composites
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 1 - - - - - - - - 1 - 1
CO2 (K4) 3 - - - - - - - - 1 - 1
CO3 (K4) 3 - - - - - - - - 1 - 1
CO4 (K3) 3 2 2 2 - - - - - 1 - 1
CO5 (K5) 3 3 3 3 - - - - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 1 - -
CO2 (K4) 3 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 - -
UNIT-I
Introduction Definitions Composites Reinforcements and matrices Types of
reinforcements Matrix materials Functions of a Matrix Desired Properties of a
Matrix Types of composites Carbon Fibre composites Properties of composites in comparison with standard materials Applications of metal ceramic and polymer
matrix composites Role and Selection or reinforcement materials Types of fibres
Glass fibers Carbon fibers Aramid fibers Metal fibers Alumina fibers Boron Fibers
Silicon carbide fibers Quartz and Silica fibers Multiphase fibers Whiskers Flakes
etc Mechanical properties of fibres Advantages and limitations of composite
materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 113
UNIT-II
Classification based on Matrix Material
Organic Matrix composites Polymer matrix composites (PMC) Carbon matrix
Composites or Carbon-Carbon Composites Metal matrix composites (MMC) Ceramic
matrix composites (CMC)
Classification based on reinforcements Fiber Reinforced Composites Fiber
Reinforced Polymer (FRP) Composites Laminar Composites Particulate Composites
Comparison with Metals Advantages amp limitations of Fiber Reinforced Composites
UNIT-III Fabrication methods of composites
UNIT-IV
Laminates Plate Stiffness and Compliance Assumptions Strains Stress Resultants
Plate Stiffness and Compliance Computation of Stresses Types of Laminates -
Symmetric Laminates Anti-symmetric Laminate Balanced Laminate Quasi-isotropic
Laminates Cross-ply Laminate Angle-ply Laminate Strength of an orthotropic
Laminate Laminate Moduli Hygro thermal Stresses
UNIT-V
Mechanical Properties -Stiffness and Strength Geometrical aspects ndash volume and
weight fraction Unidirectional continuous fibre discontinuous fibers Short fiber
systems woven reinforcements ndashMechanical Testing Determination of stiffness and
strengths of unidirectional composites tension compression flexure and shear
Text Books
1 Composite materials Production properties testing and applications
K Srinivasan Alpha science international ltd
2 Mechanics of composite materials Robert M Jones CRC Press 2nd Edition
Reference Books
1 Composite materials Engineering and Science FL Matthews and R D
Rawlings Woodhead publishing
2 Composite materials Design and applications Daniel Gay CRC Press 3rd
Edition
3 Composite materials Krishan K Chawla Springer Publication 3rd Edition
4 Laminar composites George H Staab Elsevier Science amp Technology
Web Links
1 httpsnptelacincourses112104112104229
2 httpsnptelacincontentstorage2courses105108124pdfLecture_NotesLN
m1pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 114
FLUID ENGINEERING (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E03 3 0 0 3
Course Objectives
COB 1 To make students learn about different types of compressors and to calculate
power and efficiency
COB 2 Understand the concepts of hydraulic machines and their applications
COB 3 Understand the working principle of centrifugal pump and its characteristics
COB 4 Understand the principle of reciprocating pump
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the working of various types of reciprocating compressor
CO 2 Evaluate efficiency of various types of rotary compressors
CO 3 Compare different types of Turbines and its characteristics
CO 4 Explain the working principle of Centrifugal Pump
CO 5 Explain the working principle Reciprocating Pump
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - 3 -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT ndashI
Compressors Classification Positive displacement and roto dynamic machinery
Power producing and power absorbing machines Fan Blower and Compressor
Positive displacement and dynamic types Reciprocating and rotary types
Reciprocating Compressor Principle of operation Work required Isothermal
efficiency Volumetric efficiency and effect of clearance Multi stage compression
Under cooling Saving of work Minimum work condition for two stage compression
UNIT-II
Rotary Compressor (Positive Displacement Type) Roots Blower Vane sealed
compressor Lysholm compressor Mechanical details and Principle of working
Efficiency considerations
Centrifugal Compressors Mechanical details and principle of operation Velocity and
AR19 Mechanical Engineering
Aditya Engineering College (A) 115
pressure variation Energy transfer-Impeller blade shape-losses Slip factor Power
input factor Pressure coefficient and adiabatic coefficient Velocity diagrams Power
Axial Flow Compressors Mechanical details and principle of operation Velocity
triangles and energy transfer per stage degree of reaction Work done factor - Isentropic
efficiency- Pressure rise calculations Polytropic efficiency
UNIT-III
Hydraulic Machines Turbines
Velocity Triangles and Work done for a Pelton Wheel Design of Pelton Wheel Radial
Flow reaction Turbines- Inward amp Outward Degree of reaction Francis Turbine Axial
Flow Reaction Turbines Draft Tube Specific Speed Unit Quantities Characteristic
curves of Hydraulic turbines and governing of turbines
UNIT-IV
Centrifugal Pumps
Work done by the Centrifugal Pump Heads and efficiencies Minimum speed to start
Multistage Specific speed Model testing Priming Characteristic curves Cavitation
Maximum suction Lift Net positive Suction Head
UNIT-V
Reciprocating Pumps
Discharge Work done and power required calculations Slip Variation of velocity and
acceleration in suction and delivery pipes Effect of variation of velocity on friction in
the suction and delivery pipes Indicator diagram Air vessels and Comparison of
Centrifugal and Reciprocating Pumps
Text Books
1 Heat EnginesVP Vasandani amp DS Kumar Metropolitan Book Co Pvt Ltd
4th Edition
2 Fluid Mechanics and Hydraulic Machines RK Bansal Laxmi Publications (P)
Ltd 9th Edition
Reference Books
1 Thermal Engineering RK Rajput Lakshmi Publications 10th Edition
2 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
3 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
4 Hydraulics and Fluid mechanics including Hydraulics machines by PNModiamp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
5 Mechanics of fluids by Bernard Massey 9th Edition CRC Press 2019
Web Links
1 httpnptelacincourses112104033
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 116
MECHANICAL VIBRATIONS (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E04 3 0 0 3
Course Objectives
COB 1 To analyze the various 1-D periodic and periodic responses of a vibrating
system with and without damping
COB 2 To derive the equations of motion and solution for Two and multi degree
freedom systems by the application of analytical methods
COB 3 To understand the numerical methods for quick estimation of 1st natural
frequency of multi degree freedom systems
COB 4 Have the knowledge of the various physical vibration measuring
instruments
COB 5 To solve vibrations problems of continuous systems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the various 1-D periodic and periodic responses of an vibrating
system with and without damping and damping mechanisms
CO 2 Find solutions for two degree freedom systems with and without damping
for free and forced vibrations
CO 3 Derive solutions for Multi-degree freedom systems emphasing on modal
analysis techniques
CO 4 Estimate 1st natural frequency of multi degree freedom systems
CO 5 Apply the knowledge of the various physical vibration measuring
instruments and their applications in real life vibration data acquisition
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - -
CO2 (K3) 3 2 2 1 - - - - - - - -
CO3 (K3) 2 2 2 1 - - - - - - - -
CO4 (K3) 2 2 2 1 - - - - - - - -
CO5 (K3) 2 2 2 1 - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Single degree of Freedom systems Undamped and damped free vibrations forced
vibrations coulomb damping Response to harmonic excitation rotating unbalance and
AR19 Mechanical Engineering
Aditya Engineering College (A) 117
support excitation Vibration isolation and transmissibility
UNIT-II
Vibration Measurement Vibrometers velocity meters amp accelerometers
Two degree of freedom systems Principal modes ndash undamped and damped free and forced
vibrations undamped vibration absorbers
UNIT-III
Multi degree of freedom systems Matrix formulation stiffness and flexibility influence
coefficients Eigen value problem normal modes and their properties Free and forced
vibration by Modal analysis Method of matrix inversion Torsional vibrations of multi ndash
rotor systems and geared systems Discrete Time systems
UNIT-IV
Numerical Methods Rayleighrsquos stodolarsquos Matrix iteration Rayleigh-Ritz Method and
Holzerrsquos methods
UNIT-V
Application of concepts Free vibration of strings ndash longitudinal oscillations of bars-
transverse vibrations of beams- Torsional vibrations of shafts Critical speeds without and
with damping secondary critical speed
Text Books
1 Theory of Vibrations with Applications 5th Edition William T Thomson Marie
Dillon Dahleh Chandramouli Padmanabhan John Vlissides
2 Mechanical Vibrations 8th Edition ndash GK Grover
Reference Books
1 Vibration problems in Engineering by SP Timoshenko
2 Mechanical Vibrations ndash Schaum series
3 Mechanical Vibrations 4th Edition Singiresu S Rao
4 Vibration and Acoustics 1st Edition C Sujatha
5 Elements of Vibration Analysis by Meirovitch
AR19 Mechanical Engineering
Aditya Engineering College (A) 118
METROLOGY amp INSTRUMENTATION (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E05 3 0 0 3
Course Objectives
COB 1 To make the students understand the working of linear and angular measuring
instruments
COB 2 To familiarize with the working of optical measuring instruments and
fundamentals of limits and limit gauges
COB 3 To teach the basic idea about various methods for measurement of screw
thread and surface finish parameters
COB 4 To provide students an overview of mechanical measurements systems and
principle of instrument for motion and dimension measurement
COB 5 To provide basic idea about working principle and applications of devices
for measurement of temperature pressure flow level stress and strain
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concept of systems of limits and fits and theory of linear and
angular measurement
CO 2 Explain the surface roughness measurement screw thread measurement and
gear measurement
CO 3 Explain the concepts of machine tool alignments
CO 4 Select appropriate elements of a measurement system and select instruments
for displacement measurement
CO 5 Select instruments for temperature pressure and flow measurement
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - 1 - - - - - - 2 -
CO2 (K2) 2 1 - 1 - - - - - - 2 -
CO3 (K3) 3 2 - 1 - - - - - - 3 -
CO4 (K4) 2 3 - 2 - - - - - - 3 -
CO5 (K4) 2 3 - 2 - - - - - - 2 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K5) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 1 -
CO2 (K2) - 1 -
CO3 (K3) - 2 -
CO4 (K4) - 3 -
CO5 (K4) - 3 -
UNIT- I
Linear and Angular Measurements Limits and Fits
ISO system Fits and Types of interchangeability Taylorrsquos Principle or plain limit
gauges Use of Plug Ring and Snap gauges Indicating type limit gauges Introduction-
Linear and Angular measurements - Slip gauges and End bars - Gauge material and
manufacturing methods Different types of Micrometers Height gauges Tomlinson
AR19 Mechanical Engineering
Aditya Engineering College (A) 119
gauges Precision polygon Sine bar Auto collimator
UNIT- II
Optical Measurement and Comparators
Dial indicator Sigma and Mechanical comparator Free flow and Back pressure type
Pneumatic comparator Application of set jet gauge heads Optical projector Chart
screen gauges and measuring methods Micro gauge bridge lines Tool makerrsquos
Microscope applications Measurement of Straightness and- Flatness Roundness
measurement with bench centers and talyround Coordinate Measuring Machine in
components geometries
UNIT- III
Surface Roughness Measurements and Gear tooth measurement
Parameters as per ISO indices Profilometer Taylor Hobson Talysurf Application of Thread metrology - 2 wire and 3 Wire methods Gear measurement - Gear tooth
thickness Parkinson gear tester General geometric tests for testing machine tools-Lathe drill mill
UNIT- IV
Displacement and Strain Measurement
Elements of instrumentation system Static and Dynamic characteristics Types of errors
Displacement transducers LVDT Strain measurement - Wire and foil type resistance strain gauges Rosette Gauges Bonding procedure Lead resistance compensation
Adjacent arm and self compensating gauges Proving ring Strain gauge load cells measurement of axial load and torsion by strain gauges Piezo electric load cell
UNIT- V
Temperature Pressure and Flow Measurement
Introduction to Seismic Transducers - displacement and acceleration measurement
Pressure measurement - Bourdon pressure gauge bulk modulus gauge pirani gauge
Temperature measurement by thermo couples Laws of thermo electricity Types of
materials used in thermocouples Rotameter magnetic ultrasonic turbine flow meter
hot ndash wire anemometer laser Doppler anemometer (LDA) dynamometers
Text Books
1 Dimensional MetrologyConnie Dotson Cengage Learning2016
2 Measurement System Applications and Design DSKumar Metropolitian book Co
pvtlmtd 1st edition
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers 2008
2 Engineering Metrology ICGupta Dhanpat Rai Publishers 2018
3 Mechanical and Industrial Measurements RK Jain Khanna Publishers 2008
4 Instrumentation measurement amp analysis BCNakra amp KKChoudhary TMH
2008
Web Links
1 httpsnptelacincourses112106179
2 httpswwwslidesharenetengrnoumanmetrology-measurement
3 httpwwwmetrologypggdapl
4 httpsindiaoupcomproductengineering-metrology
AR19 Mechanical Engineering
Aditya Engineering College (A) 120
ORGANIZATIONAL BEHAVIOUR
(Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E06 3 0 0 3
Course Objectives
COB 1 To make the students understand the factors affecting the individual behavior
and its impact on organizational behavior
COB 2 To impart the knowledge on management and the way it is performed in the
organizations
COB 3 To familiarize the students with the basic concepts of stress and emotions
the contributions of various managerial issues in the organization
COB 4 To obtain students of frameworks and tools to effectively analyze and
approach various organizational situations
COB 5 To intended to help the students to gain a solid understanding of human
behavior in the workplace from an individual group and organizational
perspective
Course Outcomes
At the end of the Course Student will be able to
CO 1
Explain the OB a range of organizational behavior models key elements and
roles of OB
CO 2 Analyze the behavior of individuals and groups in organizations in terms of
organizational behavior interpersonal behavior and personality traits
concepts
CO 3 Utilize various stress and emotional organizational behavior concepts
models and theories to real life management situations through case analysis
CO 4 Make use of organizational communication and organization culture to
understanding of organizational communication and culture to cope up with
the organization better way
CO 5 Classify the different groups and teams in the organization and its features
for dealing these groups in a good way for better result and motivate them
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 1 - 1 -
CO2 (K3) - - - - - - - - - 1 - 1
CO3 (K4) - - - - - - - - 1 - - -
CO4 (K3) - - - - - - - - - 1 1 -
CO5 (K3) - - - - - - - - - 1 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 121
UNIT-I
Organizational Behavior Concept of Organizational Behavior (OB)-
Importance of Organizational Behaviour- Key Elements of Organizational
Behavior Role of Managers in OB- Interpersonal Roles-Informational Roles-
Decisional Roles Foundations or Approaches to Organizational Behavior
Challenges and Opportunities for OB
UNIT-II
Interpersonal Behavior Nature and meaning of Interpersonal Behavior
Concept of Self Transaction Analysis (TA) Benefits and uses of Transactional
Analysis Johari Window Model
Personality Definition and Meaning of Personality - Importance of Personality
Determinants of Personality Theories of Personality Personality Traits
Influencing OB
UNIT-III
Emotions Nature and Meaning of Emotions - Characteristics of Emotions
Theories of Emotions Emotions in the Context of OB
Organizational Stress Definition and Meaning Sources of Stress Types of
Stress Impact of Stress on Organizations Stress Management Techniques
UNIT-IV
Organizational Communication Meaning and Importance of Communication
FunctionsprocesstypesInterpersonalCommunicationOrganizational
Communication Tips for Effective Communication
Organization Culture Meaning and Nature of Organization Culture - Origin of
Organization Culture Functions of Organization Culture Types of Culture
Creating and Maintaining Organization Culture Managing Cultural Diversity
UNIT-V
Groups and Teams Meaning and Importance of Groups Reasons for Group
Formation Types of Groups Stages of Group Development Meaning and
Importance of Teams Types of Teams Creating an Effective Team
Text Books
1 K Ashwathappa Organizational Behavior Himalaya Publishing House 2005
2 DrPSubba Rao and Prof NSambasiva RaordquoManagement and Organizational
Behaviour - (Text and Cases)rdquo Himalaya Publishing House Mumbai
Reference Books
1 Udai Pareek Understanding Organisational Behaviour 2nd Edition Oxford
Higher Education 2004
2 Mc Shane amp Von Glinov Organisational Behaviour 4th Edition Tata Mc Graw
Hill 2007
3 Anjali Ghanekar Organizational Behavior Everest Publications 2001
4 PareekUdai ldquoUnderstanding Organizational Behaviorrdquo Oxford University Press
New Delhi 2007
Web Links
1 httpswwwyoutubecomwatchv=JIa7vP3gyL4
2 httpswwwyoutubecomwatchv=-sLHfYnxh8samplist =PLbMVog Vj5Njqyx
oO3foSZ6CrU7aCCwTsb
3 httpswwwyoutubecomwatchv=YIyjkkUk80w
AR19 Mechanical Engineering
Aditya Engineering College (A) 122
BASIC CONCRETE TECHNOLOGY (Open Elective ndashI)
V Semester L T P C
Course Code 191CE5O01 3 0 0 3
Course Objectives
COB 1 To teach the students about the properties of ingredients in concrete
COB 2 To enable the student understand different types and properties of aggregate
COB 3 To make the students to study the behaviour of concrete as its fresh and
hardened state
COB 4 To impart the students with the knowledge on quality control of concrete
COB 5 To illustrate the concept of special concrete and their use
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the basic concepts of concrete
CO 2 Explain the properties of ingredients of concrete
CO 3 Select the suitability of different types of aggregate for their use
CO 4 Explain about fresh Concrete hardened concrete
CO 5 Illustrate the concept of special concrete and their use
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K2) 2 1 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Cement amp Admixtures
Portland cement ndash Chemical composition ndashHydration Setting of cement Fineness of
cementndash Test for physical properties ndash Different grades of cements ndashAdmixtures ndash
Mineral and chemical admixtures ndash accelerators retarders air entrainers plasticizers
super plasticizers fly ash and silica fume
UNIT-II
Aggregates
Classification of aggregate ndash Particle shape amp texture ndash Bond strength amp other
mechanical properties of aggregates ndash Specific gravity Bulk density porosity adsorption
amp moisture content of aggregate ndash Bulking of sand ndashDeleterious substance in aggregate ndash
Soundness of aggregatendash Thermal properties ndash Sieve analysis ndash Fineness modulus ndash
Grading curves ndash Grading of fine amp coarse Aggregates ndash Gap graded and well graded
AR19 Mechanical Engineering
Aditya Engineering College (A) 123
aggregate as per relevant IS code ndash Maximum aggregate size Quality of mixing water
UNIT-III
Fresh Concrete
Steps in Manufacture of Concretendashproportion mixing placing compaction finishing
curing ndash including various types in each stage Properties of fresh concrete-Workability ndash
Factors affecting workability ndash Measurement of workability by different tests Effect of
time and temperature on workability ndash Segregation amp bleeding
UNIT-IV
Hardened Concrete
Nature of strength of concretendash Factors affecting strength ndash Relation between compression
amp tensile strength ndashTesting of Hardened Concrete Compression tests ndash Tension tests ndash
Flexure tests ndashSplitting tests ndash Non-destructive testing methods
UNIT-V
Special Concretes
Light weight aggregate concrete Cellular concrete No-fines concrete High density
concrete Fiber reinforced concrete Different types of fibers Factors affecting properties
of FRC Polymer concrete Types of Polymer concrete Properties of polymer concrete
High performance concrete ndash Self consolidating concrete SIFCON self healing concrete
Recycled concrete Shotcrete
Text Books
1 Concrete Technology MSShetty Chand Publication 6th Edition 2010
2 Concrete Technology Theory and Practice ML Gambhir McGraw Hill 4th Edition
2009
3 Concrete Microstructure Properties and Materials Kumar Mehta and Paulo JM
Monteiro McGraw Hill 3rd Edition 2006
Reference Books
1 Properties of Concrete AM Neville Pearson 2004
2 Concrete Technology AM Neville and JJ Brooks Pearson 2004
3 Concrete S Mindess and JF Young Prentice-Hall 1981
4 Concrete Technology AR Santhakumar Oxford 2007
Web Links
1 httpsnptelacincourses105102012
2 wwwbrighthubengineeringcom rsaquo Concrete Technology
3 httpswwwmaterialsworldmodulesorgindexphpweb-links-sumitted-by-
members
4 httpswwwfhwadotgovresourcecenterteamsconstructionlinkscfm
5 wwwalmahrooscomindexphpfrcomponenttagstag17-concrete-technology
AR19 Mechanical Engineering
Aditya Engineering College (A) 124
ELECTRICAL SAFETY (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O01 3 0 0 3
Course Objectives
COB 1 To help the students to know about electrical hazards
COB 2 To help the students to know about various grounding techniques
COB 3 To help the students to know about safety procedures
COB 4 To help the students to know about various electrical maintenance techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe electrical hazards and safety equipment
CO 2 Analyze and apply various grounding and bonding techniques
CO 3 Select appropriate safety method for low medium and high voltage equipment
CO 4 Participate in a safety team
CO 5 Carry out proper maintenance of electrical equipment by understanding
various Standards
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 3 1 3 1 - - - - - - - -
CO2 (K4) 3 3 3 - - - - - - - - -
CO3 (K3) 3 2 3 1 - - - - - - - -
CO4 (K3) - - 3 - - - - - - - - -
CO5 (K2) 3 1 3 1 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Hazards of Electricity and Electrical Safety Equipment
Primary and secondary hazards- arc blast shocks-causes and effects-safety equipment-
flash and thermal protection head and eye protection-rubber insulating equipment hot
sticks insulated tools barriers and signs safety tags locking devices- voltage measuring
instruments- proximity and contact testers-safety electrical one line diagram- electricianrsquos
safety kit
UNIT-II
Grounding of Electrical Systems and Equipment
General requirements for grounding and bonding- definitions- grounding of electrical
equipment-bonding of electrically conducting materials and other equipment-connection
of grounding and bonding equipment- system grounding- purpose of system grounding-
grounding electrode system- grounding conductor connection to electrodes-use of
grounded circuit conductor for grounding equipment- grounding of low voltage and high
AR19 Mechanical Engineering
Aditya Engineering College (A) 125
voltage systems
UNIT-III
Safety Procedures and Methods
The six step safety methods- pre job briefings - hot-work decision tree-safe switching of
power system- lockout-tag out- flash hazard calculation and approach distances-
calculating the required level of arc protection-safety equipment procedure for low
medium and high voltage systems- the one minute safety audit
UNIT-IV
Safety Management and Organizing Structure
Electrical safety program structure development- company safety team- safety policy
program implementation- employee electrical safety teams- safety meetings- safety audit
accident prevention- first aid- rescue techniques-accident investigation
UNIT-V
Electrical Maintenance and Legal Safety Requirements and Standards
Safety related case for electrical maintenance- reliability centered maintenance (RCM) -
eight step maintenance program- frequency of maintenance- maintenance requirement for
specific equipment and location- regulatory bodies- national electrical safety code-
standard for electrical safety in work place- occupational safety and health administration
standards Indian Electricity Acts related to Electrical Safety
Text Books
1 Electrical Safety Handbook by John Cadick Mary Capelli-Schellpfeffer Dennis
Neitzel Al Winfieldrsquo McGraw-Hill Education 4 th Edition
Reference Books
1 lsquoElectrical Safety- a guide to the causes and prevention of electric hazards by
Maxwell AdamsJrsquo The Institution of Electric Engineers IET
2 Electrical Safety in the Workplace by Ray A Jones Jane G Jones Jones amp Bartlett
Learning
Web Links
1 httpnptelacincourses1031060715 2 httpswwwelectricalsafetyfirstorguk
2 httpsnptelacincourses1131071131070
3 httpsnptelacincourses1221021221020
AR19 Mechanical Engineering
Aditya Engineering College (A) 126
ELECTRICAL MATERIALS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O02 3 0 0 3
Course Objectives
COB 1 To enable the students study various types of dielectric materials their
properties in various conditions
COB 2 To assist the students to Know the magnetic materials and their behaviour
COB 3 To assist the students to Know the semiconductor materials and technologies
COB 4 To help the students acquire the Knowledge on Materials used in electrical
engineering and applications
COB 5 To help the students acquire the Knowledge on special purpose Materials used
in electrical engineering
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify various types of dielectric materials their properties in various
conditions
CO 2 Analyze magnetic materials and their behaviour
CO 3 Evaluate semiconductor materials and technologies
CO 4 Develop Knowledge on Materials used in electrical engineering and
applications
CO 5 Acquire Knowledge on special purpose Materials used in electrical engineering
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2
CO2 (K4) 3 3
CO3 (K5) 3 3
CO4 (K3) 3 2
CO5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Dielectric Materials
Dielectric as Electric Field Medium leakage currents dielectric loss dielectric strength
breakdown voltage breakdown in solid dielectrics flashover liquid dielectrics electric
conductivity in solid liquid and gaseous dielectrics Ferromagnetic materials properties
of ferromagnetic materials in static fields spontaneous polarization curie point anti-
ferromagnetic materials piezoelectric materials pyroelectric materials
UNIT-II
Magnetic Materials
Classification of magnetic materials spontaneous magnetization in ferromagnetic
AR19 Mechanical Engineering
Aditya Engineering College (A) 127
materials magnetic Anisotropy Magnetostriction diamagnetism magnetically soft and
hard materials special purpose materials feebly magnetic materials Ferrites cast and
cermet permanent magnets ageing of magnets Factors effecting permeability and
hysteresis
UNIT-III
Semiconductor Materials
Properties of semiconductors Silicon wafers integration techniques Large and very large
scale integration techniques (VLSI)
UNIT-IV
Materials for Electrical Applications
Materials used for Resistors rheostats heaters transmission line structures stranded
conductors bimetals fuses soft and hard solders electric contact materials electric
carbon materials thermocouple materials Solid Liquid and Gaseous insulating materials
Effect of moisture on insulation
UNIT-V
Special Purpose Materials
Refractory Materials Structural Materials Radioactive Materials Galvanization and
Impregnation of materials Processing of electronic materials Insulating varnishes and
coolants Properties and applications of mineral oils Testing of Transformer oil as per
ISI
Text Books
1 A course in Electrical Engineering Materials by R K Rajput Laxmi Publications
2 A course in Electrical Engineering Materials by T K Basak New Age Science
Publications
Reference Books
1 Electrical Engineering Materials by TTTI Madras McGraw Hill Education
2 Electrical Engineering Materials by Adrianus J Dekker PHI Publication
3 A course in Electrical Engineering Materials by S P Seth P V Gupta Dhanpat
Rai amp Sons
Web Links
1 httpsnptelacincourses113102113102080
2 httpsnptelacincourses113107113107078
3 httpsnptelacincourses122102122102008
AR19 Mechanical Engineering
Aditya Engineering College (A) 128
BASIC ELECTRICAL MEASURMENTS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 3 0 0 3
Course Objectives
COB 1 To equip the student with the knowledge of different types of instruments
COB 2 To equip the student with the knowledge of different types of instruments for
measurements of voltage current power ampenergy
COB 3 To make the student understand various types of bridges for measurement of
parameters-resistance inductance capacitance and frequency
COB 4 To help the students learn the knowledge of the Transducers and Sensors
COB 5 To help student acquire knowledge on applications of CRO for measurement
of frequency phase difference and hysteresis loop using Lissajous patterns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the behaviour of different types of torques in instruments
CO 2 Apply the right type of instrument for measurement of voltage current power
ampenergy
CO 3 Develop the suitable bridge for the measurement of electrical parameters
CO 4 Analyze the behaviour of different types of Transducers and Sensors
CO 5 Explain frequency and phase difference between signals using CRO
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) 1
CO2 (K5) 1
CO3 (K4) 1
CO4 (K4) 1
CO5 (K5) 1
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Basics of Measuring instruments
List of important electrical quantities to be measured their units and the names of the
instruments to measure them- Classification of instruments - different types of torques
(Deflection Controlling and Damping torques) in the indicating instruments-definitions
of accuracy precision error resolution and sensitivity-types of error
UNIT-II
Electromechanical Measuring Instruments
MC and MI types of Ammeters and Voltmeters - their Construction and working- shunts
and multipliers for MC instruments - Dynamometer type Ammeter Voltmeter and
Wattmeterndashconstruction working errors- Measurement of energy ndashsingle phase
AR19 Mechanical Engineering
Aditya Engineering College (A) 129
Induction type energy meter- Construction and working
UNIT-III
Measurements of Parameters
Classification of resistance- List of methods of measurement of resistance-Wheat stonersquos
bridgendash Kelvinrsquos double bridge for measuring low resistance- Loss of charge method for
measurement of inductance ndashQuality Factor ndashMaxwellrsquos bridge-Hayrsquos bridge-
Measurement of capacitance and loss angle ndash Desauty Bridge ndash Schering
Bridge(elementary treatment only)
UNIT-IV
Transducers
Definition of transducer-need of transducer-Classification of Transducers ndash Factor
influencing while its selection -Applications of Transducers ndashThermocouple- Thermister-
working principle and use of Strain Gauge- construction working and use of LVDT Basic
Concept of Sensors and its applications
UNIT-V
Electronic amp Digital Instruments
Digital voltmeter ndash Successive approximation ndash Frequency ndash Hysteresis loop using
lissajious patterns in CRO ndash Ramp and integrating type ndashDigital multimeter ndashDigital
Tachometer
Text Books
1 A course in Electrical Measurements Electronic Measurements Instrumentation A K
Sawhney 11th Edition DhanpatRai and Sons
2 A course in Electrical and Electronic Measurements and Instrumentation J B Gupta
13th EditionSK Kataria and Sons
Reference Books
1 Electrical Measurements ndash by Buckingham and Price Prentice ndash Hall Electrical
Measurements by Forest K Harris John Wiley and Sons
2 Electrical Measurements Fundamentals Concepts Applications ndash by Reissland
MU New Age International (P) Limited Publishers
3 Electrical and Electronic Measurements ndashby GKBanerjee PHI Learning Private
Ltd New Delhi
Web Links
1 httpnptelacincourses10810505342
2 httpnptelacinsyllabus108106070
3 httpnptelacincourses108106070
AR19 Mechanical Engineering
Aditya Engineering College (A) 130
ENTREPRENEURSHIP DEVELOPMENT AND INCUBATION (Open Elective-I)
V Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make aware of the various concepts of entrepreneurship
COB 2 To help in understanding and apply the business plan of entrepreneurship
development
COB 3 To help in analyzing and apply the Institutions that are supporting to
Entrepreneurship Development
COB 4 To helps in understanding of entrepreneurship opportunities internationally
COB 5 To understand and apply the studentrsquos capital investments in association
with business incubations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe the meaning and concepts of entrepreneurship development
CO 2 Apply the business plan for preparation and evaluation of project
CO 3 Research on Institutional Support to Entrepreneur and MSMEs
CO 4 Apply the Opportunities of Entrepreneurship Internationally
CO 5 Research on Venture capital amp Risk for entrepreneurship socially
incubations
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - 1 2 - - 2 -
CO2 (K3) - - - - - 1 2 - - 2 -
CO3 (K4) - - - - - 3 3 - - 3 2
CO4 (K3) - - - - - 3 3 - - 3 2
CO5 (K3) - - - - - 1 2 - - 2 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - - CO2 (K3) - - - CO3 (K4) - - - CO4 (K3) - - - CO5 (K3) - - -
UNIT-I
Entrepreneur ampEntrepreneurship Meaning of entrepreneur - Evolution of the
concept - Functions of an Entrepreneur - Types of Entrepreneur - Intrapreneur- an
emerging class - Concept of Entrepreneurship - Evolution of Entrepreneurship -
Development of Entrepreneurship - Entrepreneurial Culture - Stages in entrepreneurial
process
UNIT-II
Business Planning Process Meaning of business plan - Business plan process -
Advantages of business planning - Marketing plan - Productionoperations plan -
Organization plan - Financial plan - Final Project Report with Feasibility Study -
AR19 Mechanical Engineering
Aditya Engineering College (A) 131
preparing a model project report for starting a new venture
UNIT-III
Institutions supporting Entrepreneurs Small industry financing developing countries
- A brief overview of financial institutions in India - Central level and state level
institutions - SIDBI - NABARD - IDBI - SIDCO - Indian Institute of Entrepreneurship
- DIC - Single Window - Latest Industrial Policy of Government of India
UNIT-IV
International Entrepreneurship Opportunities The nature of international
entrepreneurship - Importance of international business to the firm - International versus
domestic entrepreneurship - Stages of economic development - Entrepreneurship entry
into international business - exporting - Direct foreign investment - barriers to
international trade
UNIT-V
Informal Risk Capital and Venture Capital Informal risk capital market - venture
capital - nature and overview - venture capital process - locating venture capitalists -
approaching venture capitalists Social Entrepreneurship Social enterprise-need - types
- characteristics and benefits of social enterprises-Social entrepreneurship - Rural
entrepreneurship MSME Policies Make-In India Start-Up India Stand-Up India
Text Books
1 Arya Kumar ldquoEntrepreneurshiprdquo Pearson Publishing House New Delhi 2012
2 VSP Rao Kuratko ldquoEntrepreneurshiprsquo Cengage Learning New Delhi2011
3 KRamachandran ldquoEntrepreneurship Developmentrdquo TMH New Delhi 2012
Reference Books
1 BJanakiram M Rizwana ldquoEntrepreneurship Developmentrdquo Excel Books New
Delhi 2011
2 Rajeev Roy ldquoEntrepreneurshiprdquo Oxford University Press New Delhi2012
3 PCShejwalkar ldquoEntrepreneurship Developmentrdquo Everest Publishing House
New Delhi 2011
4 RH Hisrich MP Peters and DA Shepherd ldquoEntrepreneurshiprdquo Mc Graw
Hill Irwin 8th Edition 2010
5 Ryszard Praszkieramp Andrzej Nowak ldquoSocial Entrepreneurship Theory and
Practice Paperback ndash Illustratedrdquo Cambridge University Press New York-
February 2 2012
Reference Books
1 httpnptelacincourses
2 httpswwwtutorialspointcom
3 httpswwwediindiaorg
4 httpwwwquickmbacomentre
5 httpswwwscribdcomdocument150087992Entrepreneurship-Chapter-12-
Informal-Risk-Capital
AR19 Mechanical Engineering
Aditya Engineering College (A) 132
SIGNALS AND SYSTEMS
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O01 3 0 0 3
Course Objectives
COB 1 To introduce the concepts associated with signals and systems
COB 2 To familiarize the concepts of transform based continuous time and discrete
time analysis of signals and systems
COB 3 To prepare the students to analyze the characteristics of LTI systems using
different mathematical tools
COB 4 To create awareness on frequency transformation techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Categorize signals and systems based on their characteristics
CO 2 Demonstrate the spectral characteristics of signals using Fourier series
CO 3 Demonstrate the spectral characteristics of signals using Fourier Transform
CO 4 Identify system characteristics in time domain and frequency domain
CO 5 Apply Laplace transform techniques for the analysis of continuous time
signals and Systems
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 3 1 - - - - - - - - - -
CO 2(K2) 2 1 - - - - - - - - - -
CO 3(K3) 3 2 1 1 - - - - - - - -
CO 4(K3) 3 2 1 1 - - - - - - - -
CO 5(K4) 3 3 2 2 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Signals Classification of Signals Different deterministic signals
impulse step ramp gate signum sinc sinusoidal exponential complex exponential
Basic Operations on signals
UNIT-II
Fourier Series Representation of Fourier series for continuous time periodic signals
Trigonometric Fourier series and Exponential Fourier series Dirichletrsquos conditions
properties of Fourier series Complex Fourier spectrum Applications of Fourier series
UNIT-III
Fourier Transform Deriving Fourier Transform (FT) from Fourier series Fourier
transform of arbitrary signal Fourier transform of standard signals Fourier transform of
AR19 Mechanical Engineering
Aditya Engineering College (A) 133
periodic signals properties of Fourier transforms Fourier transforms involving impulse
function and Signum function Applications of Fourier Transforms Convolution and itrsquos
properties
UNIT-IV
Signal Transmission Through LTI Systems Classification of Systems Impulse
response and step response of LTI systems Transfer function of an LTI system Filter
characteristics of LTI systems Distortion less transmission through a system Ideal LPF
HPF and BPF characteristics Causality and Paley-Wiener criterion for physical
realization Signal bandwidth system bandwidth relationship between bandwidth and
rise time
UNIT-V
Laplace Transforms Review of Laplace transform (LT) Existence of Laplace
transform Concept of region of convergence (ROC) for Laplace transforms constraints
on ROC for various classes of signals Properties of Laplace transforms relation between
LTs and FT of a signal Inverse Laplace transform applications of Z Transform
Text Books
1 Signals and Systems - AV Oppenheim AS Willsky and SH Nawab PHI
2nd Edition 2016
2 Signals Systems amp Communications - BP Lathi BS Publications 2003
3 Signals and Systems ndash A Anand Kumar PHI 4th Edition 2017
Reference Books
1 Signals amp Systems - Simon Haykin and Van Veen Wiley 2nd Edition
2 Fundamentals of Signals and Systems- Michel J Robert MGH Int Edition 2008
3 Signals and Systems K Raja Rajeswari B Visweswara Rao PHI 2009
Web Links
1 httpsfreevideolecturescomcourse3540signals-and-systems-i
2 httpnptelacincourses117104074
3 httpnptelacincourses117101055
4 httpswwwtutorialspointcomsignals_and_systemsindexhtm
5 httpsocwmiteduresourcesres-6-007-signals-and-systems-spring-2011
AR19 Mechanical Engineering
Aditya Engineering College (A) 134
DIGITAL ELECTRONICS AND LOGIC DESIGN (Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O02 3 0 0 3
Course Objectives
COB 1 To make the students understand different number representations
COB 2 To make the students study the minimization techniques for logic optimization
COB 3 To equip the students design combinational logic circuits
COB 4 To make the students design Programmable Logic Device(PLD)
COB 5 To impart the knowledge on sequential circuits
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret numeric information in different code formats
CO 2 Develop optimized logic by using various optimization algorithms
CO 3 Construct various combinational logic circuits for required specifications
CO 4 Build different Programmable Logic Device for required specifications
CO 5 Build different sequential logic circuits for required specifications
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 3 3 - - - - - - - - -
CO4 (K4) 3 3 3 - - - - - - - - -
CO5 (K4) 3 3 3 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Digital Electronics amp its Usage
Number Systems Representation of numbers of different radix conversation from one
radix to another radix r-1rsquoscompliments and rrsquos compliments of signed numbers
problem solving
Binary Codes 4bit codes BCD Excess-3 2421 84-2-1 9rsquos compliment code etc error
detection amp correction codes Gray code error detection error correction codes (parity
checking even parity odd parity Hamming code)
UNIT-II
Boolean Algebra ampMinimization Techniques Basic logic operations NOTOR AND
Universal building blocks EX- OR EX-NOR Gates NAND-NAND and NOR-NOR
realizations Boolean theorems principle of complementation amp duality De-Morgan
theorems minimization of logic functions using Boolean theorems minimization of
switching functions using K-Map up to 6 variables tabular minimization
AR19 Mechanical Engineering
Aditya Engineering College (A) 135
UNIT-III
Combinational Logic Circuits Design of Half adder full adder half Sub-tractor full
sub-tractor applications of full adders 4-bit binary sub-tractor adder-sub-tractor circuit
BCD adder circuit Excess 3 adder circuit look-a-head adder circuit Design of decoder
demultiplexer7segment decoder higher order de-multiplexing encoder multiplexer
higher order multiplexing priority encoder 4-bit digital comparator
UNIT-IV
Programmable Logic Devices amp Sequential Circuits
Introduction to PLDrsquos PROM PAL PLA-Basics structures realization of Boolean
function with PLDs programming tables of PLDs merits amp demerits of PROM PAL
PLA comparison realization of Boolean functions using PROM PAL PLA
programming tables of PROM PAL PLA
UNIT-V
Sequential Circuits Classification of sequential circuitsbasic flip-flops truth tables and
excitation tables (NAND RS latch NOR RS latch RS flip-flop JK flip-flop T-flip-flop
D-flip-flop with reset and clear terminals) Conversion from one flip-flop to another flip-
flop Design of synchronous counters Johnson counter ring counter Design of registers
- Buffer register control buffer register shift register bi-directional shift register
universal shift register
Text Books
1 Switching Theory and Logic Design A Anand Kumar Pearson 3rd Edition 2013
2 Digital Design Morris Mano Pearson 3rd Edition 2002
Reference Books
1 Modern Digital Electronics RP Jain Tata Mc Graw Hill 4th Edition 2010
2 Introduction to Switching Theory and Logic Design Fredriac J Hill Gerald R
Peterson 3rd Edition John Wiley amp Sons Inc 1982
3 Fundamentals of Logic Design Charles H Roth Jr Jaico Publishers 2004
Web Links
1 httpswwwnptelacincourses1171060861Kuruvilla VargheseDESEInstitute of
Science
2 wwwnptelvideosin201212digital-circuits-and-systemshtmlProf S Srinivasan
Department of Electrical Engineering IIT Madras
AR19 Mechanical Engineering
Aditya Engineering College (A) 136
SEMICONDUCTOR DEVICES
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O03 2 1 0 3
Course Objectives
COB 1 To make the students understand the physical phenomenon such as
construction transport mechanism and characteristics of diodes
COB 2 To familiarize the students with the operation and characteristics of
Transistor
COB 3 To make the students understand the construction and operation of FET and
MOSFET
COB 4 To impart knowledge on basics of special semiconductor devices
COB 5 To make the students understand physical and technical base of sensors
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret the characteristics of semiconductor diodes
CO 2 Apply the knowledge of semiconductors to illustrate the functioning of BJT
CO 3 Demonstrate the switching and amplification Application of FET
CO 4 Classify the semiconductor devices for special Applications
CO 5 Identify the sensor types used in various applications and explain their
principle of operation
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 2 1 - - - - - - - - - -
CO 2(K3) 3 2 1 - - - - - - - - -
CO 3(K2) 2 1 - - - - - - - - - -
CO 4(K2) 2 1 - - - - - - - - - -
CO 5(K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
PN junction Diode Theory and Operation of PN junction diode V-I characteristics
Application of diode as Rectifier Clipper and Clamper
Zener diode Principle V-I characteristics Zener breakdown and Avalanche breakdown
Zener diode as a voltage regulator
UNIT-II
BJT Construction and operation of a transistor characteristics of transistor in Common
Base Common Emitter and Common Collector configurations transistor as a switch
transistor as an amplifier
AR19 Mechanical Engineering
Aditya Engineering College (A) 137
UNIT-III
FET Construction and operation of FET Characteristic of FET low frequency model of
FET FET as a switch and an amplifier MOSFET Characteristics (enhancement and
depletion mode)
UNIT-IV
Special Semiconductor Devices LED LCD Photo transistor Tunnel diode Varactor
diode Opto coupler solar cell Charged Coupled Device
UNIT-V
bull Sensors Temperature Sensor Proximity Sensor Sensistor Thermistor LDR Flame
Sensor Humidity sensor NEMSMEMS
Text Books
1 DNeamen and DBiswa ldquoSemiconductor physics and devicesrdquo McGraw Hill
Education2017
2 J Millman C Halkias Electronic Devices and Circuits Tata Mc-Graw Hill 2nd
Edition 2007
3 Clarence W de Silva ldquoSensors and Actuators Engineering System Instrumentationrdquo
CRC press second edition 2015
Reference Books
1 Umesh Mishra and Jasprit Singh ldquoSemiconductor Device Physics and Designrdquo
Springer2008
2 A A Balandin and K L Wang Handbook of Semiconductor Nanostructures and
Nanodevices Grainger 2006
3 WRFahrner ldquoNanotechnology and Nanoelectronics ndash Materials Devices
andMeasurement Techniquesrdquo Springer 2006
Web Links
1 httpsfreevideolecturescomcourse4277nptel-fundamentals-semiconductor-
devices58
2 httpswwwcourseraorgspecializationssemiconductor-devices
3 httpsnptelacincourses108108108108112 Prof Sanjiv Sambandan
AR19 Mechanical Engineering
Aditya Engineering College (A) 138
DATA STRUCTURES (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To make the students learn the basic Concepts of Data Structures and
algorithms
COB 2 To enable the students to analyze the various Searching and Sorting
techniques
COB 3 To provide knowledge on Stacks and Queues
COB 4 To impart knowledge on list and its applications
COB 5 To discuss the various operations of Trees
COB 6 To demonstrate the Graph Traversal Techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate time and space complexities of an algorithm
CO 2 Apply various searching and sorting techniques to solve computing
problems
CO 3 Make use of linear data structures to solve real time problems
CO 4 Develop applications using Tree Data Structures
CO 5 Solve problems using Graph Algorithms
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 - - - - - - -
CO2 (K3) 3 2 - - 3 - - - - - - -
CO3 (K3) 3 2 - - 3 - - - - - - -
CO4 (K3) 3 2 - - 3 - - - - - - -
CO5 (K3) 3 2 - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Basic Concepts Pseudo code Algorithm analysis Time and Space
Complexity
Introduction to Data Structures Definition Classification and Operations on Data
Structures
Searching Linear search Binary search
Sorting Bubble Sort Insertion Sort Selection Sort Quick Sort Merge Sort Radix
Sort
AR19 Mechanical Engineering
Aditya Engineering College (A) 139
UNIT-II
Stacks Introduction Array Representation of Stacks Operations and Implementation
Applications of Stacks-Reversing list Infix to Postfix Conversion Evaluating Postfix
Expressions
Queues Introduction Array Representation of Queues Operations and
Implementation Types of Queues Circular Queues and Dequeues Application of
Queues
UNIT-III
Linked Lists Introduction Singly linked list Operations on Singly Linked list -
Insertion Deletion Doubly linked list - Insertion Deletion Circular linked list-
Insertion Deletion Linked Representation of Stacks and Queues Applications of
Linked lists-Addition of Polynomials Sparse Matrix Representation using Linked List
UNIT-IV
Trees Basic Terminology in Trees Representation of Binary Trees using Arrays and
Linked lists Traversing a Binary Tree(In-Order Pre-Order Post-Order)Expression
Trees
Binary Search Trees Definition Operations Searching Insertion Deletion
UNIT-V
Graphs Introduction Graph Terminology Representation of Graphs-Adjacency
Matrix and using Linked list Graph Traversals Minimum Spanning Tree Using Prims
amp Kruskals Algorithm Dijkstrarsquos Shortest Path Warshallrsquos Algorithm Transitive
Closure (Algorithmic Concepts Only No Programs required)
Text Books
1 Data Structures Using CReema Thareja Oxford University Press
2 Data Structures and Algorithm Analysis In C Mark Allen Weiss2nd Edition
Reference Books
1 Fundamentals of Data Structure in C Horowitz Sahni Anderson Freed 2nd
Edition University Press2008
2 Data Structures Richard F Gilberg Forouzan 2E Cengage Learning
3 Data Structures and Algorithms G AVPai TMH2008
Web Links
1 httpnptelacincourses106102064
2 httpalgs4csprincetoneduhome
3 httpsfacultywashingtonedujstraubdsaMaster_2_7apdf
4 httpwwwudacitycom
5 httpwwwcourseeracom
AR19 Mechanical Engineering
Aditya Engineering College (A) 140
OBJECT ORIENTED PROGRAMMING THROUGH C++ (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To enable the students to learn the common concepts of Camp C++
COB 2 To illustrate the object oriented principles and their implementation in C++
COB 3 To impart the knowledge on classes objects member functions constructors
destructors and how to overload functions and operators in C++
COB 4 To make the students learn applications of inheritance
COB 5 To facilitate the students to write various programs using virtual functions
and Polymorphism
COB 6 To demonstrate Generic Programming with Templates
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare and contrast object oriented programming and procedural oriented
programming
CO 2 Summarize the OOPS concepts
CO 3 Make use of constructor and destructor to initialize and destroy class objects
CO 4 Develop programs using virtual functions and Polymorphism
CO 5 Apply inheritance to build real time applications
CO 6 Apply Exception handling mechanism to handle runtime errors
CO 7 Develop C++ classes with templates and STL
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - 3 - - 1 - - - - - - -
CO2 (K2) 2 1 - - 2 - - - - - - -
CO3 (K3) 3 - 1 - - - - - - - - -
CO4 (K3) 3 2 1 1 3 - - - - - - -
CO5 (K5) 3 3 3 3 3 3 - - - - - -
CO6 (K3) 3 2 1 1 - - - - - - - -
CO7 (K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
An Overview of C++ Difference between C and C++ The Origins of C++ Key
Concepts of Object Oriented Programming A Sample C++ Program Old Style vs
Modern C++ Namespaces
Classes and Objects Classes Declaring Objects Access Specifiers and their Scope
Defining Member Function Friend functions Inline Functions Static Member Variable
Static Member Function Constructors and Destructors Scope Resolution Operator
Nested class
AR19 Mechanical Engineering
Aditya Engineering College (A) 141
UNIT-II
Function Overloading Copy Constructor and Default Arguments Function
Overloading Constructor Overloading Constructor with Arguments Copy Constructor
Default Function Arguments Anonymous Objects Array of Objects
Operator Overloading Creating a Member Operator Function Operator Overloading
using Friend function Overloading Special Operators
UNIT-III
Inheritance Base Class Access Control Inheritance and protected Members Types of
Inheritance Pointer to Class Pointer Object The this Pointer Pointer to Derived Classes
and Base Class Virtual Base Classes Object as a Class Member Advantages and
Disadvantages of Inheritance
Virtual Functions and Polymorphisms Virtual Functions Rules for Virtual Function
Pure Virtual Functions Using Virtual Functions Virtual Destructor Early Vs Late
Binding
UNIT-IV
Templates Generic Functions Applying Generic Functions Generic Classes Power
of Templates Difference between Templates and Macros
Exception Handling Exception Handling Fundamentals Handling Derived Class
Exceptions Exception Handling Options Applying Exception Handling
UNIT-V
Introducing the Standard Template Library An Overview of STL Container
Classes Sequence Containers Associative Containers Vectors Lists Maps
Algorithms
Text Books
1 The Complete Reference C++ Herbert Schildt Fourth Edition TMH 2003
2 The C++ Programming Language Bjarne Stroustrup Fourth Edition Pearson
2014
Reference Books
1 A First Book Of C++ Gary Bronson Fourth Edition Cengage Learning 2012
2 C++ Primer Plus By Stephen Prata Sixth Edition Pearson 2011
3 Object Oriented Programming In C++ By E Balagurusamy Sixth Edition Tata
Mcgraw Hill 2013
4 Object Oriented Programming Using C++ Joyce Farrell Fourth Edition
CengageLearning 2008
5 C++ ProgrammingFrom Problem Analysis To Program Design Ds Malik
Eighth Edition Cengage Learning 2017
Web Links
1 httpsinudacitycomcoursec-for-programrs--ud210
2 httpswwwcourseraorgcoursesquery=c2B2B
3 httpnptelacincourses106105151
4 httpswwwjavatpointcomcpp-oops-concepts
5 httpswwwtutorialspointcomcplusplus
AR19 Mechanical Engineering
Aditya Engineering College (A) 142
JAVA PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O03 2 1 0 3
Course Objectives
COB 1 To make students understand object oriented programming concepts and
apply them in solving problems
COB 2 To provide knowledge on classes inheritance interfaces and packages
COB 3 To facilitate students in handling exceptions and multithreading
COB 4 To impart the knowledge on Input Output concepts and applets
COB 5 To enable the students develop standalone applications using AWT and
Swings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply object oriented programming features and concepts for solving given
problem
CO 2 Solve real time problems using the concepts of class inheritance interface and
packages
CO 3 Test for runtime exceptions arise in java applications
CO 4 Develop real time applications using multithreading and IO streams
CO 5 Develop GUI applications using event handlers adapter classes AWT and
Swing components
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 2 2 - 1 - - - - - - -
CO2 (K3) 2 2 3 - 2 - - - - - - -
CO3 (K4) 2 2 3 - 3 - - - - - - -
CO4 (K3) 2 2 3 2 3 - - - - - - -
CO5 (K3) 2 2 3 2 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Java History of Java Java features JVM architecture Classes and objects Program structure methods Passing arguments through command line Building Blocks of Java Variables primitive data types identifiers literals Operators
expressions primitive type conversion and casting flow of control
UNIT-II
Introduction to Classes Class declaration creating objects constructors Method
Overloading constructor overloading garbage collector importance of static keyword
and examples this keyword Arrays Strings nested classes
AR19 Mechanical Engineering
Aditya Engineering College (A) 143
Inheritance amp Interfaces Inheritance- types of inheritance super keyword final keyword overriding Interfaces- Defining an interface Implementing interfaces through classes Multiple inheritance through interfaces abstract class Packages Creating the packages using packages importance of CLASSPATH Access
Specifiers javalang package
UNIT-III
Exception Handling Exception handling importance of try catch throw throws and
finally block user defined exceptions Multithreading Introduction thread life cycle
creation of threads thread priorities thread synchronization communication between
threads
UNIT-IV
Input Output Byte Streams and Character Streams Predefined Streams Reading Console inputs- Reading characters Reading Strings Reading and writing Files Event Handling Event delegation model sources of event Event Listeners adapter
classes inner classes
UNIT-V
AWT Introduction components and containers Button Label Checkbox Radio Buttons List Boxes Choice Boxes Container class Layouts Menu and Scrollbar Swing Introduction Swing Components- JFrame JPanel Layout Managers JList
JTable JTree Dialog Box
Text Books
1 The Complete Reference Java Herbert Schildt Ninth Edition TMH 2014
2 Introduction to java programming by Y Daniel Liang Seventh Edition Pearson
2017
3 Java one step ahead Anita seth BLJuneja First Edition Oxford 2017
Reference Books
1 Core Java An Integrated Approach RNageswaraRao Dreamtechpress 2008
2 Thinking in Java ndash Bruce Eckel Fourth Edition Prentice Hall 2002
3 Beginning Programming with Java for Dummies Barry Burd John Wiley amp Sons
Inc 2014
Web Links
1 httpmathhwsedujavanotes
2 httpjavasuncomdocsbookstutorial
3 httpwwwtutorialspointcomjava
4 httpwwwjavatpointcom
5 httpwwww3schoolscomjava
AR19 Mechanical Engineering
Aditya Engineering College (A) 144
R PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O04 2 1 0 3
Course Objectives
COB 1 To impart the knowledge on the R basic concepts
COB 2 To enable the student learn R program structure
COB 3 To inculcate the knowledge on mathematical functions
COB 4 To illustrate the concept of graph functions
COB 5 To make the students understand the concepts of distribution functions and
regressions models
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the basic concepts and advanced data structures of R programming
CO 2 Understand control statements and operators in R
CO 3 Implement simulation Probability and linear algebra operations
CO 4 Make use of graph functions
CO 5 Develop programs for distribution functions and regression models
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - -
CO2(K2) 2 1 - - 1 - - - - - - -
CO3(K3) 3 2 1 1 3 - - - - - - -
CO4(K3) 3 2 1 1 3 - - - - - - -
CO5(K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction How to run R R Sessions and Functions Basic Math Variables Data
Types Vectors Conclusion Advanced Data Structures Data Frames Lists Matrices
Arrays Classes
UNIT-II
R Programming Structures Control Statements Loops - Looping Over Nonvector
Sets If-Else Arithmetic and Boolean Operators and values Default Values for
Argument Return Values Deciding Whether to explicitly call return- Returning
Complex Objects Functions are Objective No Pointers in R Recursion A Quicksort
Implementation-Extended Extended Example A Binary Search Tree
UNIT-III
Simulation in R Math Function Extended Example Calculating Probability-
AR19 Mechanical Engineering
Aditya Engineering College (A) 145
Cumulative Sums and Products-Minima and Maxima- Calculus Functions Fir Statistical
Distribution Sorting Linear Algebra Operation on Vectors and Matrices Extended
Example Vector cross Product- Extended Example Finding Stationary Distribution of
Markov Chains Set Operation Input output Accessing the Keyboard and Monitor
Reading and writer Files
UNIT-IV
Graphics Creating Graphs The Workhorse of R Base Graphics the plot() Function ndash Customizing Graphs Saving Graphs to Files
UNIT-V
Probability Distributions Normal Distribution- Binomial Distribution- Poisson Distributions Other Distribution Basic Statistics Correlation and Covariance T-Tests-
ANOVA Linear Models Simple Linear Regression -Multiple Regression Generalized Linear Models Logistic Regression
Text Books
1 The Art of R Programming Norman Matloff 1st Edition Cengage Learning2011
2 R for Everyone Lander 2nd
EditionPearson 2018
Reference Books
1 R Cookbook JDLongamp PaulTeetor 2nd EditionOreilly 2019
2 R in ActionRob Kabacoff2nd Edition Manning 2015
Web Links
1 httpsonlinecoursesnptelacinnoc19_ma33preview
2 httpswwwcourseraorgprojectsgetting-started-with-r
3 httpswwwgeeksforgeeksorgintroduction-to-r-programming-language
4 httpswwwudacitycomcoursedata-analysis-with-r--ud651
AR19 Mechanical Engineering
Aditya Engineering College (A) 146
DATABASE MANAGEMENT SYSTEMS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O01 2 1 0 3
Course Objectives
COB 1 To discuss the basic concepts of database systems and its architectures
COB 2 To enable the students learn various data models
COB 3 To illustrate the mechanisms involved in normalization of relational databases
COB 4 To make use of SQL statements for performing operations on databases
COB 5 To impart knowledge on transaction management and concurrency controls
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the database characteristics and various database architectures
CO 2 Interpret relational database using SQL
CO 3 Examine issues in data storage and query processing for appropriate solutions
CO 4 Make use of normalization techniques to build database system for real world
problems
CO 5 Illustrate the mechanisms of transaction management
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 - 3 - - - - -
CO 2 (K2) 2 1 - - - - 3 - - - - -
CO 3 (K3) 3 2 1 1 3 - 3 - - - - -
CO 4 (K3) 3 2 1 1 3 - 3 - - - - -
CO 5 (K2) 2 1 - - 2 - 3 - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Databases Characteristics of database approach advantages of using
the DBMS approach
Overview of Database Languages and Architectures Data models schemas and
instances three schema architecture and data independence database system
environment centralized and clientserver architectures for DBMSs classification of
database management system
SQL Data Definition Constraints and Basic Queries and Updates SQL data
definition ndash DDL commands and data types specifying constraints in SQL INSERT
DELETE and UPDATE statements in SQL basic retrieval queries in SQL
UNIT-II
Introduction to Database Design Database Design and ER Diagrams Entities
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
Introduction to Database Design Database Design and ER Diagrams Entities
AR19 Mechanical Engineering
Aditya Engineering College (A) 147
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
The Relational Model Introduction to the relational model Integrity constraints over
relations enforcing integrity constraints querying relational data Nested Queries
Correlated Queries logical database design-ER to Relational
UNIT-III
Relational Algebra and Calculus Preliminaries relational algebra relational calculus
expressive power of algebra and calculus
Schema Refinement and Normal Forms Introduction to schema refinement functional
dependencies reasoning about FDs Normal forms (1NF 2NF 3NF and BCNF)
properties of decompositions normalization (decomposition into BCNF and 3NF)
schema refinement in database design other kinds of dependencies
UNIT-IV
Overview of Transaction Management amp Concurrency Control
Transaction Management
The ACID properties transactions and schedules concurrent execution of transactions
lock based concurrency control performance of locking and transaction support in SQL
introduction to crash recovery
Concurrency Control
2PLserializability and recoverability introduction to lock management lock conversions
dealing with deadlocks specialized locking techniques concurrency control without
locking
UNIT-V
Storage Overview of Storages and Indexing Data on External Storage- File Organization
and Indexing ndashClustered Indexing ndash Primary and Secondary Indexes Index Data
Structures Hash-Based Indexing ndash Tree-Based Indexing Comparison of File
Organization
Text Books
1 Database Management Systems Raghu Ramakrishnan Johannes Gehrke 3e
TMH
Reference Books
1 Introduction to Database Systems CJ Date Eighth Edition Pearson Education
2004
2 Database Systems - The Complete Book H G Molina J D Ullman J Widom Second
Edition Pearson Education 2009
3 Database Systems design Implementation and Management Peter Rob amp Carlos
Coronel Seventh Edition Cengage 2006
4 Fundamentals of Database Systems ElmasriNavathe Pearson Education 2015
5 Database System Concepts Silberschatz Korth Fifth Edition TMH 2006
Web Links
1 httpwwwnptelvideosin201211database-management-systemhtml
2 httpwwwgeeksforgeeksorgdbms
3 httpwwworaclecomtechnetworkdatabasefeaturesplsqlindexhtml
4 httpwwwcswiscedu~ dbbook
5 httpsbeginnersbookcom201505normalization-in-dbms
AR19 Mechanical Engineering
Aditya Engineering College (A) 148
COMPUTER GRAPHICS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O02 3 0 0 3
Course Objectives
COB 1 To discuss the basic principles of computer graphics primitives
COB 2 To demonstrate transformation clipping and viewing in 2D graphics
COB 3 To make the students learn projections transformations and visible surface
detections in 3D graphics
COB 4 To introduce the concepts of 3D primitives using OpenGL (Open Graphics
Library)
COB 5 To outline the Fractal geometry and Texturing in computer Graphics
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the applications of computer graphics and Video Display devices for
implementing Graphical user interface
CO 2 Analyze output primitives and filled area primitives in implementing various
algorithms
CO 3 Make use of Geometric Transformations Viewing and Clipping in 2D amp 3D
Graphics
CO 4 Illustrate various Visual Surface detection Methods in 3D Graphics
CO 5 Apply OpenGL for General Computer Animations
CO 6 Explain different object color modeling techniques Fractals and Ray tracing
concepts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K4) 3 3 2 2 3 - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - 2 - - - - - - -
CO5 (K3) 3 2 1 1 3 -
CO6 (K2) 2 1 - - 2 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Applications of Computer Graphics Video Display Devices-CRT
Raster-Scan and Random-Scan systems graphics monitors and work stations and input
devices
Output Primitives Line Drawing Algorithms- Bresenhamrsquos and DDA Line Drawing
Algorithms Mid-point circle and Ellipse algorithms
Filled Area Primitives Scan Line Polygon fill algorithm Boundary fill and Flood fill
algorithms
AR19 Mechanical Engineering
Aditya Engineering College (A) 149
UNIT-II
2-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations
2-D viewing The viewing pipeline Window to viewport coordinate transformation
2-D Clipping Cohen-Sutherland line clipping algorithm Sutherland-Hodgeman
polygon clipping algorithm and other clipping models Text amp Curve clipping models
UNIT-III
3-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations 3-D Viewing pipeline
Concepts Parallel and perspective projections and visible surface detection methods
UNIT-IV
Animations General computer animation Raster Key-frame Color models RGB
YIQ CMY HSV Graphics programming using OPENGL basic graphics primitives-
Generating three dimensional objects
UNIT-V
Fractals Fractals and self similarity Mandelbrot sets- Julia sets ndash Random Fractals
Overview of Ray Tracing Intersecting rays with other primitives-Adding surface
texture-Reflections and transparency-Boolean operations on objects
Text Books
1 Computer Graphics C Version Donald D Hearn M Pauline Baker 2nd Edition
Pearson
2 Computer Graphics using OPENGL Stephen M Kelley Francis S Hill 2nd
Edition Pearson
Reference Books
1 Computer Graphics- Principles and practices in C James D Foley Andries Van
Dam Steven K Feiner John F Hughes 2nd Edition Pearson Education 2007
2 Computer Graphics Samit Bhattacharya OXFORD Higher Education
3 Computer Graphics Peter Shirley CENGAGE
4 Principles of Interactive Computer Graphics Neuman Sproul TMH
5 The Computer Graphics manual Vol 2 David Soloman Springer
Web Links
1 httpsocwmiteducourseselectrical-engineering-and-computer-science6-837
computer-graphics-fall-2012
2 httpnptelacincourses106106090
3 httpsinudacitycomcourseinteractive-3d-graphics--s291
4 httpwwwcseiitmacin~vplabcomputer_graphicshtml
5 httpwwwgraphicscornelleduonlinelinkshtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 150
OVERVIEW OF MINING (Open Elective ndashI)
V Semester L T P C
Course Code 191MI5O01 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the mine lifecycle
COB 2 To make the students understand the factors responsible for location shape and
size of the shaft
COB 3 To demonstrate the students the system of ventilation Lighting and Permanent
lining need for drift
COB 4 To explain the special methods and Modern techniques of Shaft sinking
COB 5 To make the students understand the classification of explosives detonators and
detonating fuses and nonel detonators
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze different stages in the life of a mine
CO 2 Choose a suitable location for opening to a deposit
CO 3 Organize for building appropriate permanent lining drift with proper
ventilation and lighting arrangements
CO 4 Analyze the special methods need to be adopted for a particular situation
CO 5 Distinguish the uses of explosives
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - - - - - - 3 - - - - -
CO2 (K3) - - - 3 3 3 - - - - - -
CO3 (K3) - - - - - - - - 3 3 - -
CO4(K4) - 3 - 2 3 - - - - - - -
CO5 (K4) - 3 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Mineral distribution in India and World Contribution of mining to civilization Stages in
the life of a mine
UNIT-II
Overview of surface mining surface mining methods Unit operations Mechanization of
surface mines
UNIT-III
Overview of Underground Mines Methods of Underground mining Mechanization of
underground mines
AR19 Mechanical Engineering
Aditya Engineering College (A) 151
UNIT-IV
Safety practices in opencast and underground Mines
UNIT-V
Impacts of Mining on environment
Text Books
1 DJDeshmukh Elements of Mining Technology Denettamp Co Nagpur Vol I 1998
2 DrTNSingh Surface Mining Lovely Prakashan Dhanbad 2nd edition 2002
3 BVGokhale Blasthole drilling Technology multifields Bombay 1st edition 2001
Reference Books
1 Indian Bureau of Mines Minerals Year Book amp other publications Latest Edition
2 DrCMKole Khuli Khan KaAyojan (Hindi) CMPDIL Ranchi 1st edition 1996
3 Dr Calvin Konya ldquoRock Blasting and Overbreak Controlrdquo Precision Blasting
Services Montville Ohio 2nd edition 2004
Web Links
1 httpwwwminingglobalcomoperationsgifs-5-stages-mining-life-cycle
2 httpswwwslidesharenetumer_1stages-in-life-of-mine
3 httpswwwminecationstandardsorgfileadminMASdocumentsnmas-national
4 stabdardsafghanistanAMAS_0704_Storage_Transportation_Handling_of_Explosi
vespdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 152
PROCESS INTENSIFICATION IN PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O01 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in process intensification methodologies
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquos various principles associated to various unit operations
and unit processes
COB 5 To impart knowledge on available in petrochemical fine chemical
pharmaceutical carbon capture and bioprocess engineering to understand the
role of process intensification to improve process performance
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for process
intensification
CO 2 Analyze various modifications to process equipment and designs with which
process intensification becomes a reality in unit operations and unit processes
CO 3 Analyze various case studies available in petrochemical fine chemical bioprocesses
and carbon capture
CO 4 Correlate textbook reported methodologies with Computational Fluid
Dynamics and experimental process intensification
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K3)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
History of Process Intensification Rotating boilers ndash Rotating non-pipe ndash Separators ndash
Rotating heat transfer devices
Overview of Process Intensification Definition of Process Intensification (PI) ndash
Advantages of PI ndash Obstacles to PI
AR19 Mechanical Engineering
Aditya Engineering College (A) 153
UNIT-II
Mechanisms Involved in Process Intensification Mechanisms involved in heat transfer
intensification ndashElectrically enhanced process intensification ndash Microfluidics ndash Pressure
Compact and Micro-heat exchangers amp Process Intensification Plate Printed-circuit
Chart-flow Polymer film Foam and mesh heat exchangers ndash Micro-heat exchangers ndash
Small channels ndash Nano fluids
UNIT-III
Downhole Separation Technology
Overview- Potential Downhole Separation Technology-Present Status- Advantages-
Challenges-Downhole oil- water separation (DOWS) - hydrocyclone separator Different
configurations -Working Principle-Performance factors- Selection Criteria-Scale up-
Experiences with problems-Reinjection systems- Downhole completion designs for
DOWS - Downhole gas-water Separations-Application of electrical submersible pumps-
Working principle-Modified plunger pumps Three-phase Separation Technology- Case
studies on DOWS and DGWS
UNIT-IV
Application of Solar Energy in Oil and Gas Operations
Solar Energy-PV Cells-Concentration of Solar Power-Energy use in offshore rigs and
FPSO- Energy and Cost Analysis-Solar panels required to replace fossil fuels-
Comparison of Diesel Power with Solar Power Costs-Ability of Solar Energy Use on
Offshore Rigs-Solar Energy Enhanced Oil Recovery
UNIT-V
Application of Divided Wall Distillation technology in separation of NGL
Working principle of Divided wall distillation column-Advantages-Various
configurations-Separation of NGL
Text Books
1 Process Intensification Engineering for Efficiency Sustainability and Flexibility
D Reay C Ramshaw and A Harvey Butterworth-Heinemann 1st Edition
Burlington 2008
Reference Books
1 Re-Engineering the Chemical Processing Plant Process Intensification A
Stankiewicz and JA Moulijn (Editors) Marcel Dekker New York 2004
Web Links
1 httpswwwsciencedirectcombook9780750689410process-intensification
2 httpswwwsciencedirectcomsciencearticlepiiB9780750689410000043
3 httpwwwyourarticlelibrarycomenergysolar-energy-10-major-application-of-
solar-energy-explained28197
4 httpsenwikipediaorgwikiDigital_divide
AR19 Mechanical Engineering
Aditya Engineering College (A) 154
FUNDAMENTALS OF PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O02 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in petroleum industry
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquosvarious principles associated to various treating
operations and unit processes
COB 5 To impart knowledge on available in petroleum well servicing unit
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for petroleum
industry
CO 2 Analyze various modifications to equipment and designs with which evaluate
the lithological characteristics and behavior of reservoir
CO 3 Analyze various case studies available in petrochemical chemical bioprocesses for
treatment of wastage
CO 4 Analyze various modification to well for better production rate
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4 )
PO 3
(K5 )
PO 4
(K 3)
PO 5
(K3 )
PO 6
(K3)
PO 7
(K2 )
PO 8
(K3)
PO 9
(K2)
PO 10
(K2 )
PO11
(K3 )
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
The history of production Oil beginning- A case for casing- More fireworks-
Underground mysteries- Breathing of the earth- Crisis and reservoirengineering-
Horizontal drilling- The great offshore-Indian scenario
UNIT-II
The reservoir Origin- Transformation- Characterization- Discovery
Whatrsquos in the container The prize Determinants- The contents- Thechemistry-
Composition- Properties- Impurities- Fingerprints- The origin ofhydrocarbons
Drilling The spring pole- Cable tool drilling and operations- Rotarydrilling- Rig
components- Drilling mud- Blowout preventers- Drillingoffshore- Top drives and
AR19 Mechanical Engineering
Aditya Engineering College (A) 155
automation- The course- Location
UNIT-III
Logging testing and completing Logging- Correlation logs- Real time-Directional and
horizontal wells- Original hydrocarbons in place- Openhole testing- Completions- Cased
hole logging and measuring devices
Hydrocarbon activity in the reservoir Phases- Phases diagrams- Reservoirfluid
categories- Using phase diagrams- Gas wells Vs oil wells- Shrinkagendash Solution gas- oil
ratio- Relative permeability
Production The motivating force- Drive mechanisms- Producing phases-Primary
production- Secondary recovery- Pressure maintenance andwaterflooding- Tertiary
recovery
UNIT-IV
Making it marketable Field processing Gas treating- Oil treating- Waterdisposal-
Testing- Measurement and metering- Storage
UNIT-V
Remedial operations and workovers Decision making- Workover rigs-Coiled tubing-
Subsea completions- Well problems and stimulation-Changing production intervals
Text Books
1 Oil and Gas Production in Nontechnical Language Martin S Raymondamp William
L Leffler Penn Well Corporation 2006
Reference Books
1 Introduction to Oil and Gas Production American Petroleum Institute5th Edition
1996
2 Oil and Gas Production Hand Book An Introduction Oil and GasProduction
HavardDevold ABB ATPA Oil and Gas 2006
Web Links
1 httpsenwikipediaorgwikiPetroleum_industry
2 httpwwwoil-gasportalcomdrillingtechnologies
3 httpswwwibeforgindustryoil-gas-indiaaspx
4 httpswwwapiorgoil-and-natural-gaswells-to-consumertransporting
5 httpswwwsciencedirectcomtopicsengineeringpetroleum-refining
AR19 Mechanical Engineering
Aditya Engineering College (A) 156
BASIC CROP PRODUCTION PRACTICES (Open Elective ndashI)
V Semester L T P C
Course Code 191AG5O01 2 1 0 3
Course Objectives
COB 1 To enable the students to study principles of agricultural and horticultural crop
production and to introduce the production practices of crops
COB 2 To make the students to acquire knowledge for delineate the role of
agricultural and irrigation engineers in relation to various crop production
practices
COB 3 To make the students to acquire knowledge on crop selection crop production
and crop management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain factors affecting on crop growth and production
CO 2 Explain crop selection and establishment of an adequate crop stand and
ground cover
CO 3 Explain crop water management
CO 4 Apply agriculture crops production practices in field
CO 5 Apply the horticulture crops production practices in field
Mapping of Course Outcomes with Program Outcomes
COsPOrsquos PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - 1 - - 2 - - - - 3 - 3
CO2 (K2) - 1 - - 2 - - - - 3 - -
CO3 (K2) - 1 - - 2 - - - - 3 - 3
CO4 (K3) - 2 1 1 3 - - - - 3 - 3
CO5 (K3) - 2 1 1 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Agriculture and Crop Production Introduction to agriculture and its crop production sub-
sectors ndash field crop production and horticulture Factors affecting crop growth and
production genetic (internal) and environmental (external) factors Crop management
through environmental modification and adaptation of crops to the existing environment
through crop cultural practices
UNIT-II
Crop Selection and Establishment Regional and seasonal selection of crops Systems of
crop production Competition among crop plants Spacing and arrangement of crop plants
Field preparation for crops including systems of tillage Establishment of an adequate crop
stand and ground cover including selection and treatment of seed and nursery growing
AR19 Mechanical Engineering
Aditya Engineering College (A) 157
UNIT-III
Crop Management Crop water Management a Crop nutrition management ndash need for
supplementation to soil supplied nutrients sources generalized recommendations
methods and timing of application of supplemental nutrients including fertigation
scheduling Crop protection including management of weeds pests and pathogens
Integrated methods of managing water nutrients and plant protection Types and methods
of harvest
UNIT-IV
Production Practices of Agricultural Crops Generalized management and cultivation
practices for important groups of field crops in Andhra Pradesh cereal crops grain
legumes oil seed crops sugarcane and fiber crops and special purpose crops such as
those grown for green manure and fodder
UNIT-V
Production Practices of Horticultural Crops Important basic groups of horticultural crops
in AP such as vegetable crops fruit crops flower crops Cultivation practices of major
fruits major vegetables and major flowers of each group Special features of production
of horticultural crops ndash greenhouse cultivation Organic farming Zero budget farming
Vertical gardening and Kitchen farming
Text Books
1 Rajendra Prasad Text Book of Field Crop Production Directorate of Information and
Publication Krishi Anusandhan Bhavan Pusa New Delhi 2015
2 Reddy T Sankara GH Yellamanda Reddi Principles of Agronomy Kalyani
Publishers New Delhi 2005
3 Handbook of Agriculture ICAR Publications New Delhi 2011
Reference Books
1 Bose T K and LPYadav Commercial Flowers Naya Prakash Calcutta1989
2 Crop Production Guide Tamil Nadu Agricultural University Publication
Coimbatore 2005
3 Kumar N Abdul Khader M Rangaswami P and Irulappan I Introduction to
spices plantation crops medicinal and aromatic plants Rajalakshmi Publications
Nagercoil 1993
4 Kumar NrdquoIntroduction to Horticulturerdquo Rajalakshmi Publications Nagercoil 7th
edition 2015
5 Shanmugavel KG Production Technology of Vegetable Crops Oxford India
Publications New Delhi 1989
Web Links
1 httpswwwcareerlaunchercomcbse-ncertclass-8ScienceCBSE-Crop Production
andManagement-Notes html~text= E280A220Basic20 Practices20
of20Cropis20called20ploughing20or20tilling
2 httpswwwedubeanscomClass_VIII_Science_Crop-Production-and-Manage ment
php
3 httpsbyjuscombiologybasic-practices-of-crop-production
4 httpwwwapagrisnetgovinpdffarmerbookpdf
5 httpcbseacademicnicinweb_materialCurriculumVocational2018Basic20Ag
riculture20X20(408)pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 158
METROLOGYamp ICS LAB
V semester L T P C
Course Code 191ME5L05 0 0 3 15
Course Objectives
COB 1 To make the students measure bores by internal micrometers and dial bore
indicators
COB 2 To impart the knowledge of measurement of the angle and taper by bevel
protractor sine bars etc
COB 3 To induce the knowledge of principles involved in calibration
COB 4 To induce the knowledge about temperature sensors thermocouples RTD
thermisters)
Course Outcomes
At the end of the Course Student will be able to
CO 1 Measure the bores by internal micrometers and dial bore indicators
CO 2 Measure the angle and taper using bevel protractor and sine bar
CO 3 Measure screw thread parameters
CO 4 Find the errors and calibrate photo and magnetic pickups
CO 5 Find the errors and calibrate the pressure gauge temperature detectors and
LVDT
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
List of Experiments
Section A Metrology Lab
1 Measurement of lengths heights diameters by vernier calipers micrometers
2 Angle and taper measurements with bevel protractor Sine bar rollers and balls
3 Measurement of bores by internal micrometers and dial bore indicators
4 Straightness measuring using autocollimator
5 Gear tooth thickness measurement using gear tooth vernier calipers
Section B Instrumentation Lab
6 Calibration of pressure gauge
7 Study and calibration of LVDT transducer for displacement measurement
8 Calibration of thermocouple
AR19 Mechanical Engineering
Aditya Engineering College (A) 159
9 Study and calibration of photo and magnetic speed pickups
10 Calibration of resistance temperature detector
List of Augmented Experiments
Metrology Lab
(Any one of the following experiments can be performed)
11 Flatness measurement using optical flat
12 Machine tool alignment test on lathe using various metrology instruments
Instrumentation Lab
(Any one of the following experiments can be performed)
13 Calibration of Force measuring setup
14 Study and calibration of a Rotameter for flow measurement
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers
2 Measurement Systems Applications amp design DS Kumar Metropolitian Book
Co pvt ltd
Web Links
1 httpwwwatrieduinimagespdfdepartmentsINSTRUMENTATION20L
AB20 manual
2 httpwwwbitswglacinMEMetrology-Lab-Manual20320year 201 sem
3 httpslideplayercomslide7020420
4 httpgps-mechblogspotin201201lab-manual-for-measurement-andhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 160
THEORY OF MACHINES LAB
V semester L T P C
Course Code 191ME5L06 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge on governors and flywheels
COB 2 To provide practical exposure to students on gyroscopic forces and moments
COB 3 To impart knowledge of finding natural frequency of different types of
vibrations
COB 4 To develop knowledge on balancing of the machine parts statically and
dynamically
COB 5 To impart practical knowledge on analysis of mechanisms for a specified type
of motion in a machine
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the critical speed of whirling of shaft
CO 2 Determine the position of sleeve against the controlling force and speed in
governors
CO 3 Analyze the motion of motorized gyroscopic couple
CO 4 Measure the frequency of damped and un-damped vibrations of a spring mass
system
CO 5 Apply the principles of balancing of masses to various links mechanisms and
engines
CO 6 Analyze the displacement velocity and acceleration against crank rotation in
slider crank mechanism
CO 7 Calculate the moment of inertia of flywheel
CO 8 Analyze cam profile for various cam follower systems
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
LIST OF EXPERIMENTS
1 Determine whirling speed of shaft theoretically and experimentally
2 Plot follower displacement vs cam rotation for various Cam Follower systems
3 Determine the position of sleeve against controlling force and speed of a Hartnell
governor and plot the characteristic curve of radius of rotation
AR19 Mechanical Engineering
Aditya Engineering College (A) 161
4 Analyze the motion of a motorized gyroscope when the couple is applied along its
spin axis
5 Determine the frequency of un-damped free vibration of an equivalent spring mass
system
6 Determine the frequency of damped force vibration of a spring mass system
7 Study the static and dynamic balancing using rigid blocks
8 Find the moment of inertia of a flywheel
9 Plot slider displacement velocity and acceleration against crank rotation for single
slider crank mechanismFour bar mechanism
10 Find coefficient of friction between belt and pulley
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
11 Study simple and compound screw jack and determine the mechanical advantage
velocity ratio and efficiency
12 Study various types of gears- Spur Helical Worm and Bevel Gears
13 To determine the position of sleeve against controlling force and speed of a porter
governor and to plot the characteristic curve of radius of rotation
Reference Books
1 Theory of machines lab manual ndash Aditya Engineering College
2 Theory of machines by RSKhurmi JKGupta
AR19 Mechanical Engineering
Aditya Engineering College (A) 162
THERMAL ENGINEERING LAB
V semester L T P C
Course Code 191ME5L07 0 0 3 15
Course Objectives
COB 1 To provide the knowledge to the student about working of IC Engines
COB 2 To train the student to conduct performance and heat balance test on IC
Engines
COB 3 To practice the student to calculate the frictional losses in an IC Engine
COB 4 To impart practical exposure on performance of Reciprocating air Compressor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the various parts of an IC Engine
CO 2 Sketch the Valve and Port Timing diagrams for IC Engines
CO 3 Determine the performance of various types of IC Engines
CO 4 Prepare the heat balance sheet for various types of IC Engines
CO 5 Calculate the frictional power in various types of IC Engines
CO 6 Analyze the performance of reciprocating air compressor
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - 3 - -
CO2(K3) 3 2 - - - - - - - 3 - -
CO3(K3) 3 2 - 1 - - 3 - - 3 - 3
CO4(K3) 3 2 - - - - - - - 3 - -
CO5(K3) 3 2 - 1 - - 3 - - 3 - 3
CO6(K4) 3 3 - 2 - - 3 - - 3 - 3
CO7(K2) 2 1 - - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 2 -
CO2 (K3) - 2 -
CO3 (K3) 3 2 -
CO4 (K3) - 2 -
CO5 (K3) 3 2 -
CO6 (K4) 3 2 -
CO7 (K2) - 2 -
List of Experiments
1 (A)Draw amp Study The Valve Timing Diagrams For Four Stroke Diesel Engine
(Cut Section Model)
(B) Draw amp Study The Port Timing Diagrams For Two Stroke Petrol Engine (Cut
Section Model)
2 (A) Evaluate The Performance of 4 -Stroke Diesel Engine
(B) Draw The Heat Balance Sheet For 4-Stroke Single Cylinder Diesel Engine
(C) Determination of frictional power by retardation test on a 4-Stroke petrol
engine
3 (A) Evaluate The Performance of 4 -Stroke multi cylinder petrol Engine
AR19 Mechanical Engineering
Aditya Engineering College (A) 163
(B) Draw The Heat Balance Sheet For 4-Stroke multi cylinder petrol Engine
(C) Evaluation of frictional power by conducting morse test on 4-stroke multi
cylinder petrol engine
4 (A)Evaluate The Performance of 4 ndashStroke Petrol Engine Test Rig With Dc
Generator
(B)To Measure The Frictional Power of The Given Four Stroke Single Cylinder
Petrol Engine By Conducting Motoring Test
5 (A)Evaluate The performance of variable compression ratio engine
(B)Draw The Heat Balance Sheet For variable compression ratio engine
6 Performance test on reciprocating air compressor unit
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
7 (A) Determine the flash and fire point of given oil sample
(B) Determination of Viscosity using Red Wood Viscometer
(C) Determination of viscosity using Saybolt Viscometer
(D) Determination of calorific value of fuels by using Bomb Calorimeter
(E) ECONOMICAL SPEED TEST on IC Engines
Reference Books
1 Internal Combustion Engines V Ganesan TMH Publication 4th Edition
2 Internal Combustion Engines Fundamentals John B Heywood MGH
3 Thermal Engineering lab Manual Aditya Engineering College
Web Links
1 httpswwwscribdcomdoc38559760Thermal-Lab-Manual
2 httpwwwksrctacinpagethermal-engineering-labhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 164
EMPLOYABILITY SKILLS-III (Common to all branches)
Course Objectives
COB 1 To provide basic communication to ensure employability skills
COB 2 To meet the changing global needs and demands
COB 3 To orient students towards career and profession
COB 4 To equip students with fundamental and advanced inputs as various techniques
of strengthening their professional abilities
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the clock and calendar problems by simple methods
CO 2 Discuss about different types of puzzles
CO 3 Breakdown the typical write-up skills
CO 4 Apply different types of models on percentages profit and loss simple interest
and compound interest
CO 5 Demonstrate the tools of the soft skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
UNIT-I
Aptitude puzzle test group reasoning
Soft Skills Group discussion
UNIT-II
Aptitude clock calendar
Soft Skills Resume writing Personalized Resume preparation Compose and Prepare a
cover letter
UNIT-III
Aptitude cubes ampdice partnership
Soft Skills E-mail -Writing ampEtiquette Business Etiquette
UNIT-IV
Aptitude percentage profit and loss
Soft Skills Interviewing skills-1Dorsquosamp donrsquots in an interview Interview Demonstration
V Semester L T P C
Course Code 191HS5T06 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 165
Videos Interview Preparation
UNIT-V
Aptitude simple interest compound interest
Soft Skills Stress Management Personal priorities effect on career decisions Personal
priorities to professional priorities
Text Books
1 Quantitative Aptitude - Dr RS Aggarwal S CHAND
2 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
2 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
3 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 2
VISION amp MISSION OF THE COLLEGE
VISION
To induce higher planes of learning by imparting technical education with International
standards Applied research Creative ability and Value based instruction to emerge as a
premier institute
MISSION
Achieving academic excellence by providing globally acceptable technical education by
forecasting technology through
- Innovative research amp development
- Industry institute interaction
- Empowered manpower
VISION amp MISSION OF THE DEPARTMENT
VISION
To be a nationally preferred knowledge hub in mechanical engineering department with
commitment towards academics research innovation and critical thinking
MISSION
M1 Produce competent responsible mechanical engineering graduates by
imparting quality and value based education
M2 Inculcating strong mathematical amp computing fundamentals among
students that form the baseline for modern day solutions with emphasis on
design and development
M3 Prepare graduates to solve real time engineering problems using
professional knowledge and skills
M4 MoUrsquos with world class educational institutions and RampD organizations
for excellence in teaching research and consultancy services
AR19 Mechanical Engineering
Aditya Engineering College (A) 3
PROGRAM EDUCATIONAL OBJECTIVES (PEOs)
Graduates of the Program will
PEO 1 Progress in professional career with a solid foundation in mathematics
science and engineering
PEO 2 Solve real time engineering problems using professional knowledge and
skills resulting in significant societal development
PEO 3 Demonstrate multidisciplinary skills to analyze engineering issues in a
broader perspective with ethical responsibility towards sustainable
development
PEO 4 Demonstrate interpersonal skills leadership and team building to achieve
their career goals pursue lifelong learning and higher education necessary
for successful profession
PROGRAM OUTCOMES (POs)
After successful completion of the program the graduates will be able to
PO 1 Apply knowledge of mathematics science engineering fundamentals and an
engineering specialization to the solution of complex engineering problems
PO 2 Identify formulate research literature and analyze complex engineering
problems reaching substantiated conclusions using first principles of
mathematics natural sciences and engineering sciences
PO 3 Design solutions for complex engineering problems and design systems
components or processes that meet specified needs with appropriate
consideration for public health and safety cultural societal and
environmental considerations
PO 4 Conduct investigations of complex problems using research-based knowledge
and research methods including design of experiments analysis and
interpretation of data and synthesis of information to provide valid
conclusions
PO 5 Create select and apply appropriate techniques resources and modern
engineering and IT tools including prediction and modelling to complex
engineering activities with an understanding of the limitations
PO 6 Apply reasoning informed by contextual knowledge to assess societal health
safety legal and cultural issues and the consequent responsibilities relevant to
professional engineering practice
PO 7 Understand the impact of professional engineering solutions in societal and
environmental contexts and demonstrate knowledge of and need for
sustainable development
PO 8 Apply ethical principles and commit to professional ethics and responsibilities
and norms of engineering practice
PO 9 Function effectively as an individual and as a member or leader in diverse
teams and in multidisciplinary settings
PO 10 Communicate effectively on complex engineering activities with the
engineering community and with society at large such as being able to
comprehend and write effective reports and design documentation make
effective presentations and give and receive clear instructions
PO 11 Demonstrate knowledge and understanding of engineering management
principles and apply these to onersquos own work as a member and leader in a
AR19 Mechanical Engineering
Aditya Engineering College (A) 4
team and to manage projects in multidisciplinary environments
PO 12 Recognize the need for and have the preparation and ability to engage in
independent and life-long learning in the broadest context of technological
change
PROGRAM SPECIFIC OUTCOMES (PSOs)
After successful completion of the program the graduates will be able to
PSO 1 Ability to absorb analyse demonstrate and maintain latest developments in
mechanical engineering and allied areas
PSO 2 Conduct experiments and perform analysis by using research methods such
as design of experiments synthesizes the information and to provide valid
conclusions
PSO 3 Model design and analyse the mechanical systems and components taking
into account social economic and environmental implications
Mission of the department ndash PEOs mapping
PEOs Statements M1 M2 M3 M4
PEO 1 Progress in professional career with a solid
foundation in mathematics science and engineering 3 3 3 2
PEO 2 Solve real time engineering problems using
professional knowledge and skills resulting in
significant societal development
3 3 3 3
PEO 3 Demonstrate multidisciplinary skills to analyze
engineering issues in a broader perspective with
ethical responsibility towards sustainable
development
3 3 3 3
PEO 4 Demonstrate interpersonal skills leadership and team
building to achieve their career goals and pursue
lifelong learning and higher education necessary for
successful profession
2 2 2 2
Note
Bloomrsquos Taxonomy
Knowledge Level
Knowledge Level
Representation
Remember K1
Understand K2
Apply K3
Analyse K4
Evaluate K5
Create K6
Mapping Correlation levels
1 Slight (Low)
2 Moderate (Medium)
3 Substantial (High)
AR19 Mechanical Engineering
Aditya Engineering College (A) 5
PROGRAM STRUCTURE I SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191HS1T01 Communicative English HSMC 3 0 0 3 3
191BS1T01 Differential Equations and Linear
Algebra
BSC 3 0 0 3 3
191BS1T02 Engineering Physics BSC 3 0 0 3 3
191ES1T01 Programming for Problem Solving
Using C
ESC 3 0 0 3 3
191HS1L01 Communicative English Lab-I HSMC 0 0 3 3 15
191BS1L01 Engineering Physics Lab BSC 0 0 3 3 15
191ES1L01 Programming for Problem Solving
Using C Lab
ESC 0 0 3 3 15
191ES1L02 Basic Engineering Workshop ESC 0 0 3 3 15
191MC1A01 Environmental Science MC 2 0 0 2 0
191MC1A02 Constitution of India MC 2 0 0 2 0
TOTAL 16 0 12 28 18
II SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS2T05 Partial Differential Equations and
Vector Calculus
BSC 3 0 0 3 3
191BS2T06 Chemistry of Materials BSC 3 0 0 3 3
191ES2T02 Engineering Graphics and Design ESC 1 0 3 4 25
191ES2T03 Essential Electrical and Electronics
Engineering
ESC 3 0 0 3 3
191ES2T04 Engineering Mechanics ESC 3 0 0 3 3
191HS2L02 Communicative English Lab-II HSMC 0 0 2 2 1
191BS2L04 Engineering Chemistry Lab BSC 0 0 3 3 15
191ES2L03 Essential Electrical and Electronics
Engineering Lab
ESC 0 0 3 3 15
191ES2L07 Mechanical Engineering Workshop ESC 0 0 3 3 15
191PR2P01 Engineering Exploration Project PROJ 0 0 2 2 1
TOTAL 13 0 16 29 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 6
III SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS3T11 Integral Transforms And
Applications Of Partial
Differential Equations
(CE ME AgE)
BSC 3 0 0 3 3
191ME3T01 Fluid Mechanics and Hydraulic
Machinery
PCC 3 0 0 3 3
191ME3T02 Computer Aided Engineering
Drawing Practice
PCC 2 0 2 4 3
191ME3T03 Mechanics of Solids PCC 3 0 0 3 3
191ME3T04 Thermodynamics PCC 3 0 0 3 3
191ME3T05 Metallurgy amp Material Science PCC 3 0 0 3 3
191ME3L01 Fluid Mechanics amp Hydraulic
Machines Lab
PCC 0 0 3 3 15
191ME3L02 Mechanics of Solids amp Metallurgy
Lab
PCC 0 0 3 3 15
191MC3A03 Employability Skills ndash I MC 0 0 2 2 0
191MC3A04 Essence of Indian Traditional
Knowledge
MC 2 0 0 2 0
TOTAL 19 0 10 29 21
IV SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS4T16 Numerical methods amp Statistical
Techniques (CE ME Ag E)
BSC 3 0 0 3 3
191HS4T04 Managerial Economics amp
Financial Analysis
HSMC 3 0 0 3 3
191ES4T15 Internet of Things ESC 3 0 0 3 3
191ME4T06 Production Technology PCC 3 0 0 3 3
191ME4T07 Kinematics of Machinery PCC 3 0 0 3 3
191ME4T08 Thermal Engineering-I PCC 3 0 0 3 3
191ME4L03 Production Technology Lab PCC 0 0 3 3 15
191ME4L04 Computer Aided Machine
Drawing
PCC 0 0 3 3 15
191MC4A05 Employability Skills ndash II MC 0 0 2 2 0
191MC4A06 Biology for Engineers MC 2 0 0 2 0 TOTAL 20 0 8 28 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 7
V SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME5T09 Dynamics of Machinery PCC 3 0 0 3 3
191ME5T10 Design of Machine Members-I PCC 3 0 0 3 3
191ME5T11 Thermal Engineering-II PCC 3 0 0 3 3
---- PE-I PEC 3 0 0 3 3
---- OE-I OEC 3 0 0 3 3
191ME5L05 Metrology ICS lab PCC 0 0 3 3 15
191ME5L06 Theory of Machines Lab PCC 0 0 3 3 15
191ME5L07 Thermal Engineering Lab PCC 0 0 3 3 15
191HS5T06 Employability Skills ndash III HSMC 0 0 2 2 1
191PR5P02 Socially Relevant Project PROJ 0 0 0 0 1
TOTAL 15 0 11 26 215
VI SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME6T12 Heat Transfer PCC 3 0 0 3 3
191ME6T13 Design of Machine Members-II PCC 3 0 0 3 3
191ME6T14 Metal cutting and Machine Tools PCC 3 0 0 3 3
---- PE-II PEC 3 0 0 3 3
---- PE-III PEC 3 0 0 3 3
---- OE-II OEC 3 0 0 3 3
191ME6L08 Metal Cutting and Machine Tools
Lab
PCC 0 0 3 3 15
191ME6L09 Heat Transfer Lab PCC 0 0 3 3 15
191HS6T07 Employability Skills ndash IV HSMC 0 0 2 2 1
TOTAL 18 0 8 26 22
VII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME7T15 Operations Research PCC 3 0 0 3 3
191ME7T16 Finite Element Methods PCC 3 0 0 3 3
---- PE-IV PEC 3 0 0 3 3
---- PE-V PEC 3 0 0 3 3
---- OE-III OEC 3 0 0 3 3
191ME7P03 Internship PROJ 0 0 0 0 2
191ME7L10 CAM Mechatronics Lab PCC 0 0 3 3 15
191ME7L11 CAD CFD lab PCC 0 0 4 4 2
191ME7P04 Project Part 1 PROJ 0 0 0 0 2
TOTAL 15 0 7 22 225
AR19 Mechanical Engineering
Aditya Engineering College (A) 8
VIII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
---- PE-VI (MOOCs) PEC 3 0 0 3 3
---- OE-IV (MOOCs) OEC 3 0 0 3 3
191ME8P05 Project Part 2 PROJ 0 0 0 0 7
TOTAL 6 0 0 6 13
BSC Basic Sciences Courses HSMC Humanities and Social Sciences including Management
Courses ESC Engineering Sciences Courses PCC Professional Core Courses PEC
Professional Elective Courses OEC Open Elective Courses SSC Self Study Course MC
Mandatory Courses PROJ Project
PROFESSIONAL ELECTIVES
Professional Elective ndash I Professional Elective ndash II
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME5E01 Automobile Engineering 1 191ME6E07 Industrial Engineering amp
Management
2 191ME5E02 Composite Materials 2 191ME6E08 Mechatronics
3 191ME5E03 Fluid Engineering 3 191ME6E09 Non Destructive Evaluation
4 191ME5E04 Mechanical Vibrations 4 191ME6E10 Refrigeration and Air
Conditioning
5 191ME5E05 Metrology amp Instrumentation 5 191ME6E11 Robotics
6 191ME5E06 Organizational Behavior
Professional Elective ndash III Professional Elective ndash IV
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME6E12 Additive Manufacturing 1 191ME7E17 Advanced Automobile
Engineering
2 191ME6E13 Alternative Fuels 2 191ME7E18 Advanced Fluid Mechanics
3 191ME6E14 Design for Manufacturing 3 191ME7E19 Computational Fluid Dynamics
4 191ME6E15 Green Engineering Systems 4 191ME7E20 Nano materials amp Technology
5 191ME6E16 Lean Manufacturing 5 191ME7E21 Power Plant Engineering
Professional Elective ndash V Professional Elective ndash VI SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME7E22 CAD CAM 1 191ME8E27 Advanced Materials
2 191ME7E23 Condition Monitoring 2 191ME8E28 Manufacturing Methods in
Precision Engineering
3 191ME7E24 Design of Transmission
Systems
3 191ME8E29 Production Planning and
Control
4 191ME7E25 Flexible Manufacturing
Systems
4 191ME8E30 Thermal Equipment Design
5 191ME7E26 Gas Dynamics 5 191ME8E31 Total Quality Management
AR19 Mechanical Engineering
Aditya Engineering College (A) 9
OPEN ELECTIVE - I (V Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE5O01 Basic Concrete Technology CE EEE CE
2 191EE5O01 Electrical Safety EEE EEE
3 191EE5O02 Electrical Materials EEE EEE
4 191EE5O03 Basic Electrical Measurements EEE ECE EEE
5 191ME5O01 Renewable Energy Sources CE EEE ME Ag E ME
6 191ME5O02 Fundamentals of Mechanical
Engineering
ME ME
7 191ME5O03 Supply Chain Management ME ME
8 191ME5O04 3D Printing ME ME
9 191ME5O05 Entrepreneurship Development and
Incubation
ME
10 191EC5O01 Signals amp Systems EEE ECE ECE
11 191EC5O02 Digital Electronics and Logic
Design
EEE ECE CSE IT ECE
12 191EC5O03 Semi conductor devices EEE ECE ECE
13 191CS5O01 Data Structures EEE ECE CSE IT CSE
14 191CS5O02 Object Oriented Programming
through C++
CSE IT CSE
15 191CS5O03 Java Programming CSE IT CSE
16 191CS5O04 R Programming CSE
17 191IT5O01 Database Management Systems CSE IT IT
18 191IT5O02 Computer Graphics CSE IT IT
19 191MI5O01 Overview of Mining MinE MinE
20 191PT5O01 Process Intensification in Petroleum
Industry
PT PT
21 191PT5O02 Fundamentals of Petroleum
Industry
PT PT
22 191AG5O01 Basic Crop Production Practices AgE AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 10
OPEN ELECTIVE - II (VI Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE6O02 Disaster Management CE
2 191EE6O04 Energy Audit and Conservation
Management
EEE EEE
3 191EE6O05 Non Conventional Energy
resources
EEE EEE
4 191EE6O06 Instrumentation EEE ECE Ag E EEE
5 191ME6O06 Solar Energy Utilisation ME Ag E ME
6 191ME6O07 Basic Thermodynamics and
Heat Transfer
EEE ME PT AgE
MinE
ME
7 191ME6O08 Introduction to Hydraulics and
Pneumatics
CE ME PT ME
8 191ME6O09 3D Printing ME ME
9 191ME6O06 Robotics ME ME
10 191ME6O09 Management Science CE CSE IT PT Min
E
ME
11 191ME6O12 Entrepreneurship Development
and Incubation
ME
12 191ME6O07 Biomedical Instrumentation ECE
13 191ME6O08 ECAD Tools ECE ECE
14 191CS6O05 Python Programming EEE CSE IT CSE
15 191CS6O06 Operating Systems CSE IT CSE
16 191CS6O07 Web Technologies CSE IT CSE
17 191CS6O08 Cyber Security CSE IT CSE
18 191CS6O09 AR VR CSE
19 191IT6O03 Computer Organization CSE IT IT
20 191IT6O04 AI Tools amp Techniques CSE IT IT
21 191IT6O05 Robotic Process Automation
IT
22 191MI6O02 Industrial Safety Practices AgE MinE
23 191MI6O03 Electrical Equipmentrsquos in Mines MinE
24 191PT6O03 Unconventional Hydrocarbon
Resources
PT PT
25 191PT6O04 Asset Management PT
26 191AG6O02 Weather forecast in Agriculture AgE
27 191AG6O03 Bio-energy systems design and
applications
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 11
OPEN ELECTIVE - III (VII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE7O03 Waste Water Management CE CE
2 191EE7O07 Electrical and Hybrid Vehicles EEE EEE
3 191EE7O08 Special Electrical Machines EEE EEE
4 191EE7O09 Industrial Electrical Systems EEE EEE
5 191ME7O13 Optimization techniques
ME
6 191ME7O14 Energy Conservation
ME
7 191ME7O15 Introduction to Material Handling
Systems
ME
8 191ME7O16 Robotics ME ME
9 191ME7O17 Entrepreneurship Development and
Incubation
ME
10 191EC7O06 Overview of Digital Signal Processing EEE ECE ECE
11 191EC7O07 Basics of VLSI Design ECE ECE
12 191EC7O08 Micro Electro Mechanical Systems
ECE
13 191EC7O09 Image Processing ECE CSE IT ECE
14 191CS7O10 Big Data Analytics CSE IT CSE
15 191CS7O11 Mobile Application Development CSE IT CSE
16 191CS7O12 Data Science CSE IT CSE
17 191IT7O06 Machine Learning CSE IT IT
18 191IT7O07 Quantum Computing
IT
19 191IT7O08 Block Chain Technologies CSE IT IT
20 191MI7O04 Communication System in Mines
MinE
21 191MI7O05 Drilling amp Blasting MinE MinE
22 191PT7O05 Introduction to Earth Sciences CE PT Min E PT
23 191PT7O06 Basic Concepts in Petroleum Drilling and
Completions
PT PT
24 191AG7O04 Greenhouse Technology AgE AgE
25 191AG7O05 Reusability of Municipal Effluent in
Agriculture
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 12
OPEN ELECTIVE ndash IV (VIII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE8O04 Integrated Waste Management for a
Smart City
CE
2 191EE8O10 Fundamentals of Electrical Engineering EEE ECE EEE
3 191EE8O11 Basic Electrical Circuits EEE ECE EEE
4 191EE8O12 Electrical Machines EEE EEE
5 191EE8O13 Power Electronics EEE EEE
6 191EE8O14 Non-Conventional Energy Sources CE EEE ME EEE
7 191ME8O18 Fabrication processes ME ME
8 191ME8O19 Smart Materials ME
9 191EC8O10 Micro Electro Mechanical Systems ECE
10 191EC8O11 Basic Electronic Circuits EEE amp ECE ECE
11 191EC8O12 Principles of Communications ECE ECE
12 191EC8O13 Electronic Instrumentation EEE amp ECE ECE
13 191EC8O14 Digital Image Processing ECE CSE IT ECE
14 191CS8O13 Cyber Security CSE IT CSE
15 191CS8O14 Data Science CSE IT CSE
16 191CS8O15 Game Theory CSE IT CSE
17 191CS8O16 AR VR CSE
18 191IT8O09 Deep learning CSE IT IT
19 191IT8O10 Block Chain Technologies CSE IT IT
20 191PT8O07 Chemical Process Safety PT
21 191PT8O08 Mechanical Unit Operations PT
22 191AG8O06 GIS essentials in Agriculture and its
application
CE AgE
23 191AG8O07 Organic Farming for Sustainable
Agricultural Production
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 13
COMMUNICATIVE ENGLISH (Common to all branches)
I Semester L T P C
Course Code 191HS1T01 3 0 0 3
Introduction
In view of the growing importance of English as a tool for global communication and the
consequent emphasis on training the students to acquire communicative competence the
syllabus has been designed to develop linguistic and communicative competence of the
students of Engineering
As far as the detailed textbooks are concerned the focus should be on the skills of
listening speaking reading and writing The non-detailed textbooks are meant for
extensive reading for pleasure and profit
Thus the stress in the syllabus is primarily on the development of communicative skills
and fostering of ideas
Course Objectives
COB 1 To improve the language proficiency of the students in English with emphasis on
LSRW skills
COB 2 To enable the students to study and comprehend the prescribed lessons and
subjects more effectively relating to their theoretical and practical components
COB 3 To develop the communication skills of the students in both formal and informal
situations
COB 4 To develop the ways to overcome fear and use of words for irony
COB 5 To make the learners understand the development conditions and the core
Competences of the state to prioritize education system
COB 6 To discuss that water is the worlds most precious natural resources
COB 7 To discuss how human sensitivity changes in accordance to times and situations
in life
COB 8 To inform the learner that all men can come together to abolish the war
LISTENING SKILLS
Objectives
1 To enable the students to appreciate the role of listening skill and improve their
pronunciation
2 To enable the students to comprehend the speech of people belonging to different
backgrounds and regions
3 To enable the students to listen for general content to fill up information and for
specific information
SPEAKING SKILLS
Objectives
1 To make the students aware of the importance of speaking for their personal and
professional communication
2 To enable the students to express themselves fluently and accurately in social and
professional success
AR19 Mechanical Engineering
Aditya Engineering College (A) 14
3 To help the students describe objects situations and people
4 To make the students participate in group activities like role-plays discussions and
debates
5 To make the students participate in just a minute talks
READING SKILLS
Objectives
1 To enable the students to comprehend a text through silent reading
2 To enable the students to guess the meanings of words messages and inferences of
texts in given contexts
3 To enable the students to skim and scan a text
4 To enable the students to identify the topic sentence
5 To enable the students to identify discourse features
6 To enable the students to make intensive and extensive reading
WRITING SKILLS
Objectives
1 To make the students understand that writing is an exact formal skills
2 To enable the students to write sentences paragraphs e-mails and essays
3 To make the students identify and use appropriate vocabulary
4 To enable the students to narrate and describe
5 To enable the students to write coherently and cohesively
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the ways to overcome fear and use of words for irony
CO 2 Interpret the development conditions and the core competences of the state to
prioritize education system
CO 3 Explain water as the worlds most precious natural resources
CO 4 Illustrate human sensitivity to the changing times and situations in life
CO 5 Identify that all men can come together to abolish the war
CO 6 Rephrase coherent writing in social political and religious background
CO 7 Demonstrate writing and concepts of grammar skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - - 2 - -
CO2 (K2) - - - - - - - - - 3 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K2) - - - - - - - - - 3 - -
CO5 (K3) - - - - - - - - - 2 - -
CO6 (K2) - - - - - - - - - 3 - -
CO7 (K2) - - - - - - - - - 3 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
CO6 (K2) - - -
CO7 (K2) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 15
Methodology
1 The class is to be learner-centred where the learners are to read the texts to get a
comprehensive idea of those texts on their own with the help of the peer group and
the teacher
2 Integrated skill development methodology has to be adopted with focus on
individual language skills as per the tasksexercise
3 The tasksexercises at the end of each unit should be completed by the learners only
and the teacher intervention is permitted as per the complexity of the taskexercise
4 The teacher is expected to use supplementary material wherever necessary and also
generate activitiestasks as per the requirement
5 The teacher is permitted to use lecture method when a completely new concept is
introduced in the class
Recommended Topics
UNIT-I
1 An Astrologersrsquos Day - RK Narayan (Detailed)
2 Bade Bhai Saab - Munshi Premchand (Non-Detail)
UNIT-II
1 Building A New State - A P J Abdul Kalam (Detailed)
2 Morning Bells- Jayashree Mohan Raj (Non-Detail)
UNIT-III
1 WaterThe Elixer Of Life- C V Raman (Detailed)
2 The Power Of Plate Of Rice- Ifeoma Okoye (Non-Detail)
UNIT-IV
1 The Woodrose-Abburi Chaya Devi (Detailed)
2 The Cop And The Anthem- O Henry (Non-Detail)
UNIT-V
1 Progress- St John Ervine (Detailed)
2 Dial 000- Barry Rosenberg (Non-Detail)
Textbooks
Detailed Text Book lsquoUsing Englishrsquo by Orient Black Swan
Non Detailed Text Book lsquoLife language and Culture -Explorationsrsquo by Cengage
Reference Books
1 Objective English Pearson Publications
2 Effective English Communication Tata Mc Graw-Hill Publishing
3 Effective Technical English Scitech
Web Links
1 httpsittingbeecoman-astrologers-day-r-k-narayan
2 httpbbrenglishforallblogspotcom201401building-new-state-study-materialhtml
3 httpswwwliteraturewormscom201210water-elixir-of-life-by-sircvramanhtml
4 httpmaconholeswoodrose-abburi-chaya-devipdf
5 httpsardhendudeblogspotcom201307analysis-of-progress-by-st-john-ervinehtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 16
DIFFERENTIAL EQUATIONS AND LINEAR ALGEBRA (Common to all branches)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that
are essential for an engineering course
COB 2 To help the students form a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the concepts of Mean Value theorem Partial Differentiation and identify
the maxima and minima of a given function
CO 2 Solve the linear differential equations and model various situations involving
differential equations of first order
CO 3 Solve linear differential equations of higher order and model various situations
involving second order differential equations
CO 4 Calculate Rank of a matrix and solve the system of Linear equations and find the
Eigen values and Eigen vectors
CO 5 Compute various powers of a matrix and identify the nature of the quadratic form
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
UNIT I
Differential Calculus
Rollersquos theorem Lagrangersquos theorem Cauchy Mean Value theorem Taylorrsquos and Maclaurinrsquos
theorems (All theorems Without Proof)
Partial Differentiation Eulerrsquos theorem (without proof) Total derivative Chain rule Taylorrsquos
and Maclaurinrsquos series expansion of functions of two variables Jacobian Functional
dependence
Applications
Maxima and Minima of functions of several variables without constraints and with constraints
(Lagrangersquos method)
(SCILAB Exercise Plot graphs of various single and multivariable functions)
I Semester L T P C
Course Code 191BS1T01 3 0 0 3
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K3) 3 - -
CO 3 (K3) 3 - -
CO 4 (K3) - - -
CO 5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 17
UNIT II
Differential equations of first order
Introduction to differential equations linear differential equation of first order - Bernoulli
differential equation - Exact differential equations- Equations reducible to exact
Applications
Orthogonal trajectories Newtonrsquos Law of cooling RL circuit
UNIT III
Linear differential equations of second and higher order
Linear differential equations of higher order with constant coefficients Complementary function
and Particular integral with RHS term of the type polynomials in x eax sin ax
cos ax eax V(x) xV(x)- Method of Variation of parameters Equations reducible to constant
coefficients ndashCauchy-Euler equation Legendrersquos equation
Application LCR Circuit
(SCILAB Exercise Introduction to SCILAB commands and Solution of Initial Value
Problems)
UNIT IV
System of linear equations Eigen values and Eigen vectors
Definition of a Vector space Linear dependence and independence of vectors Rank of a matrix
Echelon form and Normal form solving system of Homogenous and Non homogenous linear
equations- Gauss Jordon elimination method Eigen values Eigen vectors Properties of eigen
values and eigen vectors (without proof )
Applications
Free vibrations of a two mass system
UNIT V
Quadratic forms
Cayley -Hamilton theorem (without proof ) Inverse and powers of a matrix by using Cayley -
Hamilton theorem Diagonalization of a matrix Quadratic forms Reduction of quadratic form to
canonical form using orthogonal transformation Nature of the quadratic form
(SCILAB Exercise Basic Operations on matrices computation of rank computation of eigen
values and eigen vectors)
Not to be examined
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley-India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson Publications
Reference Books
1 DGZill MICHAIL R CULTER Advanced Engineering Mathematics 3rd Edition Norosa
Publications 2009
2 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
3 Peter Orsquoneil Advanced Engineering Mathematics Cengage Learning
4 Glyn James Advanced modern engineering mathematics Pearson education
AR19 Mechanical Engineering
Aditya Engineering College (A) 18
Web Links
1 httpsnptelacincourses111106100
2 httpsnptelacincourses12210703714
3 httpsnptelacincourses111106051
4 httpmathworldwolframcom
5 httpswwwkhanacademyorg
6 httpsspoken-tutorialorgtutorial-
searchsearch_foss=Scilabampsearch_language=English
AR19 Mechanical Engineering
Aditya Engineering College (A) 19
ENGINEERING PHYSICS (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To identify different types of crystals analyze acoustic properties of for concert
halls NDT using ultrasonics
COB 2 To study different types of moduli and their relation applications of LASER light
in various Industries study different types of sensors
COB 3 To impart the knowledge of magnetic and dielectric materials and their
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basic concepts of crystal structure and X-ray diffraction Techniques
CO 2 Apply the knowledge of acoustics to improve acoustic quality of concert halls and
understand the concepts of flaw detection techniques using ultrasonics
CO 3 Apply the structure- property relationship exhibited by solid materials within the
elastic limit
CO 4 Explain the basic concepts of LASERs along with its Engineering applications and
familiarize with types of sensors for various engineering applications
CO 5 Explain about magnetic and dielectric properties of different materials
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K2) 2 - -
CO5 (K2) - - 2
UNIT-I
Crystal Structure Basis and lattice ndash Crystal Systems ndash Bravais Lattice - Symmetry
elements- Unit cell-packing fraction ndash coordination number- Miller indices ndash Separation
between successive (h k l) planes ndash Braggrsquos law-Braggrsquos x-ray spectrometer
Crystal Defects (qualitative description only) Point defects-Schottky Frenkel defects Line
defects-Edge screw dislocations
UNIT-II
Acoustics Introduction ndash Reverberation - Reverberation time - Sabinersquos formula (Derivation)ndash
I Semester L T P C
Course Code 191BS1T02 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 20
absorption coefficient and its determination- factors affecting acoustics of buildings and their
remedies
Ultrasonics Production of ultrasonics by Magnetostriction and piezoelectric methods ndash
Detection of ultrasonics - acoustic grating - Non-Destructive Testing- pulse echo system
through transmission and reflection modes - Applications
UNIT-III
Elasticity Stress strain Hookersquos law stress-strain curve generalized Hookersquos law with and
without thermal strains for isotropic materials different types of moduli and their relations
bending of beams ndash Bending moment of a beam ndash Depression of cantilever
UNIT-IV
Laser Introduction to wave optics amp Interferometer-CharacteristicsndashSpontaneous and
Stimulated emission of radiation ndash population inversion - Einsteinrsquos coefficients amp Relation
between them and their significance - Pumping Mechanisms - Ruby laser ndash Helium Neon laser
ndash CO2 laser-Applications
Sensors (qualitative description only) Different types of sensors and applications Strain and
Pressure sensors- Piezoelectric magnetostrictive sensors Temperature sensor - bimetallic
strip pyroelectric detectors
UNIT-V
Magnetism Introduction ndash Magnetic dipole moment ndash Magnetization-Magnetic susceptibility
and permeability ndash Origin of permanent magnetic moment ndash Bohr Magneton - Classification
of magnetic materials (Dia Para and Ferro) ndash Domain concept of Ferromagnetism - Hysteresis
ndash soft and hard magnetic materials ndash Applications of Ferromagnetic materials
Dielectrics Introduction - Dielectric polarization ndash Dielectric polarizability Susceptibility and
Dielectric constant-types of polarizations Electronic and Ionic (Quantitative) Orientational
polarizations (qualitative)-Lorentz internal field ndash Claussius_Mossoti equation- Frequency
dependence of polarization - Applications of dielectrics
Text Books
1 ldquoText book of Engineering Physicsrdquo by P G Kshirsagar amp M N Avadhanulu S Chand amp
Company Ltd
2 ldquoEngineering Physicsrdquo by R K Gaur and S L Gupta Dhanpat Rai Publications
3 ldquoSensor and Transducersrdquo by Ian R Sinclair Elsevier (Newnes) 3rd Eds
Reference Books
1 ldquoEngineering Physicsrdquo by M R Srinivasan New Age International Publishers
2 ldquoLectures on Physicsrdquo by Richard P Feynman Pearson Publishers New Millennium Eds
3 ldquoLasers and Non-linear Opticsrdquo by B B Laud New Age International Publishers (3rd
Eds)
Web Links
1 httpnptelacincourses12210703511
2 httpnptelacincourses115102023
3 httpsphetcoloradoeduensimulationscategoryphysics
4 httpphysicsgecgblogspotinpreading-materialshtml
5 httpssitesgooglecomsitephysicsbysureshsagantihome
AR19 Mechanical Engineering
Aditya Engineering College (A) 21
PROGRAMMING FOR PROBLEM SOLVING USING C (Common to all branches)
Course Objectives
COB 1 To impart adequate knowledge on the need of programming languages and problem
solving techniques and develop programming skills
COB 2 To enable effective usage of control structures and implement different operations on
arrays
COB 3 To demonstrate the use of strings and functions
COB 4 To impart the knowledge of pointers and understand the principles of dynamic
memory allocation
COB 5 To make the students understand the concepts of structures unions files and their
operations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the fundamental concepts of computers and basics of computer
programming
CO 2 Make use of control structures and arrays in solving complex problems
CO 3 Develop modular program aspects and strings fundamentals
CO 4 Demonstrate the ideas of pointers usage
CO 5 Solve real world problems using the concept of structures unions and File operations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K2) 2 1 - - 2 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 2
CO2 (K3) 3 2 3
CO3 (K3) 3 2 3
CO4 (K2) - - -
CO5 (K3) 3 2 3
UNIT-I
Computer History Hardware Software Programming Languages and Algorithms
Components and functions of a Computer System Concept of Hardware and Software
Programming Languages Low-level and High-level Languages Program Design Tools
Algorithm Flowchart Pseudo code
Introduction to C Programming Introduction Structure of a C Program Comments
Keywords Identifiers Data Types Variables Constants InputOutput Statements Operators
Type Conversion
I Semester L T P C
Course Code 191ES1T01 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 22
UNIT -II
Control Flow Relational Expressions amp Arrays Conditional Branching Statements if if-
else if-elsendashif switch Basic Loop Structures while do-while loops for loop nested loops
The Break and Continue Statements goto statement
Arrays Introduction Operations on Arrays One dimensional Array Two dimensional Array
Multi dimensional arrays
UNIT-III
Strings String Fundamentals String Processing with and without Library Functions
Functions Introduction Function Declaration Function Definition Function call Categories
of Functions passing parameters to Functions Arrays as Function Arguments Scope of
Variables Variable Storage Classes Recursion
UNIT-IV
Pointers Concept of a Pointer Declaring and Initializing Pointer Variables Pointer
Expressions and Address Arithmetic Null Pointers Generic Pointers Pointers as Function
arguments Pointers and Arrays Pointers and Strings Pointer to Pointer Dynamic Memory
Allocation Dangling Pointer Command line Arguments
UNIT-V
Structures Unions Bit Fields Introduction Nested Structures Arrays of Structures
Structures and Functions Self-Referential Structures Unions Enumerated Data Type ndashenum
variables Using Typedef keyword Bit Fields
Data Files Introduction to Files Using Files in C Reading from Text Files Writing to Text
Files Random File Access
Text Books
1 Computer Programming Reema Thareja Oxford University Press
2 Byron Gottfried Schaums Outline of Programming with C McGraw-Hill
3 Programming In C A-Practial Approach Ajay Mittal Pearson
Reference Books
1 C Programming ndash A Problem Solving Approach Forouzan Gilberg Cengage
2 The C Programming Language Dennis Richie And Brian Kernighan Pearson
Education
3 Programming In C Ashok Kamthane Second Edition Pearson Publication
Web Links
1 httpwwwc4learncom
2 httpwwwgeeksforgeeksorgc
3 httpnptelacincourses122104019
4 httpwwwlearn-corg
5 httpswwwtutorialspointcomcprogramming
AR19 Mechanical Engineering
Aditya Engineering College (A) 23
COMMUNICATIVE ENGLISH LAB ndashI (Common to all branches)
Course Objectives
COB 1 To facilitate computer-aided multi-media instruction enabling
Individualized and independent language learning
COB 2 To sensitize the students to the nuances of English speech sounds word
accent and intonation
COB 3 To bring about a consistent accent and intelligibility in their pronunciation
of English by providing an opportunity for practice in speaking
COB 4 To improve the fluency in spoken English and neutralize mother tongue
influence
COB 5 To train students to use language appropriately
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
A Greeting Introducing and taking leave
B Pure Vowel
PRACTICE 2
A Giving Information and Asking for Information B Diphthongs
I Semester L T P C
Course Code 191HS1L01 0 0 3 15
CO 1 Demonstrate nuances of language through audio-visual experience and
group activities
CO 2 Identify accent for intelligibility
CO 3 Demonstrate in conversation jams and public speaking
CO 4 Make use of the concepts to communicate confidently and competently in
English Language in all spheres
AR19 Mechanical Engineering
Aditya Engineering College (A) 24
PRACTICE 3
A Inviting Accepting and Declining Invitations
B Consonants
PRACTICE 4
A Commands Instructions and Requests
B Accent and Rhythm
PRACTICE 5
A Suggestions and Opinions
B Intonation
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra
JRaju and DrGSuvarna Lakshmi Maruthi Publications
2 English for Professionals by Prof Eliah BS Publications Hyderabad
3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata McGraw ndash Hill
Publishing Company
5 Word power made handy Dr Shalini verma S Chand Company
6 Let us hear them speak Jayashree Mohanraj Sage texts
AR19 Mechanical Engineering
Aditya Engineering College (A) 25
ENGINEERING PHYSICS LAB (Common to CE ME MinE PT AgE)
Course Objectives COB 1 To make the students gain practical knowledge to co- relate with the
theoretical studies
COB 2 To impart skills in measurements
COB 3 To plan the experimental procedure and to record and process the results
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the rigidity and youngrsquos modulus to understand material properties
CO 2 Determine Acceleration due to Gravity and Radius of Gyration and spring constant
by oscillatory mechanics
CO 3 Find the strength of the magnetic field
CO 4 Determine wave length of unknown source particle size using lasers
CO 5 Determination of velocity of sound moment of inertia
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - - -
CO3 (K2) - - -
CO4 (K3) - - -
CO 5 (K3) 3 - -
LIST OF EXPERIMENTS
(Any 10 of the following listed experiments)
1 Determination of Rigidity modulus of a material- Torsional Pendulum
2 Determination of Youngrsquos modulus by method of single cantilever oscillations
3 Determination of Acceleration due to Gravity and Radius of Gyration - Compound
Pendulum
4 Verification of laws of vibrations in stretched strings ndash Sonometer
5 Determination of spring constant of springs using coupled oscillators
6 Magnetic field along the axis of a current carrying coil ndash Stewart and Geersquos apparatus
7 Study the variation of B versus H by magnetizing the magnetic material (B-H curve)
I Semester L T P C
Course Code 191BS1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 26
8 Measurement of magnetic susceptibility by Gouyrsquos method
9 Determination of ultrasonic velocity in liquid (Acoustic Grating)
10 Determination of dielectric constant by charging and discharging method
11 Determination of wavelength of Laser by diffraction grating
12 Determination of particle size using Laser
13 Determeination of Pressure variation using strain Gauge sensor
14 Determination of Moment of Inertia of a Fly Wheel
15 Determination of Velocity of sound ndashVolume Resoantor
LIST OF AUGMENTED EXPERIMENTS
16 to 19 (Any two of the following experiments can be performed)
16 Determine the Youngs Modulus of the material of the bar subjected to uniform bending
17 Determine the Youngs Modulus of the material of the bar subjected to non-
uniform bending
18 V-I characteristics of P-N junction Diode
19 V-I characteristics and Breakdown voltage of Zener Diode
Reference Books
1 Engineering Physics Lab Manual by DrCVMadhusudhana Rao VVasanth Kumar
Scitech Publications
2 Laboratory Manual Cum Record for Engineering Physics I amp II by DrYAparna
DrKVenkateswara Rao VGS Technoseries
ENGINEERING PHYSICS - VIRTUAL LAB ndash ASSIGNMENTS
LIST OF EXPERIMENTS
1 Hall Effect
2 Crystal Structure
3 Brewsterrsquos angle
4 Numerical Aperture of Optical fiber
5 Photoelectric Effect
6 LASER ndash Beam Divergence and Spot size
7 Michelsonrsquos interferometer
8 Black body radiation
9 Flywheel ndash moment of inertia
10 AC Sonometer
11 Resistivity by four probe method
12 Newtonrsquos rings ndashRefractive index of liquid
Web Link
URL wwwvlabcoin
AR19 Mechanical Engineering
Aditya Engineering College (A) 27
PROGRAMMING FOR PROBLEM SOLVING USING C LAB (Common to all branches)
Course Objectives
COB 1 To impart knowledge on basic Linux commands various Editors Raptor
COB 2 To make the students understand the concepts of C programming
COB 3 To nurture the students on Control Structures and develop different operations on
arrays
COB 4 To enable the students to learn string fundamentals and modular programming
constructs
COB 5 To impart knowledge on dynamic memory allocation
COB 6 To explain the concepts of Structure Unions and files for solving various
problems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Develop the basic programs in C and draw the flowcharts using Raptor
CO 2 Make use of conditional and iterative statements to solve real time scenarios in C
CO 3 Apply the concept of arrays modularity and strings to handle complex problems
CO 4 Apply the dynamic memory allocation functions using pointers
CO 5 Develop programs using structures and Files
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K3) 2 1 - - 3 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1(K2) 2 1 2
CO2(K3) 3 2 3
CO3(K3) 3 2 3
CO4(K3) - - -
CO5(K3) 3 2 3
1 Introduction to C Programming
11) Basic Linux Commands
12) Exposure to Turbo C Vi Emacs Code Blocks IDE Dev C++
13) Writing simple programs using printf() scanf()
2 Raptor
21) Installation and Introduction to Raptor
22) Draw a flow chart to find the Sum of 2 numbers
23) Draw a flow chart to find Simple interest
I Semester L T P C
Course Code 191ES1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 28
For the following experiments develop flow charts using Raptor and implement C
programs to
3 Basic Math
31) Convert Celsius to Fahrenheit and vice versa
32) Find largest of three numbers using ternary operator
33) Calculate area of a Triangle using Herons formula
4 Control Flow- I
41) Find Whether the Given Year is a Leap Year or not
42) Find the roots of a Quadratic Equation
43) Make a simple Calculator to Add Subtract Multiply or Divide Using switchhellipcase
5 Control Flow- II
51) Find Whether the Given Number is Prime number or not
52) Find Whether the Given Number is Armstrong Number or not
53) Print Floyd Triangle
6 Control Flow- III
61) Find the sum of individual digits of a positive integer
62) Check whether given number is palindrome or not
63) Read two numbers x and n and then compute the sum of the geometric progression
1+x+x2 +x3 +helliphelliphelliphellip+xn
7 Arrays
71) Search an element in the given array (Linear Search)
72) Perform matrix addition
73) Perform matrix multiplication
8 Strings
81) Implementation of string manipulation operations with library function
a) copy
b) concatenate
c) length
d) compare
82) Implementation of string manipulation operations without library function
a) copy
b) concatenate
c) length
d) compare
83) Verify whether the given string is a palindrome or not
9 Functions Array amp Pointers
91) Demonstrate parameter passing in Functions
92) Find Fibonacci Factorial of a number with Recursion and without Recursion
93) Find the sum of given numbers with arrays and pointers
10 Pointers
101) Perform Addition Subtraction Multiplication and Division of two numbers using
Command line arguments
102) Find sum of n elements entered by user To perform this program allocate memory
dynamically using malloc () function
AR19 Mechanical Engineering
Aditya Engineering College (A) 29
103) Find sum of n elements entered by user To perform this program allocate memory
dynamically using calloc () function
11 Structures
111) Store Information of a book Using Structure
112) Add Two Complex Numbers by Passing Structure to a Function
12 Files
121) Open a file and to print the contents of the file on screen
122) Copy content of one file to another file
123) Merge two files and store content in another file
LIST OF AUGMENTED EXPERIMENTS
13 to 16 (Any 2 of the following experiments can be performed)
13 Atm Pin Generation
Aditya purchased a credit card He has to generate a PIN number to access the ATM and Net
banking for which OTP was sent to his registered mobile number Using this OTP number he
has to generate ATM PIN number After generating PIN number he can use it for further
transactions Maximum login he can make is 3 times
Sample Input
OTP 6732
If valid
Enter PIN 8858
Confirm your PIN 8858
Sample output
validInvalid
PIN generated successfully
Note OTP is hard coded
14 Reset Password
Aditya was using Syndicate Bankrsquos Online Account She wanted to pay her bills through
Online But she forgets her password Now she has to reset the password For resetting the
password she has to select reset option from the Menu
NOTE using switch case
Sample input
Fast withdrawal
Mini Statement
Balance Enquiry
Reset Password Enter your choice 4
Sample Output
Reset password New password Confirm password
15 Student Attendance Report Generation
Some of the school staff had failed to maintain the attendance of the students causing lack of
essential records related to students attendance that should be submitted in a parents meet The
school management has decided to automate the process in order to maintain the attendance of
every student effectively You are asked to write a program to the above scenario and display
whether the student is allowed to write the Exam or not
AR19 Mechanical Engineering
Aditya Engineering College (A) 30
Percentagelt65 Detained
gt=65 and lt75 should pay condonation to appear for
Exams
gt=75 Allowed for exams
Sample Input
Enter no of students 5
Enter Students Details
Rno1 NameKalyan Attendance() 67 Should pay
condonation to appear for exams
Rno2 Name Laxman Attendance() 56 Rno3 NameYamini Attendance() 79 Rno4 Name Aryan Attendance() 60 Rno5 Name Raghav Attendance() 88
Sample output Rno Name Attendance () Remarks
1 Kalyan 67 67 should pay condonation to
appear for Exams 2 Laxman 56 detained 3 Yamini 79 allowed for Exams 4 Aryan 60 detained 5 Raghav 88 allowed for Exams
16 Library Management
Shilpa is a student of PGEC got the Library Card She wants to lend the books from the Library
The college gave two cards to each and every student The students can lend only two books at
a time and it has to be returned back after 15 days If the books are not returned late fee will be
collected for no of days the books were returned after the due date Late fee per day is Rs50-
Sample output
Enter the name of student nalini
Enter the Roll No555
Enter the branch cse
Enter the section A
Enter the year 3
Enter the Date of Lend (dd mm yyyy ) 08 08 2017
Enter the Date of return (dd mm yyyy ) 09 10 2017
The no of days book used by the student = 62
Extra days used by the student = 47
Late return fine fee = 2350
Reference Books
1 Let Us C Yashwanth Kanetkar Eighth edition BPB Publications
2 Programming in C A-Practial Approach Ajay Mittal Pearson Education
3 The C programming Language Dennis Richie and Brian Kernighan Pearson
Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 31
Web Links
1 httpswwwhackerrankcom
2 httpswwwcodechefcom
3 httpswwwtopcodercom
4 httpscode-crackergithubio
5 httpsraptormartincarlislecom
6 httpsnptelacincourses1061050852
AR19 Mechanical Engineering
Aditya Engineering College (A) 32
BASIC ENGINEERING WORKSHOP (Common to all branches)
I Semester L T P C
Course Code 191ES1L02 0 0 3 15
Course Objectives
COB 1 To make the students practice basic engineering trades and skills
COB 2 To nurture the students build various joints used in different trades for several
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct the various wooden joints
CO 2 Develop various fitting joints
CO 3 Develop components for making the various sheet metal models
CO 4 Experiment with the various house wiring connections
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 - 3 - - - - - - -
CO2 (K3) 3 2 1 - 3 - - - - - - -
CO3 (K3) 3 2 1 - 3 - - - - - - -
CO4 (K3) 3 2 1 - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) - - -
List of Experiments
Carpentry
1 Cross Lap Joint
2 Dovetail Joint
3 T - Joint
Fitting
4 Vee Fit
5 Square Fit
House Wiring
6 Parallel Connection of three bulbs
7 Series Connection of three bulbs
Tin Smithy
8 Taper Tray
9 Funnel
10 Plain Pipe
AR19 Mechanical Engineering
Aditya Engineering College (A) 33
List of Augmented Experiments
(Student can perform any one of the following experiments)
1 Stair Case wiring
2 Florescent Lamp Fitting
Reference Books
1 Engineering Workshop by Dr A B Srinivasa Rao AMIGO Books
2 Manual on Workshop practice by Dr PKannaiah amp Dr KLNarayana Scitech
publications
Web Links
1 httptiteacinindexphpdepartmentsmechanical-engineeringworkshop
2 httpswwwgopracticalscombasic-engineeringworkshop
AR19 Mechanical Engineering
Aditya Engineering College (A) 34
ENVIRONMENTAL SCIENCE (Common to all branches)
I Semester L T P C
Course Code 191MC1A01 2 0 0 0
Course Objectives
COB 1 To define the various ecosystems and its diversity
COB 2 To summarize the overall natural resources
COB 3 To classify environmental impacts of developmental activities
COB 4 To discuss social issues environmental legislation and global t treaties
COB 5 To educate human population and environment
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the need for protecting the producers and consumers in various ecosystems
and their role in the food web
CO 2 Outline the natural resources and their importance for the sustenance of the life
CO 3 List out the biodiversity of India threats and its conservation methods
CO 4 Illustrate various attributes of the pollution impacts and measures to control the
pollution along with waste management practices
CO 5 Describe social issues both rural and urban environment to combat the
challenges
CO 6 Summarize the legislations of India in environmental protection
CO 7 Explains the population growth and its implications
CO 8 Transforms existing campus into self sustaining green campus with environment
Friendly aspects of ndash Energy Water and waste water reuse plantation rain water
Harvesting and Parking Curriculum
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K1) 1 - - - - 1 2 1 - - - -
CO2 (K2) 1 - - - - 1 2 1 - - - -
CO3 (K1) 1 - - - - 1 2 1 - - - -
CO4 (K2) 1 - - 1 - 1 2 1 - - - -
CO5 (K2) 1 - - - - 1 2 1 - 3 - -
CO6 (K2) 1 - - - - 1 2 1 - - - -
CO7 (K4) 1 - - - - 1 2 1 - - - -
CO8 (K2) 2 1 2 1 - 2 3 2 3 3 2 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K1) - - -
CO2 (K2) - - 2
CO3 (K1) - - -
CO4 (K2) 2 - -
CO5 (K2) - - -
CO6 (K2) - - -
CO7 (K4) - - -
CO8 (K2) 2 1 2
AR19 Mechanical Engineering
Aditya Engineering College (A) 35
UNIT- I
Multidisciplinary Nature Of Environmental Studies
Definition Scope and Importance Need for Public Awareness
Natural Resources Renewable and non-renewable resources ndash Natural resources and
associated problems
UNIT - II
Ecosystem Biodiversity And Its Conservation
Ecosystems Concept of an ecosystem ndash Structure and function of an ecosystem ndash Producers
consumers and decomposers Food chains food webs and ecological pyramids
Biodiversity And Its Conservation Definition genetic species and ecosystem diversity ndash Bio-
geographical classification of India ndash Values of biodiversity Hot-spots of biodiversity ndash
Threats to biodiversity Conservation of biodiversity In-situ and Ex-situ conservation of
biodiversity
UNIT - III
Environmental Pollution And Solid Waste Management
Environmental Pollution Definition Cause effects and control
measures of
a Air Pollution
b Water pollution
c Soil pollution
d Marine pollution
e Noise pollution
Solid Waste Management Causes effects and control measures of urban and industrial
wastes ndash Role of an individual in prevention of pollution
UNIT - IV
Social Issues And The Environment
Social Issues and the Environment From Unsustainable to Sustainable development ndash
Urban problems related to Energy ampWater Resettlement and rehabilitation of people
Environmental ethics Climate change global warming acid rain ozone layer depletion
nuclear accidents and holocaust Environment Protection Act ndash Air (Prevention and Control
of Pollution) Act ndash Water (Prevention and control of Pollution) Act-Wildlife Protection Act
ndash Forest Conservation Act ndash Issues involved in enforcement of environmental legislation ndash
Public awareness
UNIT - V
Human Population And The Environment
Human population and the environment Population growth variation among nations
Environment and human health Human Rights Value Education Role of Information
Technology in Environment and human health
AR19 Mechanical Engineering
Aditya Engineering College (A) 36
Text Books
1 Text book of Environmental Studies for Undergraduate Courses by Erach Bharucha
for University Grants Commission Universities Press
2 Environmental Studies by Palaniswamy ndash Pearson education
3 Environmental Studies by DrSAzeem Unnisa Academic Publishing Company
Reference Books
1 Textbook of Environmental Science by Deeksha Dave and ESai Baba Reddy Cengage
Publications
2 Text book of Environmental Sciences and Technology by MAnji Reddy BS
Publication
3 Comprehensive Environmental studies by JPSharma Laxmi publications
4 Environmental sciences and engineering ndash J Glynn Henry and Gary W Heinke ndash
Prentice hall of India Private limited
5 A Text Book of Environmental Studies by GRChatwal Himalaya Publishing House
6 Introduction to Environmental engineering and science by Gilbert M Masters and
Wendell P Ela - Prentice hall of India Private limited
Web Links
1 httpswwwyoutubecomwatchv=mOwyPENHhbc
2 httpswwwyoutubecomwatchv=_mgvsPnCYj4
3 httpswwwyoutubecomwatchv=L5B-JMnBIyQ
4 httpswwwyoutubecomwatchv=3RDGV5i82_Q
AR19 Mechanical Engineering
Aditya Engineering College (A) 37
CONSTITUTION OF INDIA (Common to all branches)
I Semester L T P C
Course Code 191MC1A02 2 0 0 0
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain historical background of the constitution making and its importance for
building a democratic India
CO 2 Compare the functioning of three wings of the government ie executive
legislative and judiciary
CO 3 Interpret the value of the fundamental rights and duties for becoming good citizen
of India
CO 4 Compare the decentralization of power between central state and local self-
government
CO 5 Extend the knowledge in strengthening of the constitutional institutions like CAG
Election Commission and UPSC for sustaining democracy
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 2 - - -
CO2 (K2) - - - - - - - - 3 - - -
CO3 (K2) - - - - - - - - 3 - - -
CO4 (K2) - - - - - - - - 3 - - -
CO5 (K3) - - - - - - - - 2 - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Indian Constitution Constitutionrsquo meaning of the term Indian Constitution -
Sources and constitutional history Features - Citizenship Preamble Fundamental Rights and
Duties Directive Principles of State Policy
COB 1 To enable the student to interpret the importance of constitution
COB 2 To facilitate the students to illustrate the structure of executive legislature and
judiciary
COB 3 To allow the students to classify philosophy of fundamental rights and duties
COB 4 To facilitate the students to outline the autonomous nature of constitutional bodies
like Supreme Court High Court Comptroller and Auditor General of India and
Election Commission of India
COB 5 To enable the student to interpret the central and state relations of finance and
administration
AR19 Mechanical Engineering
Aditya Engineering College (A) 38
UNIT-II
Union Government and its Administration Structure of the Indian Union Federalism Centre-
State relationship President Role power and position PM and Council of ministers Cabinet
and Central Secretariat Lok Sabha Rajya Sabha The Supreme Court and High Court Powers
and Functions
UNIT-III
State Government and its Administration Governor - Role and Position - CM and Council of
ministers State Secretariat Organisation Structure and Functions
UNIT-IV
A Local Administration - Districtrsquos Administration Head - Role and Importance
Municipalities - Mayor and role of Elected Representative - CEO of Municipal Corporation
PachayatiRaj Functions PRI Zila Panchayat Elected officials and their roles CEO Zila
Panchayat Block level Organizational Hierarchy - (Different departments) Village level -
Role of Elected and Appointed officials - Importance of grass root democracy
UNIT-V
Election Commission Election Commission- Role of Chief Election Commissioner and
Election Commissionerate State Election Commission Functions of Commissions for the
welfare of SCSTOBC and women
Text Books
1 Durga Das Basu Introduction to the Constitution of India Prentice ndash Hall of India Pvt
Ltd New Delhi
2 Subash Kashyap Indian Constitution National Book Trust
Reference Books
1 JA Siwach Dynamics of Indian Government amp Politics
2 DC Gupta Indian Government and Politics
3 HMSreevai Constitutional Law of India 4th edition in 3 volumes (Universal Law
Publication)
4 JC Johari Indian Government and Politics Hans
Web Links
1 nptelacincourses1091040748
2 nptelacincourses109104045
3 nptelacincourses101104065
4 wwwhssiitbacinenlecture-details
5 wwwiitbacinenevent2nd-lecture-institute-lecture-series-indian-constitution
AR19 Mechanical Engineering
Aditya Engineering College (A) 39
PARTIAL DIFFERENTIAL EQUATIONS AND VECTOR CALCULUS (Common to CE EEE ME MinE PT AgE)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that are
essential for an engineering course
COB 2 To help the students acquire a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Solve improper integrals using beta and gamma functions
CO 2 Solve partial differential equations of first order
CO 3 Compute the double integral over a region and triple integral over a volume
CO 4 Calculate the gradient of a scalar function divergence and curl of a vector function
CO 5 Apply line surface and volume integrals
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT - I
Special Functions
Beta and Gamma functions Properties Relation between Beta and Gamma functions
Evaluation of improper integrals
UNIT II
Partial Differential Equations
Formation of partial differential equations by elimination of arbitrary constants and arbitrary
functions Solutions of first order linear partial differential equations nonlinear partial
differential equations (standard types) Homogeneous linear partial differential equations with
constant coefficients
UNIT III
Multiple Integrals
Double integrals Change of order of integration Change of variables Double integral in polar
coordinates Triple integrals Finding Area and Volume as a double integral
II Semester L T P C
Course Code 191BS2T05 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 40
UNIT IV
Vector Differentiation
Introduction Gradient of a scalar field Directional Derivative Divergence of a vector field
Curl of a vector field Solenoidal and irrotational fields Conservative force field Scalar
potential Laplace operator Vector identities
UNIT V
Vector Integration
Introduction Line integral Work done Surface and volume integrals Greenrsquos theorem Stokes theorem and Gauss Divergence theorem (All theorems without proof) and related problems
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley- India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson
Publications
Reference Books
1 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
2 Dass HK Rajnish Verma Er Higher Engineering Mathematics S Chand Co Pvt
Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited 2006
Web Links
4 httpsnptelacincourses11110710825
5 httpsnptelacincourses111103021
6 httpsnptelacincourses111105122
7 httpmathworldwolframcom
8 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 41
CHEMISTRY OF MATERIALS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191BS2T06 3 0 0 3
Course Objectives
COB 1 To acquaint the students with soft and hard water types and softening methods
COB 2 To impart the knowledge on the basic concepts of electrochemical cells and battery
technology
COB 3 To impart knowledge about engineering materials their properties and
applications
COB 4 To impart knowledge on corrosion and its significance
COB 5 To explain Nano and smart materials and their uses
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare the quality of drinking water and problems associated with hard water
CO 2 Outline the difference between primary and secondary cells
CO 3 Explain about polymers and engineering materials
CO 4 Explain corrosion and their control methods
CO 5 Summarize the importance of Nano materials Semi conductors and Super
conductors
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - - - - -
CO2 (K2) 2 - - - - - - - - - - -
CO3 (K2) 2 - - - - - - - - - - -
CO4 (K2) 2 - - - - - - - - - - -
CO5 (K2) 2 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 -
CO2 (K2) 2 - -
CO3 (K2) 2 - -
CO4 (K2) - - -
CO5 (K2) - 1 -
UNIT- I
Water Technology
Introduction ndash Soft Water and hardness of water types of hardness of water degree of hardness
of water Units of hardness of water problems on hardness Boiler troubles - scale and sludge
Boier corrosion Industrial water treatment- zeolite and ion-exchange processes
Specifications for drinking water Bureau of Indian Standards (BIS) and World health
organization (WHO) standards - desalination of brackish water reverse osmosis (RO) and
electrodialysis
AR19 Mechanical Engineering
Aditya Engineering College (A) 42
UNIT - II
Electrochemical Energy Systems
Introduction- Electrochemical Cell (Galvanic cell) Electrochemical series Applications
single electrode potential Hydrogen and Calomel electrode Nernst Equation for a single
electrode Concentration Cells (Electrode amp Electrolyte) Construction of glass electrode
Batteries ndash Classical batteries-dryLeclanche cell Modern batteries-zinc air lithium cells-Li
MnO2 cell- challenges of battery technology Fuel cells- Introduction - classification of fuel
cells ndash hydrogen and oxygen fuel cell propane and oxygen fuel cell- Merits of fuel cell
UNIT - III
Polymers and Building Materials
Introduction to polymers functionality of monomers chain growth and step growth
polymerization coordination polymerization copolymerization (stereospecific
polymerization) with specific examples and mechanisms of polymer formation (Free radical
mechanism for addition ploymerization)
Plastics - Thermoplastics and Thermo settings Preparation properties and applications of ndash
PVC Bakelite
Steel ndash Types of Steel chemical composition ndash applications of alloy steels
Cement Portland cement constituents Manufacture of Portland Cement chemistry of setting
and hardening of cement
UNIT - IV
Corrosion Engineering
Corrosion Definition ndash theories of corrosion dry corrosion and electro chemical corrosion ndash
factors affecting corrosion nature of the metal and nature of the environment
Corrosion controlling methods Sacrificial and Impressed current cathodic protection
Metallic coatings anodic coatings cathodic coating galvanizing and tinning metal cladding
Electroplating ndashorganic coatings paints (constituents and their functions)
UNIT - V
Material Science and Engineering
Nano Materials Introduction to Nano materials chemical synthesis of nanomaterials Sol-
gel method characterization of nanomateirals by TEM (includes basic principle of TEM)
Applications of nanomaterials in waste water treatment lubricants and engines
Nano Tubes Carbon nano tubes- Types of CNTrsquos-preparation methodsndashArc vapourisation
Laser abiliation and chemical vapour deposition ndashproperties and applications
Band Theory of Solids Introduction ndashExplanation of conductors semi conductors Insulators
by Band Theory- Super conductors-Types-Preparation-Properties and Applications
Appendix Introduction to Smart Materials
Text Books
1 PC Jain and M Jain Engineering Chemistry 16e Dhanapat Rai amp Sons (2014)
2 BK Sharma Engineering Chemistry Krishna Prakasham (2014)
3 Engineering Chemistry by Shikha Agarwal Cambridge University Press 2015
edition
Reference Books
1 Sashi Chawla A Textbook of Engineering Chemistry Dhanapath Rai and sons (2003)
2 BS Murthy and P Shankar A Text Book of Nano Science and Nano Technology
University Press (2013)
AR19 Mechanical Engineering
Aditya Engineering College (A) 43
3 SS Dara A Textbook of Engineering Chemistry SChand amp Co (2010)
Web Links 1 httpwwwnptelvideosin201211chemistry-of-materials
2 httpwwwnptelvideoscomlecturephpid=2946
3 httpwwwnptelvideoscomlecturephpid=2922
4 httpwwwnptelvideoscomlecturephpid=2954
AR19 Mechanical Engineering
Aditya Engineering College (A) 44
ENGINEERING GRAPHICS AND DESIGN (Common to CE ME ECE CSE IT MinE PT amp AgE)
II Semester L T P C
Course Code 191ES2T02 1 0 3 25
Course Objectives
COB 1 To teach the practices for accuracy and clarity in presenting the technical
information used in industry
COB 2 To train the students with graphical skills in design of mechanical engineering
components
COB 3 To impart the knowledge of drawing machine components using AutoCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Make use of fundamentals of Engineering Drawing to sketch basic curves conic
sections cycloid epicycloid hypocycloid and involute
CO 2 Apply the principles of orthographic projections for points lines and planes
CO 3 Apply the principles of orthographic projections for solids
CO 4 Apply the AutoCAD software for the orthographic projection of the machine parts
CO 5 Apply the AutoCAD software for the isometric projection of the machine parts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K3) 3 - - - - - - - - 3 - -
CO2(K3) 3 - - - - - - - - 3 - -
CO3(K3) 3 - - - - - - - - 3 - -
CO4(K3) 3 - - - 3 - - - - 3 - 3
CO5(K3) 3 - - - 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - 3
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CONVENTIONAL DRAFTING
Unit-I
Introduction to Engineering graphics Principles of Engineering Graphics and their
significance- conventions in drawing- lettering ndash BIS Conventions- - Conic sections -Cycloid
epicycloids and hypocycloid-Involutes
UNIT-II
Projection of points lines and planes Projection of points in any quadrant lines inclined to
one or both planes finding true lengths angle made by line Projections of regular plane
surfaces
UNIT-III
Projections of solids Projections of regular solids inclined to one or both planes by rotational
AR19 Mechanical Engineering
Aditya Engineering College (A) 45
or auxiliary views method COMPUTER AIDED DRAFTING
UNIT-IV
Introduction to Computer Aided Drafting Basic drawing and editing commands-
Dimensioning principles and conventional representations Systems of projections
Conventions and application to orthographic projections
UNIT-V
Isometric Projections Principles of isometric projection- Isometric scale Isometric views
lines planes figures simple and compound solids
Text Books
1 NDBhatt Engineering Drawing 53rd Edition Charotar Publishers 2016
2 KLNarayana amp PKannaiah Engineering Drawing 3rd Edition Scitech Publishers
Chennai 2012
Reference Books
1 Dhanajay A Jolhe Engineering Drawing Tata McGraw-Hill Copy Right 2009
2 Shah and Rana Engineering Drawing 2e Pearson Education 2009
3 Venugopal Engineering Drawing and Graphics 3e New Age Publishers 2000
4 KCJohn Engineering Graphics 2e PHI 2013
5 Basant Agarwal amp CMAgarwal Engineering Drawing Tata McGraw-Hill Copy
Right 2008
Note
1 Manual and Computer Aided Drafting classes can be held in alternative weeks for
optimal utilization of computer facilities
2 External examinations to be conducted both manual and computer mode with equal
weightage of marks
Web Links
1 httpswwwwiziqcomtutorialsengineering-drawing
2 wwwmeumneducourses
3 Youtube http-seworCarletoncagkardos88403drawingshtml conic sections-online
red woodsedu
AR19 Mechanical Engineering
Aditya Engineering College (A) 46
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING (Common to CE ME CSE IT MinE PT AgE)
Course Objectives
COB 1 To impart the principles of basic lawrsquos for electrical networks
COB 2 To explain the concepts of electrical machines and their characteristics
COB 3 To expose the principle of operation construction details and testing methods of
transformer
COB 4 To impart the adequate knowledge about the operation of AC rotating machines
COB 5 To describe the characteristics of diodes transistors and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct simple electrical circuits using basic laws
CO 2 Explain the constructional features of DC Machines and working
CO 3 Examine the performance of single phase transformer
CO 4 Illustrate the principle of AC rotating machines
CO 5 Analyze the device structure operation and application of diode and BJT
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - - - -
CO2 (K2) 3 3 2 - - - - - - - - -
CO3 (K4) 2 1 - - - - - - - - - -
CO4 (K3) 2 1 - - - - - - - - - -
CO 5 (K4) 3 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) 2 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO 5 (K4) - - -
UNIT- I
Basic laws and Theorems Electrical circuit elements (R-L and C) ac and dc independent
sources and their V-I relationship Ohms law Kirchoffs Laws mesh analysis series and
parallel circuits delta-star and delta-star conversion Network Theorems (with DC Excitation)
superposition theorem Thevenins and Nortons theorem maximum power transfer theorem
with simple examples
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- II
DC Machines Constructional features Principle of operation of DC generator EMF equation
types of dc generators OCC characteristics of dc shunt generator Principle of operation of dc
II Semester L T P C
Course Code 191ES2T03 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 47
motor torque expressions 3-point starter losses and efficiency Swinburnersquos test efficiency
by direct loading Speed control methods of dc motor
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- III
Transformers Principle of operation and construction of single phase transformer EMF
equation voltage regulation losses and efficiency openshort- circuit tests and determination
of efficiency
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- IV
AC Rotating Machines Principle of operation of alternators Types of alternators Principle
of operation of synchronous motor Principle of operation of 3-Phase induction motor Slip-
torque characteristics Efficiency calculations from direct loading
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- V
Semiconductor Devices p-n Junction diode principle V-I characteristics rectifier circuits
(half-wave full-wave Descriptive treatment only) Zener diode as Voltage Regulator
Construction and working P-N-P and N-P-N Junction transistor Transistor as an CE amplifier
Text Books
1 Electrical Technology by Surinder Pal Bali Pearson Publications Vol I and Vol II
2 Electronic Devices and Circuits R L Boylestad and Louis Nashelsky 9th edition
PEIPHI 2006
Reference Books
1 Basic Electrical Engineering by M S Naidu and S Kamakshiah TMH Publications
2 DP Kothari IJ Nagrath Basic Electrical and Electronics Engineering 1st edition
McGraw Hill Education (India) Private Limited 2017
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 RK Rajput Basic Electrical and Electronics Engineering University Science Press
New Delhi 2012
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 wwwfalstadcomcircuits
AR19 Mechanical Engineering
Aditya Engineering College (A) 48
ENGINEERING MECHANICS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191ES2T04 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the concept of forces and their resolution in different planes
resultant of force system forces acting on a body their free body diagrams using
graphical methods and to know the concept of friction
COB 2 To make the students calculate the centre of gravity and moment of inertia of solids
and surfaces
COB 3 To educate the students about kinematics kinetics work - energy and impulse -
momentum principles
Course Outcomes
At the end of the Course Students will be able to
CO 1 Determine the resultant force and moment for a given force system
CO 2 Solve the member forces in trusses
CO 3 Apply concept of Virtual work to find the work done by force and couple
CO 4 Solve the centre of gravity and moment of inertia for various geometric shapes
CO 5 Determine the displacement velocity and acceleration relations in dynamic systems
CO 6 Apply the concepts of kinematics kinetics work - energy and impulse - momentum
methods to particle motion
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 3 - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 2 1 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K5) 3 3 3 - - - - - - - - -
CO6 (K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K5) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 3 -
CO6 (K3) 3 - -
UNIT I
Introduction to Engineering Mechanics Composition and resolution of forces
parallelogram law principle of transmissibility types of force systems - concurrent and
concurrent coplanar forces resultant of coplanar force systems couple moment of a force
Varignons theorem concept of free body diagrams concept of equilibrium of coplanar force
systems
AR19 Mechanical Engineering
Aditya Engineering College (A) 49
UNIT II
Analysis of Structures Introduction to plane trusses analysis of plane trusses by method of
joints and method of sections
Virtual Work Equilibrium of ideal systems work done by a force work done by a couple
principle of virtual work
UNIT III
Properties of Surfaces and Volumes Centroid and center of gravity derivation of centroids
from first moment of area centroids of composite sections center of gravity of common
volumes - cylinder cone sphere theorem of Pappus
Moment of Inertia Area moment of inertia of plane and composite shapes parallel axis
theorem perpendicular axis theorem polar moment of inertia mass moment of inertia of
common volumes -thin plates thin rod cylinder cone sphere rectangular prism radius of
gyration
UNIT IV
Kinematics Fundamentals of kinematics of motion- Rotation of a rigid body about a fixed
axis introduction to plane motion
Kinetics Principles of dynamics - Newtons Laws of motion DAlemberts principle in
rectilinear translation Concepts of Friction
UNIT V
Applications Principle of work and energy- Principle of conservation of energy Concept of
power Conservation of linear and angular momentum Principle of momentum and impulse
Types of impact
Text Books
1 Engineering Mechanics- Statics and Dynamics- ANelson Mc Graw Hill publishers
2 STimoshenko DH Young JV Rao Sukumar Pati Engineering Mechanics (in SI
units) 5e McGraw Hill 2013
3 N H Dubey Engineering Mechanics Statics and Dynamics McGraw Hill 2014
Reference Books
1 Basudeb Bhattacharya Engineering Mechanics 2e Oxford University Press (India)
2015
2 Irving Shames G K M Rao Engineering Mechanics Statics and Dynam-ics 4e
Pearson 2009
3 K L Kumar Veenu Kumar Engineering Mechanics 4e Tata McGraw Hill 2010
4 S S Bhavikatti Engineering Mechanics 4e New Age International 2008
Web Links
1 httpswwwiitgacinrkbcme101PresentationL01-03pdf
2 httpswwwhzgdeimperiamdcontenthzginstitut_fuer_werkstoffforschungwmsen
g_mech_2006pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 50
COMMUNICATIVE ENGLISH LAB ndashII (Common to all branches)
II Semester L T P C
Course Code 191HS2L02 0 0 2 1
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate interpersonal skills using language confidently and effectively for
personal and profession growth
CO 2 Make use of effective delivery strategies to select compile and synthesize
information for an oral presentation
CO 3 Demonstrate in mock interviews mock group discussion and public speaking
CO 4 Identify communicative competency to respond to others in different
situations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
Body Language
PRACTICE 2
Dialogues
PRACTICE 3
Presentation Skills
COB 1 To facilitate computer-aided multi-media instruction enabling individualized
and independent language learning
COB 2 To improve the fluency in spoken English and neutralize mother tongue
Influence
COB 3 To train students to use language appropriately
AR19 Mechanical Engineering
Aditya Engineering College (A) 51
PRACTICE 4
Group Discussion
PRACTICE 5
Interviews and Telephonic Interviews
PRACTICE 6
Debates
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra JRaju
and DrGSuvarna Lakshmi Maruthi Publications 2 English for Professionals by Prof Eliah BS Publications Hyderabad 3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata Mcraw ndash Hill
Publishing Company 5 Cornerstone Developing soft skills Pearson Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 52
ENGINEERING CHEMISTRY LAB (Common to CE ME ECE CSE MinE PT AgE)
II Semester L T P C
Course Code 191BS2L04 0 0 3 15
Course Objectives
COB 1 To acquaint the students with the basic concepts of Engineering Chemistry lab
COB 2 To demonstrate the digital instrument methods of analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the hardness of water
CO 2 Calculate the strength of acids amp bases by instrumental analysis
CO 3 Prepare advanced polymer materials
CO 4 Prepare alternative fuel like Bio-Diesel
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - 3 - - - - - - -
CO2 (K3) 3 - - - 3 - - - - - - -
CO3 (K3) 3 - - - 3 - - - - - - -
CO4 (K3) 3 - - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - - -
Introduction to Chemistry laboratory ndash Molarity Normality Primary secondary
standard solutions Volumetric titrations Quantitative analysis Qualitative analysis etc
Exercise 1 Determination of Total Hardness of a water sample
Exercise 2
Determination of Dissolved Oxygen in Water Sample
Exercise 3
Determination of Zinc by Complexometric method
Exercise 4
PH metric titration of (i) strong acid vs strong base
Exercise 5
Determination of Fe (II) in Mohrrsquos salt by potentiometric method
Exercise 6 Potentiometry ndash Titration between strong acid ndash strong base
Exercise 7
AR19 Mechanical Engineering
Aditya Engineering College (A) 53
Conductometric titrations(Strong acid vs Strong base)
Exercise 8
Preparation of Phenol- Formaldehyde resin
Exercise 9
Preparation of Urea-Formaldehyde resin
Exercise 10
Preparation of bio diesel
Exercise 11
Determination of Vitamin ndash C
LIST OF AUGMENTED EXPERIMENTS
12 to 15 (Any two of the following experiments can be performed)
Exercise 12
Determination of percentage Moisture content in a coal sample
Exercise 13
Determination of acid value and saponification value of a given lubricant
Exercise 14
Determination of viscosity of a liquid
Exercise 15 Estimation of Calcium in port land Cement
Reference Books
1 A Textbook of Quantitative Analysis Arthur J Vogel
2 DrJyotsna Cherukuris (2012) Laboratory Manual of engineering chemistry - II
VGS Techno Series
3 Chemistry Practical Manual Lorven Publications K Mukkanti (2009) Practical
Engineering Chemistry BSPublication
AR19 Mechanical Engineering
Aditya Engineering College (A) 54
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING
LAB (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To enable the students learn various network reduction techniques
COB 2 To impart the knowledge of efficiency of machines with direct and indirect
loading
COB 3 To make the students understand the performance of single phase transformer
COB 4 To enable the students learn the characteristics of diode and its applications
COB 5 To make the students learn the simulation of diode and transistor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the electrical networks using network theorems
CO 2 Analyze the performance of AC and DC Machines
CO 3 Estimate the performance of 1-phase transformer
CO 4 Explain diode characteristics and its applications
CO 5 Explain the simulation of diode and transistor
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 - - - - - - - -
CO2 (K4) 3 3 2 - - - - - - - - -
CO3 (K3) 3 2 1 1 - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K4) 3 - -
CO3 (K3) 3 - -
CO4 (K2) - - -
CO5 (K2) - - -
All the 10 experiments need to perform from
1 Verification of Kirchhoffrsquos Laws KVL and KCL
2 Verification of Superposition Theorem
3 Verification of Thevenins Theorem and Nortons Theorem
4 Speed control of DC shunt motor
5 OCC characteristics of DC shunt generators
6 Swinburnes test on a DC shunts machine
7 Brake Test on DC shunt motor
8 OC and SC Tests on single phase transformer
9 Current Voltage Characteristics of a p-n Junction Diode
10 Characteristics of single phase full wave bridge rectifier
II Semester L T P C
Course Code 191ES2L03 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 55
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 Voltage Regulation with Zener Diodes
12 Brake test on three phase induction motor
13 Regulation of Alternator by synchronous impedance method
14 Simulation of Diode and Transistor Circuit Analysis using PSPICE
Reference Books
1 Electrical Technology M S Naidu and S Kamakshiah TMH Publications 2006
2 Fundamentals of Electrical Engineering Rajendra Prasad PHI Publications 2nd
Edition
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 Electrical Circuit Theory and Technology by John Bird Routledge Taylor amp
Francis Group
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 httpnptelacincourses117106101
3 httpnptelacincourses122106025
AR19 Mechanical Engineering
Aditya Engineering College (A) 56
MECHANICAL ENGINEERING WORKSHOP II Semester L T P C
Course Code 191ES2L07 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To develop the knowledge for plastics processing techniques
COB 4 To impart the concept of assembling and disassembling of machine parts
COB 5 To provide basic knowledge about machine tools and power tools
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate pattern making process mould making process by using greens
and and casting process
CO 2 Distinguish among various metal fabrication processes such as Arc welding
Gas Welding Resistance spot welding process and Soldering amp Brazing
CO 3 Create the plastic object through different plastic processing techniques
CO 4 Experiment with assembling and disassembling of machine parts
CO 5 Make use of the basic machine tools and power tools used in manufacturing
Mapping of Course Outcomes with Program Outcomes
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) 3 3 -
CO3 (K6) 3 3 -
CO4 (K3) 3 2 -
CO5 (K3) 3 - -
List of Experiments
I Foundry Technology
1 Pattern Design and making - for casting drawing
2 Determination of average grain size for sand sample using sieve shaker
3 Mould preparation by Using Green Sand
4 Metal Melting and Casting of molten metal
II Metal Fabrication Techniques
5 Lap amp Butt Joint by Gas welding
6 Lap amp Butt Joint Double V butt Joint on thick plate by Arc welding
III Plastic Processing Techniques
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - - - -
CO2(K4) 3 3 - - - - - 3 - - - -
CO3(K6) 3 3 - - - - - - - - - -
CO4(K3) 3 2 - - - - - 3 - - - -
CO5(K3) 3 2 - - - - - 2 - - 3 -
AR19 Mechanical Engineering
Aditya Engineering College (A) 57
7 Injection Moulding (Jewelry Box and Bottle cap)
8 Blow Moulding (Water Bottle with cap)
IV AssemblingDisassembling Practice
9 Clutch and carburettor
10 Two-wheeler engine parts
V Basic Manufacturing Machine Tools And Power Tools
11 Drilling Boring Dieing and Tapping
12 Basic knowledge of Power Tools
List of Augmented Experiments
(Any one of the following experiments can be performed)
1 Lap amp Butt strap Joint by Resistance Spot Welding
2 Brazing and soldering
Reference Books
1 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II fourth
edition
2 Elements of Manufacturing Technology Vol II Hajra ChoudharySK and Hajra
Choudhary AK Media Publishers 2007 Edition
Web Links
1 httpssjceacinwp-contentuploads201804Foundry-and-Forging-Laboratory -
Manualpdf
2 httpwwwiitkacinmmetestTA201pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 58
ENGINEERING EXPLORATION PROJECT (Common to all branches)
Course Objectives
bull Build mindsets amp foundations essential for designers
bull Learn about the Human-Centered Design methodology and understand
their real-world applications
bull Use Design Thinking for problem solving methodology for investigating
illdefined problems
bull Undergo several design challenges and work towards the final design
challenge
Apply Design Thinking on the following Streams to
bull Project Stream 1 Electronics Robotics IOT and Sensors
bull Project Stream 2 Computer Science and IT Applications
bull Project Stream 3 Mechanical and Electrical tools
bull Project Stream4 Eco-friendly solutions for waste management
infrastructure safety alternative energy sources Agriculture
Environmental science and other fields of engineering
HOW TO PURSUE THE PROJECT WORK
bull The first part will be learning-based-masking students to embrace the
methodology by exploring all the phases of design thinking through the
wallet bag challenge and podcasts
bull The second part will be more discussion-based and will focus on building
some necessary skills as designers and learning about complementary
material for human- centered design
bull The class will then divide into teams and they will be working with one
another for about 2 ndash 3 weeks These teams and design challenges will be
the basis for the final project and final presentation to be presented
bull The teams start with Design Challenge and go through all the phases more
in depth from coming up with the right question to empathizing to ideating
to prototyping and to testing
bull Outside of class students will also be gathering the requirements identifying the challenges usability importance etc
bull At the end Students are required to submit the final reports and will be
evaluated by the faculty
TASKS TO BE DONE
Task 1 Everyone is a Designer
bull Understand class objectives amp harness the designer mindset
II Semester L T P C
Course Code 191PR2P01 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 59
Task 2 The WalletBag Challenge and Podcast
bull Gain a quick introduction to the design thinking methodology
bull Go through all stages of the methodology through a simple design challenge
bull Podcast Observe Listen and Engage with the surrounding
environment and identify a design challenge
Task 3 Teams amp Problems
bull Start Design Challenge and learn about teams amp problems through this
bull Foster team collaboration find inspiration from the environment and
learn how to identify problems
Task 4 Empathizing
bull Continue Design Challenge and learn empathy
bull Learn techniques on how to empathize with users
bull Go to the field and interview people in their environments
bull Submit Activity Card
Task 5 Ideating
bull Continue Design Challenge and learn how to brainstorm effectively
bull Encourage exploration and foster spaces for brainstorming
bull Submit Activity Card
Task 6 Prototyping
bull Continue Design Challenge and learn how to create effective prototypes
bull Build tangible models and use them as communication tools
bull Start giving constructive feedback to classmates and teammates
bull Submit Activity Card
Task 7 Testing
bull Finish Design Challenge and iterate prototypes and ideas through user
feedback
bull Evolve ideas and prototypes through user feedback and constructive
criticism
bull Get peer feedback on individual and group performance
bull Submit Activity Card
Task 8
bull Final Report Submission and Presentation
AR19 Mechanical Engineering
Aditya Engineering College (A) 60
Note The colleges may arrange for Guest Speakers from Various Design Fields
Graphic Design Industrial Design Architecture Product Design Organizational
Design etc to enrich the students with Design Thinking Concept
References
1 Tom Kelly The Art of Innovation Lessons in Creativity From IDEO
Americarsquos Leading Design Firm (Profile Books 2002)
2 Tim Brown Change by Design How Design Thinking Transforms
Organizations and Inspires Innovation (Harper Business 2009)
3 Jeanne Liedtka Randy Salzman and Daisy Azer Design Thinking for the
Greater Good Innovation in the Social Sector (Columbia Business School
Publishing 2017)
Web Links
bull Human-Centered Design Toolkit (IDEO)
httpswwwideocompostdesign-kit
bull Design Thinking Boot Camp Bootleg
(Stanford D-School)
httpsdschoolstanfordeduresource
sthe-bootcamp-bootleg bull Collective Action Toolkit (frogdesign)
httpswwwfrogdesigncomwpcontent
o uploads201603CAT_20_Englishpdf
bull Design Thinking for Educators (IDEO) httpsdesignthinkingforeducatorscom
AR19 Mechanical Engineering
Aditya Engineering College (A) 61
INTEGRAL TRANSFORMS AND APPLICATIONS OF PARTIAL
DIFFERENTIAL EQUATIONS (Common to CE ME Ag E)
III Semester L T P C
Course Code 191BS3T11 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
that are essential for an engineering course
COB 2 To help the students acquire problem analysis and problem solving skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compute the Fourier series of a function
CO 2 Compute the Fourier transform of a function
CO 3 Compute Laplace transform of a function
CO 4 Apply Laplace transform to solve initial value problems
CO 5 Solve one dimensional heat equation wave equation and two dimensional
Laplace equation
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO1 PSO2 PSO3 PSO4
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Fourier series
Fourier series of periodic function Dirichletrsquos conditions for Fourier expansion
Functions having points of discontinuities Change of interval Even and odd functions
Half-range series
UNIT-II
Fourier Transforms
Fourier integral theorem (without proof) Fourier sine and cosine integrals Fourier
Transforms Fourier sine and cosine transforms properties inverse transforms Finite
Fourier transforms
UNIT-III
Laplace Transforms
Laplace transforms of standard functions First Shifting theorem Change of scale
AR19 Mechanical Engineering
Aditya Engineering College (A) 62
Multiplication with t Division by t Transforms of derivatives and integrals Unit step
function Dirac delta function Periodic function Evaluating improper integrals by
using Laplace Transform
UNIT-IV
Inverse Laplace Transforms
Inverse Laplace transforms Convolution theorem (without proof) Second shifting
theorem
Solving differential equations and integro-differential equations using Laplace
transforms
(MATLAB Exercise Computing Laplace transform of f(t) using symbolic toolbox
Solving initial value problems)
UNIT-V
Application of PDE Classification of Higher order PDE - Method of separation of Variables- Solution of One dimensional Wave equation Heat equation and two-dimensional Laplace equation
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyengar 4th Edition Alpha
Science Publications
2 Advanced Engineering Mathematics Erwin Kreyszig 10th Edition Wiley-
3 Higher Engineering Mathematics BSGrewal 43rd Edition Khanna Publishers
Reference Books
1 Advanced engineering mathematics with MATLAB Dean G Duffy CRC Press
2 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited
2006
Web Links
1 httpsnptelacincourses111105123
2 httpsnptelacincourses111105093
3 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 63
FLUID MECHANICS AND HYDRAULIC MACHINERY
III Semester L T P C
Course Code 191ME3T01 3 0 0 3
Course Objectives
COB 1 Explain the properties of fluids and its applications
COB 2 Understand the principle of buoyancy stability of a floating body
COB 3 Analyze the losses in various flow systems
COB 4 Estimate the impact of jets on various vane geometries
COB 5 Understand the concepts of hydraulic machines and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Fluid Statics Kinematics and Dynamics
CO 2 Calculate the meta centric height of a submerged body
CO 3 Analyze the concepts of Boundary Layer Theory and its applications
CO 4 Model the derived Quantities with Dimensional Analysis
CO 5 Solve the hydrodynamic force of jet on various vanes
CO 6 Compare different types of Turbines and Pumps characteristics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 1 - - - - - - - - -
CO2 (K3) 3 3 1 - - - - - - - - -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 2 2 1 - - - - - - - - -
CO6 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K4) PSO 2(K4) PSO 3(K6)
CO1 (K2) - 3 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - 3 -
CO5 (K3) - - -
UNIT-I
Fluid Statics Dimensions and units Physical properties of fluidsndashMass Density
Specific weight Specific volume Specific gravity Viscosity Surface tension Vapor
pressure and their influence on fluid motion Atmospheric pressure Gauge pressure and
vacuum pressure Measurement of pressure Piezometers U-tube and differential
manometers
Buoyancy and Flotation Meta center Stability of floating body Submerged bodies
Calculation of metacentric height Stability analysis and applications
UNIT-II
Fluid Kinematics Streamline Path line and streak lines and stream tubes
Classification of flows ideal fluid and real fluidndashsteady and unsteady flows Uniform
and non-uniform flows Laminar and turbulent flows Rotational and irrotational flows
Equation of continuity for one-dimensional flows
AR19 Mechanical Engineering
Aditya Engineering College (A) 64
Fluid Dynamics Various forces acting on a fluid element- Eulerrsquos and Bernoullirsquos
equation for flow along a stream line Momentum equation and its applications for pipe
bend problem
UNIT-III
Closed Conduit Flow Reynolds number Reynolds experimentndashDarcyndashWeisbach
equationndashMinor losses in pipes Pipes in series and pipes in parallel Total energy line
Hydraulic gradient line
Boundary Layer Theory Introduction Momentum Integral equation Displacement
Momentum and energy thickness and Introduction to Aerodynamic forces like Drag
and Lift
UNIT-IV
Impact of Jet on Vanes Hydrodynamic force on jets on stationary and moving flat
Inclined and curved vanes Jet striking centrally and at tip Velocity diagrams Work
done and efficiency Flow over radial vanes
Introduction to Hydraulic Machinery
Hydraulic Turbines Classification of turbinesndashImpulse and reaction turbines Pelton
wheel Working principle
UNIT-V
Francis turbine and Kaplan turbinendashWorking principles Draft tube theory Functions
Introduction to Performance of turbines
Centrifugal and Reciprocating Pumps Classification Working of centrifugal pump
Working of Reciprocating pumps Discharge through Centrifugal Pumps Comparison
between Centrifugal and Reciprocating pumps Introduction to Performance of pumps
Text Books
1 Fluid Mechanics and Hydraulic Machines RKBansal Laxmi Publications (P)
Ltd 9th Edition
2 Fluid Mechanics Frank MWhite Mcgraw-Hill series 7th edition
Reference Books
1 Hydraulics and Fluid mechanics including Hydraulics machines by PNModi amp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
2 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
3 Fluid Mechanics and Fluid Power Engineering DS Kumar Kotaria amp Sons
Revised Edition
4 Fluid Mechanics and Machinery D Rama Durgaiah New Age International
Revised Edition
Web Links
1 httpnptelacincourses1121051711
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 65
COMPUTER AIDED ENGINEERING DRAWING PRACTICE (Common to ME amp Min E)
III Semester L T P C
Course Code 191ME3T02 2 0 2 3
Course Educational Objectives
COB 1 To train the students to improve the graphical skills in design of mechanical
components
COB 2 To impart the knowledge of drawing machine components in
AUTOCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Draw the sectional view of the solids
CO 2 Develop the surfaces of solids like prism pyramid cone and cylinder
CO 3 Sketch the intersection of solids and Isometric Views
CO 4 Draw the isometric and orthographic projections of the machine parts
through AutoCAD
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - 3 - -
CO2 (K3) 3 - - - - - - - - 3 - -
CO3 (K3) 3 - - - 3 - - - - 3 - 3
CO4 (K3) 3 - - - 3 - - - - 3 - 3
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) - - 1
CO4 (K3) - - 1
UNIT-I
Sections of Solids Cylinder Cone Prism and Pyramid
Development of Surfaces Cylinder Cone Prism and Pyramid
UNIT-II
Intersection of Solids Cylinder Cone Prism and Pyramid
UNIT-III
Isometric Projections Conversion of orthographic views to isometric views
UNIT-IV
Computer Aided Drafting 2D wire frame modelling 3D wire frame modelling View
point coordinates and view(s) displayed Examples to exercise different options like
save Restore Delete Joint Single option
UNIT-V
Computer Aided Solid Modeling Isometric projections Orthographic projections
of isometric projections
AR19 Mechanical Engineering
Aditya Engineering College (A) 66
Modeling of simple solids Modeling of Machines amp Machine Parts
Text Books
1 Engineering Drawing ND Bhatt Charotar Publications 53rd Edition
2 Text book of Engineering Drawing with Auto-CAD K Venkata Reddy BS
Publications 4th Edition
Reference Books
1 Mastering Auto CAD 2013 and Auto CAD LT 2013 ndash George Omura Sybex
Publication
2 Auto CAD 2013 fundamentals- Elisemoss SDC Publication
3 Engineering Drawing and Graphics using AutoCAD T Jeyapoovan Vikas
Publication
4 Engineering Drawing Auto CAD K Venugopal V Prabhu Raja New Age
Publication
Web Links
1 httpnptelacincourses11210301935
2 httpnptelacincourses11210301933
3 httpwwwengineeringdrawingorgcategoryprojection_of_solids
4 httpwwwengineeringdrawingorgcategorysection_of_solids
AR19 Mechanical Engineering
Aditya Engineering College (A) 67
MECHANICS OF SOLIDS
III Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make the student calculate the various types of stresses and strains in a
body for various loading conditions
COB 2 To make the student draw the shear force and bending moment diagrams for
beams of various loading conditions
COB 3 To train the students calculate the bending and shear stresses across the
beams of various cross-sections
COB 4 To enable the student determine the slope and deflection of beam under
various loads
COB 5 To make the student solve the shear stress due to twisting and buckling load
in columns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the stresses and strains in bodies of varying cross-section
Composite bars
CO 2 Sketch the shear force and bending moment diagrams for beams of various
supports and loads
CO 3 Analyze the variation of bending and shear stresses across a beam cross-
section
CO 4 Calculate the slope and deflection for beams of various load and support
arrangements
CO 5 Compute the shear stresses due to application of twisting moment
CO 6 Evaluate the buckling loads for various columns
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 2 2 - - 1 - - 1 - 1
CO2 (K3) 3 2 1 - - - 1 - - 1 - 1
CO3 (K4) 3 3 2 2 - - 1 - - 1 - 1
CO4 (K3) 3 2 1 2 - - 1 - - 1 - 1
CO5 (K3) 3 2 1 2 - - 1 - - 1 - 1
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 1 -
CO2 (K3) 1 1 -
CO3 (K4) 1 1 -
CO4 (K3) 1 1 -
CO5 (K3) 1 1 -
UNIT-I
Simple Stresses amp Strains Elasticity and plasticity ndash Types of stresses amp strainsndash
Hookersquos law ndash stress ndash strain diagram for mild steel ndash Working stress ndash Factor of safety
ndash Lateral strain Poissonrsquos ratio amp Volumetric strain ndash Bars of varying section ndash
Composite bars ndash Temperature stresses- Relation between elastic constants- Strain
energy ndash Resilience ndash Gradual Sudden Impact and Shock loadings
AR19 Mechanical Engineering
Aditya Engineering College (A) 68
UNIT-II
Shear Force and Bending Moment Definition of beam ndash Types of beams ndash Concept
of shear force and Bending moment ndash SF and BM diagrams for Cantilever Simply
supported and Overhanging beams subjected to point loads Uniformly distributing
loads Uniformly varying loads Simple couples Eccentric loads and combination of
these loads ndash Point of contra flexure ndash Relation between SF BM and rate of loading
at a section of a beam
UNIT-III
Flexural Stresses Theory of simple bending ndash Assumptions ndash Bending equation-
Neutral axis ndash Bending stresses ndash Section modulus of rectangular and circular sections
(Solid and Hollow)-I-section T-section Angle and Channel section ndash Design of simple
beam sections
Shear Stresses Shear stress distribution across various beams sections-Rectangular
Circular Triangular I-section T-section Angle section
UNIT-IV
Deflection of Beams Bending into a circular arc ndash Slope Deflection and Radius of
curvature ndash Differential equation for the elastic line of a beam ndash Double integration and
Macaulayrsquos methods ndash Determination of slope and deflection for cantilever and simply
supported beams subjected to point loads ndash Uniformly distributing loads ndash Uniformly
varying loadndash Moment area method ndash Mohrrsquos theorems -Application to simple cases
including overhanging beams
UNIT-V
Torsion Introduction ndash Derivation ndash Torsion of Circular shafts ndash Pure Shear ndash
Transmission of power by circular shafts Shafts in series Shafts in parallel
Columns Buckling and Stability Columns with Pinned ends Columns with other
support conditions Limitations of Eulerrsquos Formula Rankinersquos Formula
Text Books
1 Mechanics of Materials B C Punmia Laxmi Publications
2 Strength of Materials GH Ryder 3rd Edition
Reference Books
1 Mechanics of Materials James M Gere Nelson Thornes Publication 6th
Edition
2 Mechanics of Materials E Russell Johnston and John T Dewolf Mc Graw Hills
3rd Edition
3 Strength of Materials Part-1 STimshenko CBS Publication 3rd Edition
4 Strength of Materials S Ramamrutham Dhanapat Rai Publications 16th Edition
Web Links
1 httpnptelacincourses112107147
2 httpwwwnptelacincoursesWebcoursecontentsIITROORKEEstrength20of
20materialshomepagehtm
3 httpswwwaccessengineeringlibrarycommapsstrength-of-materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 69
THERMODYNAMICS
III Semester L T P C
Course Code 191ME3T04 3 0 0 3
Course Objectives
COB 1 To impart the knowledge of basic concepts of thermodynamics
COB 2 To illustrate the concept of first law of thermodynamics and applications
COB 3 To illustrate the concept of second law of thermodynamics
COB 4 To facilitate the students to know the concepts of pure substance and their
properties
COB 5 To help the students learn the properties of gas mixtures and power cycles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain basic concepts properties of substances and Laws of
thermodynamics
CO 2 Analyze thermodynamic processes using laws of thermodynamics
CO 3 Analyze thermodynamic processes to calculate heat and work transfer
CO 4 Suggest solutions for thermodynamic cycles application
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 - - - - - - - - - -
CO2 (K4) 3 3 - - - - - - - - - 1
CO3 (K4) 3 2 1 1 - - - - - - - 1
CO4 (K4) 3 3 1 1 - - - - - - - 1
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K4) 1 2 -
CO3 (K4) 1 2 -
CO4 (K4) 1 2 -
UNIT-I
Basic Concepts of Thermodynamics Introduction system boundary surrounding
control volume universe types of system Macroscopic and Microscopic View Point
concept of Continuum control volume control space Thermodynamic Equilibrium
State property process cycle Reversibility Quasi static process irreversible process
causes of irreversibility energy in state and energy in transition types of work and heat
point and path function Zeroth law of Thermodynamics- Concept of temperature
principles of thermometry reference points constant volume gas thermometer Scales
of temperature ideal gas scale
First Law of Thermodynamics Joulersquos Experiment- First law of thermodynamics
PMM-I Corollaries- First law applied to a Process applied to a system Steady Flow
Energy Equation throttling and free expansion processes Energy Balance deviations
from perfect gas model Vander walls equation of state compressibility charts variable
specific heats gas tables
AR19 Mechanical Engineering
Aditya Engineering College (A) 70
UNIT-II
Second Law of Thermodynamics Limitations of first law of thermodynamics
thermal reservoir heat engine heat pump parameters of performance second law of
thermodynamics Kelvin Planck and Clausius statements and their equivalence
collieries PMM-II Carnot Principle Carnot cycle and its specialities Thermodynamic
scale of temperature Clausius inequality Entropy principle of entropy increase
energy equation availability and irreversibility thermodynamic potentials Gibbs and
Helmholtz functions Maxwell relations elementary treatment of the third law of
thermodynamics
UNIT-III
Properties of Pure Substances Pure substance P-V-T surfaces T-S amp h-s diagrams
Mollier chart phase transformations triple point at critical state properties during the
change of phase dryness fraction Clausius Clapeyron equation property tables
Various thermodynamic processes energy transfer steam calorimetry
UNIT-IV
Properties of Gas Mixtures Mixture of perfect gases mole fraction mass fraction
gravimetric amp volumetric analysis Daltonrsquos law of partial pressure Avogadrorsquos law of
additive volumes equivalent gas constant molecular internal energy enthalpy of
specific heats and entropy of mixture of perfect gasses vapour and atmospheric air
UNIT-V
Thermodynamic Cycles
Air Standard Cycles Carnot Cycle Otto Cycle Diesel amp Dual Cycle
Gas Power Cycles Sterling Cycle Atkinson Cycle Ericson Cycle Lenoir Cycle
Refrigeration Cycles Carnot cycle Bell Coleman cycle Vapor Refrigeration cycles-
Description and representation on PndashV and T-S diagram Thermal Efficiency Mean
Effective pressures on Air standard basis ndash Comparison of Cycles
Text Books
1 Engineering Thermodynamics PK Nag Tata McGraw Hill Publishers 5th
Edition
2 Heat Engineering VPVasandhani amp DS Kumar Metropolitan Book Depot
2011 Edition
Reference Books
1 Thermodynamics An Engineering Approach YA Cengel and MA Boles Tata
Mc-Graw Hill Publishers 7th Edition
2 Engineering Thermodynamics Mayhew and Rogers Longman Green amp Co Ltd
London ELBS 8th Edition
3 Fundamentals of Classical Thermodynamics (SI Version) Van Wylen GJ and
Sonntag RE 2nd Edition
Web Links
1 httpswwwnptelacincourses1121051231
2 httpswww3ndedu~powersame20231planckdoverpdf
3 httpswwweduinformercomengineering-thermodyna
AR19 Mechanical Engineering
Aditya Engineering College (A) 71
METALLURGY AND MATERIALS SCIENCE
III Semester L T P C
Course Code 191ME3T05 3 0 0 3
Course Objectives
COB 1 To make the students familiarize with the concepts of structure of metals and
mechanical behaviour of materials
COB 2 To make the students understand the basic knowledge in the constitution of
alloys and in different types of alloy systems
COB 3 To teach the basic concept of iron-iron carbide equilibrium diagram and heat
treatment of alloys
COB 4 To make the students comprehend the areas of non-ferrous metals and alloys
COB 5 To make the students understand the basic concepts in the area of ceramic
and composite materials
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concepts of structure of metals and mechanical behavior under
different loading conditions
CO 2 Apply the concepts of equilibrium diagrams to make use of various alloys in
various industrial applications
CO 3 Discuss the concept of solidification of alloys and the analyze phases of iron-
iron carbide equilibrium diagram
CO 4 Apply the processes of heat treatment on different types of Cast irons and
Steels
CO 5 Use the concepts of non-ferrous metals and alloys in industrial applications
CO 6 Summarize the properties and applications of ceramic and composite
materials
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 - - - - - - - - - - -
CO2 (K3) 2 - - - - 1 1 - - - - -
CO3 (K3) 2 - - - - - - - - - - -
CO4 (K3) 2 - - - - 2 2 - - - - -
CO5 (K3) 2 - - - - 1 1 - - - - -
CO6 (K3) 2 - - - - 1 1 - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
CO6(K3) 1 - -
UNIT-I
Structure of Metals Bonds in solids-metallic bond-crystal structure - BCC FCC HCP
Unit cells Packing factor Crystallization of metals Grains and grain boundaries Effect of
grain boundaries on properties of metals Crystal imperfections
Mechanical Behavior of Materials Elastic deformation Plastic deformation - Twinning
AR19 Mechanical Engineering
Aditya Engineering College (A) 72
Fracture
Constitution of alloys Necessity of alloying Types of solid solutions Hume Rothery
rules Intermediate alloy phases and Electron compounds
UNIT-II
Equilibrium Diagrams Phase rule Experimental method of construction of equilibrium
diagrams Isomorphous alloy systems Equilibrium cooling and heating of alloys Lever rule
Coring miscibility gaps Eutectic systems Congruent melting intermediate phases Peritectic
reaction Transformations in solid state ndash allotropy Eutectoid Peritectoid reactions
Relationship between equilibrium diagrams and properties of alloys Study of important
binary phase diagrams of Cu-Ni Al-Cu Bi-Cd Cu-An Cus-Sn and Fe-Fe3C
UNIT-III
Metallurgy of Iron and Steels Fe-Fe3C equilibrium diagram Micro constituents in steels
Classification of steels Structure and properties of plain carbon steels Heat treatment of
steels- Annealing Normalizing Hardening TTT diagrams Tempering Hardenability
Surface hardening methods Age hardening treatment Cryogenic treatment of alloys Effect
of alloying elements on Fe-Fe3C system Low alloy steels Stainless steels Hadfield
manganese steels Tool steels and Die steels Structure and properties of White cast iron
Malleable cast iron Grey cast iron and Spheroidal grey cast iron
UNIT-IV
Non-Ferrous Metals and Alloys
Structure and properties of Copper and its alloys Aluminum and its alloys and Titanium and its alloys
UNIT-V
Ceramic Materials Crystalline ceramics Glasses Cermets Abrasive materials Nano
materials - Definition Properties and Applications
Composite Materials Classification of Composites Particle reinforced materials Fiber
reinforced materials Metal ceramic mixtures Metal-matrix composite and C-C composites
Introduction to Powder metallurgy Preparation methods and Applications of Powder
metallurgy- Selection of materials for various industrial applications
Text Books
1 Introduction to Physical Metallurgy Sidney H Avner TMH Publications 2nd Edition
2 Materials Science and Metallurgy VD Kodgire Everest Publishing House 39th
Edition
Reference Books
1 Materials Science and Engineering An Introduction William DCallister Wiley
Publications 9th Edition
2 Elements of Materials Science VRaghavan Pearson Education 6th Edition
3 Engineering Materials amp Metallurgy RK Rajput S Chand Publications 2nd Edition
4 Essentials of Material Science Donald Askeland SI Edition 3rd Edition
Web Links
1 httpnptelacincourses113105021
2 wwwthemetalcastingcom
3 httpswwwtuenl
4 httpswwweurothermcommetallic-alloys
AR19 Mechanical Engineering
Aditya Engineering College (A) 73
FLUID MECHANICS AND HYDRAULIC MACHINERY LAB
III Semester L T P C
Course Code 191ME3L01 0 0 3 15
Course Objectives
COB 1 Apply Bernoullirsquos principle for practical pipe flow applications
COB 2 Distinguish performance of venture meter and orifice meters
COB 3 Choosing the Centrifugal and Reciprocating pumps based on application
COB 4 Understand the impact of water jets on various vane geometries
COB 5 Select the Impulse and Reaction turbines based on application
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the head losses causing decrease in energy of flow experimentally
and by the verification of Bernoullirsquos theorem
CO 2 Compare the flow meters for their better performing characteristics when
used in pipes of turbines etc
CO 3 Calculate the efficiencies of Centrifugal and Reciprocating pumps while
maintaining similar conditions
CO 4 Evaluate performance characteristic curves and efficiencies of different
hydraulic turbines
CO 5 Calculate the work done and efficiency of various vane shapes for turbine
applications
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - 2 - - - - 2 1 - 2
CO2 (K2) 2 2 - 2 - - - - 2 1 - 2
CO3 (K3) 3 2 - 2 - - - - 2 1 - 2
CO4 (K5) 3 2 - 2 - - - - 2 1 - 2
CO5 (K3) 3 2 - 2 - - - - 2 1 - 2
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K2) - 2 -
CO3 (K3) - 2 -
CO4 (K5) - 3 -
CO5 (K3) - 2 -
The following experiments are required to be conducted as compulsory
experiments
1 To determine the of major losses (friction factor) in pipes
2 To determine the minor losses in pipes
3 To determine the of co-efficient of discharge of a Venturi meter
4 To determine the of co-efficient of discharge of an Orifice meter
5 To determine the Discharge and efficiency of a Centrifugal pump
6 To determine the Discharge and efficiency of a Reciprocating pump
7 To determine the Head Discharge and efficiency of a Pelton wheel
8 To determine the Head Discharge and efficiency of a Francis turbine
AR19 Mechanical Engineering
Aditya Engineering College (A) 74
9 To determine the Head Discharge and efficiency of a Kaplan turbine
10 To determine the velocity of flow at any point in a pipe using Pitot tube
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 To verify the Bernoullirsquos theorem using experimental setup
12 To find the Laminar and Turbulent flow types using Reynoldsrsquos Experiment
13 To determine the co-efficient of discharge of a Rotameter
14 To determine the co-efficient of the discharge of a water meter
Reference Books
1 Hydraulic Machines by Banga amp Sharma Khanna Publishers6th Edition
2 Hydraulics and Fluid mechanics including Hydraulics machines by
3 PNModi amp SMSeth Rajsons publications pvt ltd Standard Book House
(2017 edition)
4 Fluid Mechanics and Hydraulic Machines RK Rajput SChand
Web Links
1 httpwwwscience-animationscomfluidmechanicshtml
2 httpsiitbmechdampwordpress
AR19 Mechanical Engineering
Aditya Engineering College (A) 75
MECHANICS OF SOLIDS AND METALLURGY LAB
III Semester L T P C
Course Code 191ME3L02 0 0 3 15
Course Objectives
COB 1 To impart the practical knowledge on testing of material mechanical
behavior under various direct loads
COB 2 To make the students to test the mechanical behavior of spring and cube
under load
COB 3 To impart the practical knowledge on testing of material under various
indirect loads
COB 4 To make the students to study of the Micro Structure of pure metals and
alloys
COB 5 To aware the students to calculate the hardness of various treated and
untreated steels
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the material mechanical behavior under various direct loads
CO 2 Calculate the mechanical strength of spring and cube
CO 3 Demonstrate the materials mechanical behavior under various indirect loads
CO 4 Analyze the Structure of pure metals and alloys
CO 5 Estimate the hardness of various treated and untreated steels
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - 3 - 2 2 - -
CO2(K3) 3 2 - - - - 3 - 2 2 - -
CO3(K2) 2 1 - - - - 3 - 2 2 - -
CO4(K4) 3 3 - - - - 3 - 2 2 - -
CO5(K2) 2 1 - - - - 3 - 2 2 - -
Mapping of course outcomes with program Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1(K2) 1 2 -
CO2(K3) 1 2 -
CO3(K2) 1 2 -
CO4(K4) - 2 1
CO5(K2) - 2 1
The following experiments are required to be conducted as compulsory
experiments
Section A Mechanics of Solids
1 To conduct direct tension test on mild steel bar
2 To conduct bending test on Simply supported beam amp Cantilever beam
3 To determine Modulus of rigidity of given specimen by conducting Torsion
4 To determine hardness value for the given metal specimen using
(a) Brinell hardness tester (b) Rockwell hardness tester
5 To conduct compression and tension test on springs
6 To determine the compression strength on cube by UTM
AR19 Mechanical Engineering
Aditya Engineering College (A) 76
The following experiments are required to be conducted as compulsory
experiments
Section B Metallurgy amp Material Science
7 To Analyze the Micro Structure of pure metals like Iron Cu and Al
8 To Analyze the Microstructure of Mild steels low carbon steels high carbon
steels
9 To Analyze the Micro Structures of Cast Irons
10 To Analyze the Micro Structures of Non-Ferrous alloys
11 To Analyze the Micro structures of Heat treated steels
12 To determine the hardenability of steels by Jominy End Quench Test
List of Augmented Experiments - Mechanics of Solids
(Any one of the following experiments can be performed)
13 To conduct Impact test by (a) Izod test (b) Charpy test
14 To find shear strength on given specimen by Punch shear test
15 To determine the maximum shear stress induced in circular beam
List of Augmented Experiments - Metallurgy amp Material Science
(Any one of the following experiments can be performed)
16 To find out the hardness of various treated and untreated steels
17 To study the microstructure of high speed steels
18 To find the increase in hardness values for the given steel alloys (EN8) specimen
by (oil quenching) medium hardening method
Reference Books
1 A laboratory manual of Metals and Alloys S M Ashram Sharif Ahmed Volume
2 Strength of Materials RKRajput SChand Publications 4th edition
3 Introduction to Physical Metallurgy Sidney H Avener TMH 2nd edition
Web Links
1 httpwwwmlrinstitutionsacinsitesdefaultfileslab1cb1938e0e081ecdd712d1c
8778bd2fc 1- MMS-labpdf
2 httpwwwiitkacinmseoldmse_newfacilitieslaboratoriesMaterial_Testing_
LabMSE313Apdf
3 httpwebmiteduemechdontindex-build
AR19 Mechanical Engineering
Aditya Engineering College (A) 77
EMPLOYABILITY SKILLS-I (Common to all branches)
III Semester L T P C
Course Code 191MC3A03 0 0 2 0
Course Objectives
COB 1 To provide necessary training to impart employability skills
COB 2 To Prepare Students for Campus Placements
COB 3 To Improve Confidence Decision Making in Career planning
COB 4 To Achieve Life Goals with Proper Time Management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the number and letter series techniques in different models
CO 2 Differentiate Career Objectives ampGoals
CO 3 Compare the different types of number and letter analogy models
CO 4 Transfer the different models of coded elements to decoded elements
CO 5 Illustrate Out Of Box thinking in Students
CO 6 Solve LCM amp HCF Simple Equations by using simple logics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
UNIT-I
Aptitude Number series
Soft Skills Attitude SWOT analysis self-confidence self esteem
UNIT-II
Aptitude Number Analogy
Soft Skills Decision Making Situation Reaction Test
UNIT-III
Aptitude Letter series Letter Analogy Coding amp Decoding
Soft Skills Verbal Aptitude-I synonyms Antonyms Spotting of errors
AR19 Mechanical Engineering
Aditya Engineering College (A) 78
UNIT-IV
Aptitude Divisibility Rules LCMampHCF
Soft Skills Creativity Out of box thinking lateral thinking
UNIT-V
Aptitude Simple Equations
Soft Skills Goal setting Smart goals Time Management
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 79
ESSENCE OF INDIAN TRADITIONAL KNOWLEDGE (Common to all branches)
III Semester L T P C
Course Code 191MC3A04 2 0 0 0
Course Objectives
COB 1 To facilitate the students with the concepts of Indian traditional knowledge
and to make them understand the Importance of roots of knowledge system
COB 2 To make the students understand the traditional knowledge and analyse it
and apply it to their day to day life
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the concept of Traditional knowledge and its importance
CO 2 Explain the need and importance of protecting traditional knowledge
CO 3 Illustrate the various enactments related to the protection of traditional
knowledge
CO 4 Interpret the concepts of Intellectual property to protect the traditional
knowledge
CO 5 Explain the importance of Traditional knowledge in Agriculture and
Medicine
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K3) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K3) - - - - - - - - - - - -
CO 5 (K3) - - - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Introduction to traditional knowledge Define traditional knowledge nature and
characteristics scope and importance kinds of traditional knowledge Indigenous
Knowledge (IK) characteristics traditional knowledge vis-agrave-vis indigenous
knowledge traditional knowledge Vs western knowledge traditional knowledge
UNIT-II
Protection of traditional knowledge The need for protecting traditional knowledge
Significance of TK Protection value of TK in global economy Role of Government
to harness TK
AR19 Mechanical Engineering
Aditya Engineering College (A) 80
UNIT-III
Legal framework and TK
The Scheduled Tribes and Other Traditional Forest Dwellers (Recognition of Forest
Rights) Act 2006 Plant Varieties Protection and Farmers Rights Act 2001 (PPVFR
Act) The Biological Diversity Act 2002 and Rules 2004 the protection of traditional
knowledge bill 2016
UNIT-IV
Traditional knowledge and intellectual property Systems of traditional knowledge
protection Legal concepts for the protection of traditional knowledge Patents and
traditional knowledge Strategies to increase protection of traditional knowledge
UNIT-V
Traditional knowledge in different sectors Traditional knowledge and engineering
Traditional medicine system TK in agriculture Traditional societies depend on it for
their food and healthcare needs Importance of conservation and sustainable
development of environment Management of biodiversity Food security of the
country and protection of TK
Text Books
1 Traditional Knowledge System in India by Amit Jha 2009
2 Traditional Knowledge System and Technology in India by Basanta Kumar
Reference Books
1 Traditional Knowledge System in India by Amit Jha Atlantic publishers 2002
2 Knowledge Traditions and Practices of India Kapil Kapoor1 Michel Danino2
Web Links
1 httpswwwyoutubecomwatchv=LZP1StpYEPM
2 httpnptelacincourses121106003
AR19 Mechanical Engineering
Aditya Engineering College (A) 81
NUMERICAL METHODS amp STATISTICAL TECHNIQUES (Common to CE ME amp AgE)
IV Semester L T P C
Course Code 191BS4T16 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
those are essential for an engineering course
COB 2 To familiarize the students with the foundations of probability and statistical
methods and solve application problems in their disciplines
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply numerical methods to solve equations and interpolation of polynomials
CO 2 Apply numerical methods to solve initial value problems and problems
involving integration
CO 3 Apply discrete and continuous probability distributions
CO 4 Compute the components of a classical hypothesis test
CO 5 Apply the statistical inferential methods based on small and large sampling
tests
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Solution of Algebraic and Transcendental Equations
Introduction Bisection method Secant method Method of false position Iteration
method Newton - Raphson method
Interpolation
Introduction to Interpolation Finite differences Forward differences Backward
differences Central difference Relation between operators Newtonrsquos formula for
interpolation Lagrangersquos interpolation Newtonrsquos divided difference interpolation
UNIT-II
Numerical Integration and solution of Ordinary Differential Equations
Trapezoidal rule Simpsonrsquos 13rd and 38th rule Solution of ordinary differential
equations by Taylorrsquos series Picardrsquos method of successive Eulerrsquos method Modified
Eulerrsquos method Runge-Kutta method (fourth order)
AR19 Mechanical Engineering
Aditya Engineering College (A) 82
UNIT-III
Probability and Distributions
Review of probability and Bayersquos theorem ndash Random variables ndash Discrete and
Continuous random variables ndash Distribution function ndash Mathematical Expectation and
Variance ndash Binomial Poisson Uniform and Normal distributions
UNIT - IV
Sampling Theory
Introduction ndash Population and samples ndash Sampling distribution of Means and Variance
(definition only) ndash Central limit theorem (without proof) ndash Introduction to t 2 and F-
distributions ndash Point and Interval estimations ndash Maximum error of estimate
UNIT- V
Tests of Hypothesis
Introduction ndash Hypothesis ndash Null and Alternative Hypothesis ndash Type I and Type II
errors ndash Level of significance ndash One tail and two-tail tests ndash Tests concerning one mean
and two means (Large and Small samples) ndash Tests on proportions
Text Books
1 Advanced Engineering Mathematics R K Jain S R K Iyengar 4th Edition
Alpha Science Publications
2 Miller and Freundrsquos Probability and Statistics for Engineers 7e Pearson 2008
3 Higher Engineering Mathematics B S Grewal 43rdEdition Khanna Publishers
Reference Books
1 M K Jain S R K Iyengar and R K Jain Numerical Methods for Scientific
and engineering Computations New age International Publication (P) Ltd
2 S C Gupta and V K Kapoor Fundamentals of Mathematical Statistics 11e
Sultan Chandamp Sons Publications 2012
3 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
4 Sheldon M Ross Introduction to probability and statistics Engineers and the
Scientists 4th Edition Academic Foundation 2011
Web Links
1 httpsnptelacincourses111107111107105
2 httpsnptelacincourses111105111105041
3 httpsnptelacincourses111105111105090
4 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 83
MANAGERIAL ECONOMICS AND FINANCIAL ANALYSIS (Common To CE EEE ME ECE CSE IT AgE amp PT)
IV Semester L T P C
Course Code 191HS4T04 3 0 0 3
Course Objectives
COB 1 To equip the students with the basic inputs of managerial economics and
demand concepts
COB 2 To understand the nature of markets Methods of Pricing in the different
market structures and to know the different forms of Business organization
and the concept of Business Cycles
COB 3 To impart the knowledge on production theories its factors and cost
analysis
COB 4 To make the students take optimal decisions and acquiring the knowledge
on financial accounting and its analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Managerial Economic concepts for decision making and forward
planning
CO 2 Illustrate the law of demand and its exceptions by using different forecasting
methods
CO 3 Identify the cost behavior for managerial decision making and Break Even
Point (BEP) of an enterprise
CO 4 Classify the different types of business organizations along with basic
knowledge on business cycle
CO 5 Make use of the process amp principles of accounting for the preparation of
final accounts
CO 6 Utilize various techniques on investment project proposals with the help of
capital budgeting techniques for decision making
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) - - - - - - - - - - - -
CO 2(K2) 1 1 - - - - - - - 1 - -
CO 3(K3) - - - - - - - - - - 1 -
CO 4(K2) 1 1 - - - - - - - - 1 -
CO 5(K3) 1 1 - - - - - 2 - 1 - -
CO 6(K3) 1 1 - - - - - - - - 1 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K2) - - -
CO 2(K2) - - -
CO 3(K3) - - -
CO 4(K2) - - -
CO 5(K3) - - -
CO 6(K3) - - -
UNIT-I
Introduction to Managerial Economics and demand Analysis
Definition of Managerial Economics ndashScope of Managerial Economics and its
relationship with other subjects ndashConcept of Demand Types of Demand Determinants
of Demand- Demand schedule Demand curve Law of Demand and its limitations-
AR19 Mechanical Engineering
Aditya Engineering College (A) 84
Elasticity of Demand Types and Measurement-Demand forecasting and its Methods
UNIT-II
Production and Cost Analyses
Concept of Production function- Cobb-Douglas Production function ndash Law of Variable
proportions-Isoquants and Isocosts and choice of least cost factor combination-Concepts
of Returns to scale and Economies of scale-Different cost concepts opportunity costs
explicit and implicit costs- Fixed costs Variable Costs and Total costs ndash Cost ndashVolume-
Profit analysis-Determination of Breakeven point(simple problems)- Managerial
significance and limitations of Breakeven point
UNIT-III
Introduction to Markets Pricing Policies amp Types of Business Organization and
Business Cycles
Market Structures Perfect Competition Monopoly Monopolistic competition and
Oligopoly ndash Features ndash Price and Output Determination ndash Methods of Pricing Average
cost pricing Limit Pricing Market Skimming Pricing and Internet Pricing Flat Rate
Pricing Usage sensitive pricing and Priority Pricing Features and Evaluation of Sole
Trader Partnership Joint Stock Company ndash Business Cycles Phases of Business Cycles
UNIT-IV
Introduction to Accounting amp Financing Analysis
Introduction to Double Entry Systems ndash Journal entries ndash Ledger ndash Trail Balance ndash
Trading and Profit and Loss Account - Preparation of Financial Statements - Introduction
to Ratio Analysis
UNIT-V
Capital and Capital Budgeting Capital Budgeting Meaning of Capital- Capitalization-
Meaning of Capital Budgeting-Time value of money- Methods of appraising Project
profitability Traditional Methods(pay back period accounting rate of return) and modern
methods(Discounted cash flow method Net Present Value method Internal Rate of
Return Method and Profitability Index)
Text Books
1 Dr A R Aryasri ndash Managerial Economics and Financial Analysis TMH 2011
2 Dr N Appa Rao Dr P Vijay Kumar lsquoManagerial Economics and Financial
Analysisrsquo Cengage Publications New Delhi ndash 2011
3 Prof JVPrabhakara rao Prof P Venkatarao lsquoManagerial Economics and Financial
Analysisrsquo Ravindra Publication
Reference Books
1 V Maheswari Managerial Economics Sultan Chand
2 Suma Damodaran Managerial Economics Oxford 2011
3 Dr B Kuberudu and Dr T V Ramana Managerial Economics amp Financial
Analysis Himalaya Publishing House 2011
4 Vanitha Agarwal Managerial Economics Pearson Publications 2011
5 Sanjay Dhameja Financial Accounting for Managers Pearson
6 Maheswari Financial Accounting Vikas Publications
7 S A Siddiqui amp A S Siddiqui Managerial Economics and Financial Analysis
New Age International Publishers 2012
Web Links
1 wwwmanagementstudyguidecom
2 wwwtutorialspointcom
AR19 Mechanical Engineering
Aditya Engineering College (A) 85
INTERNET OF THINGS
IV Semester L T P C
Course Code 191ES4T15 3 0 0 3
Course Objectives
COB 1 To present interconnection and integration of the physical world and the cyber
space
COB 2 To demonstrate applications of Internet of Things
COB 3 To educate building blocks and characteristics of Internet of Things
COB 4 To introduce communication protocols used in Internet of Things
COB 5 To impart knowledge on design amp develop IoT devices
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the application areas of IoT
CO 2 Illustrate revolution of Internet in Mobile Devices Cloud amp Sensor Networks
CO 3 Explain communication protocols used in IoT
CO 4 Make use of Raspberry PI programming to implement Internet of Things
through Arduino
CO 5 Apply the principles of IoT in real world scenario
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 3 - - - - - - - - - -
CO2 (K3) 2 2 2 - - - - - - - - -
CO3 (K4) 3 2 2 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K3) 3 1 3 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to IoT
Internet of Things - Physical Design- Logical Design- IoT Enabling Technologies - IoT
Levels amp Deployment Templates - Domain Specific IoTs - IoT and M2M - IoT System
Management with NETCONF-YANG- IoT Platforms Design Methodology
UNIT-II
IoT Architecture
M2M high-level ETSI architecture - IETF architecture for IoT - OGC architecture - IoT
reference model - Domain model - information model - functional model - communication
model - IoT reference architecture
AR19 Mechanical Engineering
Aditya Engineering College (A) 86
UNIT-III
IoT Protocols
Protocol Standardization for IoT ndash Efforts ndash M2M and WSN Protocols ndash SCADA and RFID
Protocols ndash Unified Data Standards ndash Protocols ndash IEEE 802154 ndash BACNet Protocol ndash
Modbusndash Zigbee Architecture ndash Network layer ndash 6LowPAN - CoAP ndash Security
UNIT-IV
Building IoT with Raspberry PI amp Arduino
Building IOT with RASPERRY PI- IoT Systems - Logical Design using Python ndash IoT
Physical Devices amp Endpoints - IoT Device -Building blocks -Raspberry Pi -Board - Linux
on Raspberry Pi - Raspberry Pi Interfaces -Programming Raspberry Pi with Python - Other
IoT Platforms - Arduino
UNIT-V
Case Studies And Real-World Applications
Biometric Car Door opening system Accident monitoring system Engine oil and Coolant
level monitoring system Fleet and Driver Management system Smart road communication
system Road Vehicle communication at hilly areas real time car telematics tracking system
Text Books
1 Rajesh Singh Anita Gehlot etal - Internet of Things in Automotive Industries and
Road Safety Electronic Circuits program Coding and Cloud Servers River
publishers ISBN- 978-87-7022-010-1
2 Arshdeep Bahga Vijay Madisetti ―Internet of Things ndash A hands-on approach
Universities Press 2015
Reference Books
1 Dieter Uckelmann Mark Harrison Michahelles Florian (Eds) ―Architecting the
Internet of Things Springer 2011
2 Honbo Zhou ―The Internet of Things in the Cloud A Middleware Perspective
CRC Press 2012
3 Olivier Hersent David Boswarthick Omar Elloumi ―The Internet of Things ndash Key
applications and Protocols Wiley 2012
Web Links
1 httpsonlinecoursesnptelacinnoc18_cs46preview
2 httpsswayamgovincoursespublickeyword=Introduction20to20internet20
of20things
3 httpsswayamgovincoursespublickeyword=Design20for20internet20of
20things
4 httpswwwcourseraorgspecializationsiot
AR19 Mechanical Engineering
Aditya Engineering College (A) 87
PRODUCTION TECHNOLOGY
IV Semester L T P C
Course Code 191ME4T06 3 0 0 3
Course Objectives
COB 1 To make the students to understand the fundamentals of casting and their
application
COB 2 To impart the knowledge of special types of casting processes solidification of
metals and different casting defects
COB 3 To perceive the students various types of welding processes and welding defects
COB 4 To introduce the fundamentals of various sheet metal forming techniques and
plastic processing techniques
COB 5 To enable the students to acquire the types of bulk forming processes rolling and
various extrusion methods
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basics of casting and its applications
CO 2 Demonstrate various special casting processes
CO 3 Distinguish between the different joining techniques
CO 4 Explain the basics of sheet metal forming and plastics processing techniques
CO 5 Summarize the bulk metal deforming process
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 - - - - - - - 2 2 - -
CO2 (K3) 2 - - - - - - - 2 - - -
CO3 (K4) 2 - - - - - - - - - - -
CO4 (K3) - - - - - - - - - - - -
CO5 (K3) 1 - - - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 3 - -
CO3 (K4) 3 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction
Engineering materials and its properties and classification of various manufacturing
processes
Casting Introduction to casting Requirements of casting Steps involved in making a
casting Advantage of casting and its applications
Patterns Types of patterns Materials used for patterns
Allowances All Pattern allowances and their construction
Gating Principles of Gating Gating ratio and design of gating systems
Runner amp Risers Types function and design of riser Cleaning of castings
AR19 Mechanical Engineering
Aditya Engineering College (A) 88
UNIT-II
Special Casting Techniques
Molding sand Preparation and Composition Sand property test Casting shakeout Core
Types of core Core print Chaplets Chills and Exothermic materials applications in sand
casting Metal fluidity
Furnace Crucible furnace Cupola Induction furnace Reverberatory furnace Open
hearth Arc furnace
Casting design considerations
Solidification of casting Concept of Solidification of metal and Alloys Problems on
solidification time
Special casting processes Centrifugal casting Die casting and Investment casting Shell
molding
Casting defects Causes and remedies
UNIT-III
Metal Joining Methods
Introduction to welding process Classification of welding processes Types of welded
joints and their characteristics
Gas welding Different types of flames Oxy-acetylene welding and Cutting
Arc welding Basic principles of Arc welding V-I Characteristic curves of power source
Problems on V-I Characteristic Duty cycle MMAW SAW TIG MIG
Solid state welding processes Friction welding Friction stir welding Forge welding
Explosive welding Thermit welding PAW Laser beam welding EBW Soldering amp
Brazing Resistance welding and its types Heat affected zone (HAZ)
Welding defects ndash Causes and Remedies
Testing Destructive and Non-destructive of welds
UNIT-IV
Sheet Metal Forming amp Plastic Processing Techniques
Introduction Role of sheet components Shearing mechanism Various press working
operations Presses for sheet metal working and press tools Die and Punch Different type
of dies Blanking and Piercing Forces and Load estimation in forming Deep drawing
Stretch forming Bending Coining Spinning Spring back and its remedies
High energy rate forming process Principles of explosive forming Electromagnetic
forming Electro hydraulic forming and Rubber pad forming Advantage and Limitations
Plastic Processing Types of Plastics Properties Applications and their processing
methods Blow molding and Injection molding
UNIT-V
Bulk Metal Deforming Processes
Introduction to bulk deforming process Plastic deformation Yield and flow criteria
Machine and equipmentrsquos for the metal deforming processes Parameters and force
calculations for different processes
Classification of metal deforming processes Swaging Forging and itrsquos all types
Forging defects
Rolling Fundamentals and Types of rolling mills and Products
Extrusion Basics and its characteristics Types of extrusion Impact extrusion
Hydrostatic extrusion Wire drawing and Tube drawing
AR19 Mechanical Engineering
Aditya Engineering College (A) 89
Text Books
1 Manufacturing Technology Volume I PN Rao TMH Publications 6th Edition
2 Hajra Choudhry Elements of Workshop Technology Vol ndash II Media Promoters amp
Publishers 1994
Reference Books
1 Manufacturing Processes for Engineering Materials Kalpakjian S amp Steven R
Schmid Pearson Publication 5th Edition
2 Manufacturing Science AGhosh amp AK Mallik East West Press Pvt Ltd
Publication 3rd Edition
3 Process and materials of manufacture Lindberg PHI Publications 4th Edition
4 Advance Welding Processes RSParmar Khanna Publishers
Web Links
1 httpnptelacincourses112107144
2 httpstudycomarticlesOnline_Welding_Classes_and_Training_Programs
3 httpnptelacincourses112107089
4 httpnptelacincoursephp
AR19 Mechanical Engineering
Aditya Engineering College (A) 90
KINEMATICS OF MACHINERY
IV Semester L T P C
Course Code 191ME4T07 3 0 0 3
Course Objectives
COB 1 To understand the kinematics and rigid-body dynamics of kinematically
driven machine components
COB 2 To understand the motion of linked mechanisms in terms of the displacement
velocity and acceleration at any point in a rigid link
COB 3 To be able to design some linkage mechanisms and cam systems to generate
specified output motion
COB 4 To understand the kinematics of gear trains
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the inversions and applications of a kinematic chain
CO 2 Construct the velocity and acceleration diagrams using Relative velocity
method and Instantaneous centre method
CO 3 Construct displacement diagram and profile of Cam with different types of
follower motions
CO 4 Calculate the velocities of different components of a gear train
CO 5 Explain how real time machines work and operate
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 1 1 - - - - - - - -
CO2 (K3) 2 2 1 1 - - - - - - - 1
CO3 (K4) 2 2 2 1 - - 1 - - - - 1
CO4 (K3) 3 2 2 1 - - 1 - - - - 1
CO5 (K3) 2 2 2 1 - - 1 - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Classification of mechanisms- Basic kinematic concepts and definitions- Degree of
freedom mobility- Grashofrsquos law Kinematic inversions of four bar chain and slider
crank chains-Limit positions- Mechanical advantage- Transmission angle- Description
of some common mechanisms- Quick return mechanism straight line generators-
Universal Joint- Rocker mechanisms
UNIT-II
Kinematics Plane motion of body Instantaneous centre of rotation centrode and axode
- relative motion between two bodies ndash Kennedyrsquos three centres in line theorem ndash
Graphical determination of instantaneous centre for simple bar four bar and single slider
AR19 Mechanical Engineering
Aditya Engineering College (A) 91
crank chain mechanisms and determination of angular velocity of points and links
Motion of a link in machine - Determination of Displacement velocity and acceleration
for a Simple Four Bar Mechanism Single slider crank chain mechanism Double slider
crank chain mechanism (Whitworth Quick Return Motion mechanisms)
UNIT-III
CAMS Definition and classification of cams and followers - their uses - Terminology
- Types of follower motion Uniform velocity Simple harmonic motion and uniform
acceleration and retardation Cycloidal motion for Knife edge Flat face and Roller
follower and offset follower
UNIT-IV
Power Transmission Introduction ndashModes of power transmission applications
Gears and Gear trains Classification Terminology Law of Gearing path of contact
arc of contact Interferences methods of avoiding interferences Simple gear train
compound gear train reverted gear train epicyclical gear train and Differential
UNIT-V
Practical Applications Design and fabrication of any one of the following
mechanisms Whitworth Quick Return Mechanism Oscillating Cylinder Mechanism
Elliptical Trammel ManualMotorized Scotch Yoke Mechanism Piston Bench Tapping
Machine Mini Conveyor using Geneva Mechanism Mini Hacksaw Powered by Beam
Engine
Text Books
1 Theory of Machines Thomas Bevan 3rd edition CBS Publishers amp Distributors
2005
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East-
West Press
Reference Books
1 Cleghorn WL Mechanisms of Machines Oxford University Press 2005
2 Robert L Norton Kinematics and Dynamics of Machinery Tata McGrawHill
2009
3 Ghosh A and Mallick AK Theory of Mechanisms and Machines Affiliated East
West Pvt Ltd New Delhi 1988
4 Kinematics of Machinery through Hyper Works JS Rao Springer Publ
5 Theory of Machines by Jagadishlal-Metropolitan Book Co
6 Theory of Machines by RS Khurmi and J K Gupta ndash S Chand Publishers
AR19 Mechanical Engineering
Aditya Engineering College (A) 92
THERMAL ENGINEERING-I
IV Semester L T P C
Course Code 191ME4T08 3 0 0 3
Course Objectives
COB 1 To impart the knowledge and providing holistic view on IC Engines and its
developments
COB 2 To enable the students to calculate the performance and testing of IC engines
COB 3 To fetch with SI amp CI fueling system and combustion behaviour and its
advancements to meet the stringent emission norms
COB 4 Understanding the formation and control strategies of SI and CI Engine
emissions
Course Outcomes
At the end of the Course Student will be able to
CO 1 Differentiate the ideal air standard cycles and actual thermodynamic cycles
CO 2 Evaluate the Engine performance based on the experimental data
CO 3 Analyze the fueling system and combustion behaviour of SI engine
CO 4 Analyze the fueling system and combustion behaviour of CI engine
CO 5 Explain the formation of emissions and its control strategies of bot SI amp CI
Engines
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K4) 3 3 2 2 3 3 - - - 3 3 -
CO3 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO4 (K2) 2 1 - - 2 2 - - - 3 2 -
CO5 (K3) 3 2 1 1 3 3 - - - 3 3 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) - - -
CO3 (K3) 3 - -
CO4 (K2) 2 - -
CO5 (K3) - - -
UNIT-I
Actual Cycles and Engine Construction Introduction Comparison of Air Standard
and Actual Cycles Time Loss Factor Heat Loss Factor Exhaust Blow down-Loss due
to Gas exchange process Volumetric Efficiency Loss due to Rubbing Friction Actual
and Fuel-Air Cycles of CI Engines Constructional Details of Four Stroke SI and CI
Engines Working Principle Actual Indicator Diagram Two Stroke Engine
Construction and Operation Comparison of Four Stroke and Two Stroke Engine
Operation Firing Order and Its Significance UNIT-II
ENGINE TESTING amp PERFORMANCE
Engine Performance Testing amp Numerical- methods and Performance
Characteristics
AR19 Mechanical Engineering
Aditya Engineering College (A) 93
Testing and measurement equipment- dynamometers Air amp Fuel consumption
temperature etc Variables Affecting Engine Performance Performance Maps
Lubrication and Cooling systems Introduction to Supercharging and Turbocharging
UNIT-III
SI ENGINE FUELING amp COMBUSTION
Carburetor Working Principle Requirements of an Automotive Carburetor and types
Fuel Injection Systems Pre-mixed charge combustion SI Engine Combustion
Conceptual models Thermodynamic Analysis of Combustion Cycle-to-Cycle
Combustion variations and Knocking Combustion
UNIT-IV
CI ENGINE FUELING amp COMBUSTION
Fuel Injection and Spray Structure Fuel Atomization and Droplet size distribution Sauter
Mean Diameter Spray Penetration CI Engine Combustion Conceptual Models
Conventional and Decrsquos Combustion Models Diesel Combustion Process
Characterization Ignition Delay Effect of Engine and Operational Parameters on Delay
Pre-mixed Combustion Mixing Controlled Combustion Thermodynamic Analysis
Multi Pulse Injections Introduction to Low Temperature Combustion Like
Homogeneous Charge Compression Ignition(HCCI) Fuel Stratified Charge combustion
Reactivity Controlled Compression Ignition (RCCI) Technologies Pre-mixed Charge
Compression (PCCI) and Dual fuel technologies
UNIT-V FORMATION OF ENGINE EMISSIONS amp CONTROL TECHNOLOGIES (SI amp CI)
Emission Effects on Health amp Environment Sources of Engine emissions Formation of
CO NO UBHC Soot and Particulate Matter Diesel NOx-Particulate Trade off Effect
of SI Design and operating variables Effect of Diesel Engine Design and operating
Variables SI Engine Emission Control Technology Add-on systems for treatment of
Emissions with in Engine Exhaust After treatment CI Engine Emission Control
Technology Application of EGR Exhaust after treatment and new engine technologies
for emission control
Text Books
1 IC Engines ML Mathur amp RP Sharma Dhanpath Rai amp Sons
2 Engine Emissions Pollutant Formation and Advances in Control Technology BP
Pundir Narosa Publishing House
Reference Books
1 IC Engines Fundamentals John B Heywood Mc Graw Hill Publications
2 Engineering Fundamentals of I C Engines Wiliard WPulkrabek Prentice Hall
Publications
3 Mixture Formation in Internal Combustion Engines Carsten Baumgaten Springer
Pub
4 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
Web Links
1 httpnptelacincourses112105123
2 httpnptelacincourses112108148
3 httpnptelacincourses112104113
4 httpnptelacincourses112104033
AR19 Mechanical Engineering
Aditya Engineering College (A) 94
PRODUCTION TECHNOLOGY LAB
IV Semester L T P C
Course Code 191ME4L03 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To impart knowledge of metal forming processes
COB 4 To develop the knowledge for plastics processing techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate mould making process for casting process and sand preparation
methods
CO 2 Identify basic knowledge of casting defects and their remedies
CO 3 Differentiate between various gas welding arc welding processes and Solid
state welding process
CO 4 Apply the principles of sheet-metal forming process for making a
component
CO 5 Produce the plastic object through different plastic processing techniques
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - 3 - -
CO2 (K3) 2 1 - - - 2 - - - - - -
CO3 (K4) 2 1 - - - - - - 3 3 2 -
CO4 (K5) 3 2 - - - - - - - 3 3 -
CO5 (K3) 3 2 - - - - - - - 3 3 -
Mapping of course outcomes with program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 2 1 -
CO3 (K4) 2 1 2
CO4 (K5) 3 2 -
CO5 (K3) 3 - 3
The following experiments are required to be conducted as compulsory experiments
Casting
1 To design and manufacture a Wooden Pattern for a given Casting
2 To prepare a Casting for the given Solid Pattern using Green Sand Molding
Processes
3 To Prepare a Aluminium Casting for the given Split Pattern using Green Sand
Molding Processes
Welding
4 To prepare a V Butt amp Lap Joint using Arc Welding Process
5 To prepare a lap Joint on the given work pieces using spot welding equipment
6 To prepare a V Butt Joint Using TIG Welding
7 To prepare a corner Joint amp T Joint using Arc Welding Process
AR19 Mechanical Engineering
Aditya Engineering College (A) 95
Sheet metal experiment
8 To perform the punching and blanking operation
9 To prepare a work piece using Compound die
Bulk deformation
10 To perform Bending Operation on a given pipe
Plastic Processing technique
11 To make an Air Tight Bottle Cap amp Screw type Bottle Cap by Using Injection
Moulding
12 To prepare a plastic bottle by using Blow Moulding
LIST OF AUGMENTED EXPERIMENTS
13 to 17 (Any two of the following experiments can be performed)
13 To determine the Grain size Permeability and Compressive Strength of the
Molding Sand
14 To prepare a Single Strap Butt Joint on the given work pieces using spot welding
equipment
15 To prepare a Lap Joint Using TIG welding and MIG welding
16 To study the progressive tool and perform blanking and piercing operations
17 To determine the punching force and blanking force theoretically and compare
obtained readings
Reference Books
1 Aditya Engineering College Laboratory Manual
2 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II 4th
Edition
3 Elements of Manufacturing Technology Vol II Hajra ChoudharySK amp Hajra
Web Links
1 httpwwwsmeorgfmp
2 httpscosmolearningorgcoursesmanufacturing-processes-i-538video-lectures
AR19 Mechanical Engineering
Aditya Engineering College (A) 96
COMPUTER AIDED MACHINE DRAWING
IV Semester L T P C
Course Code 191ME4L04 0 0 3 15
Course Objectives
COB 1 To impart the fundamental knowledge of machine drawing by elaborating
on how to concretize the idea of new structure such as a machine element
COB 2 To study the conventions and rules to be followed by engineers for making
accurate drawings
COB 3 To understand the basic dimensioning practices that has to be followed in
the preparation of drawings
COB 4 To inculcate the reading of the drawings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Discuss the conventional representation of materials and machine
components
CO 2 Apply the principles of engineering drawing in machine drawing
CO 3 Construct various types of temporary fasteners
CO 4 Sketch various types of permanent fasteners
CO 5 Practice assembly drawings from the given part drawings for
manufacturing
CO 6 Construct part drawings from the given assembly drawing
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - 3 - -
CO2 (K3) 3 - 1 - - - - - - 3 - -
CO3 (K3) 3 - 1 - - - - - - 3 - -
CO4 (K3) 3 - 1 - - - - - - 3 - -
CO5 (K3) 3 - 1 - - - - - - 3 - -
CO6 (K3) 3 - 1 - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - 2
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CO6 (K3) 3 - 3
UNIT-I
Machine Drawing Conventions
Need for drawing conventions ndash introduction to standard conventions
A) Conventional representation of materials common machine elements and parts such
as screws nuts bolts keys gears webs ribs
B) Types of sections ndash selection of section planes and drawing of sections and auxiliary
sectional views Parts not usually sectioned
C) Drawing of machine elements and simple parts Selection of views additional views
for the following machine elements and parts with easy drawing proportions
AR19 Mechanical Engineering
Aditya Engineering College (A) 97
i) Standard forms of screw threads bolts nuts stud bolts tap bolts set screws
ii) Keys cotter joint and knuckle joint
iii) Riveted joints for plates
iv) Shaft coupling spigot and socket pipe joint
v) Journal bearing and foot step bearing
UNIT-II
Assembly Drawings
Drawings of assembled views for the part drawings of the following using conventions
and easy drawing proportions
A) Engine parts ndash eccentric petrol engine connecting rod piston assembly
B) Other machine parts - screw jack machine vice Plummer block lathe tailstock
C) Valves- steam stop valve non-return valve and feed check valve
Production Drawing (only for Practice not for Examination)
Introduction to Limits Fitsamp Tolerances Types of Assembly systems Importance of
BOM Part drawing procedure construction of part drawings from the given assembly
drawings using conventions and easy drawing proportions Part drawings of Eccentric
Single tool post Plummer block Screw Jack
Note Sheets under unit I need to be practiced with any one basic 2D drafting software
Sheets under assembly drawing need to be practiced with any one solid modelling
software Sheets under production drawing need to be practiced with Drafting and solid
modelling software
Note for question paper Students should answer 2 questions from unit I and 1 question
from unit II Each question will have internal choice Unit I carries 20 Marks and Unit
II carries 40 Marks
Text Books
1 Machine Drawing NSiddeswarPKannaiahVVSSastry Mcgraw hill education
2
3
Machine Drawing GRNagpal Khanna publications
Machine Drawing NDBhatt
Reference Books
1 Ajeet Singh Machine Drawing includes AutoCAD McGraw Hill 2nd Edition
2 Machine drawing PSGill SKKataria amp Sons 3rd Edition
3 Goutam Pohit Goutam Ghosh Machine Drawing with AutoCAD Pearson
Education 1st Edition
Web Links
1 nptelacinsyllabus112106075
2 wwwmachinedesignonlinecom
AR19 Mechanical Engineering
Aditya Engineering College (A) 98
EMPLOYABILITY SKILLS-II (Common to all branches)
Course Objectives
COB 1 To Teach Empathy For Solving Complex Problems
COB 2 To Inculcate Reading Skills
COB 3 To Teach Competitive Written English
COB 4 To Teach Team Building ampLeadership Skills
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
UNIT-I
Aptitude Symbols ampNotations Direction test
Soft Skills Team work leadership skills
UNIT-II
Aptitude Venn Diagrams Blood Relations
Soft Skills Negotiation skills persuasionamp Negotiation stages of Negotiation
UNIT-III
Aptitude Problems on Numbers
Soft Skills Listening skills types of listening Active listening
IV Semester L T P C
Course Code 191MC4A05 0 0 2 0
CO 1 Examine the symbols notations and Venn -diagrams
CO 2 Explain Empathy to Create Positive
CO 3 Observe Different Types Of Number Systems
CO 4 Deduct the logics in the puzzles and arrangements
CO 5 Solve Ratio ampProportion Ages and Averages By Using Simple Logics
CO 6 Correlate Teambuilding ampLeadership Skills
AR19 Mechanical Engineering
Aditya Engineering College (A) 99
UNIT-IV
Aptitude Ratio ampproportion
Soft Skills Verbal Aptitude -II Idioms amp phrases
UNIT-V
Aptitude Average and Ages
Soft Skills Verbal Aptitude -III sentence Anagram Reading Comprehension
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 100
BIOLOGY FOR ENGINEERS (Common to all branches)
Course Objectives
COB 1 To introduce students to modern biology with an emphasis on evolution of
biology as a multi-disciplinary field
COB 2 To make them aware of application of engineering principles in biology
and engineering robust solutions inspired by biological examples
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K2) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K2) - - - - - - - - - - - -
CO 5 (K2) - - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K2) - - -
CO 3 (K3) - - -
CO 4 (K2) - - -
CO 5 (K2) - - -
UNIT-I
Introduction to life
Characteristics of living organisms-Basic classification-cell theory-structure of
prokaryotic and eukaryotic cell-Introduction to biomolecules definition-general
classification and important functions of carbohydrates-lipids-proteins-nucleic acids
vitamins and enzymes-genes and chromosome
UNIT-II
Biodiversity
Plant System basic concepts of plant growth-nutrition-photosynthesis and nitrogen
IV Semester L T P C
Course Code 191MC4A06 2 0 0 0
CO 1
Apply biological engineering principles procedures needed to solve real-
world problems
CO 2 Demonstrate the fundamentals of living things their classification cell
structure and biochemical constituents
CO 3 Apply the concept of plant animal and microbial systems and growth in real
life situations
CO 4 Explain genetics and the immune system to know the cause symptoms
diagnosis and treatment of common diseases
CO 5 Demonstrate basic knowledge of the applications of biological systems in
relevant industries
AR19 Mechanical Engineering
Aditya Engineering College (A) 101
fixation-Animal System elementary study of digestive-respiratory-circulatory-excretory
systems and their functions Microbial System history-types of microbes-economic
importance and control of microbes
UNIT-III
Genetics and immune system
Evolution theories of evolution-Mendelrsquos cell divisionndashmitosis and meiosis-evidence of
e laws of inheritance-variation and speciation- nucleic acids as a genetic material-central
dogma immunity antigens-antibody-immune response
UNIT-IV
Human diseases
Definition- causes symptoms diagnosis treatment and prevention of diabetes cancer
hypertension influenza AIDS and Hepatitis
UNIT-V
Biology and its industrial application
Transgenic plants and animals-stem cell and tissue engineering-bioreactors-
biopharming-recombinant vaccines-cloning-drug discovery-biological neural networks-
bioremediation-biofertilizer-biocontrolbiofilters-biosensors-biopolymers-bioenergy-
biomaterials-biochips-basic biomedical instrumentation
Text Books
1 A Text book of Biotechnology RCDubey S Chand Higher Academic
Publications 2013
2 Diseases of the Human Body Carol D Tamparo and Marcia A Lewis FA Davis
Company 2011
3 Biomedical instrumentation Technology and applications R Khandpur McGraw
Hill Professional 2004
Reference Books
1 Biology for Engineers Arthur T Johnson CRC Press Taylor and Francis 2011
2 Cell Biology and Genetics (Biology The unity and diversity of life Volume I) Cecie
Starr Ralph Taggart Christine Evers and Lisa Starr Cengage Learning 2008
3 Biotechnology Expanding horizon BD Singh Kalyani Publishers 2012
Web Links
1 httpswwwbiology-onlineorg
2 httpwwwbiologyreferencecom
3 httpwwwallexpertscombrowsecgicatLvl=2ampcatID=229
4 httpswwwlibraryqmulacuksubject-guidesbiological-sciences
AR19 Mechanical Engineering
Aditya Engineering College (A) 102
DYNAMICS OF MACHINERY
V semester L T P C
Course Code 191ME5T09 3 0 0 3
Course Objectives
COB 1 To equip the student with fundamental knowledge of dynamics of machines so
that student can appreciate problems of dynamic force balance transmissibility
of forces isolation of systems vibrations
COB 2 To develop knowledge of analytical and graphical methods for calculating
balancing of rotary and reciprocating masses
COB 3 To develop understanding of vibrations and its significance on engineering
design
COB 4 To develop understanding of dynamic balancing flywheel analysis gyroscopic
forces and moments
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze stabilization of sea vehicles aircrafts and automobile vehicles
CO 2 Compute frictional losses and torque transmission of mechanical systems
CO 3 Calculate the dynamic forces acting on the flywheels and governors
CO 4 Apply analytical and graphical methods of calculating balancing of rotary and
reciprocating masses
CO 5 Determine the natural frequencies of vibrating system
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - 1
CO2 (K3) 3 2 2 1 - - - - - - - 1
CO3 (K3) 2 2 2 1 - - - - - - - 1
CO4 (K4) 2 2 2 1 - - - - - - - 1
CO5 (K3) 2 2 2 1 - - - - - - - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K4) 1 - -
CO5 (K3) 1 - -
UNIT-I
Precession Gyroscopes effect of precession motion on the stability of moving vehicles
such as motor car motor cycle aero planes and ships (Demonstration of models in video
show)
UNIT-II
Clutches Friction clutches- uniform pressure uniform wear single disc or plate clutch
multiple disc clutch cone clutch centrifugal clutch
Brakes And Dynamometers Simple block brakes internal expanding brake band brake
AR19 Mechanical Engineering
Aditya Engineering College (A) 103
of vehicle General description and operation of dynamometers Prony Rope brake
Epicyclic Bevis Gibson and belt transmission
UNIT-III
Turning Moment Diagrams Dynamic force analysis of slider crank mechanism inertia
torque angular velocity and acceleration of connecting rod crank effort and turning
moment diagrams ndash fluctuation of energy ndash fly wheels and their design
Governers Watt porter and proell governors spring loaded governorsndash Hartnell and
Hartung with auxiliary springs Sensitiveness isochronism and hunting
UNIT-IV
Balancing Balancing of rotating masses single and multiple ndash single and different planes
use analytical and graphical methods Primary secondary and higher balancing of
reciprocating masses Analytical and graphical methods unbalanced forces and couples
locomotive balancing hammer blow swaying couple variation of tractive effort
UNIT-V
Vibrations Free and forced vibration of single degree of freedom systems effect of
damping vibration isolation and transmissibility resonance critical speeds of shafts
Text Books
1 Theory of machines- Thomas Bevan
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of machines and mechanisms ndash PLBallaney-Khanna publications
Reference Books
1 Theory of Machines ndash Sadhu Singh Pearsons Edn
2 Mechanical Vibrations ndash G K Grover
3 Mechanism and Machine Theory - JSRao RV Dukkipati New Age
4
5
Mechanism and Machine Theory ndash Ashok G Ambekar PHI Publication
Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East- West
Press
Web Links
1 httpswwwslidesharenethareeshangunit-7-gyroscope
2 httpwwwsvecweduinDocs5CMEDMLNotes2013pdf
3 httpswwwvidyarthipluscomvpattachmentphp
4 httpnptelacindownloads112101096
AR19 Mechanical Engineering
Aditya Engineering College (A) 104
DESIGN OF MACHINE MEMBERS-I
V Semester L T P C
Course Code 191ME5T10 3 0 0 3
Course Objectives
COB 1 To illustrate the design function in mechanical engineering the steps involved
in designing and the relation of design activity with manufacturing activity
COB 2 To enable the student select proper materials for different machine elements
based on their mechanical properties
COB 3 To impart knowledge about various theories of failure to design a machine
component
COB 4 To teach the student to estimate the strength of machine elements
COB 5 To make the student learn the design procedure for the different machine
elements such as fasteners shafts couplings keys axially loaded joints etc
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the design procedure to engineering problems including the consideration
of technical and manufacturing constraints
CO 2 Evaluate the strength stiffness and fatigue of machine elements
CO 3 Analyze various types of stresses on mechanical components subjected to both
static and dynamic loads
CO 4 Explain the design of fasteners subjected to eccentric amp fluctuating loads
CO 5 Calculate the design parameters of various components like springs and pressure
vessels
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 3 - 3 - - 3 -
CO2 (K5) 2 2 3 3 - - - - - - - -
CO3 (K4) 2 3 2 2 - - - - - - - -
CO4 (K4) 2 2 2 2 - - - - - - - -
CO5 (K3) 3 2 1 1 3 3 - 3 - - 3 -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K5) 3 - -
CO3 (K4) 3 - -
CO4 (K4) 3 - -
CO5 (K3) - 2 -
UNIT-I
Introduction to Machine Design
Introduction to machine design- Engineering Materials and their properties ndash selection
ndashManufacturing considerations in design- Preferred numbers- BIS Codes ndash Combined
Stresses - Complex Stresses - Stresses on an inclined plane under different uniaxial and
biaxial stress conditions - Principal planes and principal stresses - Mohrrsquos circle -
various theories of failure
AR19 Mechanical Engineering
Aditya Engineering College (A) 105
UNIT-II
Design Under Fluctuating Stresses
Stress concentration ndashTheoretical Stress Concentration Factor ndash Fatigue Stress
Concentration Factor - Notch Sensitivity ndash Design for fluctuating stresses ndash Endurance
limit ndashEstimation of endurance strength ndash Goodmanrsquos line ndash Soderbergrsquos line ndash Modified
Goodmanrsquos line
Design of Shafts
Design of solid and hollow shafts for strength and rigidity ndash Design of shafts for
combined bending and axial loads ndash shaft sizes - Design of shafts for gear and belt
drives
UNIT-III
Design of Keys and Couplings
Design of keys-stresses in keys- Rigid couplings ndash Muff Split muff and Flange
couplings-Flexible couplings ndash Flange coupling (Modified)
Cotter amp Knuckle Joints
Spigot and socket Sleeve and cotter Jib and cotter joints- Knuckle joints
UNIT-IV
Design of Fasteners
Riveted and welded joints ndash Design of joints with initial stresses ndash Eccentric loading
Bolted joints ndash Design of bolts with pre-stresses ndash Design of joints under eccentric
loading ndash Locking devices ndash Bolts of uniform strength Different seals
UNIT-V
Springs
Stresses and deflections of helical springs ndash Extension -Compression springs ndash Springs
for fatigue loading Energy storage capacity ndash Helical torsion springs ndash Co-axial springs
Leaf springs
Pressure Vessels
Thin seamless cylindrical shells ndash Derivation of formula for longitudinal and
circumferential stresses ndash Hoop Longitudinal and Volumetric strains ndash Changes in
diameter and volume of thin cylinders ndash Riveted boiler shells ndash Thin spherical shells -
Thick Cylinders- Lamersquos equation ndash Cylinders subjected to inside amp outside pressures
ndashCompound cylinders
Note Design data books are not allowed for End Semester Examinations
Text Books
1 Design of Machine Elements VBBhandari TMH Publishers 4th Edition
2 Machine Design Pandya amp Shah Charothar Publishers 17th Edition
Reference Books
1 Mechanical Engineering Design JEShigley amp CRMischkie Tata McGraw Hill
3rd Edition
2 Machine Design Sundararajamoorthy TVamp ShanmugamN Anuradha
Publications
3 Design of Machine Elements MFSpotts Pearson Education 8th Edition
4 Design Data PSG College of Technology Kalaikathir Achchagam Publishers 2nd
Edition
5 Design Data Hand Book SMdJalaludeen Anuradha Publications
AR19 Mechanical Engineering
Aditya Engineering College (A) 106
Web Links
1 httpnptelacincoursesWebcourse contents IIT 20Kharagpur Machine20
design1 New_index1html
2 httpwwwnptelacindownloads112105125
3 httpwwwalljntuworldindownloaddesign-machine-members-1-dmm-1-
materials- notes
4 wwwjntumaterialscoin201504jntujntuk-design-of-machine-members-ihtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 107
THERMAL ENGINEERING - II
V Semester L T P C
Course Code 191ME5T11 3 0 0 3
Course Objectives
COB 1 To develop basic knowledge of students on Rankine cycles
COB 2 To provide sufficient knowledge on Boilers and chimneys to the students
COB 3 To enable studentsrsquo knowledge on steam nozzles and steam turbines
COB 4 To improve the knowledge of students on steam formation process
COB 5 To provide sufficient knowledge to the students on gas turbines and its
application
Course Outcomes At the end of the Course Student will be able to
CO 1 Apply different methods used to improve the efficiency of Rankine Cycle
CO 2 Solve problems related to boiler efficiency and chimney
CO 3 Analyze the performance of Steam nozzles and steam turbines
CO 4 Distinguish different types of condenser used in a steam power plant
CO 5 Explain the methods to increase the performance of Gas Turbine and its
applications
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - 1
CO3 (K4) 3 3 - - - - - - - - - 1
CO4 (K4) 3 3 - - - - - - - - - -
CO5 (K4) 3 3 - - - - - - - - - 2
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 2 - -
CO3 (K4) 2 - -
CO4 (K4) 2 - -
CO5 (K4) 2 - -
UNIT-I
Introduction to Steam Power Cycles
Rankine cycle Schematic layout Thermodynamic analysis Methods to improve cycle
performance ndash Regeneration amp reheating
Combustion Fuels and combustion Concepts of heat of reaction Adiabatic flame
temperature Stoichiometry and flue gas analysis
UNIT-II
Boilers amp Draught
Classification Working principles of LP amp HP boilers with sketches mountings and
accessories Working principles Boiler horse power Equivalent evaporation Efficiency
and heat balance
Draught Classification height of chimney for given draught and discharge Condition
for maximum discharge Efficiency of chimney Artificial draught Induced and Forced
draught
AR19 Mechanical Engineering
Aditya Engineering College (A) 108
UNIT-III
Steam Nozzles
Function of a nozzle applications types Flow through nozzles and thermodynamic
analysis assumptions velocity of fluid at nozzle exit - Ideal and actual expansion in a
nozzle Velocity coefficient and condition for maximum discharge Critical pressure
ratio Super saturated flow and its effects Degree of super saturation and Degree of under
cooling Wilson line
Steam Turbines
Classification Impulse turbine-Mechanical details velocity diagram effect of friction
power developed Axial thrust Blade or diagram efficiency condition for maximum
efficiency De-Laval turbine methods to reduce rotor speed-Velocity compounding
Pressure compounding and velocity amp pressure compounding Velocity and pressure
variation along the flow combined velocity diagram for a velocity compounded impulse
turbine Condition for maximum efficiency
UNIT-IV
Reaction Turbine
Mechanical details principle of operation Thermodynamic analysis of a stage Degree
of reaction velocity diagram Parsonrsquos reaction turbine Condition for maximum
efficiency Calculation of blade height
Steam Condensers
Requirements of steam condensing plant Classification of condensers working principle
of different types vacuum efficiency and condenser efficiency air leakage Sources and
its affects Air pump cooling water requirement
UNIT-V
Gas Turbines
Simple gas turbine plant Ideal cycle Essential components parameters of performance
Actual cycle Regeneration Inter cooling and reheating Closed and semi-closed cycles
Merits and demerits Types of combustion chambers
Jet Propulsion
Principle of operation Classification of jet propulsive engines Working principles with
schematic diagrams and representation on T-S diagram thrust thrust power and
propulsion efficiency turbo jet engines - schematic diagram Thermodynamic cycle
Performance evaluation Thrust augmentation methods ndash Simple Problems
Rockets
Application working principle Classification propellant type thrust Propulsive
efficiency specific impulse Solid and Liquid propellant rocket engines
Text Books
1 Thermodynamics and Heat Engines Volume- II RYadav Central publishing house
6th Edition
2 Heat Engineering VP Vasandani and DS Kumar Metropolitan Book Company 6th
Edition
Reference Books 1 Thermal Engineering PLBallaney Khanna publishers25th Edition
2 Thermal Engineering MLMathur amp Mehta Jain bros 6th Edition
3 Gas Turbines V Ganesan Tata McGraw-Hill Education 3th Edition
4 Thermal Engineering RK Rajput Laxmi Publications 10th Edition
AR19 Mechanical Engineering
Aditya Engineering College (A) 109
Web Links 1 httpsnptelacincourses112103112103277
2 httpnptelacincourses112106166
3 httphomeiitkacin~sullerlectureslec29htm
AR19 Mechanical Engineering
Aditya Engineering College (A) 110
AUTOMOBILE ENGINEERING (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E01 3 0 0 3
Course Objectives
COB 1 To equip the students with fundamental working principles and technologies
in automotive engineering
COB 2 To introduce basic and entry level theories and terminology
COB 3 To make aware of the importance of transmission system
COB 4 To impart the principles of automobile systems sub systems and provides
the salient features of safety of automobiles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Summarize the Vehicle Chassis Layouts of 4-wheelers and Motor Vehicle
Act
CO 2 Identify the different constructional features and working principles of Un-
Sprung components of the given vehicle
CO 3 Identify the different constructional features and working principles Sprung
components of the given vehicle
CO 4 Summarize the functionalities of various Electrical systems of typical
Automobile
CO 5 Explain the different Active and Passive Vehicle Safety Systems
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
CO 1(K2) 2 1 - - - - 3 - 3 3
CO 2(K3) 2 1 - - - - 3 - - 3
CO 3(K3) 2 1 - - - - - - - 3
CO 4(K2) 2 1 - - - - - - 3 3
CO 5(K3) 3 2 - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 K2) 3 - -
CO 2(K3) 2 - -
CO 3(K3) 2 - -
CO 4(K2) 2 - -
CO 5(K3) 3 - 3
UNIT-I
Introduction
Components of four wheeler automobile ndash chassis and body ndashChassis Layout - power
transmission ndash rear wheel drive front wheel drive 4 wheel drive and Motor Vehicle Act
1988 ndash Legal AspectsCompliance of Automotive
Vehicles Introduction to Motor Vehicle Act Registration of Vehicles Inspection and
Fitness of vehicles and Homologation of Vehicles
UNIT ndash II
Transmission System
Clutches principle types gear boxes types Propeller shaft ndashHotch ndash Kiss drive
AR19 Mechanical Engineering
Aditya Engineering College (A) 111
Torque tube drive universal joint differential rear axlesndash types
Steering System
Steering geometry ndash camber castor king pin rake combined angle toe-in toe-out
center point steering Types of steering mechanism ndashAckerman steering mechanism
Davis steering mechanism steering linkages
UNIT ndash III
Suspension System
Objects of suspension systems ndash rigid axle suspension system torsion bar shock
absorber Independent suspension system Air Suspension Rubber Suspension
Hydrolastic suspension system Hydragas suspension system
Braking System
Mechanical braking system hydraulic braking system requirement of brake fluid
pneumatic and vacuum brakes Parking Braking system
UNIT ndash IV
Wheels And Tyres
Basic Requirements of Wheels and Tyres Construction of Wheel Assembly Tyre
Construction Types Tyre Sizes and Designation Aspect Ratio Tyre Tread Pattern
Selection of Tyre under Different Applications
UNIT ndash V
Electrical System
Charging circuit generator starting system lighting horn wiper fuel gauge oil
pressure gauge engine temperature indicator
Safety Systems
Introduction safety systems - seat belt air bags bumper anti-lock brake system (ABS)
Electronic Brake force Distribution (EBD) mirrors central locking speed control
Retractable Steering system Head restraints seats with anti-submarine effects and fuel
cut off switch
Text Books
1 Automobile Engineering Vol 1 Dr Kirpal Singh Standard Publishers13th
Edition
2 Automotive Mechanics William H Crouse TMH Distributors10th Edition
Reference Books
1 Advanced vehicle Technology by Heinz Heisher 2nd BH Pub
2 Automotive Chassis by Jonsen Reimpell BH Pub
3 Automobile Electrical amp Electronics by Tom Denton 3rd Elsevier Pub
4 The Motor Vehicle Act 1988 Bare Act with Amendments Law Literature
Publication
5 The Central Motor Vehicle Rules 1989 Bare Act with short notes Lexis Nexis
Publications
Web Links
1 httpsnptelacincourses125106002
2 httpswwwautomotive-onlinecom
3 https sciencelinksjpj-eastarticle
4 https wwwsciencedirectcomsciencebook9780750650540
AR19 Mechanical Engineering
Aditya Engineering College (A) 112
COMPOSITE MATERIALS
(Professional Elective-I)
V Semester L T P C
Course Code 191ME5E02 3 0 0 3
Course Objectives
COB 1 To make the student aware about the composite materials Matrix fibers etc
COB 2 To make the student classify the composites based on the matrix material
COB 3 To make the student classify the composites based on the reinforcements
COB 4 To enable the student determine the strength of an orthotropic laminate
COB 5 To make the student determine stiffness and strength of unidirectional
composites
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain about the composite materials matrix fibers etc
CO 2 Select the composites based on the matrix materials
CO 3 Select the composites based on the reinforcements
CO 4 Calculate the stress and strain of various types of laminates
CO 5 Evaluate stiffness and strength of unidirectional composites
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 1 - - - - - - - - 1 - 1
CO2 (K4) 3 - - - - - - - - 1 - 1
CO3 (K4) 3 - - - - - - - - 1 - 1
CO4 (K3) 3 2 2 2 - - - - - 1 - 1
CO5 (K5) 3 3 3 3 - - - - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 1 - -
CO2 (K4) 3 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 - -
UNIT-I
Introduction Definitions Composites Reinforcements and matrices Types of
reinforcements Matrix materials Functions of a Matrix Desired Properties of a
Matrix Types of composites Carbon Fibre composites Properties of composites in comparison with standard materials Applications of metal ceramic and polymer
matrix composites Role and Selection or reinforcement materials Types of fibres
Glass fibers Carbon fibers Aramid fibers Metal fibers Alumina fibers Boron Fibers
Silicon carbide fibers Quartz and Silica fibers Multiphase fibers Whiskers Flakes
etc Mechanical properties of fibres Advantages and limitations of composite
materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 113
UNIT-II
Classification based on Matrix Material
Organic Matrix composites Polymer matrix composites (PMC) Carbon matrix
Composites or Carbon-Carbon Composites Metal matrix composites (MMC) Ceramic
matrix composites (CMC)
Classification based on reinforcements Fiber Reinforced Composites Fiber
Reinforced Polymer (FRP) Composites Laminar Composites Particulate Composites
Comparison with Metals Advantages amp limitations of Fiber Reinforced Composites
UNIT-III Fabrication methods of composites
UNIT-IV
Laminates Plate Stiffness and Compliance Assumptions Strains Stress Resultants
Plate Stiffness and Compliance Computation of Stresses Types of Laminates -
Symmetric Laminates Anti-symmetric Laminate Balanced Laminate Quasi-isotropic
Laminates Cross-ply Laminate Angle-ply Laminate Strength of an orthotropic
Laminate Laminate Moduli Hygro thermal Stresses
UNIT-V
Mechanical Properties -Stiffness and Strength Geometrical aspects ndash volume and
weight fraction Unidirectional continuous fibre discontinuous fibers Short fiber
systems woven reinforcements ndashMechanical Testing Determination of stiffness and
strengths of unidirectional composites tension compression flexure and shear
Text Books
1 Composite materials Production properties testing and applications
K Srinivasan Alpha science international ltd
2 Mechanics of composite materials Robert M Jones CRC Press 2nd Edition
Reference Books
1 Composite materials Engineering and Science FL Matthews and R D
Rawlings Woodhead publishing
2 Composite materials Design and applications Daniel Gay CRC Press 3rd
Edition
3 Composite materials Krishan K Chawla Springer Publication 3rd Edition
4 Laminar composites George H Staab Elsevier Science amp Technology
Web Links
1 httpsnptelacincourses112104112104229
2 httpsnptelacincontentstorage2courses105108124pdfLecture_NotesLN
m1pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 114
FLUID ENGINEERING (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E03 3 0 0 3
Course Objectives
COB 1 To make students learn about different types of compressors and to calculate
power and efficiency
COB 2 Understand the concepts of hydraulic machines and their applications
COB 3 Understand the working principle of centrifugal pump and its characteristics
COB 4 Understand the principle of reciprocating pump
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the working of various types of reciprocating compressor
CO 2 Evaluate efficiency of various types of rotary compressors
CO 3 Compare different types of Turbines and its characteristics
CO 4 Explain the working principle of Centrifugal Pump
CO 5 Explain the working principle Reciprocating Pump
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - 3 -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT ndashI
Compressors Classification Positive displacement and roto dynamic machinery
Power producing and power absorbing machines Fan Blower and Compressor
Positive displacement and dynamic types Reciprocating and rotary types
Reciprocating Compressor Principle of operation Work required Isothermal
efficiency Volumetric efficiency and effect of clearance Multi stage compression
Under cooling Saving of work Minimum work condition for two stage compression
UNIT-II
Rotary Compressor (Positive Displacement Type) Roots Blower Vane sealed
compressor Lysholm compressor Mechanical details and Principle of working
Efficiency considerations
Centrifugal Compressors Mechanical details and principle of operation Velocity and
AR19 Mechanical Engineering
Aditya Engineering College (A) 115
pressure variation Energy transfer-Impeller blade shape-losses Slip factor Power
input factor Pressure coefficient and adiabatic coefficient Velocity diagrams Power
Axial Flow Compressors Mechanical details and principle of operation Velocity
triangles and energy transfer per stage degree of reaction Work done factor - Isentropic
efficiency- Pressure rise calculations Polytropic efficiency
UNIT-III
Hydraulic Machines Turbines
Velocity Triangles and Work done for a Pelton Wheel Design of Pelton Wheel Radial
Flow reaction Turbines- Inward amp Outward Degree of reaction Francis Turbine Axial
Flow Reaction Turbines Draft Tube Specific Speed Unit Quantities Characteristic
curves of Hydraulic turbines and governing of turbines
UNIT-IV
Centrifugal Pumps
Work done by the Centrifugal Pump Heads and efficiencies Minimum speed to start
Multistage Specific speed Model testing Priming Characteristic curves Cavitation
Maximum suction Lift Net positive Suction Head
UNIT-V
Reciprocating Pumps
Discharge Work done and power required calculations Slip Variation of velocity and
acceleration in suction and delivery pipes Effect of variation of velocity on friction in
the suction and delivery pipes Indicator diagram Air vessels and Comparison of
Centrifugal and Reciprocating Pumps
Text Books
1 Heat EnginesVP Vasandani amp DS Kumar Metropolitan Book Co Pvt Ltd
4th Edition
2 Fluid Mechanics and Hydraulic Machines RK Bansal Laxmi Publications (P)
Ltd 9th Edition
Reference Books
1 Thermal Engineering RK Rajput Lakshmi Publications 10th Edition
2 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
3 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
4 Hydraulics and Fluid mechanics including Hydraulics machines by PNModiamp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
5 Mechanics of fluids by Bernard Massey 9th Edition CRC Press 2019
Web Links
1 httpnptelacincourses112104033
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 116
MECHANICAL VIBRATIONS (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E04 3 0 0 3
Course Objectives
COB 1 To analyze the various 1-D periodic and periodic responses of a vibrating
system with and without damping
COB 2 To derive the equations of motion and solution for Two and multi degree
freedom systems by the application of analytical methods
COB 3 To understand the numerical methods for quick estimation of 1st natural
frequency of multi degree freedom systems
COB 4 Have the knowledge of the various physical vibration measuring
instruments
COB 5 To solve vibrations problems of continuous systems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the various 1-D periodic and periodic responses of an vibrating
system with and without damping and damping mechanisms
CO 2 Find solutions for two degree freedom systems with and without damping
for free and forced vibrations
CO 3 Derive solutions for Multi-degree freedom systems emphasing on modal
analysis techniques
CO 4 Estimate 1st natural frequency of multi degree freedom systems
CO 5 Apply the knowledge of the various physical vibration measuring
instruments and their applications in real life vibration data acquisition
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - -
CO2 (K3) 3 2 2 1 - - - - - - - -
CO3 (K3) 2 2 2 1 - - - - - - - -
CO4 (K3) 2 2 2 1 - - - - - - - -
CO5 (K3) 2 2 2 1 - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Single degree of Freedom systems Undamped and damped free vibrations forced
vibrations coulomb damping Response to harmonic excitation rotating unbalance and
AR19 Mechanical Engineering
Aditya Engineering College (A) 117
support excitation Vibration isolation and transmissibility
UNIT-II
Vibration Measurement Vibrometers velocity meters amp accelerometers
Two degree of freedom systems Principal modes ndash undamped and damped free and forced
vibrations undamped vibration absorbers
UNIT-III
Multi degree of freedom systems Matrix formulation stiffness and flexibility influence
coefficients Eigen value problem normal modes and their properties Free and forced
vibration by Modal analysis Method of matrix inversion Torsional vibrations of multi ndash
rotor systems and geared systems Discrete Time systems
UNIT-IV
Numerical Methods Rayleighrsquos stodolarsquos Matrix iteration Rayleigh-Ritz Method and
Holzerrsquos methods
UNIT-V
Application of concepts Free vibration of strings ndash longitudinal oscillations of bars-
transverse vibrations of beams- Torsional vibrations of shafts Critical speeds without and
with damping secondary critical speed
Text Books
1 Theory of Vibrations with Applications 5th Edition William T Thomson Marie
Dillon Dahleh Chandramouli Padmanabhan John Vlissides
2 Mechanical Vibrations 8th Edition ndash GK Grover
Reference Books
1 Vibration problems in Engineering by SP Timoshenko
2 Mechanical Vibrations ndash Schaum series
3 Mechanical Vibrations 4th Edition Singiresu S Rao
4 Vibration and Acoustics 1st Edition C Sujatha
5 Elements of Vibration Analysis by Meirovitch
AR19 Mechanical Engineering
Aditya Engineering College (A) 118
METROLOGY amp INSTRUMENTATION (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E05 3 0 0 3
Course Objectives
COB 1 To make the students understand the working of linear and angular measuring
instruments
COB 2 To familiarize with the working of optical measuring instruments and
fundamentals of limits and limit gauges
COB 3 To teach the basic idea about various methods for measurement of screw
thread and surface finish parameters
COB 4 To provide students an overview of mechanical measurements systems and
principle of instrument for motion and dimension measurement
COB 5 To provide basic idea about working principle and applications of devices
for measurement of temperature pressure flow level stress and strain
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concept of systems of limits and fits and theory of linear and
angular measurement
CO 2 Explain the surface roughness measurement screw thread measurement and
gear measurement
CO 3 Explain the concepts of machine tool alignments
CO 4 Select appropriate elements of a measurement system and select instruments
for displacement measurement
CO 5 Select instruments for temperature pressure and flow measurement
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - 1 - - - - - - 2 -
CO2 (K2) 2 1 - 1 - - - - - - 2 -
CO3 (K3) 3 2 - 1 - - - - - - 3 -
CO4 (K4) 2 3 - 2 - - - - - - 3 -
CO5 (K4) 2 3 - 2 - - - - - - 2 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K5) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 1 -
CO2 (K2) - 1 -
CO3 (K3) - 2 -
CO4 (K4) - 3 -
CO5 (K4) - 3 -
UNIT- I
Linear and Angular Measurements Limits and Fits
ISO system Fits and Types of interchangeability Taylorrsquos Principle or plain limit
gauges Use of Plug Ring and Snap gauges Indicating type limit gauges Introduction-
Linear and Angular measurements - Slip gauges and End bars - Gauge material and
manufacturing methods Different types of Micrometers Height gauges Tomlinson
AR19 Mechanical Engineering
Aditya Engineering College (A) 119
gauges Precision polygon Sine bar Auto collimator
UNIT- II
Optical Measurement and Comparators
Dial indicator Sigma and Mechanical comparator Free flow and Back pressure type
Pneumatic comparator Application of set jet gauge heads Optical projector Chart
screen gauges and measuring methods Micro gauge bridge lines Tool makerrsquos
Microscope applications Measurement of Straightness and- Flatness Roundness
measurement with bench centers and talyround Coordinate Measuring Machine in
components geometries
UNIT- III
Surface Roughness Measurements and Gear tooth measurement
Parameters as per ISO indices Profilometer Taylor Hobson Talysurf Application of Thread metrology - 2 wire and 3 Wire methods Gear measurement - Gear tooth
thickness Parkinson gear tester General geometric tests for testing machine tools-Lathe drill mill
UNIT- IV
Displacement and Strain Measurement
Elements of instrumentation system Static and Dynamic characteristics Types of errors
Displacement transducers LVDT Strain measurement - Wire and foil type resistance strain gauges Rosette Gauges Bonding procedure Lead resistance compensation
Adjacent arm and self compensating gauges Proving ring Strain gauge load cells measurement of axial load and torsion by strain gauges Piezo electric load cell
UNIT- V
Temperature Pressure and Flow Measurement
Introduction to Seismic Transducers - displacement and acceleration measurement
Pressure measurement - Bourdon pressure gauge bulk modulus gauge pirani gauge
Temperature measurement by thermo couples Laws of thermo electricity Types of
materials used in thermocouples Rotameter magnetic ultrasonic turbine flow meter
hot ndash wire anemometer laser Doppler anemometer (LDA) dynamometers
Text Books
1 Dimensional MetrologyConnie Dotson Cengage Learning2016
2 Measurement System Applications and Design DSKumar Metropolitian book Co
pvtlmtd 1st edition
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers 2008
2 Engineering Metrology ICGupta Dhanpat Rai Publishers 2018
3 Mechanical and Industrial Measurements RK Jain Khanna Publishers 2008
4 Instrumentation measurement amp analysis BCNakra amp KKChoudhary TMH
2008
Web Links
1 httpsnptelacincourses112106179
2 httpswwwslidesharenetengrnoumanmetrology-measurement
3 httpwwwmetrologypggdapl
4 httpsindiaoupcomproductengineering-metrology
AR19 Mechanical Engineering
Aditya Engineering College (A) 120
ORGANIZATIONAL BEHAVIOUR
(Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E06 3 0 0 3
Course Objectives
COB 1 To make the students understand the factors affecting the individual behavior
and its impact on organizational behavior
COB 2 To impart the knowledge on management and the way it is performed in the
organizations
COB 3 To familiarize the students with the basic concepts of stress and emotions
the contributions of various managerial issues in the organization
COB 4 To obtain students of frameworks and tools to effectively analyze and
approach various organizational situations
COB 5 To intended to help the students to gain a solid understanding of human
behavior in the workplace from an individual group and organizational
perspective
Course Outcomes
At the end of the Course Student will be able to
CO 1
Explain the OB a range of organizational behavior models key elements and
roles of OB
CO 2 Analyze the behavior of individuals and groups in organizations in terms of
organizational behavior interpersonal behavior and personality traits
concepts
CO 3 Utilize various stress and emotional organizational behavior concepts
models and theories to real life management situations through case analysis
CO 4 Make use of organizational communication and organization culture to
understanding of organizational communication and culture to cope up with
the organization better way
CO 5 Classify the different groups and teams in the organization and its features
for dealing these groups in a good way for better result and motivate them
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 1 - 1 -
CO2 (K3) - - - - - - - - - 1 - 1
CO3 (K4) - - - - - - - - 1 - - -
CO4 (K3) - - - - - - - - - 1 1 -
CO5 (K3) - - - - - - - - - 1 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 121
UNIT-I
Organizational Behavior Concept of Organizational Behavior (OB)-
Importance of Organizational Behaviour- Key Elements of Organizational
Behavior Role of Managers in OB- Interpersonal Roles-Informational Roles-
Decisional Roles Foundations or Approaches to Organizational Behavior
Challenges and Opportunities for OB
UNIT-II
Interpersonal Behavior Nature and meaning of Interpersonal Behavior
Concept of Self Transaction Analysis (TA) Benefits and uses of Transactional
Analysis Johari Window Model
Personality Definition and Meaning of Personality - Importance of Personality
Determinants of Personality Theories of Personality Personality Traits
Influencing OB
UNIT-III
Emotions Nature and Meaning of Emotions - Characteristics of Emotions
Theories of Emotions Emotions in the Context of OB
Organizational Stress Definition and Meaning Sources of Stress Types of
Stress Impact of Stress on Organizations Stress Management Techniques
UNIT-IV
Organizational Communication Meaning and Importance of Communication
FunctionsprocesstypesInterpersonalCommunicationOrganizational
Communication Tips for Effective Communication
Organization Culture Meaning and Nature of Organization Culture - Origin of
Organization Culture Functions of Organization Culture Types of Culture
Creating and Maintaining Organization Culture Managing Cultural Diversity
UNIT-V
Groups and Teams Meaning and Importance of Groups Reasons for Group
Formation Types of Groups Stages of Group Development Meaning and
Importance of Teams Types of Teams Creating an Effective Team
Text Books
1 K Ashwathappa Organizational Behavior Himalaya Publishing House 2005
2 DrPSubba Rao and Prof NSambasiva RaordquoManagement and Organizational
Behaviour - (Text and Cases)rdquo Himalaya Publishing House Mumbai
Reference Books
1 Udai Pareek Understanding Organisational Behaviour 2nd Edition Oxford
Higher Education 2004
2 Mc Shane amp Von Glinov Organisational Behaviour 4th Edition Tata Mc Graw
Hill 2007
3 Anjali Ghanekar Organizational Behavior Everest Publications 2001
4 PareekUdai ldquoUnderstanding Organizational Behaviorrdquo Oxford University Press
New Delhi 2007
Web Links
1 httpswwwyoutubecomwatchv=JIa7vP3gyL4
2 httpswwwyoutubecomwatchv=-sLHfYnxh8samplist =PLbMVog Vj5Njqyx
oO3foSZ6CrU7aCCwTsb
3 httpswwwyoutubecomwatchv=YIyjkkUk80w
AR19 Mechanical Engineering
Aditya Engineering College (A) 122
BASIC CONCRETE TECHNOLOGY (Open Elective ndashI)
V Semester L T P C
Course Code 191CE5O01 3 0 0 3
Course Objectives
COB 1 To teach the students about the properties of ingredients in concrete
COB 2 To enable the student understand different types and properties of aggregate
COB 3 To make the students to study the behaviour of concrete as its fresh and
hardened state
COB 4 To impart the students with the knowledge on quality control of concrete
COB 5 To illustrate the concept of special concrete and their use
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the basic concepts of concrete
CO 2 Explain the properties of ingredients of concrete
CO 3 Select the suitability of different types of aggregate for their use
CO 4 Explain about fresh Concrete hardened concrete
CO 5 Illustrate the concept of special concrete and their use
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K2) 2 1 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Cement amp Admixtures
Portland cement ndash Chemical composition ndashHydration Setting of cement Fineness of
cementndash Test for physical properties ndash Different grades of cements ndashAdmixtures ndash
Mineral and chemical admixtures ndash accelerators retarders air entrainers plasticizers
super plasticizers fly ash and silica fume
UNIT-II
Aggregates
Classification of aggregate ndash Particle shape amp texture ndash Bond strength amp other
mechanical properties of aggregates ndash Specific gravity Bulk density porosity adsorption
amp moisture content of aggregate ndash Bulking of sand ndashDeleterious substance in aggregate ndash
Soundness of aggregatendash Thermal properties ndash Sieve analysis ndash Fineness modulus ndash
Grading curves ndash Grading of fine amp coarse Aggregates ndash Gap graded and well graded
AR19 Mechanical Engineering
Aditya Engineering College (A) 123
aggregate as per relevant IS code ndash Maximum aggregate size Quality of mixing water
UNIT-III
Fresh Concrete
Steps in Manufacture of Concretendashproportion mixing placing compaction finishing
curing ndash including various types in each stage Properties of fresh concrete-Workability ndash
Factors affecting workability ndash Measurement of workability by different tests Effect of
time and temperature on workability ndash Segregation amp bleeding
UNIT-IV
Hardened Concrete
Nature of strength of concretendash Factors affecting strength ndash Relation between compression
amp tensile strength ndashTesting of Hardened Concrete Compression tests ndash Tension tests ndash
Flexure tests ndashSplitting tests ndash Non-destructive testing methods
UNIT-V
Special Concretes
Light weight aggregate concrete Cellular concrete No-fines concrete High density
concrete Fiber reinforced concrete Different types of fibers Factors affecting properties
of FRC Polymer concrete Types of Polymer concrete Properties of polymer concrete
High performance concrete ndash Self consolidating concrete SIFCON self healing concrete
Recycled concrete Shotcrete
Text Books
1 Concrete Technology MSShetty Chand Publication 6th Edition 2010
2 Concrete Technology Theory and Practice ML Gambhir McGraw Hill 4th Edition
2009
3 Concrete Microstructure Properties and Materials Kumar Mehta and Paulo JM
Monteiro McGraw Hill 3rd Edition 2006
Reference Books
1 Properties of Concrete AM Neville Pearson 2004
2 Concrete Technology AM Neville and JJ Brooks Pearson 2004
3 Concrete S Mindess and JF Young Prentice-Hall 1981
4 Concrete Technology AR Santhakumar Oxford 2007
Web Links
1 httpsnptelacincourses105102012
2 wwwbrighthubengineeringcom rsaquo Concrete Technology
3 httpswwwmaterialsworldmodulesorgindexphpweb-links-sumitted-by-
members
4 httpswwwfhwadotgovresourcecenterteamsconstructionlinkscfm
5 wwwalmahrooscomindexphpfrcomponenttagstag17-concrete-technology
AR19 Mechanical Engineering
Aditya Engineering College (A) 124
ELECTRICAL SAFETY (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O01 3 0 0 3
Course Objectives
COB 1 To help the students to know about electrical hazards
COB 2 To help the students to know about various grounding techniques
COB 3 To help the students to know about safety procedures
COB 4 To help the students to know about various electrical maintenance techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe electrical hazards and safety equipment
CO 2 Analyze and apply various grounding and bonding techniques
CO 3 Select appropriate safety method for low medium and high voltage equipment
CO 4 Participate in a safety team
CO 5 Carry out proper maintenance of electrical equipment by understanding
various Standards
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 3 1 3 1 - - - - - - - -
CO2 (K4) 3 3 3 - - - - - - - - -
CO3 (K3) 3 2 3 1 - - - - - - - -
CO4 (K3) - - 3 - - - - - - - - -
CO5 (K2) 3 1 3 1 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Hazards of Electricity and Electrical Safety Equipment
Primary and secondary hazards- arc blast shocks-causes and effects-safety equipment-
flash and thermal protection head and eye protection-rubber insulating equipment hot
sticks insulated tools barriers and signs safety tags locking devices- voltage measuring
instruments- proximity and contact testers-safety electrical one line diagram- electricianrsquos
safety kit
UNIT-II
Grounding of Electrical Systems and Equipment
General requirements for grounding and bonding- definitions- grounding of electrical
equipment-bonding of electrically conducting materials and other equipment-connection
of grounding and bonding equipment- system grounding- purpose of system grounding-
grounding electrode system- grounding conductor connection to electrodes-use of
grounded circuit conductor for grounding equipment- grounding of low voltage and high
AR19 Mechanical Engineering
Aditya Engineering College (A) 125
voltage systems
UNIT-III
Safety Procedures and Methods
The six step safety methods- pre job briefings - hot-work decision tree-safe switching of
power system- lockout-tag out- flash hazard calculation and approach distances-
calculating the required level of arc protection-safety equipment procedure for low
medium and high voltage systems- the one minute safety audit
UNIT-IV
Safety Management and Organizing Structure
Electrical safety program structure development- company safety team- safety policy
program implementation- employee electrical safety teams- safety meetings- safety audit
accident prevention- first aid- rescue techniques-accident investigation
UNIT-V
Electrical Maintenance and Legal Safety Requirements and Standards
Safety related case for electrical maintenance- reliability centered maintenance (RCM) -
eight step maintenance program- frequency of maintenance- maintenance requirement for
specific equipment and location- regulatory bodies- national electrical safety code-
standard for electrical safety in work place- occupational safety and health administration
standards Indian Electricity Acts related to Electrical Safety
Text Books
1 Electrical Safety Handbook by John Cadick Mary Capelli-Schellpfeffer Dennis
Neitzel Al Winfieldrsquo McGraw-Hill Education 4 th Edition
Reference Books
1 lsquoElectrical Safety- a guide to the causes and prevention of electric hazards by
Maxwell AdamsJrsquo The Institution of Electric Engineers IET
2 Electrical Safety in the Workplace by Ray A Jones Jane G Jones Jones amp Bartlett
Learning
Web Links
1 httpnptelacincourses1031060715 2 httpswwwelectricalsafetyfirstorguk
2 httpsnptelacincourses1131071131070
3 httpsnptelacincourses1221021221020
AR19 Mechanical Engineering
Aditya Engineering College (A) 126
ELECTRICAL MATERIALS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O02 3 0 0 3
Course Objectives
COB 1 To enable the students study various types of dielectric materials their
properties in various conditions
COB 2 To assist the students to Know the magnetic materials and their behaviour
COB 3 To assist the students to Know the semiconductor materials and technologies
COB 4 To help the students acquire the Knowledge on Materials used in electrical
engineering and applications
COB 5 To help the students acquire the Knowledge on special purpose Materials used
in electrical engineering
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify various types of dielectric materials their properties in various
conditions
CO 2 Analyze magnetic materials and their behaviour
CO 3 Evaluate semiconductor materials and technologies
CO 4 Develop Knowledge on Materials used in electrical engineering and
applications
CO 5 Acquire Knowledge on special purpose Materials used in electrical engineering
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2
CO2 (K4) 3 3
CO3 (K5) 3 3
CO4 (K3) 3 2
CO5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Dielectric Materials
Dielectric as Electric Field Medium leakage currents dielectric loss dielectric strength
breakdown voltage breakdown in solid dielectrics flashover liquid dielectrics electric
conductivity in solid liquid and gaseous dielectrics Ferromagnetic materials properties
of ferromagnetic materials in static fields spontaneous polarization curie point anti-
ferromagnetic materials piezoelectric materials pyroelectric materials
UNIT-II
Magnetic Materials
Classification of magnetic materials spontaneous magnetization in ferromagnetic
AR19 Mechanical Engineering
Aditya Engineering College (A) 127
materials magnetic Anisotropy Magnetostriction diamagnetism magnetically soft and
hard materials special purpose materials feebly magnetic materials Ferrites cast and
cermet permanent magnets ageing of magnets Factors effecting permeability and
hysteresis
UNIT-III
Semiconductor Materials
Properties of semiconductors Silicon wafers integration techniques Large and very large
scale integration techniques (VLSI)
UNIT-IV
Materials for Electrical Applications
Materials used for Resistors rheostats heaters transmission line structures stranded
conductors bimetals fuses soft and hard solders electric contact materials electric
carbon materials thermocouple materials Solid Liquid and Gaseous insulating materials
Effect of moisture on insulation
UNIT-V
Special Purpose Materials
Refractory Materials Structural Materials Radioactive Materials Galvanization and
Impregnation of materials Processing of electronic materials Insulating varnishes and
coolants Properties and applications of mineral oils Testing of Transformer oil as per
ISI
Text Books
1 A course in Electrical Engineering Materials by R K Rajput Laxmi Publications
2 A course in Electrical Engineering Materials by T K Basak New Age Science
Publications
Reference Books
1 Electrical Engineering Materials by TTTI Madras McGraw Hill Education
2 Electrical Engineering Materials by Adrianus J Dekker PHI Publication
3 A course in Electrical Engineering Materials by S P Seth P V Gupta Dhanpat
Rai amp Sons
Web Links
1 httpsnptelacincourses113102113102080
2 httpsnptelacincourses113107113107078
3 httpsnptelacincourses122102122102008
AR19 Mechanical Engineering
Aditya Engineering College (A) 128
BASIC ELECTRICAL MEASURMENTS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 3 0 0 3
Course Objectives
COB 1 To equip the student with the knowledge of different types of instruments
COB 2 To equip the student with the knowledge of different types of instruments for
measurements of voltage current power ampenergy
COB 3 To make the student understand various types of bridges for measurement of
parameters-resistance inductance capacitance and frequency
COB 4 To help the students learn the knowledge of the Transducers and Sensors
COB 5 To help student acquire knowledge on applications of CRO for measurement
of frequency phase difference and hysteresis loop using Lissajous patterns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the behaviour of different types of torques in instruments
CO 2 Apply the right type of instrument for measurement of voltage current power
ampenergy
CO 3 Develop the suitable bridge for the measurement of electrical parameters
CO 4 Analyze the behaviour of different types of Transducers and Sensors
CO 5 Explain frequency and phase difference between signals using CRO
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) 1
CO2 (K5) 1
CO3 (K4) 1
CO4 (K4) 1
CO5 (K5) 1
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Basics of Measuring instruments
List of important electrical quantities to be measured their units and the names of the
instruments to measure them- Classification of instruments - different types of torques
(Deflection Controlling and Damping torques) in the indicating instruments-definitions
of accuracy precision error resolution and sensitivity-types of error
UNIT-II
Electromechanical Measuring Instruments
MC and MI types of Ammeters and Voltmeters - their Construction and working- shunts
and multipliers for MC instruments - Dynamometer type Ammeter Voltmeter and
Wattmeterndashconstruction working errors- Measurement of energy ndashsingle phase
AR19 Mechanical Engineering
Aditya Engineering College (A) 129
Induction type energy meter- Construction and working
UNIT-III
Measurements of Parameters
Classification of resistance- List of methods of measurement of resistance-Wheat stonersquos
bridgendash Kelvinrsquos double bridge for measuring low resistance- Loss of charge method for
measurement of inductance ndashQuality Factor ndashMaxwellrsquos bridge-Hayrsquos bridge-
Measurement of capacitance and loss angle ndash Desauty Bridge ndash Schering
Bridge(elementary treatment only)
UNIT-IV
Transducers
Definition of transducer-need of transducer-Classification of Transducers ndash Factor
influencing while its selection -Applications of Transducers ndashThermocouple- Thermister-
working principle and use of Strain Gauge- construction working and use of LVDT Basic
Concept of Sensors and its applications
UNIT-V
Electronic amp Digital Instruments
Digital voltmeter ndash Successive approximation ndash Frequency ndash Hysteresis loop using
lissajious patterns in CRO ndash Ramp and integrating type ndashDigital multimeter ndashDigital
Tachometer
Text Books
1 A course in Electrical Measurements Electronic Measurements Instrumentation A K
Sawhney 11th Edition DhanpatRai and Sons
2 A course in Electrical and Electronic Measurements and Instrumentation J B Gupta
13th EditionSK Kataria and Sons
Reference Books
1 Electrical Measurements ndash by Buckingham and Price Prentice ndash Hall Electrical
Measurements by Forest K Harris John Wiley and Sons
2 Electrical Measurements Fundamentals Concepts Applications ndash by Reissland
MU New Age International (P) Limited Publishers
3 Electrical and Electronic Measurements ndashby GKBanerjee PHI Learning Private
Ltd New Delhi
Web Links
1 httpnptelacincourses10810505342
2 httpnptelacinsyllabus108106070
3 httpnptelacincourses108106070
AR19 Mechanical Engineering
Aditya Engineering College (A) 130
ENTREPRENEURSHIP DEVELOPMENT AND INCUBATION (Open Elective-I)
V Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make aware of the various concepts of entrepreneurship
COB 2 To help in understanding and apply the business plan of entrepreneurship
development
COB 3 To help in analyzing and apply the Institutions that are supporting to
Entrepreneurship Development
COB 4 To helps in understanding of entrepreneurship opportunities internationally
COB 5 To understand and apply the studentrsquos capital investments in association
with business incubations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe the meaning and concepts of entrepreneurship development
CO 2 Apply the business plan for preparation and evaluation of project
CO 3 Research on Institutional Support to Entrepreneur and MSMEs
CO 4 Apply the Opportunities of Entrepreneurship Internationally
CO 5 Research on Venture capital amp Risk for entrepreneurship socially
incubations
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - 1 2 - - 2 -
CO2 (K3) - - - - - 1 2 - - 2 -
CO3 (K4) - - - - - 3 3 - - 3 2
CO4 (K3) - - - - - 3 3 - - 3 2
CO5 (K3) - - - - - 1 2 - - 2 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - - CO2 (K3) - - - CO3 (K4) - - - CO4 (K3) - - - CO5 (K3) - - -
UNIT-I
Entrepreneur ampEntrepreneurship Meaning of entrepreneur - Evolution of the
concept - Functions of an Entrepreneur - Types of Entrepreneur - Intrapreneur- an
emerging class - Concept of Entrepreneurship - Evolution of Entrepreneurship -
Development of Entrepreneurship - Entrepreneurial Culture - Stages in entrepreneurial
process
UNIT-II
Business Planning Process Meaning of business plan - Business plan process -
Advantages of business planning - Marketing plan - Productionoperations plan -
Organization plan - Financial plan - Final Project Report with Feasibility Study -
AR19 Mechanical Engineering
Aditya Engineering College (A) 131
preparing a model project report for starting a new venture
UNIT-III
Institutions supporting Entrepreneurs Small industry financing developing countries
- A brief overview of financial institutions in India - Central level and state level
institutions - SIDBI - NABARD - IDBI - SIDCO - Indian Institute of Entrepreneurship
- DIC - Single Window - Latest Industrial Policy of Government of India
UNIT-IV
International Entrepreneurship Opportunities The nature of international
entrepreneurship - Importance of international business to the firm - International versus
domestic entrepreneurship - Stages of economic development - Entrepreneurship entry
into international business - exporting - Direct foreign investment - barriers to
international trade
UNIT-V
Informal Risk Capital and Venture Capital Informal risk capital market - venture
capital - nature and overview - venture capital process - locating venture capitalists -
approaching venture capitalists Social Entrepreneurship Social enterprise-need - types
- characteristics and benefits of social enterprises-Social entrepreneurship - Rural
entrepreneurship MSME Policies Make-In India Start-Up India Stand-Up India
Text Books
1 Arya Kumar ldquoEntrepreneurshiprdquo Pearson Publishing House New Delhi 2012
2 VSP Rao Kuratko ldquoEntrepreneurshiprsquo Cengage Learning New Delhi2011
3 KRamachandran ldquoEntrepreneurship Developmentrdquo TMH New Delhi 2012
Reference Books
1 BJanakiram M Rizwana ldquoEntrepreneurship Developmentrdquo Excel Books New
Delhi 2011
2 Rajeev Roy ldquoEntrepreneurshiprdquo Oxford University Press New Delhi2012
3 PCShejwalkar ldquoEntrepreneurship Developmentrdquo Everest Publishing House
New Delhi 2011
4 RH Hisrich MP Peters and DA Shepherd ldquoEntrepreneurshiprdquo Mc Graw
Hill Irwin 8th Edition 2010
5 Ryszard Praszkieramp Andrzej Nowak ldquoSocial Entrepreneurship Theory and
Practice Paperback ndash Illustratedrdquo Cambridge University Press New York-
February 2 2012
Reference Books
1 httpnptelacincourses
2 httpswwwtutorialspointcom
3 httpswwwediindiaorg
4 httpwwwquickmbacomentre
5 httpswwwscribdcomdocument150087992Entrepreneurship-Chapter-12-
Informal-Risk-Capital
AR19 Mechanical Engineering
Aditya Engineering College (A) 132
SIGNALS AND SYSTEMS
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O01 3 0 0 3
Course Objectives
COB 1 To introduce the concepts associated with signals and systems
COB 2 To familiarize the concepts of transform based continuous time and discrete
time analysis of signals and systems
COB 3 To prepare the students to analyze the characteristics of LTI systems using
different mathematical tools
COB 4 To create awareness on frequency transformation techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Categorize signals and systems based on their characteristics
CO 2 Demonstrate the spectral characteristics of signals using Fourier series
CO 3 Demonstrate the spectral characteristics of signals using Fourier Transform
CO 4 Identify system characteristics in time domain and frequency domain
CO 5 Apply Laplace transform techniques for the analysis of continuous time
signals and Systems
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 3 1 - - - - - - - - - -
CO 2(K2) 2 1 - - - - - - - - - -
CO 3(K3) 3 2 1 1 - - - - - - - -
CO 4(K3) 3 2 1 1 - - - - - - - -
CO 5(K4) 3 3 2 2 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Signals Classification of Signals Different deterministic signals
impulse step ramp gate signum sinc sinusoidal exponential complex exponential
Basic Operations on signals
UNIT-II
Fourier Series Representation of Fourier series for continuous time periodic signals
Trigonometric Fourier series and Exponential Fourier series Dirichletrsquos conditions
properties of Fourier series Complex Fourier spectrum Applications of Fourier series
UNIT-III
Fourier Transform Deriving Fourier Transform (FT) from Fourier series Fourier
transform of arbitrary signal Fourier transform of standard signals Fourier transform of
AR19 Mechanical Engineering
Aditya Engineering College (A) 133
periodic signals properties of Fourier transforms Fourier transforms involving impulse
function and Signum function Applications of Fourier Transforms Convolution and itrsquos
properties
UNIT-IV
Signal Transmission Through LTI Systems Classification of Systems Impulse
response and step response of LTI systems Transfer function of an LTI system Filter
characteristics of LTI systems Distortion less transmission through a system Ideal LPF
HPF and BPF characteristics Causality and Paley-Wiener criterion for physical
realization Signal bandwidth system bandwidth relationship between bandwidth and
rise time
UNIT-V
Laplace Transforms Review of Laplace transform (LT) Existence of Laplace
transform Concept of region of convergence (ROC) for Laplace transforms constraints
on ROC for various classes of signals Properties of Laplace transforms relation between
LTs and FT of a signal Inverse Laplace transform applications of Z Transform
Text Books
1 Signals and Systems - AV Oppenheim AS Willsky and SH Nawab PHI
2nd Edition 2016
2 Signals Systems amp Communications - BP Lathi BS Publications 2003
3 Signals and Systems ndash A Anand Kumar PHI 4th Edition 2017
Reference Books
1 Signals amp Systems - Simon Haykin and Van Veen Wiley 2nd Edition
2 Fundamentals of Signals and Systems- Michel J Robert MGH Int Edition 2008
3 Signals and Systems K Raja Rajeswari B Visweswara Rao PHI 2009
Web Links
1 httpsfreevideolecturescomcourse3540signals-and-systems-i
2 httpnptelacincourses117104074
3 httpnptelacincourses117101055
4 httpswwwtutorialspointcomsignals_and_systemsindexhtm
5 httpsocwmiteduresourcesres-6-007-signals-and-systems-spring-2011
AR19 Mechanical Engineering
Aditya Engineering College (A) 134
DIGITAL ELECTRONICS AND LOGIC DESIGN (Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O02 3 0 0 3
Course Objectives
COB 1 To make the students understand different number representations
COB 2 To make the students study the minimization techniques for logic optimization
COB 3 To equip the students design combinational logic circuits
COB 4 To make the students design Programmable Logic Device(PLD)
COB 5 To impart the knowledge on sequential circuits
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret numeric information in different code formats
CO 2 Develop optimized logic by using various optimization algorithms
CO 3 Construct various combinational logic circuits for required specifications
CO 4 Build different Programmable Logic Device for required specifications
CO 5 Build different sequential logic circuits for required specifications
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 3 3 - - - - - - - - -
CO4 (K4) 3 3 3 - - - - - - - - -
CO5 (K4) 3 3 3 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Digital Electronics amp its Usage
Number Systems Representation of numbers of different radix conversation from one
radix to another radix r-1rsquoscompliments and rrsquos compliments of signed numbers
problem solving
Binary Codes 4bit codes BCD Excess-3 2421 84-2-1 9rsquos compliment code etc error
detection amp correction codes Gray code error detection error correction codes (parity
checking even parity odd parity Hamming code)
UNIT-II
Boolean Algebra ampMinimization Techniques Basic logic operations NOTOR AND
Universal building blocks EX- OR EX-NOR Gates NAND-NAND and NOR-NOR
realizations Boolean theorems principle of complementation amp duality De-Morgan
theorems minimization of logic functions using Boolean theorems minimization of
switching functions using K-Map up to 6 variables tabular minimization
AR19 Mechanical Engineering
Aditya Engineering College (A) 135
UNIT-III
Combinational Logic Circuits Design of Half adder full adder half Sub-tractor full
sub-tractor applications of full adders 4-bit binary sub-tractor adder-sub-tractor circuit
BCD adder circuit Excess 3 adder circuit look-a-head adder circuit Design of decoder
demultiplexer7segment decoder higher order de-multiplexing encoder multiplexer
higher order multiplexing priority encoder 4-bit digital comparator
UNIT-IV
Programmable Logic Devices amp Sequential Circuits
Introduction to PLDrsquos PROM PAL PLA-Basics structures realization of Boolean
function with PLDs programming tables of PLDs merits amp demerits of PROM PAL
PLA comparison realization of Boolean functions using PROM PAL PLA
programming tables of PROM PAL PLA
UNIT-V
Sequential Circuits Classification of sequential circuitsbasic flip-flops truth tables and
excitation tables (NAND RS latch NOR RS latch RS flip-flop JK flip-flop T-flip-flop
D-flip-flop with reset and clear terminals) Conversion from one flip-flop to another flip-
flop Design of synchronous counters Johnson counter ring counter Design of registers
- Buffer register control buffer register shift register bi-directional shift register
universal shift register
Text Books
1 Switching Theory and Logic Design A Anand Kumar Pearson 3rd Edition 2013
2 Digital Design Morris Mano Pearson 3rd Edition 2002
Reference Books
1 Modern Digital Electronics RP Jain Tata Mc Graw Hill 4th Edition 2010
2 Introduction to Switching Theory and Logic Design Fredriac J Hill Gerald R
Peterson 3rd Edition John Wiley amp Sons Inc 1982
3 Fundamentals of Logic Design Charles H Roth Jr Jaico Publishers 2004
Web Links
1 httpswwwnptelacincourses1171060861Kuruvilla VargheseDESEInstitute of
Science
2 wwwnptelvideosin201212digital-circuits-and-systemshtmlProf S Srinivasan
Department of Electrical Engineering IIT Madras
AR19 Mechanical Engineering
Aditya Engineering College (A) 136
SEMICONDUCTOR DEVICES
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O03 2 1 0 3
Course Objectives
COB 1 To make the students understand the physical phenomenon such as
construction transport mechanism and characteristics of diodes
COB 2 To familiarize the students with the operation and characteristics of
Transistor
COB 3 To make the students understand the construction and operation of FET and
MOSFET
COB 4 To impart knowledge on basics of special semiconductor devices
COB 5 To make the students understand physical and technical base of sensors
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret the characteristics of semiconductor diodes
CO 2 Apply the knowledge of semiconductors to illustrate the functioning of BJT
CO 3 Demonstrate the switching and amplification Application of FET
CO 4 Classify the semiconductor devices for special Applications
CO 5 Identify the sensor types used in various applications and explain their
principle of operation
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 2 1 - - - - - - - - - -
CO 2(K3) 3 2 1 - - - - - - - - -
CO 3(K2) 2 1 - - - - - - - - - -
CO 4(K2) 2 1 - - - - - - - - - -
CO 5(K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
PN junction Diode Theory and Operation of PN junction diode V-I characteristics
Application of diode as Rectifier Clipper and Clamper
Zener diode Principle V-I characteristics Zener breakdown and Avalanche breakdown
Zener diode as a voltage regulator
UNIT-II
BJT Construction and operation of a transistor characteristics of transistor in Common
Base Common Emitter and Common Collector configurations transistor as a switch
transistor as an amplifier
AR19 Mechanical Engineering
Aditya Engineering College (A) 137
UNIT-III
FET Construction and operation of FET Characteristic of FET low frequency model of
FET FET as a switch and an amplifier MOSFET Characteristics (enhancement and
depletion mode)
UNIT-IV
Special Semiconductor Devices LED LCD Photo transistor Tunnel diode Varactor
diode Opto coupler solar cell Charged Coupled Device
UNIT-V
bull Sensors Temperature Sensor Proximity Sensor Sensistor Thermistor LDR Flame
Sensor Humidity sensor NEMSMEMS
Text Books
1 DNeamen and DBiswa ldquoSemiconductor physics and devicesrdquo McGraw Hill
Education2017
2 J Millman C Halkias Electronic Devices and Circuits Tata Mc-Graw Hill 2nd
Edition 2007
3 Clarence W de Silva ldquoSensors and Actuators Engineering System Instrumentationrdquo
CRC press second edition 2015
Reference Books
1 Umesh Mishra and Jasprit Singh ldquoSemiconductor Device Physics and Designrdquo
Springer2008
2 A A Balandin and K L Wang Handbook of Semiconductor Nanostructures and
Nanodevices Grainger 2006
3 WRFahrner ldquoNanotechnology and Nanoelectronics ndash Materials Devices
andMeasurement Techniquesrdquo Springer 2006
Web Links
1 httpsfreevideolecturescomcourse4277nptel-fundamentals-semiconductor-
devices58
2 httpswwwcourseraorgspecializationssemiconductor-devices
3 httpsnptelacincourses108108108108112 Prof Sanjiv Sambandan
AR19 Mechanical Engineering
Aditya Engineering College (A) 138
DATA STRUCTURES (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To make the students learn the basic Concepts of Data Structures and
algorithms
COB 2 To enable the students to analyze the various Searching and Sorting
techniques
COB 3 To provide knowledge on Stacks and Queues
COB 4 To impart knowledge on list and its applications
COB 5 To discuss the various operations of Trees
COB 6 To demonstrate the Graph Traversal Techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate time and space complexities of an algorithm
CO 2 Apply various searching and sorting techniques to solve computing
problems
CO 3 Make use of linear data structures to solve real time problems
CO 4 Develop applications using Tree Data Structures
CO 5 Solve problems using Graph Algorithms
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 - - - - - - -
CO2 (K3) 3 2 - - 3 - - - - - - -
CO3 (K3) 3 2 - - 3 - - - - - - -
CO4 (K3) 3 2 - - 3 - - - - - - -
CO5 (K3) 3 2 - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Basic Concepts Pseudo code Algorithm analysis Time and Space
Complexity
Introduction to Data Structures Definition Classification and Operations on Data
Structures
Searching Linear search Binary search
Sorting Bubble Sort Insertion Sort Selection Sort Quick Sort Merge Sort Radix
Sort
AR19 Mechanical Engineering
Aditya Engineering College (A) 139
UNIT-II
Stacks Introduction Array Representation of Stacks Operations and Implementation
Applications of Stacks-Reversing list Infix to Postfix Conversion Evaluating Postfix
Expressions
Queues Introduction Array Representation of Queues Operations and
Implementation Types of Queues Circular Queues and Dequeues Application of
Queues
UNIT-III
Linked Lists Introduction Singly linked list Operations on Singly Linked list -
Insertion Deletion Doubly linked list - Insertion Deletion Circular linked list-
Insertion Deletion Linked Representation of Stacks and Queues Applications of
Linked lists-Addition of Polynomials Sparse Matrix Representation using Linked List
UNIT-IV
Trees Basic Terminology in Trees Representation of Binary Trees using Arrays and
Linked lists Traversing a Binary Tree(In-Order Pre-Order Post-Order)Expression
Trees
Binary Search Trees Definition Operations Searching Insertion Deletion
UNIT-V
Graphs Introduction Graph Terminology Representation of Graphs-Adjacency
Matrix and using Linked list Graph Traversals Minimum Spanning Tree Using Prims
amp Kruskals Algorithm Dijkstrarsquos Shortest Path Warshallrsquos Algorithm Transitive
Closure (Algorithmic Concepts Only No Programs required)
Text Books
1 Data Structures Using CReema Thareja Oxford University Press
2 Data Structures and Algorithm Analysis In C Mark Allen Weiss2nd Edition
Reference Books
1 Fundamentals of Data Structure in C Horowitz Sahni Anderson Freed 2nd
Edition University Press2008
2 Data Structures Richard F Gilberg Forouzan 2E Cengage Learning
3 Data Structures and Algorithms G AVPai TMH2008
Web Links
1 httpnptelacincourses106102064
2 httpalgs4csprincetoneduhome
3 httpsfacultywashingtonedujstraubdsaMaster_2_7apdf
4 httpwwwudacitycom
5 httpwwwcourseeracom
AR19 Mechanical Engineering
Aditya Engineering College (A) 140
OBJECT ORIENTED PROGRAMMING THROUGH C++ (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To enable the students to learn the common concepts of Camp C++
COB 2 To illustrate the object oriented principles and their implementation in C++
COB 3 To impart the knowledge on classes objects member functions constructors
destructors and how to overload functions and operators in C++
COB 4 To make the students learn applications of inheritance
COB 5 To facilitate the students to write various programs using virtual functions
and Polymorphism
COB 6 To demonstrate Generic Programming with Templates
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare and contrast object oriented programming and procedural oriented
programming
CO 2 Summarize the OOPS concepts
CO 3 Make use of constructor and destructor to initialize and destroy class objects
CO 4 Develop programs using virtual functions and Polymorphism
CO 5 Apply inheritance to build real time applications
CO 6 Apply Exception handling mechanism to handle runtime errors
CO 7 Develop C++ classes with templates and STL
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - 3 - - 1 - - - - - - -
CO2 (K2) 2 1 - - 2 - - - - - - -
CO3 (K3) 3 - 1 - - - - - - - - -
CO4 (K3) 3 2 1 1 3 - - - - - - -
CO5 (K5) 3 3 3 3 3 3 - - - - - -
CO6 (K3) 3 2 1 1 - - - - - - - -
CO7 (K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
An Overview of C++ Difference between C and C++ The Origins of C++ Key
Concepts of Object Oriented Programming A Sample C++ Program Old Style vs
Modern C++ Namespaces
Classes and Objects Classes Declaring Objects Access Specifiers and their Scope
Defining Member Function Friend functions Inline Functions Static Member Variable
Static Member Function Constructors and Destructors Scope Resolution Operator
Nested class
AR19 Mechanical Engineering
Aditya Engineering College (A) 141
UNIT-II
Function Overloading Copy Constructor and Default Arguments Function
Overloading Constructor Overloading Constructor with Arguments Copy Constructor
Default Function Arguments Anonymous Objects Array of Objects
Operator Overloading Creating a Member Operator Function Operator Overloading
using Friend function Overloading Special Operators
UNIT-III
Inheritance Base Class Access Control Inheritance and protected Members Types of
Inheritance Pointer to Class Pointer Object The this Pointer Pointer to Derived Classes
and Base Class Virtual Base Classes Object as a Class Member Advantages and
Disadvantages of Inheritance
Virtual Functions and Polymorphisms Virtual Functions Rules for Virtual Function
Pure Virtual Functions Using Virtual Functions Virtual Destructor Early Vs Late
Binding
UNIT-IV
Templates Generic Functions Applying Generic Functions Generic Classes Power
of Templates Difference between Templates and Macros
Exception Handling Exception Handling Fundamentals Handling Derived Class
Exceptions Exception Handling Options Applying Exception Handling
UNIT-V
Introducing the Standard Template Library An Overview of STL Container
Classes Sequence Containers Associative Containers Vectors Lists Maps
Algorithms
Text Books
1 The Complete Reference C++ Herbert Schildt Fourth Edition TMH 2003
2 The C++ Programming Language Bjarne Stroustrup Fourth Edition Pearson
2014
Reference Books
1 A First Book Of C++ Gary Bronson Fourth Edition Cengage Learning 2012
2 C++ Primer Plus By Stephen Prata Sixth Edition Pearson 2011
3 Object Oriented Programming In C++ By E Balagurusamy Sixth Edition Tata
Mcgraw Hill 2013
4 Object Oriented Programming Using C++ Joyce Farrell Fourth Edition
CengageLearning 2008
5 C++ ProgrammingFrom Problem Analysis To Program Design Ds Malik
Eighth Edition Cengage Learning 2017
Web Links
1 httpsinudacitycomcoursec-for-programrs--ud210
2 httpswwwcourseraorgcoursesquery=c2B2B
3 httpnptelacincourses106105151
4 httpswwwjavatpointcomcpp-oops-concepts
5 httpswwwtutorialspointcomcplusplus
AR19 Mechanical Engineering
Aditya Engineering College (A) 142
JAVA PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O03 2 1 0 3
Course Objectives
COB 1 To make students understand object oriented programming concepts and
apply them in solving problems
COB 2 To provide knowledge on classes inheritance interfaces and packages
COB 3 To facilitate students in handling exceptions and multithreading
COB 4 To impart the knowledge on Input Output concepts and applets
COB 5 To enable the students develop standalone applications using AWT and
Swings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply object oriented programming features and concepts for solving given
problem
CO 2 Solve real time problems using the concepts of class inheritance interface and
packages
CO 3 Test for runtime exceptions arise in java applications
CO 4 Develop real time applications using multithreading and IO streams
CO 5 Develop GUI applications using event handlers adapter classes AWT and
Swing components
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 2 2 - 1 - - - - - - -
CO2 (K3) 2 2 3 - 2 - - - - - - -
CO3 (K4) 2 2 3 - 3 - - - - - - -
CO4 (K3) 2 2 3 2 3 - - - - - - -
CO5 (K3) 2 2 3 2 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Java History of Java Java features JVM architecture Classes and objects Program structure methods Passing arguments through command line Building Blocks of Java Variables primitive data types identifiers literals Operators
expressions primitive type conversion and casting flow of control
UNIT-II
Introduction to Classes Class declaration creating objects constructors Method
Overloading constructor overloading garbage collector importance of static keyword
and examples this keyword Arrays Strings nested classes
AR19 Mechanical Engineering
Aditya Engineering College (A) 143
Inheritance amp Interfaces Inheritance- types of inheritance super keyword final keyword overriding Interfaces- Defining an interface Implementing interfaces through classes Multiple inheritance through interfaces abstract class Packages Creating the packages using packages importance of CLASSPATH Access
Specifiers javalang package
UNIT-III
Exception Handling Exception handling importance of try catch throw throws and
finally block user defined exceptions Multithreading Introduction thread life cycle
creation of threads thread priorities thread synchronization communication between
threads
UNIT-IV
Input Output Byte Streams and Character Streams Predefined Streams Reading Console inputs- Reading characters Reading Strings Reading and writing Files Event Handling Event delegation model sources of event Event Listeners adapter
classes inner classes
UNIT-V
AWT Introduction components and containers Button Label Checkbox Radio Buttons List Boxes Choice Boxes Container class Layouts Menu and Scrollbar Swing Introduction Swing Components- JFrame JPanel Layout Managers JList
JTable JTree Dialog Box
Text Books
1 The Complete Reference Java Herbert Schildt Ninth Edition TMH 2014
2 Introduction to java programming by Y Daniel Liang Seventh Edition Pearson
2017
3 Java one step ahead Anita seth BLJuneja First Edition Oxford 2017
Reference Books
1 Core Java An Integrated Approach RNageswaraRao Dreamtechpress 2008
2 Thinking in Java ndash Bruce Eckel Fourth Edition Prentice Hall 2002
3 Beginning Programming with Java for Dummies Barry Burd John Wiley amp Sons
Inc 2014
Web Links
1 httpmathhwsedujavanotes
2 httpjavasuncomdocsbookstutorial
3 httpwwwtutorialspointcomjava
4 httpwwwjavatpointcom
5 httpwwww3schoolscomjava
AR19 Mechanical Engineering
Aditya Engineering College (A) 144
R PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O04 2 1 0 3
Course Objectives
COB 1 To impart the knowledge on the R basic concepts
COB 2 To enable the student learn R program structure
COB 3 To inculcate the knowledge on mathematical functions
COB 4 To illustrate the concept of graph functions
COB 5 To make the students understand the concepts of distribution functions and
regressions models
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the basic concepts and advanced data structures of R programming
CO 2 Understand control statements and operators in R
CO 3 Implement simulation Probability and linear algebra operations
CO 4 Make use of graph functions
CO 5 Develop programs for distribution functions and regression models
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - -
CO2(K2) 2 1 - - 1 - - - - - - -
CO3(K3) 3 2 1 1 3 - - - - - - -
CO4(K3) 3 2 1 1 3 - - - - - - -
CO5(K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction How to run R R Sessions and Functions Basic Math Variables Data
Types Vectors Conclusion Advanced Data Structures Data Frames Lists Matrices
Arrays Classes
UNIT-II
R Programming Structures Control Statements Loops - Looping Over Nonvector
Sets If-Else Arithmetic and Boolean Operators and values Default Values for
Argument Return Values Deciding Whether to explicitly call return- Returning
Complex Objects Functions are Objective No Pointers in R Recursion A Quicksort
Implementation-Extended Extended Example A Binary Search Tree
UNIT-III
Simulation in R Math Function Extended Example Calculating Probability-
AR19 Mechanical Engineering
Aditya Engineering College (A) 145
Cumulative Sums and Products-Minima and Maxima- Calculus Functions Fir Statistical
Distribution Sorting Linear Algebra Operation on Vectors and Matrices Extended
Example Vector cross Product- Extended Example Finding Stationary Distribution of
Markov Chains Set Operation Input output Accessing the Keyboard and Monitor
Reading and writer Files
UNIT-IV
Graphics Creating Graphs The Workhorse of R Base Graphics the plot() Function ndash Customizing Graphs Saving Graphs to Files
UNIT-V
Probability Distributions Normal Distribution- Binomial Distribution- Poisson Distributions Other Distribution Basic Statistics Correlation and Covariance T-Tests-
ANOVA Linear Models Simple Linear Regression -Multiple Regression Generalized Linear Models Logistic Regression
Text Books
1 The Art of R Programming Norman Matloff 1st Edition Cengage Learning2011
2 R for Everyone Lander 2nd
EditionPearson 2018
Reference Books
1 R Cookbook JDLongamp PaulTeetor 2nd EditionOreilly 2019
2 R in ActionRob Kabacoff2nd Edition Manning 2015
Web Links
1 httpsonlinecoursesnptelacinnoc19_ma33preview
2 httpswwwcourseraorgprojectsgetting-started-with-r
3 httpswwwgeeksforgeeksorgintroduction-to-r-programming-language
4 httpswwwudacitycomcoursedata-analysis-with-r--ud651
AR19 Mechanical Engineering
Aditya Engineering College (A) 146
DATABASE MANAGEMENT SYSTEMS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O01 2 1 0 3
Course Objectives
COB 1 To discuss the basic concepts of database systems and its architectures
COB 2 To enable the students learn various data models
COB 3 To illustrate the mechanisms involved in normalization of relational databases
COB 4 To make use of SQL statements for performing operations on databases
COB 5 To impart knowledge on transaction management and concurrency controls
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the database characteristics and various database architectures
CO 2 Interpret relational database using SQL
CO 3 Examine issues in data storage and query processing for appropriate solutions
CO 4 Make use of normalization techniques to build database system for real world
problems
CO 5 Illustrate the mechanisms of transaction management
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 - 3 - - - - -
CO 2 (K2) 2 1 - - - - 3 - - - - -
CO 3 (K3) 3 2 1 1 3 - 3 - - - - -
CO 4 (K3) 3 2 1 1 3 - 3 - - - - -
CO 5 (K2) 2 1 - - 2 - 3 - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Databases Characteristics of database approach advantages of using
the DBMS approach
Overview of Database Languages and Architectures Data models schemas and
instances three schema architecture and data independence database system
environment centralized and clientserver architectures for DBMSs classification of
database management system
SQL Data Definition Constraints and Basic Queries and Updates SQL data
definition ndash DDL commands and data types specifying constraints in SQL INSERT
DELETE and UPDATE statements in SQL basic retrieval queries in SQL
UNIT-II
Introduction to Database Design Database Design and ER Diagrams Entities
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
Introduction to Database Design Database Design and ER Diagrams Entities
AR19 Mechanical Engineering
Aditya Engineering College (A) 147
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
The Relational Model Introduction to the relational model Integrity constraints over
relations enforcing integrity constraints querying relational data Nested Queries
Correlated Queries logical database design-ER to Relational
UNIT-III
Relational Algebra and Calculus Preliminaries relational algebra relational calculus
expressive power of algebra and calculus
Schema Refinement and Normal Forms Introduction to schema refinement functional
dependencies reasoning about FDs Normal forms (1NF 2NF 3NF and BCNF)
properties of decompositions normalization (decomposition into BCNF and 3NF)
schema refinement in database design other kinds of dependencies
UNIT-IV
Overview of Transaction Management amp Concurrency Control
Transaction Management
The ACID properties transactions and schedules concurrent execution of transactions
lock based concurrency control performance of locking and transaction support in SQL
introduction to crash recovery
Concurrency Control
2PLserializability and recoverability introduction to lock management lock conversions
dealing with deadlocks specialized locking techniques concurrency control without
locking
UNIT-V
Storage Overview of Storages and Indexing Data on External Storage- File Organization
and Indexing ndashClustered Indexing ndash Primary and Secondary Indexes Index Data
Structures Hash-Based Indexing ndash Tree-Based Indexing Comparison of File
Organization
Text Books
1 Database Management Systems Raghu Ramakrishnan Johannes Gehrke 3e
TMH
Reference Books
1 Introduction to Database Systems CJ Date Eighth Edition Pearson Education
2004
2 Database Systems - The Complete Book H G Molina J D Ullman J Widom Second
Edition Pearson Education 2009
3 Database Systems design Implementation and Management Peter Rob amp Carlos
Coronel Seventh Edition Cengage 2006
4 Fundamentals of Database Systems ElmasriNavathe Pearson Education 2015
5 Database System Concepts Silberschatz Korth Fifth Edition TMH 2006
Web Links
1 httpwwwnptelvideosin201211database-management-systemhtml
2 httpwwwgeeksforgeeksorgdbms
3 httpwwworaclecomtechnetworkdatabasefeaturesplsqlindexhtml
4 httpwwwcswiscedu~ dbbook
5 httpsbeginnersbookcom201505normalization-in-dbms
AR19 Mechanical Engineering
Aditya Engineering College (A) 148
COMPUTER GRAPHICS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O02 3 0 0 3
Course Objectives
COB 1 To discuss the basic principles of computer graphics primitives
COB 2 To demonstrate transformation clipping and viewing in 2D graphics
COB 3 To make the students learn projections transformations and visible surface
detections in 3D graphics
COB 4 To introduce the concepts of 3D primitives using OpenGL (Open Graphics
Library)
COB 5 To outline the Fractal geometry and Texturing in computer Graphics
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the applications of computer graphics and Video Display devices for
implementing Graphical user interface
CO 2 Analyze output primitives and filled area primitives in implementing various
algorithms
CO 3 Make use of Geometric Transformations Viewing and Clipping in 2D amp 3D
Graphics
CO 4 Illustrate various Visual Surface detection Methods in 3D Graphics
CO 5 Apply OpenGL for General Computer Animations
CO 6 Explain different object color modeling techniques Fractals and Ray tracing
concepts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K4) 3 3 2 2 3 - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - 2 - - - - - - -
CO5 (K3) 3 2 1 1 3 -
CO6 (K2) 2 1 - - 2 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Applications of Computer Graphics Video Display Devices-CRT
Raster-Scan and Random-Scan systems graphics monitors and work stations and input
devices
Output Primitives Line Drawing Algorithms- Bresenhamrsquos and DDA Line Drawing
Algorithms Mid-point circle and Ellipse algorithms
Filled Area Primitives Scan Line Polygon fill algorithm Boundary fill and Flood fill
algorithms
AR19 Mechanical Engineering
Aditya Engineering College (A) 149
UNIT-II
2-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations
2-D viewing The viewing pipeline Window to viewport coordinate transformation
2-D Clipping Cohen-Sutherland line clipping algorithm Sutherland-Hodgeman
polygon clipping algorithm and other clipping models Text amp Curve clipping models
UNIT-III
3-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations 3-D Viewing pipeline
Concepts Parallel and perspective projections and visible surface detection methods
UNIT-IV
Animations General computer animation Raster Key-frame Color models RGB
YIQ CMY HSV Graphics programming using OPENGL basic graphics primitives-
Generating three dimensional objects
UNIT-V
Fractals Fractals and self similarity Mandelbrot sets- Julia sets ndash Random Fractals
Overview of Ray Tracing Intersecting rays with other primitives-Adding surface
texture-Reflections and transparency-Boolean operations on objects
Text Books
1 Computer Graphics C Version Donald D Hearn M Pauline Baker 2nd Edition
Pearson
2 Computer Graphics using OPENGL Stephen M Kelley Francis S Hill 2nd
Edition Pearson
Reference Books
1 Computer Graphics- Principles and practices in C James D Foley Andries Van
Dam Steven K Feiner John F Hughes 2nd Edition Pearson Education 2007
2 Computer Graphics Samit Bhattacharya OXFORD Higher Education
3 Computer Graphics Peter Shirley CENGAGE
4 Principles of Interactive Computer Graphics Neuman Sproul TMH
5 The Computer Graphics manual Vol 2 David Soloman Springer
Web Links
1 httpsocwmiteducourseselectrical-engineering-and-computer-science6-837
computer-graphics-fall-2012
2 httpnptelacincourses106106090
3 httpsinudacitycomcourseinteractive-3d-graphics--s291
4 httpwwwcseiitmacin~vplabcomputer_graphicshtml
5 httpwwwgraphicscornelleduonlinelinkshtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 150
OVERVIEW OF MINING (Open Elective ndashI)
V Semester L T P C
Course Code 191MI5O01 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the mine lifecycle
COB 2 To make the students understand the factors responsible for location shape and
size of the shaft
COB 3 To demonstrate the students the system of ventilation Lighting and Permanent
lining need for drift
COB 4 To explain the special methods and Modern techniques of Shaft sinking
COB 5 To make the students understand the classification of explosives detonators and
detonating fuses and nonel detonators
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze different stages in the life of a mine
CO 2 Choose a suitable location for opening to a deposit
CO 3 Organize for building appropriate permanent lining drift with proper
ventilation and lighting arrangements
CO 4 Analyze the special methods need to be adopted for a particular situation
CO 5 Distinguish the uses of explosives
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - - - - - - 3 - - - - -
CO2 (K3) - - - 3 3 3 - - - - - -
CO3 (K3) - - - - - - - - 3 3 - -
CO4(K4) - 3 - 2 3 - - - - - - -
CO5 (K4) - 3 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Mineral distribution in India and World Contribution of mining to civilization Stages in
the life of a mine
UNIT-II
Overview of surface mining surface mining methods Unit operations Mechanization of
surface mines
UNIT-III
Overview of Underground Mines Methods of Underground mining Mechanization of
underground mines
AR19 Mechanical Engineering
Aditya Engineering College (A) 151
UNIT-IV
Safety practices in opencast and underground Mines
UNIT-V
Impacts of Mining on environment
Text Books
1 DJDeshmukh Elements of Mining Technology Denettamp Co Nagpur Vol I 1998
2 DrTNSingh Surface Mining Lovely Prakashan Dhanbad 2nd edition 2002
3 BVGokhale Blasthole drilling Technology multifields Bombay 1st edition 2001
Reference Books
1 Indian Bureau of Mines Minerals Year Book amp other publications Latest Edition
2 DrCMKole Khuli Khan KaAyojan (Hindi) CMPDIL Ranchi 1st edition 1996
3 Dr Calvin Konya ldquoRock Blasting and Overbreak Controlrdquo Precision Blasting
Services Montville Ohio 2nd edition 2004
Web Links
1 httpwwwminingglobalcomoperationsgifs-5-stages-mining-life-cycle
2 httpswwwslidesharenetumer_1stages-in-life-of-mine
3 httpswwwminecationstandardsorgfileadminMASdocumentsnmas-national
4 stabdardsafghanistanAMAS_0704_Storage_Transportation_Handling_of_Explosi
vespdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 152
PROCESS INTENSIFICATION IN PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O01 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in process intensification methodologies
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquos various principles associated to various unit operations
and unit processes
COB 5 To impart knowledge on available in petrochemical fine chemical
pharmaceutical carbon capture and bioprocess engineering to understand the
role of process intensification to improve process performance
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for process
intensification
CO 2 Analyze various modifications to process equipment and designs with which
process intensification becomes a reality in unit operations and unit processes
CO 3 Analyze various case studies available in petrochemical fine chemical bioprocesses
and carbon capture
CO 4 Correlate textbook reported methodologies with Computational Fluid
Dynamics and experimental process intensification
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K3)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
History of Process Intensification Rotating boilers ndash Rotating non-pipe ndash Separators ndash
Rotating heat transfer devices
Overview of Process Intensification Definition of Process Intensification (PI) ndash
Advantages of PI ndash Obstacles to PI
AR19 Mechanical Engineering
Aditya Engineering College (A) 153
UNIT-II
Mechanisms Involved in Process Intensification Mechanisms involved in heat transfer
intensification ndashElectrically enhanced process intensification ndash Microfluidics ndash Pressure
Compact and Micro-heat exchangers amp Process Intensification Plate Printed-circuit
Chart-flow Polymer film Foam and mesh heat exchangers ndash Micro-heat exchangers ndash
Small channels ndash Nano fluids
UNIT-III
Downhole Separation Technology
Overview- Potential Downhole Separation Technology-Present Status- Advantages-
Challenges-Downhole oil- water separation (DOWS) - hydrocyclone separator Different
configurations -Working Principle-Performance factors- Selection Criteria-Scale up-
Experiences with problems-Reinjection systems- Downhole completion designs for
DOWS - Downhole gas-water Separations-Application of electrical submersible pumps-
Working principle-Modified plunger pumps Three-phase Separation Technology- Case
studies on DOWS and DGWS
UNIT-IV
Application of Solar Energy in Oil and Gas Operations
Solar Energy-PV Cells-Concentration of Solar Power-Energy use in offshore rigs and
FPSO- Energy and Cost Analysis-Solar panels required to replace fossil fuels-
Comparison of Diesel Power with Solar Power Costs-Ability of Solar Energy Use on
Offshore Rigs-Solar Energy Enhanced Oil Recovery
UNIT-V
Application of Divided Wall Distillation technology in separation of NGL
Working principle of Divided wall distillation column-Advantages-Various
configurations-Separation of NGL
Text Books
1 Process Intensification Engineering for Efficiency Sustainability and Flexibility
D Reay C Ramshaw and A Harvey Butterworth-Heinemann 1st Edition
Burlington 2008
Reference Books
1 Re-Engineering the Chemical Processing Plant Process Intensification A
Stankiewicz and JA Moulijn (Editors) Marcel Dekker New York 2004
Web Links
1 httpswwwsciencedirectcombook9780750689410process-intensification
2 httpswwwsciencedirectcomsciencearticlepiiB9780750689410000043
3 httpwwwyourarticlelibrarycomenergysolar-energy-10-major-application-of-
solar-energy-explained28197
4 httpsenwikipediaorgwikiDigital_divide
AR19 Mechanical Engineering
Aditya Engineering College (A) 154
FUNDAMENTALS OF PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O02 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in petroleum industry
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquosvarious principles associated to various treating
operations and unit processes
COB 5 To impart knowledge on available in petroleum well servicing unit
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for petroleum
industry
CO 2 Analyze various modifications to equipment and designs with which evaluate
the lithological characteristics and behavior of reservoir
CO 3 Analyze various case studies available in petrochemical chemical bioprocesses for
treatment of wastage
CO 4 Analyze various modification to well for better production rate
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4 )
PO 3
(K5 )
PO 4
(K 3)
PO 5
(K3 )
PO 6
(K3)
PO 7
(K2 )
PO 8
(K3)
PO 9
(K2)
PO 10
(K2 )
PO11
(K3 )
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
The history of production Oil beginning- A case for casing- More fireworks-
Underground mysteries- Breathing of the earth- Crisis and reservoirengineering-
Horizontal drilling- The great offshore-Indian scenario
UNIT-II
The reservoir Origin- Transformation- Characterization- Discovery
Whatrsquos in the container The prize Determinants- The contents- Thechemistry-
Composition- Properties- Impurities- Fingerprints- The origin ofhydrocarbons
Drilling The spring pole- Cable tool drilling and operations- Rotarydrilling- Rig
components- Drilling mud- Blowout preventers- Drillingoffshore- Top drives and
AR19 Mechanical Engineering
Aditya Engineering College (A) 155
automation- The course- Location
UNIT-III
Logging testing and completing Logging- Correlation logs- Real time-Directional and
horizontal wells- Original hydrocarbons in place- Openhole testing- Completions- Cased
hole logging and measuring devices
Hydrocarbon activity in the reservoir Phases- Phases diagrams- Reservoirfluid
categories- Using phase diagrams- Gas wells Vs oil wells- Shrinkagendash Solution gas- oil
ratio- Relative permeability
Production The motivating force- Drive mechanisms- Producing phases-Primary
production- Secondary recovery- Pressure maintenance andwaterflooding- Tertiary
recovery
UNIT-IV
Making it marketable Field processing Gas treating- Oil treating- Waterdisposal-
Testing- Measurement and metering- Storage
UNIT-V
Remedial operations and workovers Decision making- Workover rigs-Coiled tubing-
Subsea completions- Well problems and stimulation-Changing production intervals
Text Books
1 Oil and Gas Production in Nontechnical Language Martin S Raymondamp William
L Leffler Penn Well Corporation 2006
Reference Books
1 Introduction to Oil and Gas Production American Petroleum Institute5th Edition
1996
2 Oil and Gas Production Hand Book An Introduction Oil and GasProduction
HavardDevold ABB ATPA Oil and Gas 2006
Web Links
1 httpsenwikipediaorgwikiPetroleum_industry
2 httpwwwoil-gasportalcomdrillingtechnologies
3 httpswwwibeforgindustryoil-gas-indiaaspx
4 httpswwwapiorgoil-and-natural-gaswells-to-consumertransporting
5 httpswwwsciencedirectcomtopicsengineeringpetroleum-refining
AR19 Mechanical Engineering
Aditya Engineering College (A) 156
BASIC CROP PRODUCTION PRACTICES (Open Elective ndashI)
V Semester L T P C
Course Code 191AG5O01 2 1 0 3
Course Objectives
COB 1 To enable the students to study principles of agricultural and horticultural crop
production and to introduce the production practices of crops
COB 2 To make the students to acquire knowledge for delineate the role of
agricultural and irrigation engineers in relation to various crop production
practices
COB 3 To make the students to acquire knowledge on crop selection crop production
and crop management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain factors affecting on crop growth and production
CO 2 Explain crop selection and establishment of an adequate crop stand and
ground cover
CO 3 Explain crop water management
CO 4 Apply agriculture crops production practices in field
CO 5 Apply the horticulture crops production practices in field
Mapping of Course Outcomes with Program Outcomes
COsPOrsquos PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - 1 - - 2 - - - - 3 - 3
CO2 (K2) - 1 - - 2 - - - - 3 - -
CO3 (K2) - 1 - - 2 - - - - 3 - 3
CO4 (K3) - 2 1 1 3 - - - - 3 - 3
CO5 (K3) - 2 1 1 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Agriculture and Crop Production Introduction to agriculture and its crop production sub-
sectors ndash field crop production and horticulture Factors affecting crop growth and
production genetic (internal) and environmental (external) factors Crop management
through environmental modification and adaptation of crops to the existing environment
through crop cultural practices
UNIT-II
Crop Selection and Establishment Regional and seasonal selection of crops Systems of
crop production Competition among crop plants Spacing and arrangement of crop plants
Field preparation for crops including systems of tillage Establishment of an adequate crop
stand and ground cover including selection and treatment of seed and nursery growing
AR19 Mechanical Engineering
Aditya Engineering College (A) 157
UNIT-III
Crop Management Crop water Management a Crop nutrition management ndash need for
supplementation to soil supplied nutrients sources generalized recommendations
methods and timing of application of supplemental nutrients including fertigation
scheduling Crop protection including management of weeds pests and pathogens
Integrated methods of managing water nutrients and plant protection Types and methods
of harvest
UNIT-IV
Production Practices of Agricultural Crops Generalized management and cultivation
practices for important groups of field crops in Andhra Pradesh cereal crops grain
legumes oil seed crops sugarcane and fiber crops and special purpose crops such as
those grown for green manure and fodder
UNIT-V
Production Practices of Horticultural Crops Important basic groups of horticultural crops
in AP such as vegetable crops fruit crops flower crops Cultivation practices of major
fruits major vegetables and major flowers of each group Special features of production
of horticultural crops ndash greenhouse cultivation Organic farming Zero budget farming
Vertical gardening and Kitchen farming
Text Books
1 Rajendra Prasad Text Book of Field Crop Production Directorate of Information and
Publication Krishi Anusandhan Bhavan Pusa New Delhi 2015
2 Reddy T Sankara GH Yellamanda Reddi Principles of Agronomy Kalyani
Publishers New Delhi 2005
3 Handbook of Agriculture ICAR Publications New Delhi 2011
Reference Books
1 Bose T K and LPYadav Commercial Flowers Naya Prakash Calcutta1989
2 Crop Production Guide Tamil Nadu Agricultural University Publication
Coimbatore 2005
3 Kumar N Abdul Khader M Rangaswami P and Irulappan I Introduction to
spices plantation crops medicinal and aromatic plants Rajalakshmi Publications
Nagercoil 1993
4 Kumar NrdquoIntroduction to Horticulturerdquo Rajalakshmi Publications Nagercoil 7th
edition 2015
5 Shanmugavel KG Production Technology of Vegetable Crops Oxford India
Publications New Delhi 1989
Web Links
1 httpswwwcareerlaunchercomcbse-ncertclass-8ScienceCBSE-Crop Production
andManagement-Notes html~text= E280A220Basic20 Practices20
of20Cropis20called20ploughing20or20tilling
2 httpswwwedubeanscomClass_VIII_Science_Crop-Production-and-Manage ment
php
3 httpsbyjuscombiologybasic-practices-of-crop-production
4 httpwwwapagrisnetgovinpdffarmerbookpdf
5 httpcbseacademicnicinweb_materialCurriculumVocational2018Basic20Ag
riculture20X20(408)pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 158
METROLOGYamp ICS LAB
V semester L T P C
Course Code 191ME5L05 0 0 3 15
Course Objectives
COB 1 To make the students measure bores by internal micrometers and dial bore
indicators
COB 2 To impart the knowledge of measurement of the angle and taper by bevel
protractor sine bars etc
COB 3 To induce the knowledge of principles involved in calibration
COB 4 To induce the knowledge about temperature sensors thermocouples RTD
thermisters)
Course Outcomes
At the end of the Course Student will be able to
CO 1 Measure the bores by internal micrometers and dial bore indicators
CO 2 Measure the angle and taper using bevel protractor and sine bar
CO 3 Measure screw thread parameters
CO 4 Find the errors and calibrate photo and magnetic pickups
CO 5 Find the errors and calibrate the pressure gauge temperature detectors and
LVDT
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
List of Experiments
Section A Metrology Lab
1 Measurement of lengths heights diameters by vernier calipers micrometers
2 Angle and taper measurements with bevel protractor Sine bar rollers and balls
3 Measurement of bores by internal micrometers and dial bore indicators
4 Straightness measuring using autocollimator
5 Gear tooth thickness measurement using gear tooth vernier calipers
Section B Instrumentation Lab
6 Calibration of pressure gauge
7 Study and calibration of LVDT transducer for displacement measurement
8 Calibration of thermocouple
AR19 Mechanical Engineering
Aditya Engineering College (A) 159
9 Study and calibration of photo and magnetic speed pickups
10 Calibration of resistance temperature detector
List of Augmented Experiments
Metrology Lab
(Any one of the following experiments can be performed)
11 Flatness measurement using optical flat
12 Machine tool alignment test on lathe using various metrology instruments
Instrumentation Lab
(Any one of the following experiments can be performed)
13 Calibration of Force measuring setup
14 Study and calibration of a Rotameter for flow measurement
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers
2 Measurement Systems Applications amp design DS Kumar Metropolitian Book
Co pvt ltd
Web Links
1 httpwwwatrieduinimagespdfdepartmentsINSTRUMENTATION20L
AB20 manual
2 httpwwwbitswglacinMEMetrology-Lab-Manual20320year 201 sem
3 httpslideplayercomslide7020420
4 httpgps-mechblogspotin201201lab-manual-for-measurement-andhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 160
THEORY OF MACHINES LAB
V semester L T P C
Course Code 191ME5L06 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge on governors and flywheels
COB 2 To provide practical exposure to students on gyroscopic forces and moments
COB 3 To impart knowledge of finding natural frequency of different types of
vibrations
COB 4 To develop knowledge on balancing of the machine parts statically and
dynamically
COB 5 To impart practical knowledge on analysis of mechanisms for a specified type
of motion in a machine
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the critical speed of whirling of shaft
CO 2 Determine the position of sleeve against the controlling force and speed in
governors
CO 3 Analyze the motion of motorized gyroscopic couple
CO 4 Measure the frequency of damped and un-damped vibrations of a spring mass
system
CO 5 Apply the principles of balancing of masses to various links mechanisms and
engines
CO 6 Analyze the displacement velocity and acceleration against crank rotation in
slider crank mechanism
CO 7 Calculate the moment of inertia of flywheel
CO 8 Analyze cam profile for various cam follower systems
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
LIST OF EXPERIMENTS
1 Determine whirling speed of shaft theoretically and experimentally
2 Plot follower displacement vs cam rotation for various Cam Follower systems
3 Determine the position of sleeve against controlling force and speed of a Hartnell
governor and plot the characteristic curve of radius of rotation
AR19 Mechanical Engineering
Aditya Engineering College (A) 161
4 Analyze the motion of a motorized gyroscope when the couple is applied along its
spin axis
5 Determine the frequency of un-damped free vibration of an equivalent spring mass
system
6 Determine the frequency of damped force vibration of a spring mass system
7 Study the static and dynamic balancing using rigid blocks
8 Find the moment of inertia of a flywheel
9 Plot slider displacement velocity and acceleration against crank rotation for single
slider crank mechanismFour bar mechanism
10 Find coefficient of friction between belt and pulley
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
11 Study simple and compound screw jack and determine the mechanical advantage
velocity ratio and efficiency
12 Study various types of gears- Spur Helical Worm and Bevel Gears
13 To determine the position of sleeve against controlling force and speed of a porter
governor and to plot the characteristic curve of radius of rotation
Reference Books
1 Theory of machines lab manual ndash Aditya Engineering College
2 Theory of machines by RSKhurmi JKGupta
AR19 Mechanical Engineering
Aditya Engineering College (A) 162
THERMAL ENGINEERING LAB
V semester L T P C
Course Code 191ME5L07 0 0 3 15
Course Objectives
COB 1 To provide the knowledge to the student about working of IC Engines
COB 2 To train the student to conduct performance and heat balance test on IC
Engines
COB 3 To practice the student to calculate the frictional losses in an IC Engine
COB 4 To impart practical exposure on performance of Reciprocating air Compressor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the various parts of an IC Engine
CO 2 Sketch the Valve and Port Timing diagrams for IC Engines
CO 3 Determine the performance of various types of IC Engines
CO 4 Prepare the heat balance sheet for various types of IC Engines
CO 5 Calculate the frictional power in various types of IC Engines
CO 6 Analyze the performance of reciprocating air compressor
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - 3 - -
CO2(K3) 3 2 - - - - - - - 3 - -
CO3(K3) 3 2 - 1 - - 3 - - 3 - 3
CO4(K3) 3 2 - - - - - - - 3 - -
CO5(K3) 3 2 - 1 - - 3 - - 3 - 3
CO6(K4) 3 3 - 2 - - 3 - - 3 - 3
CO7(K2) 2 1 - - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 2 -
CO2 (K3) - 2 -
CO3 (K3) 3 2 -
CO4 (K3) - 2 -
CO5 (K3) 3 2 -
CO6 (K4) 3 2 -
CO7 (K2) - 2 -
List of Experiments
1 (A)Draw amp Study The Valve Timing Diagrams For Four Stroke Diesel Engine
(Cut Section Model)
(B) Draw amp Study The Port Timing Diagrams For Two Stroke Petrol Engine (Cut
Section Model)
2 (A) Evaluate The Performance of 4 -Stroke Diesel Engine
(B) Draw The Heat Balance Sheet For 4-Stroke Single Cylinder Diesel Engine
(C) Determination of frictional power by retardation test on a 4-Stroke petrol
engine
3 (A) Evaluate The Performance of 4 -Stroke multi cylinder petrol Engine
AR19 Mechanical Engineering
Aditya Engineering College (A) 163
(B) Draw The Heat Balance Sheet For 4-Stroke multi cylinder petrol Engine
(C) Evaluation of frictional power by conducting morse test on 4-stroke multi
cylinder petrol engine
4 (A)Evaluate The Performance of 4 ndashStroke Petrol Engine Test Rig With Dc
Generator
(B)To Measure The Frictional Power of The Given Four Stroke Single Cylinder
Petrol Engine By Conducting Motoring Test
5 (A)Evaluate The performance of variable compression ratio engine
(B)Draw The Heat Balance Sheet For variable compression ratio engine
6 Performance test on reciprocating air compressor unit
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
7 (A) Determine the flash and fire point of given oil sample
(B) Determination of Viscosity using Red Wood Viscometer
(C) Determination of viscosity using Saybolt Viscometer
(D) Determination of calorific value of fuels by using Bomb Calorimeter
(E) ECONOMICAL SPEED TEST on IC Engines
Reference Books
1 Internal Combustion Engines V Ganesan TMH Publication 4th Edition
2 Internal Combustion Engines Fundamentals John B Heywood MGH
3 Thermal Engineering lab Manual Aditya Engineering College
Web Links
1 httpswwwscribdcomdoc38559760Thermal-Lab-Manual
2 httpwwwksrctacinpagethermal-engineering-labhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 164
EMPLOYABILITY SKILLS-III (Common to all branches)
Course Objectives
COB 1 To provide basic communication to ensure employability skills
COB 2 To meet the changing global needs and demands
COB 3 To orient students towards career and profession
COB 4 To equip students with fundamental and advanced inputs as various techniques
of strengthening their professional abilities
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the clock and calendar problems by simple methods
CO 2 Discuss about different types of puzzles
CO 3 Breakdown the typical write-up skills
CO 4 Apply different types of models on percentages profit and loss simple interest
and compound interest
CO 5 Demonstrate the tools of the soft skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
UNIT-I
Aptitude puzzle test group reasoning
Soft Skills Group discussion
UNIT-II
Aptitude clock calendar
Soft Skills Resume writing Personalized Resume preparation Compose and Prepare a
cover letter
UNIT-III
Aptitude cubes ampdice partnership
Soft Skills E-mail -Writing ampEtiquette Business Etiquette
UNIT-IV
Aptitude percentage profit and loss
Soft Skills Interviewing skills-1Dorsquosamp donrsquots in an interview Interview Demonstration
V Semester L T P C
Course Code 191HS5T06 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 165
Videos Interview Preparation
UNIT-V
Aptitude simple interest compound interest
Soft Skills Stress Management Personal priorities effect on career decisions Personal
priorities to professional priorities
Text Books
1 Quantitative Aptitude - Dr RS Aggarwal S CHAND
2 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
2 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
3 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 3
PROGRAM EDUCATIONAL OBJECTIVES (PEOs)
Graduates of the Program will
PEO 1 Progress in professional career with a solid foundation in mathematics
science and engineering
PEO 2 Solve real time engineering problems using professional knowledge and
skills resulting in significant societal development
PEO 3 Demonstrate multidisciplinary skills to analyze engineering issues in a
broader perspective with ethical responsibility towards sustainable
development
PEO 4 Demonstrate interpersonal skills leadership and team building to achieve
their career goals pursue lifelong learning and higher education necessary
for successful profession
PROGRAM OUTCOMES (POs)
After successful completion of the program the graduates will be able to
PO 1 Apply knowledge of mathematics science engineering fundamentals and an
engineering specialization to the solution of complex engineering problems
PO 2 Identify formulate research literature and analyze complex engineering
problems reaching substantiated conclusions using first principles of
mathematics natural sciences and engineering sciences
PO 3 Design solutions for complex engineering problems and design systems
components or processes that meet specified needs with appropriate
consideration for public health and safety cultural societal and
environmental considerations
PO 4 Conduct investigations of complex problems using research-based knowledge
and research methods including design of experiments analysis and
interpretation of data and synthesis of information to provide valid
conclusions
PO 5 Create select and apply appropriate techniques resources and modern
engineering and IT tools including prediction and modelling to complex
engineering activities with an understanding of the limitations
PO 6 Apply reasoning informed by contextual knowledge to assess societal health
safety legal and cultural issues and the consequent responsibilities relevant to
professional engineering practice
PO 7 Understand the impact of professional engineering solutions in societal and
environmental contexts and demonstrate knowledge of and need for
sustainable development
PO 8 Apply ethical principles and commit to professional ethics and responsibilities
and norms of engineering practice
PO 9 Function effectively as an individual and as a member or leader in diverse
teams and in multidisciplinary settings
PO 10 Communicate effectively on complex engineering activities with the
engineering community and with society at large such as being able to
comprehend and write effective reports and design documentation make
effective presentations and give and receive clear instructions
PO 11 Demonstrate knowledge and understanding of engineering management
principles and apply these to onersquos own work as a member and leader in a
AR19 Mechanical Engineering
Aditya Engineering College (A) 4
team and to manage projects in multidisciplinary environments
PO 12 Recognize the need for and have the preparation and ability to engage in
independent and life-long learning in the broadest context of technological
change
PROGRAM SPECIFIC OUTCOMES (PSOs)
After successful completion of the program the graduates will be able to
PSO 1 Ability to absorb analyse demonstrate and maintain latest developments in
mechanical engineering and allied areas
PSO 2 Conduct experiments and perform analysis by using research methods such
as design of experiments synthesizes the information and to provide valid
conclusions
PSO 3 Model design and analyse the mechanical systems and components taking
into account social economic and environmental implications
Mission of the department ndash PEOs mapping
PEOs Statements M1 M2 M3 M4
PEO 1 Progress in professional career with a solid
foundation in mathematics science and engineering 3 3 3 2
PEO 2 Solve real time engineering problems using
professional knowledge and skills resulting in
significant societal development
3 3 3 3
PEO 3 Demonstrate multidisciplinary skills to analyze
engineering issues in a broader perspective with
ethical responsibility towards sustainable
development
3 3 3 3
PEO 4 Demonstrate interpersonal skills leadership and team
building to achieve their career goals and pursue
lifelong learning and higher education necessary for
successful profession
2 2 2 2
Note
Bloomrsquos Taxonomy
Knowledge Level
Knowledge Level
Representation
Remember K1
Understand K2
Apply K3
Analyse K4
Evaluate K5
Create K6
Mapping Correlation levels
1 Slight (Low)
2 Moderate (Medium)
3 Substantial (High)
AR19 Mechanical Engineering
Aditya Engineering College (A) 5
PROGRAM STRUCTURE I SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191HS1T01 Communicative English HSMC 3 0 0 3 3
191BS1T01 Differential Equations and Linear
Algebra
BSC 3 0 0 3 3
191BS1T02 Engineering Physics BSC 3 0 0 3 3
191ES1T01 Programming for Problem Solving
Using C
ESC 3 0 0 3 3
191HS1L01 Communicative English Lab-I HSMC 0 0 3 3 15
191BS1L01 Engineering Physics Lab BSC 0 0 3 3 15
191ES1L01 Programming for Problem Solving
Using C Lab
ESC 0 0 3 3 15
191ES1L02 Basic Engineering Workshop ESC 0 0 3 3 15
191MC1A01 Environmental Science MC 2 0 0 2 0
191MC1A02 Constitution of India MC 2 0 0 2 0
TOTAL 16 0 12 28 18
II SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS2T05 Partial Differential Equations and
Vector Calculus
BSC 3 0 0 3 3
191BS2T06 Chemistry of Materials BSC 3 0 0 3 3
191ES2T02 Engineering Graphics and Design ESC 1 0 3 4 25
191ES2T03 Essential Electrical and Electronics
Engineering
ESC 3 0 0 3 3
191ES2T04 Engineering Mechanics ESC 3 0 0 3 3
191HS2L02 Communicative English Lab-II HSMC 0 0 2 2 1
191BS2L04 Engineering Chemistry Lab BSC 0 0 3 3 15
191ES2L03 Essential Electrical and Electronics
Engineering Lab
ESC 0 0 3 3 15
191ES2L07 Mechanical Engineering Workshop ESC 0 0 3 3 15
191PR2P01 Engineering Exploration Project PROJ 0 0 2 2 1
TOTAL 13 0 16 29 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 6
III SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS3T11 Integral Transforms And
Applications Of Partial
Differential Equations
(CE ME AgE)
BSC 3 0 0 3 3
191ME3T01 Fluid Mechanics and Hydraulic
Machinery
PCC 3 0 0 3 3
191ME3T02 Computer Aided Engineering
Drawing Practice
PCC 2 0 2 4 3
191ME3T03 Mechanics of Solids PCC 3 0 0 3 3
191ME3T04 Thermodynamics PCC 3 0 0 3 3
191ME3T05 Metallurgy amp Material Science PCC 3 0 0 3 3
191ME3L01 Fluid Mechanics amp Hydraulic
Machines Lab
PCC 0 0 3 3 15
191ME3L02 Mechanics of Solids amp Metallurgy
Lab
PCC 0 0 3 3 15
191MC3A03 Employability Skills ndash I MC 0 0 2 2 0
191MC3A04 Essence of Indian Traditional
Knowledge
MC 2 0 0 2 0
TOTAL 19 0 10 29 21
IV SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS4T16 Numerical methods amp Statistical
Techniques (CE ME Ag E)
BSC 3 0 0 3 3
191HS4T04 Managerial Economics amp
Financial Analysis
HSMC 3 0 0 3 3
191ES4T15 Internet of Things ESC 3 0 0 3 3
191ME4T06 Production Technology PCC 3 0 0 3 3
191ME4T07 Kinematics of Machinery PCC 3 0 0 3 3
191ME4T08 Thermal Engineering-I PCC 3 0 0 3 3
191ME4L03 Production Technology Lab PCC 0 0 3 3 15
191ME4L04 Computer Aided Machine
Drawing
PCC 0 0 3 3 15
191MC4A05 Employability Skills ndash II MC 0 0 2 2 0
191MC4A06 Biology for Engineers MC 2 0 0 2 0 TOTAL 20 0 8 28 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 7
V SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME5T09 Dynamics of Machinery PCC 3 0 0 3 3
191ME5T10 Design of Machine Members-I PCC 3 0 0 3 3
191ME5T11 Thermal Engineering-II PCC 3 0 0 3 3
---- PE-I PEC 3 0 0 3 3
---- OE-I OEC 3 0 0 3 3
191ME5L05 Metrology ICS lab PCC 0 0 3 3 15
191ME5L06 Theory of Machines Lab PCC 0 0 3 3 15
191ME5L07 Thermal Engineering Lab PCC 0 0 3 3 15
191HS5T06 Employability Skills ndash III HSMC 0 0 2 2 1
191PR5P02 Socially Relevant Project PROJ 0 0 0 0 1
TOTAL 15 0 11 26 215
VI SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME6T12 Heat Transfer PCC 3 0 0 3 3
191ME6T13 Design of Machine Members-II PCC 3 0 0 3 3
191ME6T14 Metal cutting and Machine Tools PCC 3 0 0 3 3
---- PE-II PEC 3 0 0 3 3
---- PE-III PEC 3 0 0 3 3
---- OE-II OEC 3 0 0 3 3
191ME6L08 Metal Cutting and Machine Tools
Lab
PCC 0 0 3 3 15
191ME6L09 Heat Transfer Lab PCC 0 0 3 3 15
191HS6T07 Employability Skills ndash IV HSMC 0 0 2 2 1
TOTAL 18 0 8 26 22
VII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME7T15 Operations Research PCC 3 0 0 3 3
191ME7T16 Finite Element Methods PCC 3 0 0 3 3
---- PE-IV PEC 3 0 0 3 3
---- PE-V PEC 3 0 0 3 3
---- OE-III OEC 3 0 0 3 3
191ME7P03 Internship PROJ 0 0 0 0 2
191ME7L10 CAM Mechatronics Lab PCC 0 0 3 3 15
191ME7L11 CAD CFD lab PCC 0 0 4 4 2
191ME7P04 Project Part 1 PROJ 0 0 0 0 2
TOTAL 15 0 7 22 225
AR19 Mechanical Engineering
Aditya Engineering College (A) 8
VIII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
---- PE-VI (MOOCs) PEC 3 0 0 3 3
---- OE-IV (MOOCs) OEC 3 0 0 3 3
191ME8P05 Project Part 2 PROJ 0 0 0 0 7
TOTAL 6 0 0 6 13
BSC Basic Sciences Courses HSMC Humanities and Social Sciences including Management
Courses ESC Engineering Sciences Courses PCC Professional Core Courses PEC
Professional Elective Courses OEC Open Elective Courses SSC Self Study Course MC
Mandatory Courses PROJ Project
PROFESSIONAL ELECTIVES
Professional Elective ndash I Professional Elective ndash II
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME5E01 Automobile Engineering 1 191ME6E07 Industrial Engineering amp
Management
2 191ME5E02 Composite Materials 2 191ME6E08 Mechatronics
3 191ME5E03 Fluid Engineering 3 191ME6E09 Non Destructive Evaluation
4 191ME5E04 Mechanical Vibrations 4 191ME6E10 Refrigeration and Air
Conditioning
5 191ME5E05 Metrology amp Instrumentation 5 191ME6E11 Robotics
6 191ME5E06 Organizational Behavior
Professional Elective ndash III Professional Elective ndash IV
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME6E12 Additive Manufacturing 1 191ME7E17 Advanced Automobile
Engineering
2 191ME6E13 Alternative Fuels 2 191ME7E18 Advanced Fluid Mechanics
3 191ME6E14 Design for Manufacturing 3 191ME7E19 Computational Fluid Dynamics
4 191ME6E15 Green Engineering Systems 4 191ME7E20 Nano materials amp Technology
5 191ME6E16 Lean Manufacturing 5 191ME7E21 Power Plant Engineering
Professional Elective ndash V Professional Elective ndash VI SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME7E22 CAD CAM 1 191ME8E27 Advanced Materials
2 191ME7E23 Condition Monitoring 2 191ME8E28 Manufacturing Methods in
Precision Engineering
3 191ME7E24 Design of Transmission
Systems
3 191ME8E29 Production Planning and
Control
4 191ME7E25 Flexible Manufacturing
Systems
4 191ME8E30 Thermal Equipment Design
5 191ME7E26 Gas Dynamics 5 191ME8E31 Total Quality Management
AR19 Mechanical Engineering
Aditya Engineering College (A) 9
OPEN ELECTIVE - I (V Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE5O01 Basic Concrete Technology CE EEE CE
2 191EE5O01 Electrical Safety EEE EEE
3 191EE5O02 Electrical Materials EEE EEE
4 191EE5O03 Basic Electrical Measurements EEE ECE EEE
5 191ME5O01 Renewable Energy Sources CE EEE ME Ag E ME
6 191ME5O02 Fundamentals of Mechanical
Engineering
ME ME
7 191ME5O03 Supply Chain Management ME ME
8 191ME5O04 3D Printing ME ME
9 191ME5O05 Entrepreneurship Development and
Incubation
ME
10 191EC5O01 Signals amp Systems EEE ECE ECE
11 191EC5O02 Digital Electronics and Logic
Design
EEE ECE CSE IT ECE
12 191EC5O03 Semi conductor devices EEE ECE ECE
13 191CS5O01 Data Structures EEE ECE CSE IT CSE
14 191CS5O02 Object Oriented Programming
through C++
CSE IT CSE
15 191CS5O03 Java Programming CSE IT CSE
16 191CS5O04 R Programming CSE
17 191IT5O01 Database Management Systems CSE IT IT
18 191IT5O02 Computer Graphics CSE IT IT
19 191MI5O01 Overview of Mining MinE MinE
20 191PT5O01 Process Intensification in Petroleum
Industry
PT PT
21 191PT5O02 Fundamentals of Petroleum
Industry
PT PT
22 191AG5O01 Basic Crop Production Practices AgE AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 10
OPEN ELECTIVE - II (VI Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE6O02 Disaster Management CE
2 191EE6O04 Energy Audit and Conservation
Management
EEE EEE
3 191EE6O05 Non Conventional Energy
resources
EEE EEE
4 191EE6O06 Instrumentation EEE ECE Ag E EEE
5 191ME6O06 Solar Energy Utilisation ME Ag E ME
6 191ME6O07 Basic Thermodynamics and
Heat Transfer
EEE ME PT AgE
MinE
ME
7 191ME6O08 Introduction to Hydraulics and
Pneumatics
CE ME PT ME
8 191ME6O09 3D Printing ME ME
9 191ME6O06 Robotics ME ME
10 191ME6O09 Management Science CE CSE IT PT Min
E
ME
11 191ME6O12 Entrepreneurship Development
and Incubation
ME
12 191ME6O07 Biomedical Instrumentation ECE
13 191ME6O08 ECAD Tools ECE ECE
14 191CS6O05 Python Programming EEE CSE IT CSE
15 191CS6O06 Operating Systems CSE IT CSE
16 191CS6O07 Web Technologies CSE IT CSE
17 191CS6O08 Cyber Security CSE IT CSE
18 191CS6O09 AR VR CSE
19 191IT6O03 Computer Organization CSE IT IT
20 191IT6O04 AI Tools amp Techniques CSE IT IT
21 191IT6O05 Robotic Process Automation
IT
22 191MI6O02 Industrial Safety Practices AgE MinE
23 191MI6O03 Electrical Equipmentrsquos in Mines MinE
24 191PT6O03 Unconventional Hydrocarbon
Resources
PT PT
25 191PT6O04 Asset Management PT
26 191AG6O02 Weather forecast in Agriculture AgE
27 191AG6O03 Bio-energy systems design and
applications
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 11
OPEN ELECTIVE - III (VII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE7O03 Waste Water Management CE CE
2 191EE7O07 Electrical and Hybrid Vehicles EEE EEE
3 191EE7O08 Special Electrical Machines EEE EEE
4 191EE7O09 Industrial Electrical Systems EEE EEE
5 191ME7O13 Optimization techniques
ME
6 191ME7O14 Energy Conservation
ME
7 191ME7O15 Introduction to Material Handling
Systems
ME
8 191ME7O16 Robotics ME ME
9 191ME7O17 Entrepreneurship Development and
Incubation
ME
10 191EC7O06 Overview of Digital Signal Processing EEE ECE ECE
11 191EC7O07 Basics of VLSI Design ECE ECE
12 191EC7O08 Micro Electro Mechanical Systems
ECE
13 191EC7O09 Image Processing ECE CSE IT ECE
14 191CS7O10 Big Data Analytics CSE IT CSE
15 191CS7O11 Mobile Application Development CSE IT CSE
16 191CS7O12 Data Science CSE IT CSE
17 191IT7O06 Machine Learning CSE IT IT
18 191IT7O07 Quantum Computing
IT
19 191IT7O08 Block Chain Technologies CSE IT IT
20 191MI7O04 Communication System in Mines
MinE
21 191MI7O05 Drilling amp Blasting MinE MinE
22 191PT7O05 Introduction to Earth Sciences CE PT Min E PT
23 191PT7O06 Basic Concepts in Petroleum Drilling and
Completions
PT PT
24 191AG7O04 Greenhouse Technology AgE AgE
25 191AG7O05 Reusability of Municipal Effluent in
Agriculture
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 12
OPEN ELECTIVE ndash IV (VIII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE8O04 Integrated Waste Management for a
Smart City
CE
2 191EE8O10 Fundamentals of Electrical Engineering EEE ECE EEE
3 191EE8O11 Basic Electrical Circuits EEE ECE EEE
4 191EE8O12 Electrical Machines EEE EEE
5 191EE8O13 Power Electronics EEE EEE
6 191EE8O14 Non-Conventional Energy Sources CE EEE ME EEE
7 191ME8O18 Fabrication processes ME ME
8 191ME8O19 Smart Materials ME
9 191EC8O10 Micro Electro Mechanical Systems ECE
10 191EC8O11 Basic Electronic Circuits EEE amp ECE ECE
11 191EC8O12 Principles of Communications ECE ECE
12 191EC8O13 Electronic Instrumentation EEE amp ECE ECE
13 191EC8O14 Digital Image Processing ECE CSE IT ECE
14 191CS8O13 Cyber Security CSE IT CSE
15 191CS8O14 Data Science CSE IT CSE
16 191CS8O15 Game Theory CSE IT CSE
17 191CS8O16 AR VR CSE
18 191IT8O09 Deep learning CSE IT IT
19 191IT8O10 Block Chain Technologies CSE IT IT
20 191PT8O07 Chemical Process Safety PT
21 191PT8O08 Mechanical Unit Operations PT
22 191AG8O06 GIS essentials in Agriculture and its
application
CE AgE
23 191AG8O07 Organic Farming for Sustainable
Agricultural Production
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 13
COMMUNICATIVE ENGLISH (Common to all branches)
I Semester L T P C
Course Code 191HS1T01 3 0 0 3
Introduction
In view of the growing importance of English as a tool for global communication and the
consequent emphasis on training the students to acquire communicative competence the
syllabus has been designed to develop linguistic and communicative competence of the
students of Engineering
As far as the detailed textbooks are concerned the focus should be on the skills of
listening speaking reading and writing The non-detailed textbooks are meant for
extensive reading for pleasure and profit
Thus the stress in the syllabus is primarily on the development of communicative skills
and fostering of ideas
Course Objectives
COB 1 To improve the language proficiency of the students in English with emphasis on
LSRW skills
COB 2 To enable the students to study and comprehend the prescribed lessons and
subjects more effectively relating to their theoretical and practical components
COB 3 To develop the communication skills of the students in both formal and informal
situations
COB 4 To develop the ways to overcome fear and use of words for irony
COB 5 To make the learners understand the development conditions and the core
Competences of the state to prioritize education system
COB 6 To discuss that water is the worlds most precious natural resources
COB 7 To discuss how human sensitivity changes in accordance to times and situations
in life
COB 8 To inform the learner that all men can come together to abolish the war
LISTENING SKILLS
Objectives
1 To enable the students to appreciate the role of listening skill and improve their
pronunciation
2 To enable the students to comprehend the speech of people belonging to different
backgrounds and regions
3 To enable the students to listen for general content to fill up information and for
specific information
SPEAKING SKILLS
Objectives
1 To make the students aware of the importance of speaking for their personal and
professional communication
2 To enable the students to express themselves fluently and accurately in social and
professional success
AR19 Mechanical Engineering
Aditya Engineering College (A) 14
3 To help the students describe objects situations and people
4 To make the students participate in group activities like role-plays discussions and
debates
5 To make the students participate in just a minute talks
READING SKILLS
Objectives
1 To enable the students to comprehend a text through silent reading
2 To enable the students to guess the meanings of words messages and inferences of
texts in given contexts
3 To enable the students to skim and scan a text
4 To enable the students to identify the topic sentence
5 To enable the students to identify discourse features
6 To enable the students to make intensive and extensive reading
WRITING SKILLS
Objectives
1 To make the students understand that writing is an exact formal skills
2 To enable the students to write sentences paragraphs e-mails and essays
3 To make the students identify and use appropriate vocabulary
4 To enable the students to narrate and describe
5 To enable the students to write coherently and cohesively
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the ways to overcome fear and use of words for irony
CO 2 Interpret the development conditions and the core competences of the state to
prioritize education system
CO 3 Explain water as the worlds most precious natural resources
CO 4 Illustrate human sensitivity to the changing times and situations in life
CO 5 Identify that all men can come together to abolish the war
CO 6 Rephrase coherent writing in social political and religious background
CO 7 Demonstrate writing and concepts of grammar skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - - 2 - -
CO2 (K2) - - - - - - - - - 3 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K2) - - - - - - - - - 3 - -
CO5 (K3) - - - - - - - - - 2 - -
CO6 (K2) - - - - - - - - - 3 - -
CO7 (K2) - - - - - - - - - 3 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
CO6 (K2) - - -
CO7 (K2) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 15
Methodology
1 The class is to be learner-centred where the learners are to read the texts to get a
comprehensive idea of those texts on their own with the help of the peer group and
the teacher
2 Integrated skill development methodology has to be adopted with focus on
individual language skills as per the tasksexercise
3 The tasksexercises at the end of each unit should be completed by the learners only
and the teacher intervention is permitted as per the complexity of the taskexercise
4 The teacher is expected to use supplementary material wherever necessary and also
generate activitiestasks as per the requirement
5 The teacher is permitted to use lecture method when a completely new concept is
introduced in the class
Recommended Topics
UNIT-I
1 An Astrologersrsquos Day - RK Narayan (Detailed)
2 Bade Bhai Saab - Munshi Premchand (Non-Detail)
UNIT-II
1 Building A New State - A P J Abdul Kalam (Detailed)
2 Morning Bells- Jayashree Mohan Raj (Non-Detail)
UNIT-III
1 WaterThe Elixer Of Life- C V Raman (Detailed)
2 The Power Of Plate Of Rice- Ifeoma Okoye (Non-Detail)
UNIT-IV
1 The Woodrose-Abburi Chaya Devi (Detailed)
2 The Cop And The Anthem- O Henry (Non-Detail)
UNIT-V
1 Progress- St John Ervine (Detailed)
2 Dial 000- Barry Rosenberg (Non-Detail)
Textbooks
Detailed Text Book lsquoUsing Englishrsquo by Orient Black Swan
Non Detailed Text Book lsquoLife language and Culture -Explorationsrsquo by Cengage
Reference Books
1 Objective English Pearson Publications
2 Effective English Communication Tata Mc Graw-Hill Publishing
3 Effective Technical English Scitech
Web Links
1 httpsittingbeecoman-astrologers-day-r-k-narayan
2 httpbbrenglishforallblogspotcom201401building-new-state-study-materialhtml
3 httpswwwliteraturewormscom201210water-elixir-of-life-by-sircvramanhtml
4 httpmaconholeswoodrose-abburi-chaya-devipdf
5 httpsardhendudeblogspotcom201307analysis-of-progress-by-st-john-ervinehtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 16
DIFFERENTIAL EQUATIONS AND LINEAR ALGEBRA (Common to all branches)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that
are essential for an engineering course
COB 2 To help the students form a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the concepts of Mean Value theorem Partial Differentiation and identify
the maxima and minima of a given function
CO 2 Solve the linear differential equations and model various situations involving
differential equations of first order
CO 3 Solve linear differential equations of higher order and model various situations
involving second order differential equations
CO 4 Calculate Rank of a matrix and solve the system of Linear equations and find the
Eigen values and Eigen vectors
CO 5 Compute various powers of a matrix and identify the nature of the quadratic form
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
UNIT I
Differential Calculus
Rollersquos theorem Lagrangersquos theorem Cauchy Mean Value theorem Taylorrsquos and Maclaurinrsquos
theorems (All theorems Without Proof)
Partial Differentiation Eulerrsquos theorem (without proof) Total derivative Chain rule Taylorrsquos
and Maclaurinrsquos series expansion of functions of two variables Jacobian Functional
dependence
Applications
Maxima and Minima of functions of several variables without constraints and with constraints
(Lagrangersquos method)
(SCILAB Exercise Plot graphs of various single and multivariable functions)
I Semester L T P C
Course Code 191BS1T01 3 0 0 3
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K3) 3 - -
CO 3 (K3) 3 - -
CO 4 (K3) - - -
CO 5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 17
UNIT II
Differential equations of first order
Introduction to differential equations linear differential equation of first order - Bernoulli
differential equation - Exact differential equations- Equations reducible to exact
Applications
Orthogonal trajectories Newtonrsquos Law of cooling RL circuit
UNIT III
Linear differential equations of second and higher order
Linear differential equations of higher order with constant coefficients Complementary function
and Particular integral with RHS term of the type polynomials in x eax sin ax
cos ax eax V(x) xV(x)- Method of Variation of parameters Equations reducible to constant
coefficients ndashCauchy-Euler equation Legendrersquos equation
Application LCR Circuit
(SCILAB Exercise Introduction to SCILAB commands and Solution of Initial Value
Problems)
UNIT IV
System of linear equations Eigen values and Eigen vectors
Definition of a Vector space Linear dependence and independence of vectors Rank of a matrix
Echelon form and Normal form solving system of Homogenous and Non homogenous linear
equations- Gauss Jordon elimination method Eigen values Eigen vectors Properties of eigen
values and eigen vectors (without proof )
Applications
Free vibrations of a two mass system
UNIT V
Quadratic forms
Cayley -Hamilton theorem (without proof ) Inverse and powers of a matrix by using Cayley -
Hamilton theorem Diagonalization of a matrix Quadratic forms Reduction of quadratic form to
canonical form using orthogonal transformation Nature of the quadratic form
(SCILAB Exercise Basic Operations on matrices computation of rank computation of eigen
values and eigen vectors)
Not to be examined
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley-India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson Publications
Reference Books
1 DGZill MICHAIL R CULTER Advanced Engineering Mathematics 3rd Edition Norosa
Publications 2009
2 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
3 Peter Orsquoneil Advanced Engineering Mathematics Cengage Learning
4 Glyn James Advanced modern engineering mathematics Pearson education
AR19 Mechanical Engineering
Aditya Engineering College (A) 18
Web Links
1 httpsnptelacincourses111106100
2 httpsnptelacincourses12210703714
3 httpsnptelacincourses111106051
4 httpmathworldwolframcom
5 httpswwwkhanacademyorg
6 httpsspoken-tutorialorgtutorial-
searchsearch_foss=Scilabampsearch_language=English
AR19 Mechanical Engineering
Aditya Engineering College (A) 19
ENGINEERING PHYSICS (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To identify different types of crystals analyze acoustic properties of for concert
halls NDT using ultrasonics
COB 2 To study different types of moduli and their relation applications of LASER light
in various Industries study different types of sensors
COB 3 To impart the knowledge of magnetic and dielectric materials and their
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basic concepts of crystal structure and X-ray diffraction Techniques
CO 2 Apply the knowledge of acoustics to improve acoustic quality of concert halls and
understand the concepts of flaw detection techniques using ultrasonics
CO 3 Apply the structure- property relationship exhibited by solid materials within the
elastic limit
CO 4 Explain the basic concepts of LASERs along with its Engineering applications and
familiarize with types of sensors for various engineering applications
CO 5 Explain about magnetic and dielectric properties of different materials
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K2) 2 - -
CO5 (K2) - - 2
UNIT-I
Crystal Structure Basis and lattice ndash Crystal Systems ndash Bravais Lattice - Symmetry
elements- Unit cell-packing fraction ndash coordination number- Miller indices ndash Separation
between successive (h k l) planes ndash Braggrsquos law-Braggrsquos x-ray spectrometer
Crystal Defects (qualitative description only) Point defects-Schottky Frenkel defects Line
defects-Edge screw dislocations
UNIT-II
Acoustics Introduction ndash Reverberation - Reverberation time - Sabinersquos formula (Derivation)ndash
I Semester L T P C
Course Code 191BS1T02 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 20
absorption coefficient and its determination- factors affecting acoustics of buildings and their
remedies
Ultrasonics Production of ultrasonics by Magnetostriction and piezoelectric methods ndash
Detection of ultrasonics - acoustic grating - Non-Destructive Testing- pulse echo system
through transmission and reflection modes - Applications
UNIT-III
Elasticity Stress strain Hookersquos law stress-strain curve generalized Hookersquos law with and
without thermal strains for isotropic materials different types of moduli and their relations
bending of beams ndash Bending moment of a beam ndash Depression of cantilever
UNIT-IV
Laser Introduction to wave optics amp Interferometer-CharacteristicsndashSpontaneous and
Stimulated emission of radiation ndash population inversion - Einsteinrsquos coefficients amp Relation
between them and their significance - Pumping Mechanisms - Ruby laser ndash Helium Neon laser
ndash CO2 laser-Applications
Sensors (qualitative description only) Different types of sensors and applications Strain and
Pressure sensors- Piezoelectric magnetostrictive sensors Temperature sensor - bimetallic
strip pyroelectric detectors
UNIT-V
Magnetism Introduction ndash Magnetic dipole moment ndash Magnetization-Magnetic susceptibility
and permeability ndash Origin of permanent magnetic moment ndash Bohr Magneton - Classification
of magnetic materials (Dia Para and Ferro) ndash Domain concept of Ferromagnetism - Hysteresis
ndash soft and hard magnetic materials ndash Applications of Ferromagnetic materials
Dielectrics Introduction - Dielectric polarization ndash Dielectric polarizability Susceptibility and
Dielectric constant-types of polarizations Electronic and Ionic (Quantitative) Orientational
polarizations (qualitative)-Lorentz internal field ndash Claussius_Mossoti equation- Frequency
dependence of polarization - Applications of dielectrics
Text Books
1 ldquoText book of Engineering Physicsrdquo by P G Kshirsagar amp M N Avadhanulu S Chand amp
Company Ltd
2 ldquoEngineering Physicsrdquo by R K Gaur and S L Gupta Dhanpat Rai Publications
3 ldquoSensor and Transducersrdquo by Ian R Sinclair Elsevier (Newnes) 3rd Eds
Reference Books
1 ldquoEngineering Physicsrdquo by M R Srinivasan New Age International Publishers
2 ldquoLectures on Physicsrdquo by Richard P Feynman Pearson Publishers New Millennium Eds
3 ldquoLasers and Non-linear Opticsrdquo by B B Laud New Age International Publishers (3rd
Eds)
Web Links
1 httpnptelacincourses12210703511
2 httpnptelacincourses115102023
3 httpsphetcoloradoeduensimulationscategoryphysics
4 httpphysicsgecgblogspotinpreading-materialshtml
5 httpssitesgooglecomsitephysicsbysureshsagantihome
AR19 Mechanical Engineering
Aditya Engineering College (A) 21
PROGRAMMING FOR PROBLEM SOLVING USING C (Common to all branches)
Course Objectives
COB 1 To impart adequate knowledge on the need of programming languages and problem
solving techniques and develop programming skills
COB 2 To enable effective usage of control structures and implement different operations on
arrays
COB 3 To demonstrate the use of strings and functions
COB 4 To impart the knowledge of pointers and understand the principles of dynamic
memory allocation
COB 5 To make the students understand the concepts of structures unions files and their
operations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the fundamental concepts of computers and basics of computer
programming
CO 2 Make use of control structures and arrays in solving complex problems
CO 3 Develop modular program aspects and strings fundamentals
CO 4 Demonstrate the ideas of pointers usage
CO 5 Solve real world problems using the concept of structures unions and File operations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K2) 2 1 - - 2 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 2
CO2 (K3) 3 2 3
CO3 (K3) 3 2 3
CO4 (K2) - - -
CO5 (K3) 3 2 3
UNIT-I
Computer History Hardware Software Programming Languages and Algorithms
Components and functions of a Computer System Concept of Hardware and Software
Programming Languages Low-level and High-level Languages Program Design Tools
Algorithm Flowchart Pseudo code
Introduction to C Programming Introduction Structure of a C Program Comments
Keywords Identifiers Data Types Variables Constants InputOutput Statements Operators
Type Conversion
I Semester L T P C
Course Code 191ES1T01 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 22
UNIT -II
Control Flow Relational Expressions amp Arrays Conditional Branching Statements if if-
else if-elsendashif switch Basic Loop Structures while do-while loops for loop nested loops
The Break and Continue Statements goto statement
Arrays Introduction Operations on Arrays One dimensional Array Two dimensional Array
Multi dimensional arrays
UNIT-III
Strings String Fundamentals String Processing with and without Library Functions
Functions Introduction Function Declaration Function Definition Function call Categories
of Functions passing parameters to Functions Arrays as Function Arguments Scope of
Variables Variable Storage Classes Recursion
UNIT-IV
Pointers Concept of a Pointer Declaring and Initializing Pointer Variables Pointer
Expressions and Address Arithmetic Null Pointers Generic Pointers Pointers as Function
arguments Pointers and Arrays Pointers and Strings Pointer to Pointer Dynamic Memory
Allocation Dangling Pointer Command line Arguments
UNIT-V
Structures Unions Bit Fields Introduction Nested Structures Arrays of Structures
Structures and Functions Self-Referential Structures Unions Enumerated Data Type ndashenum
variables Using Typedef keyword Bit Fields
Data Files Introduction to Files Using Files in C Reading from Text Files Writing to Text
Files Random File Access
Text Books
1 Computer Programming Reema Thareja Oxford University Press
2 Byron Gottfried Schaums Outline of Programming with C McGraw-Hill
3 Programming In C A-Practial Approach Ajay Mittal Pearson
Reference Books
1 C Programming ndash A Problem Solving Approach Forouzan Gilberg Cengage
2 The C Programming Language Dennis Richie And Brian Kernighan Pearson
Education
3 Programming In C Ashok Kamthane Second Edition Pearson Publication
Web Links
1 httpwwwc4learncom
2 httpwwwgeeksforgeeksorgc
3 httpnptelacincourses122104019
4 httpwwwlearn-corg
5 httpswwwtutorialspointcomcprogramming
AR19 Mechanical Engineering
Aditya Engineering College (A) 23
COMMUNICATIVE ENGLISH LAB ndashI (Common to all branches)
Course Objectives
COB 1 To facilitate computer-aided multi-media instruction enabling
Individualized and independent language learning
COB 2 To sensitize the students to the nuances of English speech sounds word
accent and intonation
COB 3 To bring about a consistent accent and intelligibility in their pronunciation
of English by providing an opportunity for practice in speaking
COB 4 To improve the fluency in spoken English and neutralize mother tongue
influence
COB 5 To train students to use language appropriately
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
A Greeting Introducing and taking leave
B Pure Vowel
PRACTICE 2
A Giving Information and Asking for Information B Diphthongs
I Semester L T P C
Course Code 191HS1L01 0 0 3 15
CO 1 Demonstrate nuances of language through audio-visual experience and
group activities
CO 2 Identify accent for intelligibility
CO 3 Demonstrate in conversation jams and public speaking
CO 4 Make use of the concepts to communicate confidently and competently in
English Language in all spheres
AR19 Mechanical Engineering
Aditya Engineering College (A) 24
PRACTICE 3
A Inviting Accepting and Declining Invitations
B Consonants
PRACTICE 4
A Commands Instructions and Requests
B Accent and Rhythm
PRACTICE 5
A Suggestions and Opinions
B Intonation
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra
JRaju and DrGSuvarna Lakshmi Maruthi Publications
2 English for Professionals by Prof Eliah BS Publications Hyderabad
3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata McGraw ndash Hill
Publishing Company
5 Word power made handy Dr Shalini verma S Chand Company
6 Let us hear them speak Jayashree Mohanraj Sage texts
AR19 Mechanical Engineering
Aditya Engineering College (A) 25
ENGINEERING PHYSICS LAB (Common to CE ME MinE PT AgE)
Course Objectives COB 1 To make the students gain practical knowledge to co- relate with the
theoretical studies
COB 2 To impart skills in measurements
COB 3 To plan the experimental procedure and to record and process the results
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the rigidity and youngrsquos modulus to understand material properties
CO 2 Determine Acceleration due to Gravity and Radius of Gyration and spring constant
by oscillatory mechanics
CO 3 Find the strength of the magnetic field
CO 4 Determine wave length of unknown source particle size using lasers
CO 5 Determination of velocity of sound moment of inertia
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - - -
CO3 (K2) - - -
CO4 (K3) - - -
CO 5 (K3) 3 - -
LIST OF EXPERIMENTS
(Any 10 of the following listed experiments)
1 Determination of Rigidity modulus of a material- Torsional Pendulum
2 Determination of Youngrsquos modulus by method of single cantilever oscillations
3 Determination of Acceleration due to Gravity and Radius of Gyration - Compound
Pendulum
4 Verification of laws of vibrations in stretched strings ndash Sonometer
5 Determination of spring constant of springs using coupled oscillators
6 Magnetic field along the axis of a current carrying coil ndash Stewart and Geersquos apparatus
7 Study the variation of B versus H by magnetizing the magnetic material (B-H curve)
I Semester L T P C
Course Code 191BS1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 26
8 Measurement of magnetic susceptibility by Gouyrsquos method
9 Determination of ultrasonic velocity in liquid (Acoustic Grating)
10 Determination of dielectric constant by charging and discharging method
11 Determination of wavelength of Laser by diffraction grating
12 Determination of particle size using Laser
13 Determeination of Pressure variation using strain Gauge sensor
14 Determination of Moment of Inertia of a Fly Wheel
15 Determination of Velocity of sound ndashVolume Resoantor
LIST OF AUGMENTED EXPERIMENTS
16 to 19 (Any two of the following experiments can be performed)
16 Determine the Youngs Modulus of the material of the bar subjected to uniform bending
17 Determine the Youngs Modulus of the material of the bar subjected to non-
uniform bending
18 V-I characteristics of P-N junction Diode
19 V-I characteristics and Breakdown voltage of Zener Diode
Reference Books
1 Engineering Physics Lab Manual by DrCVMadhusudhana Rao VVasanth Kumar
Scitech Publications
2 Laboratory Manual Cum Record for Engineering Physics I amp II by DrYAparna
DrKVenkateswara Rao VGS Technoseries
ENGINEERING PHYSICS - VIRTUAL LAB ndash ASSIGNMENTS
LIST OF EXPERIMENTS
1 Hall Effect
2 Crystal Structure
3 Brewsterrsquos angle
4 Numerical Aperture of Optical fiber
5 Photoelectric Effect
6 LASER ndash Beam Divergence and Spot size
7 Michelsonrsquos interferometer
8 Black body radiation
9 Flywheel ndash moment of inertia
10 AC Sonometer
11 Resistivity by four probe method
12 Newtonrsquos rings ndashRefractive index of liquid
Web Link
URL wwwvlabcoin
AR19 Mechanical Engineering
Aditya Engineering College (A) 27
PROGRAMMING FOR PROBLEM SOLVING USING C LAB (Common to all branches)
Course Objectives
COB 1 To impart knowledge on basic Linux commands various Editors Raptor
COB 2 To make the students understand the concepts of C programming
COB 3 To nurture the students on Control Structures and develop different operations on
arrays
COB 4 To enable the students to learn string fundamentals and modular programming
constructs
COB 5 To impart knowledge on dynamic memory allocation
COB 6 To explain the concepts of Structure Unions and files for solving various
problems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Develop the basic programs in C and draw the flowcharts using Raptor
CO 2 Make use of conditional and iterative statements to solve real time scenarios in C
CO 3 Apply the concept of arrays modularity and strings to handle complex problems
CO 4 Apply the dynamic memory allocation functions using pointers
CO 5 Develop programs using structures and Files
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K3) 2 1 - - 3 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1(K2) 2 1 2
CO2(K3) 3 2 3
CO3(K3) 3 2 3
CO4(K3) - - -
CO5(K3) 3 2 3
1 Introduction to C Programming
11) Basic Linux Commands
12) Exposure to Turbo C Vi Emacs Code Blocks IDE Dev C++
13) Writing simple programs using printf() scanf()
2 Raptor
21) Installation and Introduction to Raptor
22) Draw a flow chart to find the Sum of 2 numbers
23) Draw a flow chart to find Simple interest
I Semester L T P C
Course Code 191ES1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 28
For the following experiments develop flow charts using Raptor and implement C
programs to
3 Basic Math
31) Convert Celsius to Fahrenheit and vice versa
32) Find largest of three numbers using ternary operator
33) Calculate area of a Triangle using Herons formula
4 Control Flow- I
41) Find Whether the Given Year is a Leap Year or not
42) Find the roots of a Quadratic Equation
43) Make a simple Calculator to Add Subtract Multiply or Divide Using switchhellipcase
5 Control Flow- II
51) Find Whether the Given Number is Prime number or not
52) Find Whether the Given Number is Armstrong Number or not
53) Print Floyd Triangle
6 Control Flow- III
61) Find the sum of individual digits of a positive integer
62) Check whether given number is palindrome or not
63) Read two numbers x and n and then compute the sum of the geometric progression
1+x+x2 +x3 +helliphelliphelliphellip+xn
7 Arrays
71) Search an element in the given array (Linear Search)
72) Perform matrix addition
73) Perform matrix multiplication
8 Strings
81) Implementation of string manipulation operations with library function
a) copy
b) concatenate
c) length
d) compare
82) Implementation of string manipulation operations without library function
a) copy
b) concatenate
c) length
d) compare
83) Verify whether the given string is a palindrome or not
9 Functions Array amp Pointers
91) Demonstrate parameter passing in Functions
92) Find Fibonacci Factorial of a number with Recursion and without Recursion
93) Find the sum of given numbers with arrays and pointers
10 Pointers
101) Perform Addition Subtraction Multiplication and Division of two numbers using
Command line arguments
102) Find sum of n elements entered by user To perform this program allocate memory
dynamically using malloc () function
AR19 Mechanical Engineering
Aditya Engineering College (A) 29
103) Find sum of n elements entered by user To perform this program allocate memory
dynamically using calloc () function
11 Structures
111) Store Information of a book Using Structure
112) Add Two Complex Numbers by Passing Structure to a Function
12 Files
121) Open a file and to print the contents of the file on screen
122) Copy content of one file to another file
123) Merge two files and store content in another file
LIST OF AUGMENTED EXPERIMENTS
13 to 16 (Any 2 of the following experiments can be performed)
13 Atm Pin Generation
Aditya purchased a credit card He has to generate a PIN number to access the ATM and Net
banking for which OTP was sent to his registered mobile number Using this OTP number he
has to generate ATM PIN number After generating PIN number he can use it for further
transactions Maximum login he can make is 3 times
Sample Input
OTP 6732
If valid
Enter PIN 8858
Confirm your PIN 8858
Sample output
validInvalid
PIN generated successfully
Note OTP is hard coded
14 Reset Password
Aditya was using Syndicate Bankrsquos Online Account She wanted to pay her bills through
Online But she forgets her password Now she has to reset the password For resetting the
password she has to select reset option from the Menu
NOTE using switch case
Sample input
Fast withdrawal
Mini Statement
Balance Enquiry
Reset Password Enter your choice 4
Sample Output
Reset password New password Confirm password
15 Student Attendance Report Generation
Some of the school staff had failed to maintain the attendance of the students causing lack of
essential records related to students attendance that should be submitted in a parents meet The
school management has decided to automate the process in order to maintain the attendance of
every student effectively You are asked to write a program to the above scenario and display
whether the student is allowed to write the Exam or not
AR19 Mechanical Engineering
Aditya Engineering College (A) 30
Percentagelt65 Detained
gt=65 and lt75 should pay condonation to appear for
Exams
gt=75 Allowed for exams
Sample Input
Enter no of students 5
Enter Students Details
Rno1 NameKalyan Attendance() 67 Should pay
condonation to appear for exams
Rno2 Name Laxman Attendance() 56 Rno3 NameYamini Attendance() 79 Rno4 Name Aryan Attendance() 60 Rno5 Name Raghav Attendance() 88
Sample output Rno Name Attendance () Remarks
1 Kalyan 67 67 should pay condonation to
appear for Exams 2 Laxman 56 detained 3 Yamini 79 allowed for Exams 4 Aryan 60 detained 5 Raghav 88 allowed for Exams
16 Library Management
Shilpa is a student of PGEC got the Library Card She wants to lend the books from the Library
The college gave two cards to each and every student The students can lend only two books at
a time and it has to be returned back after 15 days If the books are not returned late fee will be
collected for no of days the books were returned after the due date Late fee per day is Rs50-
Sample output
Enter the name of student nalini
Enter the Roll No555
Enter the branch cse
Enter the section A
Enter the year 3
Enter the Date of Lend (dd mm yyyy ) 08 08 2017
Enter the Date of return (dd mm yyyy ) 09 10 2017
The no of days book used by the student = 62
Extra days used by the student = 47
Late return fine fee = 2350
Reference Books
1 Let Us C Yashwanth Kanetkar Eighth edition BPB Publications
2 Programming in C A-Practial Approach Ajay Mittal Pearson Education
3 The C programming Language Dennis Richie and Brian Kernighan Pearson
Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 31
Web Links
1 httpswwwhackerrankcom
2 httpswwwcodechefcom
3 httpswwwtopcodercom
4 httpscode-crackergithubio
5 httpsraptormartincarlislecom
6 httpsnptelacincourses1061050852
AR19 Mechanical Engineering
Aditya Engineering College (A) 32
BASIC ENGINEERING WORKSHOP (Common to all branches)
I Semester L T P C
Course Code 191ES1L02 0 0 3 15
Course Objectives
COB 1 To make the students practice basic engineering trades and skills
COB 2 To nurture the students build various joints used in different trades for several
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct the various wooden joints
CO 2 Develop various fitting joints
CO 3 Develop components for making the various sheet metal models
CO 4 Experiment with the various house wiring connections
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 - 3 - - - - - - -
CO2 (K3) 3 2 1 - 3 - - - - - - -
CO3 (K3) 3 2 1 - 3 - - - - - - -
CO4 (K3) 3 2 1 - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) - - -
List of Experiments
Carpentry
1 Cross Lap Joint
2 Dovetail Joint
3 T - Joint
Fitting
4 Vee Fit
5 Square Fit
House Wiring
6 Parallel Connection of three bulbs
7 Series Connection of three bulbs
Tin Smithy
8 Taper Tray
9 Funnel
10 Plain Pipe
AR19 Mechanical Engineering
Aditya Engineering College (A) 33
List of Augmented Experiments
(Student can perform any one of the following experiments)
1 Stair Case wiring
2 Florescent Lamp Fitting
Reference Books
1 Engineering Workshop by Dr A B Srinivasa Rao AMIGO Books
2 Manual on Workshop practice by Dr PKannaiah amp Dr KLNarayana Scitech
publications
Web Links
1 httptiteacinindexphpdepartmentsmechanical-engineeringworkshop
2 httpswwwgopracticalscombasic-engineeringworkshop
AR19 Mechanical Engineering
Aditya Engineering College (A) 34
ENVIRONMENTAL SCIENCE (Common to all branches)
I Semester L T P C
Course Code 191MC1A01 2 0 0 0
Course Objectives
COB 1 To define the various ecosystems and its diversity
COB 2 To summarize the overall natural resources
COB 3 To classify environmental impacts of developmental activities
COB 4 To discuss social issues environmental legislation and global t treaties
COB 5 To educate human population and environment
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the need for protecting the producers and consumers in various ecosystems
and their role in the food web
CO 2 Outline the natural resources and their importance for the sustenance of the life
CO 3 List out the biodiversity of India threats and its conservation methods
CO 4 Illustrate various attributes of the pollution impacts and measures to control the
pollution along with waste management practices
CO 5 Describe social issues both rural and urban environment to combat the
challenges
CO 6 Summarize the legislations of India in environmental protection
CO 7 Explains the population growth and its implications
CO 8 Transforms existing campus into self sustaining green campus with environment
Friendly aspects of ndash Energy Water and waste water reuse plantation rain water
Harvesting and Parking Curriculum
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K1) 1 - - - - 1 2 1 - - - -
CO2 (K2) 1 - - - - 1 2 1 - - - -
CO3 (K1) 1 - - - - 1 2 1 - - - -
CO4 (K2) 1 - - 1 - 1 2 1 - - - -
CO5 (K2) 1 - - - - 1 2 1 - 3 - -
CO6 (K2) 1 - - - - 1 2 1 - - - -
CO7 (K4) 1 - - - - 1 2 1 - - - -
CO8 (K2) 2 1 2 1 - 2 3 2 3 3 2 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K1) - - -
CO2 (K2) - - 2
CO3 (K1) - - -
CO4 (K2) 2 - -
CO5 (K2) - - -
CO6 (K2) - - -
CO7 (K4) - - -
CO8 (K2) 2 1 2
AR19 Mechanical Engineering
Aditya Engineering College (A) 35
UNIT- I
Multidisciplinary Nature Of Environmental Studies
Definition Scope and Importance Need for Public Awareness
Natural Resources Renewable and non-renewable resources ndash Natural resources and
associated problems
UNIT - II
Ecosystem Biodiversity And Its Conservation
Ecosystems Concept of an ecosystem ndash Structure and function of an ecosystem ndash Producers
consumers and decomposers Food chains food webs and ecological pyramids
Biodiversity And Its Conservation Definition genetic species and ecosystem diversity ndash Bio-
geographical classification of India ndash Values of biodiversity Hot-spots of biodiversity ndash
Threats to biodiversity Conservation of biodiversity In-situ and Ex-situ conservation of
biodiversity
UNIT - III
Environmental Pollution And Solid Waste Management
Environmental Pollution Definition Cause effects and control
measures of
a Air Pollution
b Water pollution
c Soil pollution
d Marine pollution
e Noise pollution
Solid Waste Management Causes effects and control measures of urban and industrial
wastes ndash Role of an individual in prevention of pollution
UNIT - IV
Social Issues And The Environment
Social Issues and the Environment From Unsustainable to Sustainable development ndash
Urban problems related to Energy ampWater Resettlement and rehabilitation of people
Environmental ethics Climate change global warming acid rain ozone layer depletion
nuclear accidents and holocaust Environment Protection Act ndash Air (Prevention and Control
of Pollution) Act ndash Water (Prevention and control of Pollution) Act-Wildlife Protection Act
ndash Forest Conservation Act ndash Issues involved in enforcement of environmental legislation ndash
Public awareness
UNIT - V
Human Population And The Environment
Human population and the environment Population growth variation among nations
Environment and human health Human Rights Value Education Role of Information
Technology in Environment and human health
AR19 Mechanical Engineering
Aditya Engineering College (A) 36
Text Books
1 Text book of Environmental Studies for Undergraduate Courses by Erach Bharucha
for University Grants Commission Universities Press
2 Environmental Studies by Palaniswamy ndash Pearson education
3 Environmental Studies by DrSAzeem Unnisa Academic Publishing Company
Reference Books
1 Textbook of Environmental Science by Deeksha Dave and ESai Baba Reddy Cengage
Publications
2 Text book of Environmental Sciences and Technology by MAnji Reddy BS
Publication
3 Comprehensive Environmental studies by JPSharma Laxmi publications
4 Environmental sciences and engineering ndash J Glynn Henry and Gary W Heinke ndash
Prentice hall of India Private limited
5 A Text Book of Environmental Studies by GRChatwal Himalaya Publishing House
6 Introduction to Environmental engineering and science by Gilbert M Masters and
Wendell P Ela - Prentice hall of India Private limited
Web Links
1 httpswwwyoutubecomwatchv=mOwyPENHhbc
2 httpswwwyoutubecomwatchv=_mgvsPnCYj4
3 httpswwwyoutubecomwatchv=L5B-JMnBIyQ
4 httpswwwyoutubecomwatchv=3RDGV5i82_Q
AR19 Mechanical Engineering
Aditya Engineering College (A) 37
CONSTITUTION OF INDIA (Common to all branches)
I Semester L T P C
Course Code 191MC1A02 2 0 0 0
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain historical background of the constitution making and its importance for
building a democratic India
CO 2 Compare the functioning of three wings of the government ie executive
legislative and judiciary
CO 3 Interpret the value of the fundamental rights and duties for becoming good citizen
of India
CO 4 Compare the decentralization of power between central state and local self-
government
CO 5 Extend the knowledge in strengthening of the constitutional institutions like CAG
Election Commission and UPSC for sustaining democracy
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 2 - - -
CO2 (K2) - - - - - - - - 3 - - -
CO3 (K2) - - - - - - - - 3 - - -
CO4 (K2) - - - - - - - - 3 - - -
CO5 (K3) - - - - - - - - 2 - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Indian Constitution Constitutionrsquo meaning of the term Indian Constitution -
Sources and constitutional history Features - Citizenship Preamble Fundamental Rights and
Duties Directive Principles of State Policy
COB 1 To enable the student to interpret the importance of constitution
COB 2 To facilitate the students to illustrate the structure of executive legislature and
judiciary
COB 3 To allow the students to classify philosophy of fundamental rights and duties
COB 4 To facilitate the students to outline the autonomous nature of constitutional bodies
like Supreme Court High Court Comptroller and Auditor General of India and
Election Commission of India
COB 5 To enable the student to interpret the central and state relations of finance and
administration
AR19 Mechanical Engineering
Aditya Engineering College (A) 38
UNIT-II
Union Government and its Administration Structure of the Indian Union Federalism Centre-
State relationship President Role power and position PM and Council of ministers Cabinet
and Central Secretariat Lok Sabha Rajya Sabha The Supreme Court and High Court Powers
and Functions
UNIT-III
State Government and its Administration Governor - Role and Position - CM and Council of
ministers State Secretariat Organisation Structure and Functions
UNIT-IV
A Local Administration - Districtrsquos Administration Head - Role and Importance
Municipalities - Mayor and role of Elected Representative - CEO of Municipal Corporation
PachayatiRaj Functions PRI Zila Panchayat Elected officials and their roles CEO Zila
Panchayat Block level Organizational Hierarchy - (Different departments) Village level -
Role of Elected and Appointed officials - Importance of grass root democracy
UNIT-V
Election Commission Election Commission- Role of Chief Election Commissioner and
Election Commissionerate State Election Commission Functions of Commissions for the
welfare of SCSTOBC and women
Text Books
1 Durga Das Basu Introduction to the Constitution of India Prentice ndash Hall of India Pvt
Ltd New Delhi
2 Subash Kashyap Indian Constitution National Book Trust
Reference Books
1 JA Siwach Dynamics of Indian Government amp Politics
2 DC Gupta Indian Government and Politics
3 HMSreevai Constitutional Law of India 4th edition in 3 volumes (Universal Law
Publication)
4 JC Johari Indian Government and Politics Hans
Web Links
1 nptelacincourses1091040748
2 nptelacincourses109104045
3 nptelacincourses101104065
4 wwwhssiitbacinenlecture-details
5 wwwiitbacinenevent2nd-lecture-institute-lecture-series-indian-constitution
AR19 Mechanical Engineering
Aditya Engineering College (A) 39
PARTIAL DIFFERENTIAL EQUATIONS AND VECTOR CALCULUS (Common to CE EEE ME MinE PT AgE)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that are
essential for an engineering course
COB 2 To help the students acquire a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Solve improper integrals using beta and gamma functions
CO 2 Solve partial differential equations of first order
CO 3 Compute the double integral over a region and triple integral over a volume
CO 4 Calculate the gradient of a scalar function divergence and curl of a vector function
CO 5 Apply line surface and volume integrals
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT - I
Special Functions
Beta and Gamma functions Properties Relation between Beta and Gamma functions
Evaluation of improper integrals
UNIT II
Partial Differential Equations
Formation of partial differential equations by elimination of arbitrary constants and arbitrary
functions Solutions of first order linear partial differential equations nonlinear partial
differential equations (standard types) Homogeneous linear partial differential equations with
constant coefficients
UNIT III
Multiple Integrals
Double integrals Change of order of integration Change of variables Double integral in polar
coordinates Triple integrals Finding Area and Volume as a double integral
II Semester L T P C
Course Code 191BS2T05 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 40
UNIT IV
Vector Differentiation
Introduction Gradient of a scalar field Directional Derivative Divergence of a vector field
Curl of a vector field Solenoidal and irrotational fields Conservative force field Scalar
potential Laplace operator Vector identities
UNIT V
Vector Integration
Introduction Line integral Work done Surface and volume integrals Greenrsquos theorem Stokes theorem and Gauss Divergence theorem (All theorems without proof) and related problems
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley- India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson
Publications
Reference Books
1 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
2 Dass HK Rajnish Verma Er Higher Engineering Mathematics S Chand Co Pvt
Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited 2006
Web Links
4 httpsnptelacincourses11110710825
5 httpsnptelacincourses111103021
6 httpsnptelacincourses111105122
7 httpmathworldwolframcom
8 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 41
CHEMISTRY OF MATERIALS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191BS2T06 3 0 0 3
Course Objectives
COB 1 To acquaint the students with soft and hard water types and softening methods
COB 2 To impart the knowledge on the basic concepts of electrochemical cells and battery
technology
COB 3 To impart knowledge about engineering materials their properties and
applications
COB 4 To impart knowledge on corrosion and its significance
COB 5 To explain Nano and smart materials and their uses
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare the quality of drinking water and problems associated with hard water
CO 2 Outline the difference between primary and secondary cells
CO 3 Explain about polymers and engineering materials
CO 4 Explain corrosion and their control methods
CO 5 Summarize the importance of Nano materials Semi conductors and Super
conductors
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - - - - -
CO2 (K2) 2 - - - - - - - - - - -
CO3 (K2) 2 - - - - - - - - - - -
CO4 (K2) 2 - - - - - - - - - - -
CO5 (K2) 2 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 -
CO2 (K2) 2 - -
CO3 (K2) 2 - -
CO4 (K2) - - -
CO5 (K2) - 1 -
UNIT- I
Water Technology
Introduction ndash Soft Water and hardness of water types of hardness of water degree of hardness
of water Units of hardness of water problems on hardness Boiler troubles - scale and sludge
Boier corrosion Industrial water treatment- zeolite and ion-exchange processes
Specifications for drinking water Bureau of Indian Standards (BIS) and World health
organization (WHO) standards - desalination of brackish water reverse osmosis (RO) and
electrodialysis
AR19 Mechanical Engineering
Aditya Engineering College (A) 42
UNIT - II
Electrochemical Energy Systems
Introduction- Electrochemical Cell (Galvanic cell) Electrochemical series Applications
single electrode potential Hydrogen and Calomel electrode Nernst Equation for a single
electrode Concentration Cells (Electrode amp Electrolyte) Construction of glass electrode
Batteries ndash Classical batteries-dryLeclanche cell Modern batteries-zinc air lithium cells-Li
MnO2 cell- challenges of battery technology Fuel cells- Introduction - classification of fuel
cells ndash hydrogen and oxygen fuel cell propane and oxygen fuel cell- Merits of fuel cell
UNIT - III
Polymers and Building Materials
Introduction to polymers functionality of monomers chain growth and step growth
polymerization coordination polymerization copolymerization (stereospecific
polymerization) with specific examples and mechanisms of polymer formation (Free radical
mechanism for addition ploymerization)
Plastics - Thermoplastics and Thermo settings Preparation properties and applications of ndash
PVC Bakelite
Steel ndash Types of Steel chemical composition ndash applications of alloy steels
Cement Portland cement constituents Manufacture of Portland Cement chemistry of setting
and hardening of cement
UNIT - IV
Corrosion Engineering
Corrosion Definition ndash theories of corrosion dry corrosion and electro chemical corrosion ndash
factors affecting corrosion nature of the metal and nature of the environment
Corrosion controlling methods Sacrificial and Impressed current cathodic protection
Metallic coatings anodic coatings cathodic coating galvanizing and tinning metal cladding
Electroplating ndashorganic coatings paints (constituents and their functions)
UNIT - V
Material Science and Engineering
Nano Materials Introduction to Nano materials chemical synthesis of nanomaterials Sol-
gel method characterization of nanomateirals by TEM (includes basic principle of TEM)
Applications of nanomaterials in waste water treatment lubricants and engines
Nano Tubes Carbon nano tubes- Types of CNTrsquos-preparation methodsndashArc vapourisation
Laser abiliation and chemical vapour deposition ndashproperties and applications
Band Theory of Solids Introduction ndashExplanation of conductors semi conductors Insulators
by Band Theory- Super conductors-Types-Preparation-Properties and Applications
Appendix Introduction to Smart Materials
Text Books
1 PC Jain and M Jain Engineering Chemistry 16e Dhanapat Rai amp Sons (2014)
2 BK Sharma Engineering Chemistry Krishna Prakasham (2014)
3 Engineering Chemistry by Shikha Agarwal Cambridge University Press 2015
edition
Reference Books
1 Sashi Chawla A Textbook of Engineering Chemistry Dhanapath Rai and sons (2003)
2 BS Murthy and P Shankar A Text Book of Nano Science and Nano Technology
University Press (2013)
AR19 Mechanical Engineering
Aditya Engineering College (A) 43
3 SS Dara A Textbook of Engineering Chemistry SChand amp Co (2010)
Web Links 1 httpwwwnptelvideosin201211chemistry-of-materials
2 httpwwwnptelvideoscomlecturephpid=2946
3 httpwwwnptelvideoscomlecturephpid=2922
4 httpwwwnptelvideoscomlecturephpid=2954
AR19 Mechanical Engineering
Aditya Engineering College (A) 44
ENGINEERING GRAPHICS AND DESIGN (Common to CE ME ECE CSE IT MinE PT amp AgE)
II Semester L T P C
Course Code 191ES2T02 1 0 3 25
Course Objectives
COB 1 To teach the practices for accuracy and clarity in presenting the technical
information used in industry
COB 2 To train the students with graphical skills in design of mechanical engineering
components
COB 3 To impart the knowledge of drawing machine components using AutoCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Make use of fundamentals of Engineering Drawing to sketch basic curves conic
sections cycloid epicycloid hypocycloid and involute
CO 2 Apply the principles of orthographic projections for points lines and planes
CO 3 Apply the principles of orthographic projections for solids
CO 4 Apply the AutoCAD software for the orthographic projection of the machine parts
CO 5 Apply the AutoCAD software for the isometric projection of the machine parts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K3) 3 - - - - - - - - 3 - -
CO2(K3) 3 - - - - - - - - 3 - -
CO3(K3) 3 - - - - - - - - 3 - -
CO4(K3) 3 - - - 3 - - - - 3 - 3
CO5(K3) 3 - - - 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - 3
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CONVENTIONAL DRAFTING
Unit-I
Introduction to Engineering graphics Principles of Engineering Graphics and their
significance- conventions in drawing- lettering ndash BIS Conventions- - Conic sections -Cycloid
epicycloids and hypocycloid-Involutes
UNIT-II
Projection of points lines and planes Projection of points in any quadrant lines inclined to
one or both planes finding true lengths angle made by line Projections of regular plane
surfaces
UNIT-III
Projections of solids Projections of regular solids inclined to one or both planes by rotational
AR19 Mechanical Engineering
Aditya Engineering College (A) 45
or auxiliary views method COMPUTER AIDED DRAFTING
UNIT-IV
Introduction to Computer Aided Drafting Basic drawing and editing commands-
Dimensioning principles and conventional representations Systems of projections
Conventions and application to orthographic projections
UNIT-V
Isometric Projections Principles of isometric projection- Isometric scale Isometric views
lines planes figures simple and compound solids
Text Books
1 NDBhatt Engineering Drawing 53rd Edition Charotar Publishers 2016
2 KLNarayana amp PKannaiah Engineering Drawing 3rd Edition Scitech Publishers
Chennai 2012
Reference Books
1 Dhanajay A Jolhe Engineering Drawing Tata McGraw-Hill Copy Right 2009
2 Shah and Rana Engineering Drawing 2e Pearson Education 2009
3 Venugopal Engineering Drawing and Graphics 3e New Age Publishers 2000
4 KCJohn Engineering Graphics 2e PHI 2013
5 Basant Agarwal amp CMAgarwal Engineering Drawing Tata McGraw-Hill Copy
Right 2008
Note
1 Manual and Computer Aided Drafting classes can be held in alternative weeks for
optimal utilization of computer facilities
2 External examinations to be conducted both manual and computer mode with equal
weightage of marks
Web Links
1 httpswwwwiziqcomtutorialsengineering-drawing
2 wwwmeumneducourses
3 Youtube http-seworCarletoncagkardos88403drawingshtml conic sections-online
red woodsedu
AR19 Mechanical Engineering
Aditya Engineering College (A) 46
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING (Common to CE ME CSE IT MinE PT AgE)
Course Objectives
COB 1 To impart the principles of basic lawrsquos for electrical networks
COB 2 To explain the concepts of electrical machines and their characteristics
COB 3 To expose the principle of operation construction details and testing methods of
transformer
COB 4 To impart the adequate knowledge about the operation of AC rotating machines
COB 5 To describe the characteristics of diodes transistors and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct simple electrical circuits using basic laws
CO 2 Explain the constructional features of DC Machines and working
CO 3 Examine the performance of single phase transformer
CO 4 Illustrate the principle of AC rotating machines
CO 5 Analyze the device structure operation and application of diode and BJT
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - - - -
CO2 (K2) 3 3 2 - - - - - - - - -
CO3 (K4) 2 1 - - - - - - - - - -
CO4 (K3) 2 1 - - - - - - - - - -
CO 5 (K4) 3 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) 2 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO 5 (K4) - - -
UNIT- I
Basic laws and Theorems Electrical circuit elements (R-L and C) ac and dc independent
sources and their V-I relationship Ohms law Kirchoffs Laws mesh analysis series and
parallel circuits delta-star and delta-star conversion Network Theorems (with DC Excitation)
superposition theorem Thevenins and Nortons theorem maximum power transfer theorem
with simple examples
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- II
DC Machines Constructional features Principle of operation of DC generator EMF equation
types of dc generators OCC characteristics of dc shunt generator Principle of operation of dc
II Semester L T P C
Course Code 191ES2T03 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 47
motor torque expressions 3-point starter losses and efficiency Swinburnersquos test efficiency
by direct loading Speed control methods of dc motor
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- III
Transformers Principle of operation and construction of single phase transformer EMF
equation voltage regulation losses and efficiency openshort- circuit tests and determination
of efficiency
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- IV
AC Rotating Machines Principle of operation of alternators Types of alternators Principle
of operation of synchronous motor Principle of operation of 3-Phase induction motor Slip-
torque characteristics Efficiency calculations from direct loading
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- V
Semiconductor Devices p-n Junction diode principle V-I characteristics rectifier circuits
(half-wave full-wave Descriptive treatment only) Zener diode as Voltage Regulator
Construction and working P-N-P and N-P-N Junction transistor Transistor as an CE amplifier
Text Books
1 Electrical Technology by Surinder Pal Bali Pearson Publications Vol I and Vol II
2 Electronic Devices and Circuits R L Boylestad and Louis Nashelsky 9th edition
PEIPHI 2006
Reference Books
1 Basic Electrical Engineering by M S Naidu and S Kamakshiah TMH Publications
2 DP Kothari IJ Nagrath Basic Electrical and Electronics Engineering 1st edition
McGraw Hill Education (India) Private Limited 2017
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 RK Rajput Basic Electrical and Electronics Engineering University Science Press
New Delhi 2012
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 wwwfalstadcomcircuits
AR19 Mechanical Engineering
Aditya Engineering College (A) 48
ENGINEERING MECHANICS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191ES2T04 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the concept of forces and their resolution in different planes
resultant of force system forces acting on a body their free body diagrams using
graphical methods and to know the concept of friction
COB 2 To make the students calculate the centre of gravity and moment of inertia of solids
and surfaces
COB 3 To educate the students about kinematics kinetics work - energy and impulse -
momentum principles
Course Outcomes
At the end of the Course Students will be able to
CO 1 Determine the resultant force and moment for a given force system
CO 2 Solve the member forces in trusses
CO 3 Apply concept of Virtual work to find the work done by force and couple
CO 4 Solve the centre of gravity and moment of inertia for various geometric shapes
CO 5 Determine the displacement velocity and acceleration relations in dynamic systems
CO 6 Apply the concepts of kinematics kinetics work - energy and impulse - momentum
methods to particle motion
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 3 - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 2 1 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K5) 3 3 3 - - - - - - - - -
CO6 (K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K5) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 3 -
CO6 (K3) 3 - -
UNIT I
Introduction to Engineering Mechanics Composition and resolution of forces
parallelogram law principle of transmissibility types of force systems - concurrent and
concurrent coplanar forces resultant of coplanar force systems couple moment of a force
Varignons theorem concept of free body diagrams concept of equilibrium of coplanar force
systems
AR19 Mechanical Engineering
Aditya Engineering College (A) 49
UNIT II
Analysis of Structures Introduction to plane trusses analysis of plane trusses by method of
joints and method of sections
Virtual Work Equilibrium of ideal systems work done by a force work done by a couple
principle of virtual work
UNIT III
Properties of Surfaces and Volumes Centroid and center of gravity derivation of centroids
from first moment of area centroids of composite sections center of gravity of common
volumes - cylinder cone sphere theorem of Pappus
Moment of Inertia Area moment of inertia of plane and composite shapes parallel axis
theorem perpendicular axis theorem polar moment of inertia mass moment of inertia of
common volumes -thin plates thin rod cylinder cone sphere rectangular prism radius of
gyration
UNIT IV
Kinematics Fundamentals of kinematics of motion- Rotation of a rigid body about a fixed
axis introduction to plane motion
Kinetics Principles of dynamics - Newtons Laws of motion DAlemberts principle in
rectilinear translation Concepts of Friction
UNIT V
Applications Principle of work and energy- Principle of conservation of energy Concept of
power Conservation of linear and angular momentum Principle of momentum and impulse
Types of impact
Text Books
1 Engineering Mechanics- Statics and Dynamics- ANelson Mc Graw Hill publishers
2 STimoshenko DH Young JV Rao Sukumar Pati Engineering Mechanics (in SI
units) 5e McGraw Hill 2013
3 N H Dubey Engineering Mechanics Statics and Dynamics McGraw Hill 2014
Reference Books
1 Basudeb Bhattacharya Engineering Mechanics 2e Oxford University Press (India)
2015
2 Irving Shames G K M Rao Engineering Mechanics Statics and Dynam-ics 4e
Pearson 2009
3 K L Kumar Veenu Kumar Engineering Mechanics 4e Tata McGraw Hill 2010
4 S S Bhavikatti Engineering Mechanics 4e New Age International 2008
Web Links
1 httpswwwiitgacinrkbcme101PresentationL01-03pdf
2 httpswwwhzgdeimperiamdcontenthzginstitut_fuer_werkstoffforschungwmsen
g_mech_2006pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 50
COMMUNICATIVE ENGLISH LAB ndashII (Common to all branches)
II Semester L T P C
Course Code 191HS2L02 0 0 2 1
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate interpersonal skills using language confidently and effectively for
personal and profession growth
CO 2 Make use of effective delivery strategies to select compile and synthesize
information for an oral presentation
CO 3 Demonstrate in mock interviews mock group discussion and public speaking
CO 4 Identify communicative competency to respond to others in different
situations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
Body Language
PRACTICE 2
Dialogues
PRACTICE 3
Presentation Skills
COB 1 To facilitate computer-aided multi-media instruction enabling individualized
and independent language learning
COB 2 To improve the fluency in spoken English and neutralize mother tongue
Influence
COB 3 To train students to use language appropriately
AR19 Mechanical Engineering
Aditya Engineering College (A) 51
PRACTICE 4
Group Discussion
PRACTICE 5
Interviews and Telephonic Interviews
PRACTICE 6
Debates
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra JRaju
and DrGSuvarna Lakshmi Maruthi Publications 2 English for Professionals by Prof Eliah BS Publications Hyderabad 3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata Mcraw ndash Hill
Publishing Company 5 Cornerstone Developing soft skills Pearson Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 52
ENGINEERING CHEMISTRY LAB (Common to CE ME ECE CSE MinE PT AgE)
II Semester L T P C
Course Code 191BS2L04 0 0 3 15
Course Objectives
COB 1 To acquaint the students with the basic concepts of Engineering Chemistry lab
COB 2 To demonstrate the digital instrument methods of analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the hardness of water
CO 2 Calculate the strength of acids amp bases by instrumental analysis
CO 3 Prepare advanced polymer materials
CO 4 Prepare alternative fuel like Bio-Diesel
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - 3 - - - - - - -
CO2 (K3) 3 - - - 3 - - - - - - -
CO3 (K3) 3 - - - 3 - - - - - - -
CO4 (K3) 3 - - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - - -
Introduction to Chemistry laboratory ndash Molarity Normality Primary secondary
standard solutions Volumetric titrations Quantitative analysis Qualitative analysis etc
Exercise 1 Determination of Total Hardness of a water sample
Exercise 2
Determination of Dissolved Oxygen in Water Sample
Exercise 3
Determination of Zinc by Complexometric method
Exercise 4
PH metric titration of (i) strong acid vs strong base
Exercise 5
Determination of Fe (II) in Mohrrsquos salt by potentiometric method
Exercise 6 Potentiometry ndash Titration between strong acid ndash strong base
Exercise 7
AR19 Mechanical Engineering
Aditya Engineering College (A) 53
Conductometric titrations(Strong acid vs Strong base)
Exercise 8
Preparation of Phenol- Formaldehyde resin
Exercise 9
Preparation of Urea-Formaldehyde resin
Exercise 10
Preparation of bio diesel
Exercise 11
Determination of Vitamin ndash C
LIST OF AUGMENTED EXPERIMENTS
12 to 15 (Any two of the following experiments can be performed)
Exercise 12
Determination of percentage Moisture content in a coal sample
Exercise 13
Determination of acid value and saponification value of a given lubricant
Exercise 14
Determination of viscosity of a liquid
Exercise 15 Estimation of Calcium in port land Cement
Reference Books
1 A Textbook of Quantitative Analysis Arthur J Vogel
2 DrJyotsna Cherukuris (2012) Laboratory Manual of engineering chemistry - II
VGS Techno Series
3 Chemistry Practical Manual Lorven Publications K Mukkanti (2009) Practical
Engineering Chemistry BSPublication
AR19 Mechanical Engineering
Aditya Engineering College (A) 54
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING
LAB (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To enable the students learn various network reduction techniques
COB 2 To impart the knowledge of efficiency of machines with direct and indirect
loading
COB 3 To make the students understand the performance of single phase transformer
COB 4 To enable the students learn the characteristics of diode and its applications
COB 5 To make the students learn the simulation of diode and transistor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the electrical networks using network theorems
CO 2 Analyze the performance of AC and DC Machines
CO 3 Estimate the performance of 1-phase transformer
CO 4 Explain diode characteristics and its applications
CO 5 Explain the simulation of diode and transistor
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 - - - - - - - -
CO2 (K4) 3 3 2 - - - - - - - - -
CO3 (K3) 3 2 1 1 - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K4) 3 - -
CO3 (K3) 3 - -
CO4 (K2) - - -
CO5 (K2) - - -
All the 10 experiments need to perform from
1 Verification of Kirchhoffrsquos Laws KVL and KCL
2 Verification of Superposition Theorem
3 Verification of Thevenins Theorem and Nortons Theorem
4 Speed control of DC shunt motor
5 OCC characteristics of DC shunt generators
6 Swinburnes test on a DC shunts machine
7 Brake Test on DC shunt motor
8 OC and SC Tests on single phase transformer
9 Current Voltage Characteristics of a p-n Junction Diode
10 Characteristics of single phase full wave bridge rectifier
II Semester L T P C
Course Code 191ES2L03 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 55
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 Voltage Regulation with Zener Diodes
12 Brake test on three phase induction motor
13 Regulation of Alternator by synchronous impedance method
14 Simulation of Diode and Transistor Circuit Analysis using PSPICE
Reference Books
1 Electrical Technology M S Naidu and S Kamakshiah TMH Publications 2006
2 Fundamentals of Electrical Engineering Rajendra Prasad PHI Publications 2nd
Edition
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 Electrical Circuit Theory and Technology by John Bird Routledge Taylor amp
Francis Group
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 httpnptelacincourses117106101
3 httpnptelacincourses122106025
AR19 Mechanical Engineering
Aditya Engineering College (A) 56
MECHANICAL ENGINEERING WORKSHOP II Semester L T P C
Course Code 191ES2L07 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To develop the knowledge for plastics processing techniques
COB 4 To impart the concept of assembling and disassembling of machine parts
COB 5 To provide basic knowledge about machine tools and power tools
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate pattern making process mould making process by using greens
and and casting process
CO 2 Distinguish among various metal fabrication processes such as Arc welding
Gas Welding Resistance spot welding process and Soldering amp Brazing
CO 3 Create the plastic object through different plastic processing techniques
CO 4 Experiment with assembling and disassembling of machine parts
CO 5 Make use of the basic machine tools and power tools used in manufacturing
Mapping of Course Outcomes with Program Outcomes
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) 3 3 -
CO3 (K6) 3 3 -
CO4 (K3) 3 2 -
CO5 (K3) 3 - -
List of Experiments
I Foundry Technology
1 Pattern Design and making - for casting drawing
2 Determination of average grain size for sand sample using sieve shaker
3 Mould preparation by Using Green Sand
4 Metal Melting and Casting of molten metal
II Metal Fabrication Techniques
5 Lap amp Butt Joint by Gas welding
6 Lap amp Butt Joint Double V butt Joint on thick plate by Arc welding
III Plastic Processing Techniques
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - - - -
CO2(K4) 3 3 - - - - - 3 - - - -
CO3(K6) 3 3 - - - - - - - - - -
CO4(K3) 3 2 - - - - - 3 - - - -
CO5(K3) 3 2 - - - - - 2 - - 3 -
AR19 Mechanical Engineering
Aditya Engineering College (A) 57
7 Injection Moulding (Jewelry Box and Bottle cap)
8 Blow Moulding (Water Bottle with cap)
IV AssemblingDisassembling Practice
9 Clutch and carburettor
10 Two-wheeler engine parts
V Basic Manufacturing Machine Tools And Power Tools
11 Drilling Boring Dieing and Tapping
12 Basic knowledge of Power Tools
List of Augmented Experiments
(Any one of the following experiments can be performed)
1 Lap amp Butt strap Joint by Resistance Spot Welding
2 Brazing and soldering
Reference Books
1 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II fourth
edition
2 Elements of Manufacturing Technology Vol II Hajra ChoudharySK and Hajra
Choudhary AK Media Publishers 2007 Edition
Web Links
1 httpssjceacinwp-contentuploads201804Foundry-and-Forging-Laboratory -
Manualpdf
2 httpwwwiitkacinmmetestTA201pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 58
ENGINEERING EXPLORATION PROJECT (Common to all branches)
Course Objectives
bull Build mindsets amp foundations essential for designers
bull Learn about the Human-Centered Design methodology and understand
their real-world applications
bull Use Design Thinking for problem solving methodology for investigating
illdefined problems
bull Undergo several design challenges and work towards the final design
challenge
Apply Design Thinking on the following Streams to
bull Project Stream 1 Electronics Robotics IOT and Sensors
bull Project Stream 2 Computer Science and IT Applications
bull Project Stream 3 Mechanical and Electrical tools
bull Project Stream4 Eco-friendly solutions for waste management
infrastructure safety alternative energy sources Agriculture
Environmental science and other fields of engineering
HOW TO PURSUE THE PROJECT WORK
bull The first part will be learning-based-masking students to embrace the
methodology by exploring all the phases of design thinking through the
wallet bag challenge and podcasts
bull The second part will be more discussion-based and will focus on building
some necessary skills as designers and learning about complementary
material for human- centered design
bull The class will then divide into teams and they will be working with one
another for about 2 ndash 3 weeks These teams and design challenges will be
the basis for the final project and final presentation to be presented
bull The teams start with Design Challenge and go through all the phases more
in depth from coming up with the right question to empathizing to ideating
to prototyping and to testing
bull Outside of class students will also be gathering the requirements identifying the challenges usability importance etc
bull At the end Students are required to submit the final reports and will be
evaluated by the faculty
TASKS TO BE DONE
Task 1 Everyone is a Designer
bull Understand class objectives amp harness the designer mindset
II Semester L T P C
Course Code 191PR2P01 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 59
Task 2 The WalletBag Challenge and Podcast
bull Gain a quick introduction to the design thinking methodology
bull Go through all stages of the methodology through a simple design challenge
bull Podcast Observe Listen and Engage with the surrounding
environment and identify a design challenge
Task 3 Teams amp Problems
bull Start Design Challenge and learn about teams amp problems through this
bull Foster team collaboration find inspiration from the environment and
learn how to identify problems
Task 4 Empathizing
bull Continue Design Challenge and learn empathy
bull Learn techniques on how to empathize with users
bull Go to the field and interview people in their environments
bull Submit Activity Card
Task 5 Ideating
bull Continue Design Challenge and learn how to brainstorm effectively
bull Encourage exploration and foster spaces for brainstorming
bull Submit Activity Card
Task 6 Prototyping
bull Continue Design Challenge and learn how to create effective prototypes
bull Build tangible models and use them as communication tools
bull Start giving constructive feedback to classmates and teammates
bull Submit Activity Card
Task 7 Testing
bull Finish Design Challenge and iterate prototypes and ideas through user
feedback
bull Evolve ideas and prototypes through user feedback and constructive
criticism
bull Get peer feedback on individual and group performance
bull Submit Activity Card
Task 8
bull Final Report Submission and Presentation
AR19 Mechanical Engineering
Aditya Engineering College (A) 60
Note The colleges may arrange for Guest Speakers from Various Design Fields
Graphic Design Industrial Design Architecture Product Design Organizational
Design etc to enrich the students with Design Thinking Concept
References
1 Tom Kelly The Art of Innovation Lessons in Creativity From IDEO
Americarsquos Leading Design Firm (Profile Books 2002)
2 Tim Brown Change by Design How Design Thinking Transforms
Organizations and Inspires Innovation (Harper Business 2009)
3 Jeanne Liedtka Randy Salzman and Daisy Azer Design Thinking for the
Greater Good Innovation in the Social Sector (Columbia Business School
Publishing 2017)
Web Links
bull Human-Centered Design Toolkit (IDEO)
httpswwwideocompostdesign-kit
bull Design Thinking Boot Camp Bootleg
(Stanford D-School)
httpsdschoolstanfordeduresource
sthe-bootcamp-bootleg bull Collective Action Toolkit (frogdesign)
httpswwwfrogdesigncomwpcontent
o uploads201603CAT_20_Englishpdf
bull Design Thinking for Educators (IDEO) httpsdesignthinkingforeducatorscom
AR19 Mechanical Engineering
Aditya Engineering College (A) 61
INTEGRAL TRANSFORMS AND APPLICATIONS OF PARTIAL
DIFFERENTIAL EQUATIONS (Common to CE ME Ag E)
III Semester L T P C
Course Code 191BS3T11 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
that are essential for an engineering course
COB 2 To help the students acquire problem analysis and problem solving skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compute the Fourier series of a function
CO 2 Compute the Fourier transform of a function
CO 3 Compute Laplace transform of a function
CO 4 Apply Laplace transform to solve initial value problems
CO 5 Solve one dimensional heat equation wave equation and two dimensional
Laplace equation
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO1 PSO2 PSO3 PSO4
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Fourier series
Fourier series of periodic function Dirichletrsquos conditions for Fourier expansion
Functions having points of discontinuities Change of interval Even and odd functions
Half-range series
UNIT-II
Fourier Transforms
Fourier integral theorem (without proof) Fourier sine and cosine integrals Fourier
Transforms Fourier sine and cosine transforms properties inverse transforms Finite
Fourier transforms
UNIT-III
Laplace Transforms
Laplace transforms of standard functions First Shifting theorem Change of scale
AR19 Mechanical Engineering
Aditya Engineering College (A) 62
Multiplication with t Division by t Transforms of derivatives and integrals Unit step
function Dirac delta function Periodic function Evaluating improper integrals by
using Laplace Transform
UNIT-IV
Inverse Laplace Transforms
Inverse Laplace transforms Convolution theorem (without proof) Second shifting
theorem
Solving differential equations and integro-differential equations using Laplace
transforms
(MATLAB Exercise Computing Laplace transform of f(t) using symbolic toolbox
Solving initial value problems)
UNIT-V
Application of PDE Classification of Higher order PDE - Method of separation of Variables- Solution of One dimensional Wave equation Heat equation and two-dimensional Laplace equation
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyengar 4th Edition Alpha
Science Publications
2 Advanced Engineering Mathematics Erwin Kreyszig 10th Edition Wiley-
3 Higher Engineering Mathematics BSGrewal 43rd Edition Khanna Publishers
Reference Books
1 Advanced engineering mathematics with MATLAB Dean G Duffy CRC Press
2 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited
2006
Web Links
1 httpsnptelacincourses111105123
2 httpsnptelacincourses111105093
3 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 63
FLUID MECHANICS AND HYDRAULIC MACHINERY
III Semester L T P C
Course Code 191ME3T01 3 0 0 3
Course Objectives
COB 1 Explain the properties of fluids and its applications
COB 2 Understand the principle of buoyancy stability of a floating body
COB 3 Analyze the losses in various flow systems
COB 4 Estimate the impact of jets on various vane geometries
COB 5 Understand the concepts of hydraulic machines and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Fluid Statics Kinematics and Dynamics
CO 2 Calculate the meta centric height of a submerged body
CO 3 Analyze the concepts of Boundary Layer Theory and its applications
CO 4 Model the derived Quantities with Dimensional Analysis
CO 5 Solve the hydrodynamic force of jet on various vanes
CO 6 Compare different types of Turbines and Pumps characteristics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 1 - - - - - - - - -
CO2 (K3) 3 3 1 - - - - - - - - -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 2 2 1 - - - - - - - - -
CO6 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K4) PSO 2(K4) PSO 3(K6)
CO1 (K2) - 3 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - 3 -
CO5 (K3) - - -
UNIT-I
Fluid Statics Dimensions and units Physical properties of fluidsndashMass Density
Specific weight Specific volume Specific gravity Viscosity Surface tension Vapor
pressure and their influence on fluid motion Atmospheric pressure Gauge pressure and
vacuum pressure Measurement of pressure Piezometers U-tube and differential
manometers
Buoyancy and Flotation Meta center Stability of floating body Submerged bodies
Calculation of metacentric height Stability analysis and applications
UNIT-II
Fluid Kinematics Streamline Path line and streak lines and stream tubes
Classification of flows ideal fluid and real fluidndashsteady and unsteady flows Uniform
and non-uniform flows Laminar and turbulent flows Rotational and irrotational flows
Equation of continuity for one-dimensional flows
AR19 Mechanical Engineering
Aditya Engineering College (A) 64
Fluid Dynamics Various forces acting on a fluid element- Eulerrsquos and Bernoullirsquos
equation for flow along a stream line Momentum equation and its applications for pipe
bend problem
UNIT-III
Closed Conduit Flow Reynolds number Reynolds experimentndashDarcyndashWeisbach
equationndashMinor losses in pipes Pipes in series and pipes in parallel Total energy line
Hydraulic gradient line
Boundary Layer Theory Introduction Momentum Integral equation Displacement
Momentum and energy thickness and Introduction to Aerodynamic forces like Drag
and Lift
UNIT-IV
Impact of Jet on Vanes Hydrodynamic force on jets on stationary and moving flat
Inclined and curved vanes Jet striking centrally and at tip Velocity diagrams Work
done and efficiency Flow over radial vanes
Introduction to Hydraulic Machinery
Hydraulic Turbines Classification of turbinesndashImpulse and reaction turbines Pelton
wheel Working principle
UNIT-V
Francis turbine and Kaplan turbinendashWorking principles Draft tube theory Functions
Introduction to Performance of turbines
Centrifugal and Reciprocating Pumps Classification Working of centrifugal pump
Working of Reciprocating pumps Discharge through Centrifugal Pumps Comparison
between Centrifugal and Reciprocating pumps Introduction to Performance of pumps
Text Books
1 Fluid Mechanics and Hydraulic Machines RKBansal Laxmi Publications (P)
Ltd 9th Edition
2 Fluid Mechanics Frank MWhite Mcgraw-Hill series 7th edition
Reference Books
1 Hydraulics and Fluid mechanics including Hydraulics machines by PNModi amp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
2 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
3 Fluid Mechanics and Fluid Power Engineering DS Kumar Kotaria amp Sons
Revised Edition
4 Fluid Mechanics and Machinery D Rama Durgaiah New Age International
Revised Edition
Web Links
1 httpnptelacincourses1121051711
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 65
COMPUTER AIDED ENGINEERING DRAWING PRACTICE (Common to ME amp Min E)
III Semester L T P C
Course Code 191ME3T02 2 0 2 3
Course Educational Objectives
COB 1 To train the students to improve the graphical skills in design of mechanical
components
COB 2 To impart the knowledge of drawing machine components in
AUTOCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Draw the sectional view of the solids
CO 2 Develop the surfaces of solids like prism pyramid cone and cylinder
CO 3 Sketch the intersection of solids and Isometric Views
CO 4 Draw the isometric and orthographic projections of the machine parts
through AutoCAD
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - 3 - -
CO2 (K3) 3 - - - - - - - - 3 - -
CO3 (K3) 3 - - - 3 - - - - 3 - 3
CO4 (K3) 3 - - - 3 - - - - 3 - 3
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) - - 1
CO4 (K3) - - 1
UNIT-I
Sections of Solids Cylinder Cone Prism and Pyramid
Development of Surfaces Cylinder Cone Prism and Pyramid
UNIT-II
Intersection of Solids Cylinder Cone Prism and Pyramid
UNIT-III
Isometric Projections Conversion of orthographic views to isometric views
UNIT-IV
Computer Aided Drafting 2D wire frame modelling 3D wire frame modelling View
point coordinates and view(s) displayed Examples to exercise different options like
save Restore Delete Joint Single option
UNIT-V
Computer Aided Solid Modeling Isometric projections Orthographic projections
of isometric projections
AR19 Mechanical Engineering
Aditya Engineering College (A) 66
Modeling of simple solids Modeling of Machines amp Machine Parts
Text Books
1 Engineering Drawing ND Bhatt Charotar Publications 53rd Edition
2 Text book of Engineering Drawing with Auto-CAD K Venkata Reddy BS
Publications 4th Edition
Reference Books
1 Mastering Auto CAD 2013 and Auto CAD LT 2013 ndash George Omura Sybex
Publication
2 Auto CAD 2013 fundamentals- Elisemoss SDC Publication
3 Engineering Drawing and Graphics using AutoCAD T Jeyapoovan Vikas
Publication
4 Engineering Drawing Auto CAD K Venugopal V Prabhu Raja New Age
Publication
Web Links
1 httpnptelacincourses11210301935
2 httpnptelacincourses11210301933
3 httpwwwengineeringdrawingorgcategoryprojection_of_solids
4 httpwwwengineeringdrawingorgcategorysection_of_solids
AR19 Mechanical Engineering
Aditya Engineering College (A) 67
MECHANICS OF SOLIDS
III Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make the student calculate the various types of stresses and strains in a
body for various loading conditions
COB 2 To make the student draw the shear force and bending moment diagrams for
beams of various loading conditions
COB 3 To train the students calculate the bending and shear stresses across the
beams of various cross-sections
COB 4 To enable the student determine the slope and deflection of beam under
various loads
COB 5 To make the student solve the shear stress due to twisting and buckling load
in columns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the stresses and strains in bodies of varying cross-section
Composite bars
CO 2 Sketch the shear force and bending moment diagrams for beams of various
supports and loads
CO 3 Analyze the variation of bending and shear stresses across a beam cross-
section
CO 4 Calculate the slope and deflection for beams of various load and support
arrangements
CO 5 Compute the shear stresses due to application of twisting moment
CO 6 Evaluate the buckling loads for various columns
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 2 2 - - 1 - - 1 - 1
CO2 (K3) 3 2 1 - - - 1 - - 1 - 1
CO3 (K4) 3 3 2 2 - - 1 - - 1 - 1
CO4 (K3) 3 2 1 2 - - 1 - - 1 - 1
CO5 (K3) 3 2 1 2 - - 1 - - 1 - 1
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 1 -
CO2 (K3) 1 1 -
CO3 (K4) 1 1 -
CO4 (K3) 1 1 -
CO5 (K3) 1 1 -
UNIT-I
Simple Stresses amp Strains Elasticity and plasticity ndash Types of stresses amp strainsndash
Hookersquos law ndash stress ndash strain diagram for mild steel ndash Working stress ndash Factor of safety
ndash Lateral strain Poissonrsquos ratio amp Volumetric strain ndash Bars of varying section ndash
Composite bars ndash Temperature stresses- Relation between elastic constants- Strain
energy ndash Resilience ndash Gradual Sudden Impact and Shock loadings
AR19 Mechanical Engineering
Aditya Engineering College (A) 68
UNIT-II
Shear Force and Bending Moment Definition of beam ndash Types of beams ndash Concept
of shear force and Bending moment ndash SF and BM diagrams for Cantilever Simply
supported and Overhanging beams subjected to point loads Uniformly distributing
loads Uniformly varying loads Simple couples Eccentric loads and combination of
these loads ndash Point of contra flexure ndash Relation between SF BM and rate of loading
at a section of a beam
UNIT-III
Flexural Stresses Theory of simple bending ndash Assumptions ndash Bending equation-
Neutral axis ndash Bending stresses ndash Section modulus of rectangular and circular sections
(Solid and Hollow)-I-section T-section Angle and Channel section ndash Design of simple
beam sections
Shear Stresses Shear stress distribution across various beams sections-Rectangular
Circular Triangular I-section T-section Angle section
UNIT-IV
Deflection of Beams Bending into a circular arc ndash Slope Deflection and Radius of
curvature ndash Differential equation for the elastic line of a beam ndash Double integration and
Macaulayrsquos methods ndash Determination of slope and deflection for cantilever and simply
supported beams subjected to point loads ndash Uniformly distributing loads ndash Uniformly
varying loadndash Moment area method ndash Mohrrsquos theorems -Application to simple cases
including overhanging beams
UNIT-V
Torsion Introduction ndash Derivation ndash Torsion of Circular shafts ndash Pure Shear ndash
Transmission of power by circular shafts Shafts in series Shafts in parallel
Columns Buckling and Stability Columns with Pinned ends Columns with other
support conditions Limitations of Eulerrsquos Formula Rankinersquos Formula
Text Books
1 Mechanics of Materials B C Punmia Laxmi Publications
2 Strength of Materials GH Ryder 3rd Edition
Reference Books
1 Mechanics of Materials James M Gere Nelson Thornes Publication 6th
Edition
2 Mechanics of Materials E Russell Johnston and John T Dewolf Mc Graw Hills
3rd Edition
3 Strength of Materials Part-1 STimshenko CBS Publication 3rd Edition
4 Strength of Materials S Ramamrutham Dhanapat Rai Publications 16th Edition
Web Links
1 httpnptelacincourses112107147
2 httpwwwnptelacincoursesWebcoursecontentsIITROORKEEstrength20of
20materialshomepagehtm
3 httpswwwaccessengineeringlibrarycommapsstrength-of-materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 69
THERMODYNAMICS
III Semester L T P C
Course Code 191ME3T04 3 0 0 3
Course Objectives
COB 1 To impart the knowledge of basic concepts of thermodynamics
COB 2 To illustrate the concept of first law of thermodynamics and applications
COB 3 To illustrate the concept of second law of thermodynamics
COB 4 To facilitate the students to know the concepts of pure substance and their
properties
COB 5 To help the students learn the properties of gas mixtures and power cycles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain basic concepts properties of substances and Laws of
thermodynamics
CO 2 Analyze thermodynamic processes using laws of thermodynamics
CO 3 Analyze thermodynamic processes to calculate heat and work transfer
CO 4 Suggest solutions for thermodynamic cycles application
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 - - - - - - - - - -
CO2 (K4) 3 3 - - - - - - - - - 1
CO3 (K4) 3 2 1 1 - - - - - - - 1
CO4 (K4) 3 3 1 1 - - - - - - - 1
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K4) 1 2 -
CO3 (K4) 1 2 -
CO4 (K4) 1 2 -
UNIT-I
Basic Concepts of Thermodynamics Introduction system boundary surrounding
control volume universe types of system Macroscopic and Microscopic View Point
concept of Continuum control volume control space Thermodynamic Equilibrium
State property process cycle Reversibility Quasi static process irreversible process
causes of irreversibility energy in state and energy in transition types of work and heat
point and path function Zeroth law of Thermodynamics- Concept of temperature
principles of thermometry reference points constant volume gas thermometer Scales
of temperature ideal gas scale
First Law of Thermodynamics Joulersquos Experiment- First law of thermodynamics
PMM-I Corollaries- First law applied to a Process applied to a system Steady Flow
Energy Equation throttling and free expansion processes Energy Balance deviations
from perfect gas model Vander walls equation of state compressibility charts variable
specific heats gas tables
AR19 Mechanical Engineering
Aditya Engineering College (A) 70
UNIT-II
Second Law of Thermodynamics Limitations of first law of thermodynamics
thermal reservoir heat engine heat pump parameters of performance second law of
thermodynamics Kelvin Planck and Clausius statements and their equivalence
collieries PMM-II Carnot Principle Carnot cycle and its specialities Thermodynamic
scale of temperature Clausius inequality Entropy principle of entropy increase
energy equation availability and irreversibility thermodynamic potentials Gibbs and
Helmholtz functions Maxwell relations elementary treatment of the third law of
thermodynamics
UNIT-III
Properties of Pure Substances Pure substance P-V-T surfaces T-S amp h-s diagrams
Mollier chart phase transformations triple point at critical state properties during the
change of phase dryness fraction Clausius Clapeyron equation property tables
Various thermodynamic processes energy transfer steam calorimetry
UNIT-IV
Properties of Gas Mixtures Mixture of perfect gases mole fraction mass fraction
gravimetric amp volumetric analysis Daltonrsquos law of partial pressure Avogadrorsquos law of
additive volumes equivalent gas constant molecular internal energy enthalpy of
specific heats and entropy of mixture of perfect gasses vapour and atmospheric air
UNIT-V
Thermodynamic Cycles
Air Standard Cycles Carnot Cycle Otto Cycle Diesel amp Dual Cycle
Gas Power Cycles Sterling Cycle Atkinson Cycle Ericson Cycle Lenoir Cycle
Refrigeration Cycles Carnot cycle Bell Coleman cycle Vapor Refrigeration cycles-
Description and representation on PndashV and T-S diagram Thermal Efficiency Mean
Effective pressures on Air standard basis ndash Comparison of Cycles
Text Books
1 Engineering Thermodynamics PK Nag Tata McGraw Hill Publishers 5th
Edition
2 Heat Engineering VPVasandhani amp DS Kumar Metropolitan Book Depot
2011 Edition
Reference Books
1 Thermodynamics An Engineering Approach YA Cengel and MA Boles Tata
Mc-Graw Hill Publishers 7th Edition
2 Engineering Thermodynamics Mayhew and Rogers Longman Green amp Co Ltd
London ELBS 8th Edition
3 Fundamentals of Classical Thermodynamics (SI Version) Van Wylen GJ and
Sonntag RE 2nd Edition
Web Links
1 httpswwwnptelacincourses1121051231
2 httpswww3ndedu~powersame20231planckdoverpdf
3 httpswwweduinformercomengineering-thermodyna
AR19 Mechanical Engineering
Aditya Engineering College (A) 71
METALLURGY AND MATERIALS SCIENCE
III Semester L T P C
Course Code 191ME3T05 3 0 0 3
Course Objectives
COB 1 To make the students familiarize with the concepts of structure of metals and
mechanical behaviour of materials
COB 2 To make the students understand the basic knowledge in the constitution of
alloys and in different types of alloy systems
COB 3 To teach the basic concept of iron-iron carbide equilibrium diagram and heat
treatment of alloys
COB 4 To make the students comprehend the areas of non-ferrous metals and alloys
COB 5 To make the students understand the basic concepts in the area of ceramic
and composite materials
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concepts of structure of metals and mechanical behavior under
different loading conditions
CO 2 Apply the concepts of equilibrium diagrams to make use of various alloys in
various industrial applications
CO 3 Discuss the concept of solidification of alloys and the analyze phases of iron-
iron carbide equilibrium diagram
CO 4 Apply the processes of heat treatment on different types of Cast irons and
Steels
CO 5 Use the concepts of non-ferrous metals and alloys in industrial applications
CO 6 Summarize the properties and applications of ceramic and composite
materials
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 - - - - - - - - - - -
CO2 (K3) 2 - - - - 1 1 - - - - -
CO3 (K3) 2 - - - - - - - - - - -
CO4 (K3) 2 - - - - 2 2 - - - - -
CO5 (K3) 2 - - - - 1 1 - - - - -
CO6 (K3) 2 - - - - 1 1 - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
CO6(K3) 1 - -
UNIT-I
Structure of Metals Bonds in solids-metallic bond-crystal structure - BCC FCC HCP
Unit cells Packing factor Crystallization of metals Grains and grain boundaries Effect of
grain boundaries on properties of metals Crystal imperfections
Mechanical Behavior of Materials Elastic deformation Plastic deformation - Twinning
AR19 Mechanical Engineering
Aditya Engineering College (A) 72
Fracture
Constitution of alloys Necessity of alloying Types of solid solutions Hume Rothery
rules Intermediate alloy phases and Electron compounds
UNIT-II
Equilibrium Diagrams Phase rule Experimental method of construction of equilibrium
diagrams Isomorphous alloy systems Equilibrium cooling and heating of alloys Lever rule
Coring miscibility gaps Eutectic systems Congruent melting intermediate phases Peritectic
reaction Transformations in solid state ndash allotropy Eutectoid Peritectoid reactions
Relationship between equilibrium diagrams and properties of alloys Study of important
binary phase diagrams of Cu-Ni Al-Cu Bi-Cd Cu-An Cus-Sn and Fe-Fe3C
UNIT-III
Metallurgy of Iron and Steels Fe-Fe3C equilibrium diagram Micro constituents in steels
Classification of steels Structure and properties of plain carbon steels Heat treatment of
steels- Annealing Normalizing Hardening TTT diagrams Tempering Hardenability
Surface hardening methods Age hardening treatment Cryogenic treatment of alloys Effect
of alloying elements on Fe-Fe3C system Low alloy steels Stainless steels Hadfield
manganese steels Tool steels and Die steels Structure and properties of White cast iron
Malleable cast iron Grey cast iron and Spheroidal grey cast iron
UNIT-IV
Non-Ferrous Metals and Alloys
Structure and properties of Copper and its alloys Aluminum and its alloys and Titanium and its alloys
UNIT-V
Ceramic Materials Crystalline ceramics Glasses Cermets Abrasive materials Nano
materials - Definition Properties and Applications
Composite Materials Classification of Composites Particle reinforced materials Fiber
reinforced materials Metal ceramic mixtures Metal-matrix composite and C-C composites
Introduction to Powder metallurgy Preparation methods and Applications of Powder
metallurgy- Selection of materials for various industrial applications
Text Books
1 Introduction to Physical Metallurgy Sidney H Avner TMH Publications 2nd Edition
2 Materials Science and Metallurgy VD Kodgire Everest Publishing House 39th
Edition
Reference Books
1 Materials Science and Engineering An Introduction William DCallister Wiley
Publications 9th Edition
2 Elements of Materials Science VRaghavan Pearson Education 6th Edition
3 Engineering Materials amp Metallurgy RK Rajput S Chand Publications 2nd Edition
4 Essentials of Material Science Donald Askeland SI Edition 3rd Edition
Web Links
1 httpnptelacincourses113105021
2 wwwthemetalcastingcom
3 httpswwwtuenl
4 httpswwweurothermcommetallic-alloys
AR19 Mechanical Engineering
Aditya Engineering College (A) 73
FLUID MECHANICS AND HYDRAULIC MACHINERY LAB
III Semester L T P C
Course Code 191ME3L01 0 0 3 15
Course Objectives
COB 1 Apply Bernoullirsquos principle for practical pipe flow applications
COB 2 Distinguish performance of venture meter and orifice meters
COB 3 Choosing the Centrifugal and Reciprocating pumps based on application
COB 4 Understand the impact of water jets on various vane geometries
COB 5 Select the Impulse and Reaction turbines based on application
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the head losses causing decrease in energy of flow experimentally
and by the verification of Bernoullirsquos theorem
CO 2 Compare the flow meters for their better performing characteristics when
used in pipes of turbines etc
CO 3 Calculate the efficiencies of Centrifugal and Reciprocating pumps while
maintaining similar conditions
CO 4 Evaluate performance characteristic curves and efficiencies of different
hydraulic turbines
CO 5 Calculate the work done and efficiency of various vane shapes for turbine
applications
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - 2 - - - - 2 1 - 2
CO2 (K2) 2 2 - 2 - - - - 2 1 - 2
CO3 (K3) 3 2 - 2 - - - - 2 1 - 2
CO4 (K5) 3 2 - 2 - - - - 2 1 - 2
CO5 (K3) 3 2 - 2 - - - - 2 1 - 2
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K2) - 2 -
CO3 (K3) - 2 -
CO4 (K5) - 3 -
CO5 (K3) - 2 -
The following experiments are required to be conducted as compulsory
experiments
1 To determine the of major losses (friction factor) in pipes
2 To determine the minor losses in pipes
3 To determine the of co-efficient of discharge of a Venturi meter
4 To determine the of co-efficient of discharge of an Orifice meter
5 To determine the Discharge and efficiency of a Centrifugal pump
6 To determine the Discharge and efficiency of a Reciprocating pump
7 To determine the Head Discharge and efficiency of a Pelton wheel
8 To determine the Head Discharge and efficiency of a Francis turbine
AR19 Mechanical Engineering
Aditya Engineering College (A) 74
9 To determine the Head Discharge and efficiency of a Kaplan turbine
10 To determine the velocity of flow at any point in a pipe using Pitot tube
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 To verify the Bernoullirsquos theorem using experimental setup
12 To find the Laminar and Turbulent flow types using Reynoldsrsquos Experiment
13 To determine the co-efficient of discharge of a Rotameter
14 To determine the co-efficient of the discharge of a water meter
Reference Books
1 Hydraulic Machines by Banga amp Sharma Khanna Publishers6th Edition
2 Hydraulics and Fluid mechanics including Hydraulics machines by
3 PNModi amp SMSeth Rajsons publications pvt ltd Standard Book House
(2017 edition)
4 Fluid Mechanics and Hydraulic Machines RK Rajput SChand
Web Links
1 httpwwwscience-animationscomfluidmechanicshtml
2 httpsiitbmechdampwordpress
AR19 Mechanical Engineering
Aditya Engineering College (A) 75
MECHANICS OF SOLIDS AND METALLURGY LAB
III Semester L T P C
Course Code 191ME3L02 0 0 3 15
Course Objectives
COB 1 To impart the practical knowledge on testing of material mechanical
behavior under various direct loads
COB 2 To make the students to test the mechanical behavior of spring and cube
under load
COB 3 To impart the practical knowledge on testing of material under various
indirect loads
COB 4 To make the students to study of the Micro Structure of pure metals and
alloys
COB 5 To aware the students to calculate the hardness of various treated and
untreated steels
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the material mechanical behavior under various direct loads
CO 2 Calculate the mechanical strength of spring and cube
CO 3 Demonstrate the materials mechanical behavior under various indirect loads
CO 4 Analyze the Structure of pure metals and alloys
CO 5 Estimate the hardness of various treated and untreated steels
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - 3 - 2 2 - -
CO2(K3) 3 2 - - - - 3 - 2 2 - -
CO3(K2) 2 1 - - - - 3 - 2 2 - -
CO4(K4) 3 3 - - - - 3 - 2 2 - -
CO5(K2) 2 1 - - - - 3 - 2 2 - -
Mapping of course outcomes with program Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1(K2) 1 2 -
CO2(K3) 1 2 -
CO3(K2) 1 2 -
CO4(K4) - 2 1
CO5(K2) - 2 1
The following experiments are required to be conducted as compulsory
experiments
Section A Mechanics of Solids
1 To conduct direct tension test on mild steel bar
2 To conduct bending test on Simply supported beam amp Cantilever beam
3 To determine Modulus of rigidity of given specimen by conducting Torsion
4 To determine hardness value for the given metal specimen using
(a) Brinell hardness tester (b) Rockwell hardness tester
5 To conduct compression and tension test on springs
6 To determine the compression strength on cube by UTM
AR19 Mechanical Engineering
Aditya Engineering College (A) 76
The following experiments are required to be conducted as compulsory
experiments
Section B Metallurgy amp Material Science
7 To Analyze the Micro Structure of pure metals like Iron Cu and Al
8 To Analyze the Microstructure of Mild steels low carbon steels high carbon
steels
9 To Analyze the Micro Structures of Cast Irons
10 To Analyze the Micro Structures of Non-Ferrous alloys
11 To Analyze the Micro structures of Heat treated steels
12 To determine the hardenability of steels by Jominy End Quench Test
List of Augmented Experiments - Mechanics of Solids
(Any one of the following experiments can be performed)
13 To conduct Impact test by (a) Izod test (b) Charpy test
14 To find shear strength on given specimen by Punch shear test
15 To determine the maximum shear stress induced in circular beam
List of Augmented Experiments - Metallurgy amp Material Science
(Any one of the following experiments can be performed)
16 To find out the hardness of various treated and untreated steels
17 To study the microstructure of high speed steels
18 To find the increase in hardness values for the given steel alloys (EN8) specimen
by (oil quenching) medium hardening method
Reference Books
1 A laboratory manual of Metals and Alloys S M Ashram Sharif Ahmed Volume
2 Strength of Materials RKRajput SChand Publications 4th edition
3 Introduction to Physical Metallurgy Sidney H Avener TMH 2nd edition
Web Links
1 httpwwwmlrinstitutionsacinsitesdefaultfileslab1cb1938e0e081ecdd712d1c
8778bd2fc 1- MMS-labpdf
2 httpwwwiitkacinmseoldmse_newfacilitieslaboratoriesMaterial_Testing_
LabMSE313Apdf
3 httpwebmiteduemechdontindex-build
AR19 Mechanical Engineering
Aditya Engineering College (A) 77
EMPLOYABILITY SKILLS-I (Common to all branches)
III Semester L T P C
Course Code 191MC3A03 0 0 2 0
Course Objectives
COB 1 To provide necessary training to impart employability skills
COB 2 To Prepare Students for Campus Placements
COB 3 To Improve Confidence Decision Making in Career planning
COB 4 To Achieve Life Goals with Proper Time Management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the number and letter series techniques in different models
CO 2 Differentiate Career Objectives ampGoals
CO 3 Compare the different types of number and letter analogy models
CO 4 Transfer the different models of coded elements to decoded elements
CO 5 Illustrate Out Of Box thinking in Students
CO 6 Solve LCM amp HCF Simple Equations by using simple logics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
UNIT-I
Aptitude Number series
Soft Skills Attitude SWOT analysis self-confidence self esteem
UNIT-II
Aptitude Number Analogy
Soft Skills Decision Making Situation Reaction Test
UNIT-III
Aptitude Letter series Letter Analogy Coding amp Decoding
Soft Skills Verbal Aptitude-I synonyms Antonyms Spotting of errors
AR19 Mechanical Engineering
Aditya Engineering College (A) 78
UNIT-IV
Aptitude Divisibility Rules LCMampHCF
Soft Skills Creativity Out of box thinking lateral thinking
UNIT-V
Aptitude Simple Equations
Soft Skills Goal setting Smart goals Time Management
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 79
ESSENCE OF INDIAN TRADITIONAL KNOWLEDGE (Common to all branches)
III Semester L T P C
Course Code 191MC3A04 2 0 0 0
Course Objectives
COB 1 To facilitate the students with the concepts of Indian traditional knowledge
and to make them understand the Importance of roots of knowledge system
COB 2 To make the students understand the traditional knowledge and analyse it
and apply it to their day to day life
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the concept of Traditional knowledge and its importance
CO 2 Explain the need and importance of protecting traditional knowledge
CO 3 Illustrate the various enactments related to the protection of traditional
knowledge
CO 4 Interpret the concepts of Intellectual property to protect the traditional
knowledge
CO 5 Explain the importance of Traditional knowledge in Agriculture and
Medicine
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K3) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K3) - - - - - - - - - - - -
CO 5 (K3) - - - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Introduction to traditional knowledge Define traditional knowledge nature and
characteristics scope and importance kinds of traditional knowledge Indigenous
Knowledge (IK) characteristics traditional knowledge vis-agrave-vis indigenous
knowledge traditional knowledge Vs western knowledge traditional knowledge
UNIT-II
Protection of traditional knowledge The need for protecting traditional knowledge
Significance of TK Protection value of TK in global economy Role of Government
to harness TK
AR19 Mechanical Engineering
Aditya Engineering College (A) 80
UNIT-III
Legal framework and TK
The Scheduled Tribes and Other Traditional Forest Dwellers (Recognition of Forest
Rights) Act 2006 Plant Varieties Protection and Farmers Rights Act 2001 (PPVFR
Act) The Biological Diversity Act 2002 and Rules 2004 the protection of traditional
knowledge bill 2016
UNIT-IV
Traditional knowledge and intellectual property Systems of traditional knowledge
protection Legal concepts for the protection of traditional knowledge Patents and
traditional knowledge Strategies to increase protection of traditional knowledge
UNIT-V
Traditional knowledge in different sectors Traditional knowledge and engineering
Traditional medicine system TK in agriculture Traditional societies depend on it for
their food and healthcare needs Importance of conservation and sustainable
development of environment Management of biodiversity Food security of the
country and protection of TK
Text Books
1 Traditional Knowledge System in India by Amit Jha 2009
2 Traditional Knowledge System and Technology in India by Basanta Kumar
Reference Books
1 Traditional Knowledge System in India by Amit Jha Atlantic publishers 2002
2 Knowledge Traditions and Practices of India Kapil Kapoor1 Michel Danino2
Web Links
1 httpswwwyoutubecomwatchv=LZP1StpYEPM
2 httpnptelacincourses121106003
AR19 Mechanical Engineering
Aditya Engineering College (A) 81
NUMERICAL METHODS amp STATISTICAL TECHNIQUES (Common to CE ME amp AgE)
IV Semester L T P C
Course Code 191BS4T16 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
those are essential for an engineering course
COB 2 To familiarize the students with the foundations of probability and statistical
methods and solve application problems in their disciplines
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply numerical methods to solve equations and interpolation of polynomials
CO 2 Apply numerical methods to solve initial value problems and problems
involving integration
CO 3 Apply discrete and continuous probability distributions
CO 4 Compute the components of a classical hypothesis test
CO 5 Apply the statistical inferential methods based on small and large sampling
tests
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Solution of Algebraic and Transcendental Equations
Introduction Bisection method Secant method Method of false position Iteration
method Newton - Raphson method
Interpolation
Introduction to Interpolation Finite differences Forward differences Backward
differences Central difference Relation between operators Newtonrsquos formula for
interpolation Lagrangersquos interpolation Newtonrsquos divided difference interpolation
UNIT-II
Numerical Integration and solution of Ordinary Differential Equations
Trapezoidal rule Simpsonrsquos 13rd and 38th rule Solution of ordinary differential
equations by Taylorrsquos series Picardrsquos method of successive Eulerrsquos method Modified
Eulerrsquos method Runge-Kutta method (fourth order)
AR19 Mechanical Engineering
Aditya Engineering College (A) 82
UNIT-III
Probability and Distributions
Review of probability and Bayersquos theorem ndash Random variables ndash Discrete and
Continuous random variables ndash Distribution function ndash Mathematical Expectation and
Variance ndash Binomial Poisson Uniform and Normal distributions
UNIT - IV
Sampling Theory
Introduction ndash Population and samples ndash Sampling distribution of Means and Variance
(definition only) ndash Central limit theorem (without proof) ndash Introduction to t 2 and F-
distributions ndash Point and Interval estimations ndash Maximum error of estimate
UNIT- V
Tests of Hypothesis
Introduction ndash Hypothesis ndash Null and Alternative Hypothesis ndash Type I and Type II
errors ndash Level of significance ndash One tail and two-tail tests ndash Tests concerning one mean
and two means (Large and Small samples) ndash Tests on proportions
Text Books
1 Advanced Engineering Mathematics R K Jain S R K Iyengar 4th Edition
Alpha Science Publications
2 Miller and Freundrsquos Probability and Statistics for Engineers 7e Pearson 2008
3 Higher Engineering Mathematics B S Grewal 43rdEdition Khanna Publishers
Reference Books
1 M K Jain S R K Iyengar and R K Jain Numerical Methods for Scientific
and engineering Computations New age International Publication (P) Ltd
2 S C Gupta and V K Kapoor Fundamentals of Mathematical Statistics 11e
Sultan Chandamp Sons Publications 2012
3 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
4 Sheldon M Ross Introduction to probability and statistics Engineers and the
Scientists 4th Edition Academic Foundation 2011
Web Links
1 httpsnptelacincourses111107111107105
2 httpsnptelacincourses111105111105041
3 httpsnptelacincourses111105111105090
4 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 83
MANAGERIAL ECONOMICS AND FINANCIAL ANALYSIS (Common To CE EEE ME ECE CSE IT AgE amp PT)
IV Semester L T P C
Course Code 191HS4T04 3 0 0 3
Course Objectives
COB 1 To equip the students with the basic inputs of managerial economics and
demand concepts
COB 2 To understand the nature of markets Methods of Pricing in the different
market structures and to know the different forms of Business organization
and the concept of Business Cycles
COB 3 To impart the knowledge on production theories its factors and cost
analysis
COB 4 To make the students take optimal decisions and acquiring the knowledge
on financial accounting and its analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Managerial Economic concepts for decision making and forward
planning
CO 2 Illustrate the law of demand and its exceptions by using different forecasting
methods
CO 3 Identify the cost behavior for managerial decision making and Break Even
Point (BEP) of an enterprise
CO 4 Classify the different types of business organizations along with basic
knowledge on business cycle
CO 5 Make use of the process amp principles of accounting for the preparation of
final accounts
CO 6 Utilize various techniques on investment project proposals with the help of
capital budgeting techniques for decision making
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) - - - - - - - - - - - -
CO 2(K2) 1 1 - - - - - - - 1 - -
CO 3(K3) - - - - - - - - - - 1 -
CO 4(K2) 1 1 - - - - - - - - 1 -
CO 5(K3) 1 1 - - - - - 2 - 1 - -
CO 6(K3) 1 1 - - - - - - - - 1 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K2) - - -
CO 2(K2) - - -
CO 3(K3) - - -
CO 4(K2) - - -
CO 5(K3) - - -
CO 6(K3) - - -
UNIT-I
Introduction to Managerial Economics and demand Analysis
Definition of Managerial Economics ndashScope of Managerial Economics and its
relationship with other subjects ndashConcept of Demand Types of Demand Determinants
of Demand- Demand schedule Demand curve Law of Demand and its limitations-
AR19 Mechanical Engineering
Aditya Engineering College (A) 84
Elasticity of Demand Types and Measurement-Demand forecasting and its Methods
UNIT-II
Production and Cost Analyses
Concept of Production function- Cobb-Douglas Production function ndash Law of Variable
proportions-Isoquants and Isocosts and choice of least cost factor combination-Concepts
of Returns to scale and Economies of scale-Different cost concepts opportunity costs
explicit and implicit costs- Fixed costs Variable Costs and Total costs ndash Cost ndashVolume-
Profit analysis-Determination of Breakeven point(simple problems)- Managerial
significance and limitations of Breakeven point
UNIT-III
Introduction to Markets Pricing Policies amp Types of Business Organization and
Business Cycles
Market Structures Perfect Competition Monopoly Monopolistic competition and
Oligopoly ndash Features ndash Price and Output Determination ndash Methods of Pricing Average
cost pricing Limit Pricing Market Skimming Pricing and Internet Pricing Flat Rate
Pricing Usage sensitive pricing and Priority Pricing Features and Evaluation of Sole
Trader Partnership Joint Stock Company ndash Business Cycles Phases of Business Cycles
UNIT-IV
Introduction to Accounting amp Financing Analysis
Introduction to Double Entry Systems ndash Journal entries ndash Ledger ndash Trail Balance ndash
Trading and Profit and Loss Account - Preparation of Financial Statements - Introduction
to Ratio Analysis
UNIT-V
Capital and Capital Budgeting Capital Budgeting Meaning of Capital- Capitalization-
Meaning of Capital Budgeting-Time value of money- Methods of appraising Project
profitability Traditional Methods(pay back period accounting rate of return) and modern
methods(Discounted cash flow method Net Present Value method Internal Rate of
Return Method and Profitability Index)
Text Books
1 Dr A R Aryasri ndash Managerial Economics and Financial Analysis TMH 2011
2 Dr N Appa Rao Dr P Vijay Kumar lsquoManagerial Economics and Financial
Analysisrsquo Cengage Publications New Delhi ndash 2011
3 Prof JVPrabhakara rao Prof P Venkatarao lsquoManagerial Economics and Financial
Analysisrsquo Ravindra Publication
Reference Books
1 V Maheswari Managerial Economics Sultan Chand
2 Suma Damodaran Managerial Economics Oxford 2011
3 Dr B Kuberudu and Dr T V Ramana Managerial Economics amp Financial
Analysis Himalaya Publishing House 2011
4 Vanitha Agarwal Managerial Economics Pearson Publications 2011
5 Sanjay Dhameja Financial Accounting for Managers Pearson
6 Maheswari Financial Accounting Vikas Publications
7 S A Siddiqui amp A S Siddiqui Managerial Economics and Financial Analysis
New Age International Publishers 2012
Web Links
1 wwwmanagementstudyguidecom
2 wwwtutorialspointcom
AR19 Mechanical Engineering
Aditya Engineering College (A) 85
INTERNET OF THINGS
IV Semester L T P C
Course Code 191ES4T15 3 0 0 3
Course Objectives
COB 1 To present interconnection and integration of the physical world and the cyber
space
COB 2 To demonstrate applications of Internet of Things
COB 3 To educate building blocks and characteristics of Internet of Things
COB 4 To introduce communication protocols used in Internet of Things
COB 5 To impart knowledge on design amp develop IoT devices
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the application areas of IoT
CO 2 Illustrate revolution of Internet in Mobile Devices Cloud amp Sensor Networks
CO 3 Explain communication protocols used in IoT
CO 4 Make use of Raspberry PI programming to implement Internet of Things
through Arduino
CO 5 Apply the principles of IoT in real world scenario
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 3 - - - - - - - - - -
CO2 (K3) 2 2 2 - - - - - - - - -
CO3 (K4) 3 2 2 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K3) 3 1 3 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to IoT
Internet of Things - Physical Design- Logical Design- IoT Enabling Technologies - IoT
Levels amp Deployment Templates - Domain Specific IoTs - IoT and M2M - IoT System
Management with NETCONF-YANG- IoT Platforms Design Methodology
UNIT-II
IoT Architecture
M2M high-level ETSI architecture - IETF architecture for IoT - OGC architecture - IoT
reference model - Domain model - information model - functional model - communication
model - IoT reference architecture
AR19 Mechanical Engineering
Aditya Engineering College (A) 86
UNIT-III
IoT Protocols
Protocol Standardization for IoT ndash Efforts ndash M2M and WSN Protocols ndash SCADA and RFID
Protocols ndash Unified Data Standards ndash Protocols ndash IEEE 802154 ndash BACNet Protocol ndash
Modbusndash Zigbee Architecture ndash Network layer ndash 6LowPAN - CoAP ndash Security
UNIT-IV
Building IoT with Raspberry PI amp Arduino
Building IOT with RASPERRY PI- IoT Systems - Logical Design using Python ndash IoT
Physical Devices amp Endpoints - IoT Device -Building blocks -Raspberry Pi -Board - Linux
on Raspberry Pi - Raspberry Pi Interfaces -Programming Raspberry Pi with Python - Other
IoT Platforms - Arduino
UNIT-V
Case Studies And Real-World Applications
Biometric Car Door opening system Accident monitoring system Engine oil and Coolant
level monitoring system Fleet and Driver Management system Smart road communication
system Road Vehicle communication at hilly areas real time car telematics tracking system
Text Books
1 Rajesh Singh Anita Gehlot etal - Internet of Things in Automotive Industries and
Road Safety Electronic Circuits program Coding and Cloud Servers River
publishers ISBN- 978-87-7022-010-1
2 Arshdeep Bahga Vijay Madisetti ―Internet of Things ndash A hands-on approach
Universities Press 2015
Reference Books
1 Dieter Uckelmann Mark Harrison Michahelles Florian (Eds) ―Architecting the
Internet of Things Springer 2011
2 Honbo Zhou ―The Internet of Things in the Cloud A Middleware Perspective
CRC Press 2012
3 Olivier Hersent David Boswarthick Omar Elloumi ―The Internet of Things ndash Key
applications and Protocols Wiley 2012
Web Links
1 httpsonlinecoursesnptelacinnoc18_cs46preview
2 httpsswayamgovincoursespublickeyword=Introduction20to20internet20
of20things
3 httpsswayamgovincoursespublickeyword=Design20for20internet20of
20things
4 httpswwwcourseraorgspecializationsiot
AR19 Mechanical Engineering
Aditya Engineering College (A) 87
PRODUCTION TECHNOLOGY
IV Semester L T P C
Course Code 191ME4T06 3 0 0 3
Course Objectives
COB 1 To make the students to understand the fundamentals of casting and their
application
COB 2 To impart the knowledge of special types of casting processes solidification of
metals and different casting defects
COB 3 To perceive the students various types of welding processes and welding defects
COB 4 To introduce the fundamentals of various sheet metal forming techniques and
plastic processing techniques
COB 5 To enable the students to acquire the types of bulk forming processes rolling and
various extrusion methods
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basics of casting and its applications
CO 2 Demonstrate various special casting processes
CO 3 Distinguish between the different joining techniques
CO 4 Explain the basics of sheet metal forming and plastics processing techniques
CO 5 Summarize the bulk metal deforming process
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 - - - - - - - 2 2 - -
CO2 (K3) 2 - - - - - - - 2 - - -
CO3 (K4) 2 - - - - - - - - - - -
CO4 (K3) - - - - - - - - - - - -
CO5 (K3) 1 - - - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 3 - -
CO3 (K4) 3 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction
Engineering materials and its properties and classification of various manufacturing
processes
Casting Introduction to casting Requirements of casting Steps involved in making a
casting Advantage of casting and its applications
Patterns Types of patterns Materials used for patterns
Allowances All Pattern allowances and their construction
Gating Principles of Gating Gating ratio and design of gating systems
Runner amp Risers Types function and design of riser Cleaning of castings
AR19 Mechanical Engineering
Aditya Engineering College (A) 88
UNIT-II
Special Casting Techniques
Molding sand Preparation and Composition Sand property test Casting shakeout Core
Types of core Core print Chaplets Chills and Exothermic materials applications in sand
casting Metal fluidity
Furnace Crucible furnace Cupola Induction furnace Reverberatory furnace Open
hearth Arc furnace
Casting design considerations
Solidification of casting Concept of Solidification of metal and Alloys Problems on
solidification time
Special casting processes Centrifugal casting Die casting and Investment casting Shell
molding
Casting defects Causes and remedies
UNIT-III
Metal Joining Methods
Introduction to welding process Classification of welding processes Types of welded
joints and their characteristics
Gas welding Different types of flames Oxy-acetylene welding and Cutting
Arc welding Basic principles of Arc welding V-I Characteristic curves of power source
Problems on V-I Characteristic Duty cycle MMAW SAW TIG MIG
Solid state welding processes Friction welding Friction stir welding Forge welding
Explosive welding Thermit welding PAW Laser beam welding EBW Soldering amp
Brazing Resistance welding and its types Heat affected zone (HAZ)
Welding defects ndash Causes and Remedies
Testing Destructive and Non-destructive of welds
UNIT-IV
Sheet Metal Forming amp Plastic Processing Techniques
Introduction Role of sheet components Shearing mechanism Various press working
operations Presses for sheet metal working and press tools Die and Punch Different type
of dies Blanking and Piercing Forces and Load estimation in forming Deep drawing
Stretch forming Bending Coining Spinning Spring back and its remedies
High energy rate forming process Principles of explosive forming Electromagnetic
forming Electro hydraulic forming and Rubber pad forming Advantage and Limitations
Plastic Processing Types of Plastics Properties Applications and their processing
methods Blow molding and Injection molding
UNIT-V
Bulk Metal Deforming Processes
Introduction to bulk deforming process Plastic deformation Yield and flow criteria
Machine and equipmentrsquos for the metal deforming processes Parameters and force
calculations for different processes
Classification of metal deforming processes Swaging Forging and itrsquos all types
Forging defects
Rolling Fundamentals and Types of rolling mills and Products
Extrusion Basics and its characteristics Types of extrusion Impact extrusion
Hydrostatic extrusion Wire drawing and Tube drawing
AR19 Mechanical Engineering
Aditya Engineering College (A) 89
Text Books
1 Manufacturing Technology Volume I PN Rao TMH Publications 6th Edition
2 Hajra Choudhry Elements of Workshop Technology Vol ndash II Media Promoters amp
Publishers 1994
Reference Books
1 Manufacturing Processes for Engineering Materials Kalpakjian S amp Steven R
Schmid Pearson Publication 5th Edition
2 Manufacturing Science AGhosh amp AK Mallik East West Press Pvt Ltd
Publication 3rd Edition
3 Process and materials of manufacture Lindberg PHI Publications 4th Edition
4 Advance Welding Processes RSParmar Khanna Publishers
Web Links
1 httpnptelacincourses112107144
2 httpstudycomarticlesOnline_Welding_Classes_and_Training_Programs
3 httpnptelacincourses112107089
4 httpnptelacincoursephp
AR19 Mechanical Engineering
Aditya Engineering College (A) 90
KINEMATICS OF MACHINERY
IV Semester L T P C
Course Code 191ME4T07 3 0 0 3
Course Objectives
COB 1 To understand the kinematics and rigid-body dynamics of kinematically
driven machine components
COB 2 To understand the motion of linked mechanisms in terms of the displacement
velocity and acceleration at any point in a rigid link
COB 3 To be able to design some linkage mechanisms and cam systems to generate
specified output motion
COB 4 To understand the kinematics of gear trains
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the inversions and applications of a kinematic chain
CO 2 Construct the velocity and acceleration diagrams using Relative velocity
method and Instantaneous centre method
CO 3 Construct displacement diagram and profile of Cam with different types of
follower motions
CO 4 Calculate the velocities of different components of a gear train
CO 5 Explain how real time machines work and operate
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 1 1 - - - - - - - -
CO2 (K3) 2 2 1 1 - - - - - - - 1
CO3 (K4) 2 2 2 1 - - 1 - - - - 1
CO4 (K3) 3 2 2 1 - - 1 - - - - 1
CO5 (K3) 2 2 2 1 - - 1 - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Classification of mechanisms- Basic kinematic concepts and definitions- Degree of
freedom mobility- Grashofrsquos law Kinematic inversions of four bar chain and slider
crank chains-Limit positions- Mechanical advantage- Transmission angle- Description
of some common mechanisms- Quick return mechanism straight line generators-
Universal Joint- Rocker mechanisms
UNIT-II
Kinematics Plane motion of body Instantaneous centre of rotation centrode and axode
- relative motion between two bodies ndash Kennedyrsquos three centres in line theorem ndash
Graphical determination of instantaneous centre for simple bar four bar and single slider
AR19 Mechanical Engineering
Aditya Engineering College (A) 91
crank chain mechanisms and determination of angular velocity of points and links
Motion of a link in machine - Determination of Displacement velocity and acceleration
for a Simple Four Bar Mechanism Single slider crank chain mechanism Double slider
crank chain mechanism (Whitworth Quick Return Motion mechanisms)
UNIT-III
CAMS Definition and classification of cams and followers - their uses - Terminology
- Types of follower motion Uniform velocity Simple harmonic motion and uniform
acceleration and retardation Cycloidal motion for Knife edge Flat face and Roller
follower and offset follower
UNIT-IV
Power Transmission Introduction ndashModes of power transmission applications
Gears and Gear trains Classification Terminology Law of Gearing path of contact
arc of contact Interferences methods of avoiding interferences Simple gear train
compound gear train reverted gear train epicyclical gear train and Differential
UNIT-V
Practical Applications Design and fabrication of any one of the following
mechanisms Whitworth Quick Return Mechanism Oscillating Cylinder Mechanism
Elliptical Trammel ManualMotorized Scotch Yoke Mechanism Piston Bench Tapping
Machine Mini Conveyor using Geneva Mechanism Mini Hacksaw Powered by Beam
Engine
Text Books
1 Theory of Machines Thomas Bevan 3rd edition CBS Publishers amp Distributors
2005
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East-
West Press
Reference Books
1 Cleghorn WL Mechanisms of Machines Oxford University Press 2005
2 Robert L Norton Kinematics and Dynamics of Machinery Tata McGrawHill
2009
3 Ghosh A and Mallick AK Theory of Mechanisms and Machines Affiliated East
West Pvt Ltd New Delhi 1988
4 Kinematics of Machinery through Hyper Works JS Rao Springer Publ
5 Theory of Machines by Jagadishlal-Metropolitan Book Co
6 Theory of Machines by RS Khurmi and J K Gupta ndash S Chand Publishers
AR19 Mechanical Engineering
Aditya Engineering College (A) 92
THERMAL ENGINEERING-I
IV Semester L T P C
Course Code 191ME4T08 3 0 0 3
Course Objectives
COB 1 To impart the knowledge and providing holistic view on IC Engines and its
developments
COB 2 To enable the students to calculate the performance and testing of IC engines
COB 3 To fetch with SI amp CI fueling system and combustion behaviour and its
advancements to meet the stringent emission norms
COB 4 Understanding the formation and control strategies of SI and CI Engine
emissions
Course Outcomes
At the end of the Course Student will be able to
CO 1 Differentiate the ideal air standard cycles and actual thermodynamic cycles
CO 2 Evaluate the Engine performance based on the experimental data
CO 3 Analyze the fueling system and combustion behaviour of SI engine
CO 4 Analyze the fueling system and combustion behaviour of CI engine
CO 5 Explain the formation of emissions and its control strategies of bot SI amp CI
Engines
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K4) 3 3 2 2 3 3 - - - 3 3 -
CO3 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO4 (K2) 2 1 - - 2 2 - - - 3 2 -
CO5 (K3) 3 2 1 1 3 3 - - - 3 3 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) - - -
CO3 (K3) 3 - -
CO4 (K2) 2 - -
CO5 (K3) - - -
UNIT-I
Actual Cycles and Engine Construction Introduction Comparison of Air Standard
and Actual Cycles Time Loss Factor Heat Loss Factor Exhaust Blow down-Loss due
to Gas exchange process Volumetric Efficiency Loss due to Rubbing Friction Actual
and Fuel-Air Cycles of CI Engines Constructional Details of Four Stroke SI and CI
Engines Working Principle Actual Indicator Diagram Two Stroke Engine
Construction and Operation Comparison of Four Stroke and Two Stroke Engine
Operation Firing Order and Its Significance UNIT-II
ENGINE TESTING amp PERFORMANCE
Engine Performance Testing amp Numerical- methods and Performance
Characteristics
AR19 Mechanical Engineering
Aditya Engineering College (A) 93
Testing and measurement equipment- dynamometers Air amp Fuel consumption
temperature etc Variables Affecting Engine Performance Performance Maps
Lubrication and Cooling systems Introduction to Supercharging and Turbocharging
UNIT-III
SI ENGINE FUELING amp COMBUSTION
Carburetor Working Principle Requirements of an Automotive Carburetor and types
Fuel Injection Systems Pre-mixed charge combustion SI Engine Combustion
Conceptual models Thermodynamic Analysis of Combustion Cycle-to-Cycle
Combustion variations and Knocking Combustion
UNIT-IV
CI ENGINE FUELING amp COMBUSTION
Fuel Injection and Spray Structure Fuel Atomization and Droplet size distribution Sauter
Mean Diameter Spray Penetration CI Engine Combustion Conceptual Models
Conventional and Decrsquos Combustion Models Diesel Combustion Process
Characterization Ignition Delay Effect of Engine and Operational Parameters on Delay
Pre-mixed Combustion Mixing Controlled Combustion Thermodynamic Analysis
Multi Pulse Injections Introduction to Low Temperature Combustion Like
Homogeneous Charge Compression Ignition(HCCI) Fuel Stratified Charge combustion
Reactivity Controlled Compression Ignition (RCCI) Technologies Pre-mixed Charge
Compression (PCCI) and Dual fuel technologies
UNIT-V FORMATION OF ENGINE EMISSIONS amp CONTROL TECHNOLOGIES (SI amp CI)
Emission Effects on Health amp Environment Sources of Engine emissions Formation of
CO NO UBHC Soot and Particulate Matter Diesel NOx-Particulate Trade off Effect
of SI Design and operating variables Effect of Diesel Engine Design and operating
Variables SI Engine Emission Control Technology Add-on systems for treatment of
Emissions with in Engine Exhaust After treatment CI Engine Emission Control
Technology Application of EGR Exhaust after treatment and new engine technologies
for emission control
Text Books
1 IC Engines ML Mathur amp RP Sharma Dhanpath Rai amp Sons
2 Engine Emissions Pollutant Formation and Advances in Control Technology BP
Pundir Narosa Publishing House
Reference Books
1 IC Engines Fundamentals John B Heywood Mc Graw Hill Publications
2 Engineering Fundamentals of I C Engines Wiliard WPulkrabek Prentice Hall
Publications
3 Mixture Formation in Internal Combustion Engines Carsten Baumgaten Springer
Pub
4 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
Web Links
1 httpnptelacincourses112105123
2 httpnptelacincourses112108148
3 httpnptelacincourses112104113
4 httpnptelacincourses112104033
AR19 Mechanical Engineering
Aditya Engineering College (A) 94
PRODUCTION TECHNOLOGY LAB
IV Semester L T P C
Course Code 191ME4L03 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To impart knowledge of metal forming processes
COB 4 To develop the knowledge for plastics processing techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate mould making process for casting process and sand preparation
methods
CO 2 Identify basic knowledge of casting defects and their remedies
CO 3 Differentiate between various gas welding arc welding processes and Solid
state welding process
CO 4 Apply the principles of sheet-metal forming process for making a
component
CO 5 Produce the plastic object through different plastic processing techniques
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - 3 - -
CO2 (K3) 2 1 - - - 2 - - - - - -
CO3 (K4) 2 1 - - - - - - 3 3 2 -
CO4 (K5) 3 2 - - - - - - - 3 3 -
CO5 (K3) 3 2 - - - - - - - 3 3 -
Mapping of course outcomes with program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 2 1 -
CO3 (K4) 2 1 2
CO4 (K5) 3 2 -
CO5 (K3) 3 - 3
The following experiments are required to be conducted as compulsory experiments
Casting
1 To design and manufacture a Wooden Pattern for a given Casting
2 To prepare a Casting for the given Solid Pattern using Green Sand Molding
Processes
3 To Prepare a Aluminium Casting for the given Split Pattern using Green Sand
Molding Processes
Welding
4 To prepare a V Butt amp Lap Joint using Arc Welding Process
5 To prepare a lap Joint on the given work pieces using spot welding equipment
6 To prepare a V Butt Joint Using TIG Welding
7 To prepare a corner Joint amp T Joint using Arc Welding Process
AR19 Mechanical Engineering
Aditya Engineering College (A) 95
Sheet metal experiment
8 To perform the punching and blanking operation
9 To prepare a work piece using Compound die
Bulk deformation
10 To perform Bending Operation on a given pipe
Plastic Processing technique
11 To make an Air Tight Bottle Cap amp Screw type Bottle Cap by Using Injection
Moulding
12 To prepare a plastic bottle by using Blow Moulding
LIST OF AUGMENTED EXPERIMENTS
13 to 17 (Any two of the following experiments can be performed)
13 To determine the Grain size Permeability and Compressive Strength of the
Molding Sand
14 To prepare a Single Strap Butt Joint on the given work pieces using spot welding
equipment
15 To prepare a Lap Joint Using TIG welding and MIG welding
16 To study the progressive tool and perform blanking and piercing operations
17 To determine the punching force and blanking force theoretically and compare
obtained readings
Reference Books
1 Aditya Engineering College Laboratory Manual
2 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II 4th
Edition
3 Elements of Manufacturing Technology Vol II Hajra ChoudharySK amp Hajra
Web Links
1 httpwwwsmeorgfmp
2 httpscosmolearningorgcoursesmanufacturing-processes-i-538video-lectures
AR19 Mechanical Engineering
Aditya Engineering College (A) 96
COMPUTER AIDED MACHINE DRAWING
IV Semester L T P C
Course Code 191ME4L04 0 0 3 15
Course Objectives
COB 1 To impart the fundamental knowledge of machine drawing by elaborating
on how to concretize the idea of new structure such as a machine element
COB 2 To study the conventions and rules to be followed by engineers for making
accurate drawings
COB 3 To understand the basic dimensioning practices that has to be followed in
the preparation of drawings
COB 4 To inculcate the reading of the drawings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Discuss the conventional representation of materials and machine
components
CO 2 Apply the principles of engineering drawing in machine drawing
CO 3 Construct various types of temporary fasteners
CO 4 Sketch various types of permanent fasteners
CO 5 Practice assembly drawings from the given part drawings for
manufacturing
CO 6 Construct part drawings from the given assembly drawing
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - 3 - -
CO2 (K3) 3 - 1 - - - - - - 3 - -
CO3 (K3) 3 - 1 - - - - - - 3 - -
CO4 (K3) 3 - 1 - - - - - - 3 - -
CO5 (K3) 3 - 1 - - - - - - 3 - -
CO6 (K3) 3 - 1 - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - 2
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CO6 (K3) 3 - 3
UNIT-I
Machine Drawing Conventions
Need for drawing conventions ndash introduction to standard conventions
A) Conventional representation of materials common machine elements and parts such
as screws nuts bolts keys gears webs ribs
B) Types of sections ndash selection of section planes and drawing of sections and auxiliary
sectional views Parts not usually sectioned
C) Drawing of machine elements and simple parts Selection of views additional views
for the following machine elements and parts with easy drawing proportions
AR19 Mechanical Engineering
Aditya Engineering College (A) 97
i) Standard forms of screw threads bolts nuts stud bolts tap bolts set screws
ii) Keys cotter joint and knuckle joint
iii) Riveted joints for plates
iv) Shaft coupling spigot and socket pipe joint
v) Journal bearing and foot step bearing
UNIT-II
Assembly Drawings
Drawings of assembled views for the part drawings of the following using conventions
and easy drawing proportions
A) Engine parts ndash eccentric petrol engine connecting rod piston assembly
B) Other machine parts - screw jack machine vice Plummer block lathe tailstock
C) Valves- steam stop valve non-return valve and feed check valve
Production Drawing (only for Practice not for Examination)
Introduction to Limits Fitsamp Tolerances Types of Assembly systems Importance of
BOM Part drawing procedure construction of part drawings from the given assembly
drawings using conventions and easy drawing proportions Part drawings of Eccentric
Single tool post Plummer block Screw Jack
Note Sheets under unit I need to be practiced with any one basic 2D drafting software
Sheets under assembly drawing need to be practiced with any one solid modelling
software Sheets under production drawing need to be practiced with Drafting and solid
modelling software
Note for question paper Students should answer 2 questions from unit I and 1 question
from unit II Each question will have internal choice Unit I carries 20 Marks and Unit
II carries 40 Marks
Text Books
1 Machine Drawing NSiddeswarPKannaiahVVSSastry Mcgraw hill education
2
3
Machine Drawing GRNagpal Khanna publications
Machine Drawing NDBhatt
Reference Books
1 Ajeet Singh Machine Drawing includes AutoCAD McGraw Hill 2nd Edition
2 Machine drawing PSGill SKKataria amp Sons 3rd Edition
3 Goutam Pohit Goutam Ghosh Machine Drawing with AutoCAD Pearson
Education 1st Edition
Web Links
1 nptelacinsyllabus112106075
2 wwwmachinedesignonlinecom
AR19 Mechanical Engineering
Aditya Engineering College (A) 98
EMPLOYABILITY SKILLS-II (Common to all branches)
Course Objectives
COB 1 To Teach Empathy For Solving Complex Problems
COB 2 To Inculcate Reading Skills
COB 3 To Teach Competitive Written English
COB 4 To Teach Team Building ampLeadership Skills
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
UNIT-I
Aptitude Symbols ampNotations Direction test
Soft Skills Team work leadership skills
UNIT-II
Aptitude Venn Diagrams Blood Relations
Soft Skills Negotiation skills persuasionamp Negotiation stages of Negotiation
UNIT-III
Aptitude Problems on Numbers
Soft Skills Listening skills types of listening Active listening
IV Semester L T P C
Course Code 191MC4A05 0 0 2 0
CO 1 Examine the symbols notations and Venn -diagrams
CO 2 Explain Empathy to Create Positive
CO 3 Observe Different Types Of Number Systems
CO 4 Deduct the logics in the puzzles and arrangements
CO 5 Solve Ratio ampProportion Ages and Averages By Using Simple Logics
CO 6 Correlate Teambuilding ampLeadership Skills
AR19 Mechanical Engineering
Aditya Engineering College (A) 99
UNIT-IV
Aptitude Ratio ampproportion
Soft Skills Verbal Aptitude -II Idioms amp phrases
UNIT-V
Aptitude Average and Ages
Soft Skills Verbal Aptitude -III sentence Anagram Reading Comprehension
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 100
BIOLOGY FOR ENGINEERS (Common to all branches)
Course Objectives
COB 1 To introduce students to modern biology with an emphasis on evolution of
biology as a multi-disciplinary field
COB 2 To make them aware of application of engineering principles in biology
and engineering robust solutions inspired by biological examples
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K2) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K2) - - - - - - - - - - - -
CO 5 (K2) - - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K2) - - -
CO 3 (K3) - - -
CO 4 (K2) - - -
CO 5 (K2) - - -
UNIT-I
Introduction to life
Characteristics of living organisms-Basic classification-cell theory-structure of
prokaryotic and eukaryotic cell-Introduction to biomolecules definition-general
classification and important functions of carbohydrates-lipids-proteins-nucleic acids
vitamins and enzymes-genes and chromosome
UNIT-II
Biodiversity
Plant System basic concepts of plant growth-nutrition-photosynthesis and nitrogen
IV Semester L T P C
Course Code 191MC4A06 2 0 0 0
CO 1
Apply biological engineering principles procedures needed to solve real-
world problems
CO 2 Demonstrate the fundamentals of living things their classification cell
structure and biochemical constituents
CO 3 Apply the concept of plant animal and microbial systems and growth in real
life situations
CO 4 Explain genetics and the immune system to know the cause symptoms
diagnosis and treatment of common diseases
CO 5 Demonstrate basic knowledge of the applications of biological systems in
relevant industries
AR19 Mechanical Engineering
Aditya Engineering College (A) 101
fixation-Animal System elementary study of digestive-respiratory-circulatory-excretory
systems and their functions Microbial System history-types of microbes-economic
importance and control of microbes
UNIT-III
Genetics and immune system
Evolution theories of evolution-Mendelrsquos cell divisionndashmitosis and meiosis-evidence of
e laws of inheritance-variation and speciation- nucleic acids as a genetic material-central
dogma immunity antigens-antibody-immune response
UNIT-IV
Human diseases
Definition- causes symptoms diagnosis treatment and prevention of diabetes cancer
hypertension influenza AIDS and Hepatitis
UNIT-V
Biology and its industrial application
Transgenic plants and animals-stem cell and tissue engineering-bioreactors-
biopharming-recombinant vaccines-cloning-drug discovery-biological neural networks-
bioremediation-biofertilizer-biocontrolbiofilters-biosensors-biopolymers-bioenergy-
biomaterials-biochips-basic biomedical instrumentation
Text Books
1 A Text book of Biotechnology RCDubey S Chand Higher Academic
Publications 2013
2 Diseases of the Human Body Carol D Tamparo and Marcia A Lewis FA Davis
Company 2011
3 Biomedical instrumentation Technology and applications R Khandpur McGraw
Hill Professional 2004
Reference Books
1 Biology for Engineers Arthur T Johnson CRC Press Taylor and Francis 2011
2 Cell Biology and Genetics (Biology The unity and diversity of life Volume I) Cecie
Starr Ralph Taggart Christine Evers and Lisa Starr Cengage Learning 2008
3 Biotechnology Expanding horizon BD Singh Kalyani Publishers 2012
Web Links
1 httpswwwbiology-onlineorg
2 httpwwwbiologyreferencecom
3 httpwwwallexpertscombrowsecgicatLvl=2ampcatID=229
4 httpswwwlibraryqmulacuksubject-guidesbiological-sciences
AR19 Mechanical Engineering
Aditya Engineering College (A) 102
DYNAMICS OF MACHINERY
V semester L T P C
Course Code 191ME5T09 3 0 0 3
Course Objectives
COB 1 To equip the student with fundamental knowledge of dynamics of machines so
that student can appreciate problems of dynamic force balance transmissibility
of forces isolation of systems vibrations
COB 2 To develop knowledge of analytical and graphical methods for calculating
balancing of rotary and reciprocating masses
COB 3 To develop understanding of vibrations and its significance on engineering
design
COB 4 To develop understanding of dynamic balancing flywheel analysis gyroscopic
forces and moments
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze stabilization of sea vehicles aircrafts and automobile vehicles
CO 2 Compute frictional losses and torque transmission of mechanical systems
CO 3 Calculate the dynamic forces acting on the flywheels and governors
CO 4 Apply analytical and graphical methods of calculating balancing of rotary and
reciprocating masses
CO 5 Determine the natural frequencies of vibrating system
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - 1
CO2 (K3) 3 2 2 1 - - - - - - - 1
CO3 (K3) 2 2 2 1 - - - - - - - 1
CO4 (K4) 2 2 2 1 - - - - - - - 1
CO5 (K3) 2 2 2 1 - - - - - - - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K4) 1 - -
CO5 (K3) 1 - -
UNIT-I
Precession Gyroscopes effect of precession motion on the stability of moving vehicles
such as motor car motor cycle aero planes and ships (Demonstration of models in video
show)
UNIT-II
Clutches Friction clutches- uniform pressure uniform wear single disc or plate clutch
multiple disc clutch cone clutch centrifugal clutch
Brakes And Dynamometers Simple block brakes internal expanding brake band brake
AR19 Mechanical Engineering
Aditya Engineering College (A) 103
of vehicle General description and operation of dynamometers Prony Rope brake
Epicyclic Bevis Gibson and belt transmission
UNIT-III
Turning Moment Diagrams Dynamic force analysis of slider crank mechanism inertia
torque angular velocity and acceleration of connecting rod crank effort and turning
moment diagrams ndash fluctuation of energy ndash fly wheels and their design
Governers Watt porter and proell governors spring loaded governorsndash Hartnell and
Hartung with auxiliary springs Sensitiveness isochronism and hunting
UNIT-IV
Balancing Balancing of rotating masses single and multiple ndash single and different planes
use analytical and graphical methods Primary secondary and higher balancing of
reciprocating masses Analytical and graphical methods unbalanced forces and couples
locomotive balancing hammer blow swaying couple variation of tractive effort
UNIT-V
Vibrations Free and forced vibration of single degree of freedom systems effect of
damping vibration isolation and transmissibility resonance critical speeds of shafts
Text Books
1 Theory of machines- Thomas Bevan
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of machines and mechanisms ndash PLBallaney-Khanna publications
Reference Books
1 Theory of Machines ndash Sadhu Singh Pearsons Edn
2 Mechanical Vibrations ndash G K Grover
3 Mechanism and Machine Theory - JSRao RV Dukkipati New Age
4
5
Mechanism and Machine Theory ndash Ashok G Ambekar PHI Publication
Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East- West
Press
Web Links
1 httpswwwslidesharenethareeshangunit-7-gyroscope
2 httpwwwsvecweduinDocs5CMEDMLNotes2013pdf
3 httpswwwvidyarthipluscomvpattachmentphp
4 httpnptelacindownloads112101096
AR19 Mechanical Engineering
Aditya Engineering College (A) 104
DESIGN OF MACHINE MEMBERS-I
V Semester L T P C
Course Code 191ME5T10 3 0 0 3
Course Objectives
COB 1 To illustrate the design function in mechanical engineering the steps involved
in designing and the relation of design activity with manufacturing activity
COB 2 To enable the student select proper materials for different machine elements
based on their mechanical properties
COB 3 To impart knowledge about various theories of failure to design a machine
component
COB 4 To teach the student to estimate the strength of machine elements
COB 5 To make the student learn the design procedure for the different machine
elements such as fasteners shafts couplings keys axially loaded joints etc
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the design procedure to engineering problems including the consideration
of technical and manufacturing constraints
CO 2 Evaluate the strength stiffness and fatigue of machine elements
CO 3 Analyze various types of stresses on mechanical components subjected to both
static and dynamic loads
CO 4 Explain the design of fasteners subjected to eccentric amp fluctuating loads
CO 5 Calculate the design parameters of various components like springs and pressure
vessels
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 3 - 3 - - 3 -
CO2 (K5) 2 2 3 3 - - - - - - - -
CO3 (K4) 2 3 2 2 - - - - - - - -
CO4 (K4) 2 2 2 2 - - - - - - - -
CO5 (K3) 3 2 1 1 3 3 - 3 - - 3 -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K5) 3 - -
CO3 (K4) 3 - -
CO4 (K4) 3 - -
CO5 (K3) - 2 -
UNIT-I
Introduction to Machine Design
Introduction to machine design- Engineering Materials and their properties ndash selection
ndashManufacturing considerations in design- Preferred numbers- BIS Codes ndash Combined
Stresses - Complex Stresses - Stresses on an inclined plane under different uniaxial and
biaxial stress conditions - Principal planes and principal stresses - Mohrrsquos circle -
various theories of failure
AR19 Mechanical Engineering
Aditya Engineering College (A) 105
UNIT-II
Design Under Fluctuating Stresses
Stress concentration ndashTheoretical Stress Concentration Factor ndash Fatigue Stress
Concentration Factor - Notch Sensitivity ndash Design for fluctuating stresses ndash Endurance
limit ndashEstimation of endurance strength ndash Goodmanrsquos line ndash Soderbergrsquos line ndash Modified
Goodmanrsquos line
Design of Shafts
Design of solid and hollow shafts for strength and rigidity ndash Design of shafts for
combined bending and axial loads ndash shaft sizes - Design of shafts for gear and belt
drives
UNIT-III
Design of Keys and Couplings
Design of keys-stresses in keys- Rigid couplings ndash Muff Split muff and Flange
couplings-Flexible couplings ndash Flange coupling (Modified)
Cotter amp Knuckle Joints
Spigot and socket Sleeve and cotter Jib and cotter joints- Knuckle joints
UNIT-IV
Design of Fasteners
Riveted and welded joints ndash Design of joints with initial stresses ndash Eccentric loading
Bolted joints ndash Design of bolts with pre-stresses ndash Design of joints under eccentric
loading ndash Locking devices ndash Bolts of uniform strength Different seals
UNIT-V
Springs
Stresses and deflections of helical springs ndash Extension -Compression springs ndash Springs
for fatigue loading Energy storage capacity ndash Helical torsion springs ndash Co-axial springs
Leaf springs
Pressure Vessels
Thin seamless cylindrical shells ndash Derivation of formula for longitudinal and
circumferential stresses ndash Hoop Longitudinal and Volumetric strains ndash Changes in
diameter and volume of thin cylinders ndash Riveted boiler shells ndash Thin spherical shells -
Thick Cylinders- Lamersquos equation ndash Cylinders subjected to inside amp outside pressures
ndashCompound cylinders
Note Design data books are not allowed for End Semester Examinations
Text Books
1 Design of Machine Elements VBBhandari TMH Publishers 4th Edition
2 Machine Design Pandya amp Shah Charothar Publishers 17th Edition
Reference Books
1 Mechanical Engineering Design JEShigley amp CRMischkie Tata McGraw Hill
3rd Edition
2 Machine Design Sundararajamoorthy TVamp ShanmugamN Anuradha
Publications
3 Design of Machine Elements MFSpotts Pearson Education 8th Edition
4 Design Data PSG College of Technology Kalaikathir Achchagam Publishers 2nd
Edition
5 Design Data Hand Book SMdJalaludeen Anuradha Publications
AR19 Mechanical Engineering
Aditya Engineering College (A) 106
Web Links
1 httpnptelacincoursesWebcourse contents IIT 20Kharagpur Machine20
design1 New_index1html
2 httpwwwnptelacindownloads112105125
3 httpwwwalljntuworldindownloaddesign-machine-members-1-dmm-1-
materials- notes
4 wwwjntumaterialscoin201504jntujntuk-design-of-machine-members-ihtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 107
THERMAL ENGINEERING - II
V Semester L T P C
Course Code 191ME5T11 3 0 0 3
Course Objectives
COB 1 To develop basic knowledge of students on Rankine cycles
COB 2 To provide sufficient knowledge on Boilers and chimneys to the students
COB 3 To enable studentsrsquo knowledge on steam nozzles and steam turbines
COB 4 To improve the knowledge of students on steam formation process
COB 5 To provide sufficient knowledge to the students on gas turbines and its
application
Course Outcomes At the end of the Course Student will be able to
CO 1 Apply different methods used to improve the efficiency of Rankine Cycle
CO 2 Solve problems related to boiler efficiency and chimney
CO 3 Analyze the performance of Steam nozzles and steam turbines
CO 4 Distinguish different types of condenser used in a steam power plant
CO 5 Explain the methods to increase the performance of Gas Turbine and its
applications
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - 1
CO3 (K4) 3 3 - - - - - - - - - 1
CO4 (K4) 3 3 - - - - - - - - - -
CO5 (K4) 3 3 - - - - - - - - - 2
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 2 - -
CO3 (K4) 2 - -
CO4 (K4) 2 - -
CO5 (K4) 2 - -
UNIT-I
Introduction to Steam Power Cycles
Rankine cycle Schematic layout Thermodynamic analysis Methods to improve cycle
performance ndash Regeneration amp reheating
Combustion Fuels and combustion Concepts of heat of reaction Adiabatic flame
temperature Stoichiometry and flue gas analysis
UNIT-II
Boilers amp Draught
Classification Working principles of LP amp HP boilers with sketches mountings and
accessories Working principles Boiler horse power Equivalent evaporation Efficiency
and heat balance
Draught Classification height of chimney for given draught and discharge Condition
for maximum discharge Efficiency of chimney Artificial draught Induced and Forced
draught
AR19 Mechanical Engineering
Aditya Engineering College (A) 108
UNIT-III
Steam Nozzles
Function of a nozzle applications types Flow through nozzles and thermodynamic
analysis assumptions velocity of fluid at nozzle exit - Ideal and actual expansion in a
nozzle Velocity coefficient and condition for maximum discharge Critical pressure
ratio Super saturated flow and its effects Degree of super saturation and Degree of under
cooling Wilson line
Steam Turbines
Classification Impulse turbine-Mechanical details velocity diagram effect of friction
power developed Axial thrust Blade or diagram efficiency condition for maximum
efficiency De-Laval turbine methods to reduce rotor speed-Velocity compounding
Pressure compounding and velocity amp pressure compounding Velocity and pressure
variation along the flow combined velocity diagram for a velocity compounded impulse
turbine Condition for maximum efficiency
UNIT-IV
Reaction Turbine
Mechanical details principle of operation Thermodynamic analysis of a stage Degree
of reaction velocity diagram Parsonrsquos reaction turbine Condition for maximum
efficiency Calculation of blade height
Steam Condensers
Requirements of steam condensing plant Classification of condensers working principle
of different types vacuum efficiency and condenser efficiency air leakage Sources and
its affects Air pump cooling water requirement
UNIT-V
Gas Turbines
Simple gas turbine plant Ideal cycle Essential components parameters of performance
Actual cycle Regeneration Inter cooling and reheating Closed and semi-closed cycles
Merits and demerits Types of combustion chambers
Jet Propulsion
Principle of operation Classification of jet propulsive engines Working principles with
schematic diagrams and representation on T-S diagram thrust thrust power and
propulsion efficiency turbo jet engines - schematic diagram Thermodynamic cycle
Performance evaluation Thrust augmentation methods ndash Simple Problems
Rockets
Application working principle Classification propellant type thrust Propulsive
efficiency specific impulse Solid and Liquid propellant rocket engines
Text Books
1 Thermodynamics and Heat Engines Volume- II RYadav Central publishing house
6th Edition
2 Heat Engineering VP Vasandani and DS Kumar Metropolitan Book Company 6th
Edition
Reference Books 1 Thermal Engineering PLBallaney Khanna publishers25th Edition
2 Thermal Engineering MLMathur amp Mehta Jain bros 6th Edition
3 Gas Turbines V Ganesan Tata McGraw-Hill Education 3th Edition
4 Thermal Engineering RK Rajput Laxmi Publications 10th Edition
AR19 Mechanical Engineering
Aditya Engineering College (A) 109
Web Links 1 httpsnptelacincourses112103112103277
2 httpnptelacincourses112106166
3 httphomeiitkacin~sullerlectureslec29htm
AR19 Mechanical Engineering
Aditya Engineering College (A) 110
AUTOMOBILE ENGINEERING (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E01 3 0 0 3
Course Objectives
COB 1 To equip the students with fundamental working principles and technologies
in automotive engineering
COB 2 To introduce basic and entry level theories and terminology
COB 3 To make aware of the importance of transmission system
COB 4 To impart the principles of automobile systems sub systems and provides
the salient features of safety of automobiles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Summarize the Vehicle Chassis Layouts of 4-wheelers and Motor Vehicle
Act
CO 2 Identify the different constructional features and working principles of Un-
Sprung components of the given vehicle
CO 3 Identify the different constructional features and working principles Sprung
components of the given vehicle
CO 4 Summarize the functionalities of various Electrical systems of typical
Automobile
CO 5 Explain the different Active and Passive Vehicle Safety Systems
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
CO 1(K2) 2 1 - - - - 3 - 3 3
CO 2(K3) 2 1 - - - - 3 - - 3
CO 3(K3) 2 1 - - - - - - - 3
CO 4(K2) 2 1 - - - - - - 3 3
CO 5(K3) 3 2 - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 K2) 3 - -
CO 2(K3) 2 - -
CO 3(K3) 2 - -
CO 4(K2) 2 - -
CO 5(K3) 3 - 3
UNIT-I
Introduction
Components of four wheeler automobile ndash chassis and body ndashChassis Layout - power
transmission ndash rear wheel drive front wheel drive 4 wheel drive and Motor Vehicle Act
1988 ndash Legal AspectsCompliance of Automotive
Vehicles Introduction to Motor Vehicle Act Registration of Vehicles Inspection and
Fitness of vehicles and Homologation of Vehicles
UNIT ndash II
Transmission System
Clutches principle types gear boxes types Propeller shaft ndashHotch ndash Kiss drive
AR19 Mechanical Engineering
Aditya Engineering College (A) 111
Torque tube drive universal joint differential rear axlesndash types
Steering System
Steering geometry ndash camber castor king pin rake combined angle toe-in toe-out
center point steering Types of steering mechanism ndashAckerman steering mechanism
Davis steering mechanism steering linkages
UNIT ndash III
Suspension System
Objects of suspension systems ndash rigid axle suspension system torsion bar shock
absorber Independent suspension system Air Suspension Rubber Suspension
Hydrolastic suspension system Hydragas suspension system
Braking System
Mechanical braking system hydraulic braking system requirement of brake fluid
pneumatic and vacuum brakes Parking Braking system
UNIT ndash IV
Wheels And Tyres
Basic Requirements of Wheels and Tyres Construction of Wheel Assembly Tyre
Construction Types Tyre Sizes and Designation Aspect Ratio Tyre Tread Pattern
Selection of Tyre under Different Applications
UNIT ndash V
Electrical System
Charging circuit generator starting system lighting horn wiper fuel gauge oil
pressure gauge engine temperature indicator
Safety Systems
Introduction safety systems - seat belt air bags bumper anti-lock brake system (ABS)
Electronic Brake force Distribution (EBD) mirrors central locking speed control
Retractable Steering system Head restraints seats with anti-submarine effects and fuel
cut off switch
Text Books
1 Automobile Engineering Vol 1 Dr Kirpal Singh Standard Publishers13th
Edition
2 Automotive Mechanics William H Crouse TMH Distributors10th Edition
Reference Books
1 Advanced vehicle Technology by Heinz Heisher 2nd BH Pub
2 Automotive Chassis by Jonsen Reimpell BH Pub
3 Automobile Electrical amp Electronics by Tom Denton 3rd Elsevier Pub
4 The Motor Vehicle Act 1988 Bare Act with Amendments Law Literature
Publication
5 The Central Motor Vehicle Rules 1989 Bare Act with short notes Lexis Nexis
Publications
Web Links
1 httpsnptelacincourses125106002
2 httpswwwautomotive-onlinecom
3 https sciencelinksjpj-eastarticle
4 https wwwsciencedirectcomsciencebook9780750650540
AR19 Mechanical Engineering
Aditya Engineering College (A) 112
COMPOSITE MATERIALS
(Professional Elective-I)
V Semester L T P C
Course Code 191ME5E02 3 0 0 3
Course Objectives
COB 1 To make the student aware about the composite materials Matrix fibers etc
COB 2 To make the student classify the composites based on the matrix material
COB 3 To make the student classify the composites based on the reinforcements
COB 4 To enable the student determine the strength of an orthotropic laminate
COB 5 To make the student determine stiffness and strength of unidirectional
composites
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain about the composite materials matrix fibers etc
CO 2 Select the composites based on the matrix materials
CO 3 Select the composites based on the reinforcements
CO 4 Calculate the stress and strain of various types of laminates
CO 5 Evaluate stiffness and strength of unidirectional composites
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 1 - - - - - - - - 1 - 1
CO2 (K4) 3 - - - - - - - - 1 - 1
CO3 (K4) 3 - - - - - - - - 1 - 1
CO4 (K3) 3 2 2 2 - - - - - 1 - 1
CO5 (K5) 3 3 3 3 - - - - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 1 - -
CO2 (K4) 3 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 - -
UNIT-I
Introduction Definitions Composites Reinforcements and matrices Types of
reinforcements Matrix materials Functions of a Matrix Desired Properties of a
Matrix Types of composites Carbon Fibre composites Properties of composites in comparison with standard materials Applications of metal ceramic and polymer
matrix composites Role and Selection or reinforcement materials Types of fibres
Glass fibers Carbon fibers Aramid fibers Metal fibers Alumina fibers Boron Fibers
Silicon carbide fibers Quartz and Silica fibers Multiphase fibers Whiskers Flakes
etc Mechanical properties of fibres Advantages and limitations of composite
materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 113
UNIT-II
Classification based on Matrix Material
Organic Matrix composites Polymer matrix composites (PMC) Carbon matrix
Composites or Carbon-Carbon Composites Metal matrix composites (MMC) Ceramic
matrix composites (CMC)
Classification based on reinforcements Fiber Reinforced Composites Fiber
Reinforced Polymer (FRP) Composites Laminar Composites Particulate Composites
Comparison with Metals Advantages amp limitations of Fiber Reinforced Composites
UNIT-III Fabrication methods of composites
UNIT-IV
Laminates Plate Stiffness and Compliance Assumptions Strains Stress Resultants
Plate Stiffness and Compliance Computation of Stresses Types of Laminates -
Symmetric Laminates Anti-symmetric Laminate Balanced Laminate Quasi-isotropic
Laminates Cross-ply Laminate Angle-ply Laminate Strength of an orthotropic
Laminate Laminate Moduli Hygro thermal Stresses
UNIT-V
Mechanical Properties -Stiffness and Strength Geometrical aspects ndash volume and
weight fraction Unidirectional continuous fibre discontinuous fibers Short fiber
systems woven reinforcements ndashMechanical Testing Determination of stiffness and
strengths of unidirectional composites tension compression flexure and shear
Text Books
1 Composite materials Production properties testing and applications
K Srinivasan Alpha science international ltd
2 Mechanics of composite materials Robert M Jones CRC Press 2nd Edition
Reference Books
1 Composite materials Engineering and Science FL Matthews and R D
Rawlings Woodhead publishing
2 Composite materials Design and applications Daniel Gay CRC Press 3rd
Edition
3 Composite materials Krishan K Chawla Springer Publication 3rd Edition
4 Laminar composites George H Staab Elsevier Science amp Technology
Web Links
1 httpsnptelacincourses112104112104229
2 httpsnptelacincontentstorage2courses105108124pdfLecture_NotesLN
m1pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 114
FLUID ENGINEERING (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E03 3 0 0 3
Course Objectives
COB 1 To make students learn about different types of compressors and to calculate
power and efficiency
COB 2 Understand the concepts of hydraulic machines and their applications
COB 3 Understand the working principle of centrifugal pump and its characteristics
COB 4 Understand the principle of reciprocating pump
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the working of various types of reciprocating compressor
CO 2 Evaluate efficiency of various types of rotary compressors
CO 3 Compare different types of Turbines and its characteristics
CO 4 Explain the working principle of Centrifugal Pump
CO 5 Explain the working principle Reciprocating Pump
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - 3 -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT ndashI
Compressors Classification Positive displacement and roto dynamic machinery
Power producing and power absorbing machines Fan Blower and Compressor
Positive displacement and dynamic types Reciprocating and rotary types
Reciprocating Compressor Principle of operation Work required Isothermal
efficiency Volumetric efficiency and effect of clearance Multi stage compression
Under cooling Saving of work Minimum work condition for two stage compression
UNIT-II
Rotary Compressor (Positive Displacement Type) Roots Blower Vane sealed
compressor Lysholm compressor Mechanical details and Principle of working
Efficiency considerations
Centrifugal Compressors Mechanical details and principle of operation Velocity and
AR19 Mechanical Engineering
Aditya Engineering College (A) 115
pressure variation Energy transfer-Impeller blade shape-losses Slip factor Power
input factor Pressure coefficient and adiabatic coefficient Velocity diagrams Power
Axial Flow Compressors Mechanical details and principle of operation Velocity
triangles and energy transfer per stage degree of reaction Work done factor - Isentropic
efficiency- Pressure rise calculations Polytropic efficiency
UNIT-III
Hydraulic Machines Turbines
Velocity Triangles and Work done for a Pelton Wheel Design of Pelton Wheel Radial
Flow reaction Turbines- Inward amp Outward Degree of reaction Francis Turbine Axial
Flow Reaction Turbines Draft Tube Specific Speed Unit Quantities Characteristic
curves of Hydraulic turbines and governing of turbines
UNIT-IV
Centrifugal Pumps
Work done by the Centrifugal Pump Heads and efficiencies Minimum speed to start
Multistage Specific speed Model testing Priming Characteristic curves Cavitation
Maximum suction Lift Net positive Suction Head
UNIT-V
Reciprocating Pumps
Discharge Work done and power required calculations Slip Variation of velocity and
acceleration in suction and delivery pipes Effect of variation of velocity on friction in
the suction and delivery pipes Indicator diagram Air vessels and Comparison of
Centrifugal and Reciprocating Pumps
Text Books
1 Heat EnginesVP Vasandani amp DS Kumar Metropolitan Book Co Pvt Ltd
4th Edition
2 Fluid Mechanics and Hydraulic Machines RK Bansal Laxmi Publications (P)
Ltd 9th Edition
Reference Books
1 Thermal Engineering RK Rajput Lakshmi Publications 10th Edition
2 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
3 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
4 Hydraulics and Fluid mechanics including Hydraulics machines by PNModiamp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
5 Mechanics of fluids by Bernard Massey 9th Edition CRC Press 2019
Web Links
1 httpnptelacincourses112104033
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 116
MECHANICAL VIBRATIONS (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E04 3 0 0 3
Course Objectives
COB 1 To analyze the various 1-D periodic and periodic responses of a vibrating
system with and without damping
COB 2 To derive the equations of motion and solution for Two and multi degree
freedom systems by the application of analytical methods
COB 3 To understand the numerical methods for quick estimation of 1st natural
frequency of multi degree freedom systems
COB 4 Have the knowledge of the various physical vibration measuring
instruments
COB 5 To solve vibrations problems of continuous systems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the various 1-D periodic and periodic responses of an vibrating
system with and without damping and damping mechanisms
CO 2 Find solutions for two degree freedom systems with and without damping
for free and forced vibrations
CO 3 Derive solutions for Multi-degree freedom systems emphasing on modal
analysis techniques
CO 4 Estimate 1st natural frequency of multi degree freedom systems
CO 5 Apply the knowledge of the various physical vibration measuring
instruments and their applications in real life vibration data acquisition
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - -
CO2 (K3) 3 2 2 1 - - - - - - - -
CO3 (K3) 2 2 2 1 - - - - - - - -
CO4 (K3) 2 2 2 1 - - - - - - - -
CO5 (K3) 2 2 2 1 - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Single degree of Freedom systems Undamped and damped free vibrations forced
vibrations coulomb damping Response to harmonic excitation rotating unbalance and
AR19 Mechanical Engineering
Aditya Engineering College (A) 117
support excitation Vibration isolation and transmissibility
UNIT-II
Vibration Measurement Vibrometers velocity meters amp accelerometers
Two degree of freedom systems Principal modes ndash undamped and damped free and forced
vibrations undamped vibration absorbers
UNIT-III
Multi degree of freedom systems Matrix formulation stiffness and flexibility influence
coefficients Eigen value problem normal modes and their properties Free and forced
vibration by Modal analysis Method of matrix inversion Torsional vibrations of multi ndash
rotor systems and geared systems Discrete Time systems
UNIT-IV
Numerical Methods Rayleighrsquos stodolarsquos Matrix iteration Rayleigh-Ritz Method and
Holzerrsquos methods
UNIT-V
Application of concepts Free vibration of strings ndash longitudinal oscillations of bars-
transverse vibrations of beams- Torsional vibrations of shafts Critical speeds without and
with damping secondary critical speed
Text Books
1 Theory of Vibrations with Applications 5th Edition William T Thomson Marie
Dillon Dahleh Chandramouli Padmanabhan John Vlissides
2 Mechanical Vibrations 8th Edition ndash GK Grover
Reference Books
1 Vibration problems in Engineering by SP Timoshenko
2 Mechanical Vibrations ndash Schaum series
3 Mechanical Vibrations 4th Edition Singiresu S Rao
4 Vibration and Acoustics 1st Edition C Sujatha
5 Elements of Vibration Analysis by Meirovitch
AR19 Mechanical Engineering
Aditya Engineering College (A) 118
METROLOGY amp INSTRUMENTATION (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E05 3 0 0 3
Course Objectives
COB 1 To make the students understand the working of linear and angular measuring
instruments
COB 2 To familiarize with the working of optical measuring instruments and
fundamentals of limits and limit gauges
COB 3 To teach the basic idea about various methods for measurement of screw
thread and surface finish parameters
COB 4 To provide students an overview of mechanical measurements systems and
principle of instrument for motion and dimension measurement
COB 5 To provide basic idea about working principle and applications of devices
for measurement of temperature pressure flow level stress and strain
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concept of systems of limits and fits and theory of linear and
angular measurement
CO 2 Explain the surface roughness measurement screw thread measurement and
gear measurement
CO 3 Explain the concepts of machine tool alignments
CO 4 Select appropriate elements of a measurement system and select instruments
for displacement measurement
CO 5 Select instruments for temperature pressure and flow measurement
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - 1 - - - - - - 2 -
CO2 (K2) 2 1 - 1 - - - - - - 2 -
CO3 (K3) 3 2 - 1 - - - - - - 3 -
CO4 (K4) 2 3 - 2 - - - - - - 3 -
CO5 (K4) 2 3 - 2 - - - - - - 2 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K5) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 1 -
CO2 (K2) - 1 -
CO3 (K3) - 2 -
CO4 (K4) - 3 -
CO5 (K4) - 3 -
UNIT- I
Linear and Angular Measurements Limits and Fits
ISO system Fits and Types of interchangeability Taylorrsquos Principle or plain limit
gauges Use of Plug Ring and Snap gauges Indicating type limit gauges Introduction-
Linear and Angular measurements - Slip gauges and End bars - Gauge material and
manufacturing methods Different types of Micrometers Height gauges Tomlinson
AR19 Mechanical Engineering
Aditya Engineering College (A) 119
gauges Precision polygon Sine bar Auto collimator
UNIT- II
Optical Measurement and Comparators
Dial indicator Sigma and Mechanical comparator Free flow and Back pressure type
Pneumatic comparator Application of set jet gauge heads Optical projector Chart
screen gauges and measuring methods Micro gauge bridge lines Tool makerrsquos
Microscope applications Measurement of Straightness and- Flatness Roundness
measurement with bench centers and talyround Coordinate Measuring Machine in
components geometries
UNIT- III
Surface Roughness Measurements and Gear tooth measurement
Parameters as per ISO indices Profilometer Taylor Hobson Talysurf Application of Thread metrology - 2 wire and 3 Wire methods Gear measurement - Gear tooth
thickness Parkinson gear tester General geometric tests for testing machine tools-Lathe drill mill
UNIT- IV
Displacement and Strain Measurement
Elements of instrumentation system Static and Dynamic characteristics Types of errors
Displacement transducers LVDT Strain measurement - Wire and foil type resistance strain gauges Rosette Gauges Bonding procedure Lead resistance compensation
Adjacent arm and self compensating gauges Proving ring Strain gauge load cells measurement of axial load and torsion by strain gauges Piezo electric load cell
UNIT- V
Temperature Pressure and Flow Measurement
Introduction to Seismic Transducers - displacement and acceleration measurement
Pressure measurement - Bourdon pressure gauge bulk modulus gauge pirani gauge
Temperature measurement by thermo couples Laws of thermo electricity Types of
materials used in thermocouples Rotameter magnetic ultrasonic turbine flow meter
hot ndash wire anemometer laser Doppler anemometer (LDA) dynamometers
Text Books
1 Dimensional MetrologyConnie Dotson Cengage Learning2016
2 Measurement System Applications and Design DSKumar Metropolitian book Co
pvtlmtd 1st edition
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers 2008
2 Engineering Metrology ICGupta Dhanpat Rai Publishers 2018
3 Mechanical and Industrial Measurements RK Jain Khanna Publishers 2008
4 Instrumentation measurement amp analysis BCNakra amp KKChoudhary TMH
2008
Web Links
1 httpsnptelacincourses112106179
2 httpswwwslidesharenetengrnoumanmetrology-measurement
3 httpwwwmetrologypggdapl
4 httpsindiaoupcomproductengineering-metrology
AR19 Mechanical Engineering
Aditya Engineering College (A) 120
ORGANIZATIONAL BEHAVIOUR
(Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E06 3 0 0 3
Course Objectives
COB 1 To make the students understand the factors affecting the individual behavior
and its impact on organizational behavior
COB 2 To impart the knowledge on management and the way it is performed in the
organizations
COB 3 To familiarize the students with the basic concepts of stress and emotions
the contributions of various managerial issues in the organization
COB 4 To obtain students of frameworks and tools to effectively analyze and
approach various organizational situations
COB 5 To intended to help the students to gain a solid understanding of human
behavior in the workplace from an individual group and organizational
perspective
Course Outcomes
At the end of the Course Student will be able to
CO 1
Explain the OB a range of organizational behavior models key elements and
roles of OB
CO 2 Analyze the behavior of individuals and groups in organizations in terms of
organizational behavior interpersonal behavior and personality traits
concepts
CO 3 Utilize various stress and emotional organizational behavior concepts
models and theories to real life management situations through case analysis
CO 4 Make use of organizational communication and organization culture to
understanding of organizational communication and culture to cope up with
the organization better way
CO 5 Classify the different groups and teams in the organization and its features
for dealing these groups in a good way for better result and motivate them
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 1 - 1 -
CO2 (K3) - - - - - - - - - 1 - 1
CO3 (K4) - - - - - - - - 1 - - -
CO4 (K3) - - - - - - - - - 1 1 -
CO5 (K3) - - - - - - - - - 1 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 121
UNIT-I
Organizational Behavior Concept of Organizational Behavior (OB)-
Importance of Organizational Behaviour- Key Elements of Organizational
Behavior Role of Managers in OB- Interpersonal Roles-Informational Roles-
Decisional Roles Foundations or Approaches to Organizational Behavior
Challenges and Opportunities for OB
UNIT-II
Interpersonal Behavior Nature and meaning of Interpersonal Behavior
Concept of Self Transaction Analysis (TA) Benefits and uses of Transactional
Analysis Johari Window Model
Personality Definition and Meaning of Personality - Importance of Personality
Determinants of Personality Theories of Personality Personality Traits
Influencing OB
UNIT-III
Emotions Nature and Meaning of Emotions - Characteristics of Emotions
Theories of Emotions Emotions in the Context of OB
Organizational Stress Definition and Meaning Sources of Stress Types of
Stress Impact of Stress on Organizations Stress Management Techniques
UNIT-IV
Organizational Communication Meaning and Importance of Communication
FunctionsprocesstypesInterpersonalCommunicationOrganizational
Communication Tips for Effective Communication
Organization Culture Meaning and Nature of Organization Culture - Origin of
Organization Culture Functions of Organization Culture Types of Culture
Creating and Maintaining Organization Culture Managing Cultural Diversity
UNIT-V
Groups and Teams Meaning and Importance of Groups Reasons for Group
Formation Types of Groups Stages of Group Development Meaning and
Importance of Teams Types of Teams Creating an Effective Team
Text Books
1 K Ashwathappa Organizational Behavior Himalaya Publishing House 2005
2 DrPSubba Rao and Prof NSambasiva RaordquoManagement and Organizational
Behaviour - (Text and Cases)rdquo Himalaya Publishing House Mumbai
Reference Books
1 Udai Pareek Understanding Organisational Behaviour 2nd Edition Oxford
Higher Education 2004
2 Mc Shane amp Von Glinov Organisational Behaviour 4th Edition Tata Mc Graw
Hill 2007
3 Anjali Ghanekar Organizational Behavior Everest Publications 2001
4 PareekUdai ldquoUnderstanding Organizational Behaviorrdquo Oxford University Press
New Delhi 2007
Web Links
1 httpswwwyoutubecomwatchv=JIa7vP3gyL4
2 httpswwwyoutubecomwatchv=-sLHfYnxh8samplist =PLbMVog Vj5Njqyx
oO3foSZ6CrU7aCCwTsb
3 httpswwwyoutubecomwatchv=YIyjkkUk80w
AR19 Mechanical Engineering
Aditya Engineering College (A) 122
BASIC CONCRETE TECHNOLOGY (Open Elective ndashI)
V Semester L T P C
Course Code 191CE5O01 3 0 0 3
Course Objectives
COB 1 To teach the students about the properties of ingredients in concrete
COB 2 To enable the student understand different types and properties of aggregate
COB 3 To make the students to study the behaviour of concrete as its fresh and
hardened state
COB 4 To impart the students with the knowledge on quality control of concrete
COB 5 To illustrate the concept of special concrete and their use
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the basic concepts of concrete
CO 2 Explain the properties of ingredients of concrete
CO 3 Select the suitability of different types of aggregate for their use
CO 4 Explain about fresh Concrete hardened concrete
CO 5 Illustrate the concept of special concrete and their use
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K2) 2 1 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Cement amp Admixtures
Portland cement ndash Chemical composition ndashHydration Setting of cement Fineness of
cementndash Test for physical properties ndash Different grades of cements ndashAdmixtures ndash
Mineral and chemical admixtures ndash accelerators retarders air entrainers plasticizers
super plasticizers fly ash and silica fume
UNIT-II
Aggregates
Classification of aggregate ndash Particle shape amp texture ndash Bond strength amp other
mechanical properties of aggregates ndash Specific gravity Bulk density porosity adsorption
amp moisture content of aggregate ndash Bulking of sand ndashDeleterious substance in aggregate ndash
Soundness of aggregatendash Thermal properties ndash Sieve analysis ndash Fineness modulus ndash
Grading curves ndash Grading of fine amp coarse Aggregates ndash Gap graded and well graded
AR19 Mechanical Engineering
Aditya Engineering College (A) 123
aggregate as per relevant IS code ndash Maximum aggregate size Quality of mixing water
UNIT-III
Fresh Concrete
Steps in Manufacture of Concretendashproportion mixing placing compaction finishing
curing ndash including various types in each stage Properties of fresh concrete-Workability ndash
Factors affecting workability ndash Measurement of workability by different tests Effect of
time and temperature on workability ndash Segregation amp bleeding
UNIT-IV
Hardened Concrete
Nature of strength of concretendash Factors affecting strength ndash Relation between compression
amp tensile strength ndashTesting of Hardened Concrete Compression tests ndash Tension tests ndash
Flexure tests ndashSplitting tests ndash Non-destructive testing methods
UNIT-V
Special Concretes
Light weight aggregate concrete Cellular concrete No-fines concrete High density
concrete Fiber reinforced concrete Different types of fibers Factors affecting properties
of FRC Polymer concrete Types of Polymer concrete Properties of polymer concrete
High performance concrete ndash Self consolidating concrete SIFCON self healing concrete
Recycled concrete Shotcrete
Text Books
1 Concrete Technology MSShetty Chand Publication 6th Edition 2010
2 Concrete Technology Theory and Practice ML Gambhir McGraw Hill 4th Edition
2009
3 Concrete Microstructure Properties and Materials Kumar Mehta and Paulo JM
Monteiro McGraw Hill 3rd Edition 2006
Reference Books
1 Properties of Concrete AM Neville Pearson 2004
2 Concrete Technology AM Neville and JJ Brooks Pearson 2004
3 Concrete S Mindess and JF Young Prentice-Hall 1981
4 Concrete Technology AR Santhakumar Oxford 2007
Web Links
1 httpsnptelacincourses105102012
2 wwwbrighthubengineeringcom rsaquo Concrete Technology
3 httpswwwmaterialsworldmodulesorgindexphpweb-links-sumitted-by-
members
4 httpswwwfhwadotgovresourcecenterteamsconstructionlinkscfm
5 wwwalmahrooscomindexphpfrcomponenttagstag17-concrete-technology
AR19 Mechanical Engineering
Aditya Engineering College (A) 124
ELECTRICAL SAFETY (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O01 3 0 0 3
Course Objectives
COB 1 To help the students to know about electrical hazards
COB 2 To help the students to know about various grounding techniques
COB 3 To help the students to know about safety procedures
COB 4 To help the students to know about various electrical maintenance techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe electrical hazards and safety equipment
CO 2 Analyze and apply various grounding and bonding techniques
CO 3 Select appropriate safety method for low medium and high voltage equipment
CO 4 Participate in a safety team
CO 5 Carry out proper maintenance of electrical equipment by understanding
various Standards
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 3 1 3 1 - - - - - - - -
CO2 (K4) 3 3 3 - - - - - - - - -
CO3 (K3) 3 2 3 1 - - - - - - - -
CO4 (K3) - - 3 - - - - - - - - -
CO5 (K2) 3 1 3 1 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Hazards of Electricity and Electrical Safety Equipment
Primary and secondary hazards- arc blast shocks-causes and effects-safety equipment-
flash and thermal protection head and eye protection-rubber insulating equipment hot
sticks insulated tools barriers and signs safety tags locking devices- voltage measuring
instruments- proximity and contact testers-safety electrical one line diagram- electricianrsquos
safety kit
UNIT-II
Grounding of Electrical Systems and Equipment
General requirements for grounding and bonding- definitions- grounding of electrical
equipment-bonding of electrically conducting materials and other equipment-connection
of grounding and bonding equipment- system grounding- purpose of system grounding-
grounding electrode system- grounding conductor connection to electrodes-use of
grounded circuit conductor for grounding equipment- grounding of low voltage and high
AR19 Mechanical Engineering
Aditya Engineering College (A) 125
voltage systems
UNIT-III
Safety Procedures and Methods
The six step safety methods- pre job briefings - hot-work decision tree-safe switching of
power system- lockout-tag out- flash hazard calculation and approach distances-
calculating the required level of arc protection-safety equipment procedure for low
medium and high voltage systems- the one minute safety audit
UNIT-IV
Safety Management and Organizing Structure
Electrical safety program structure development- company safety team- safety policy
program implementation- employee electrical safety teams- safety meetings- safety audit
accident prevention- first aid- rescue techniques-accident investigation
UNIT-V
Electrical Maintenance and Legal Safety Requirements and Standards
Safety related case for electrical maintenance- reliability centered maintenance (RCM) -
eight step maintenance program- frequency of maintenance- maintenance requirement for
specific equipment and location- regulatory bodies- national electrical safety code-
standard for electrical safety in work place- occupational safety and health administration
standards Indian Electricity Acts related to Electrical Safety
Text Books
1 Electrical Safety Handbook by John Cadick Mary Capelli-Schellpfeffer Dennis
Neitzel Al Winfieldrsquo McGraw-Hill Education 4 th Edition
Reference Books
1 lsquoElectrical Safety- a guide to the causes and prevention of electric hazards by
Maxwell AdamsJrsquo The Institution of Electric Engineers IET
2 Electrical Safety in the Workplace by Ray A Jones Jane G Jones Jones amp Bartlett
Learning
Web Links
1 httpnptelacincourses1031060715 2 httpswwwelectricalsafetyfirstorguk
2 httpsnptelacincourses1131071131070
3 httpsnptelacincourses1221021221020
AR19 Mechanical Engineering
Aditya Engineering College (A) 126
ELECTRICAL MATERIALS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O02 3 0 0 3
Course Objectives
COB 1 To enable the students study various types of dielectric materials their
properties in various conditions
COB 2 To assist the students to Know the magnetic materials and their behaviour
COB 3 To assist the students to Know the semiconductor materials and technologies
COB 4 To help the students acquire the Knowledge on Materials used in electrical
engineering and applications
COB 5 To help the students acquire the Knowledge on special purpose Materials used
in electrical engineering
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify various types of dielectric materials their properties in various
conditions
CO 2 Analyze magnetic materials and their behaviour
CO 3 Evaluate semiconductor materials and technologies
CO 4 Develop Knowledge on Materials used in electrical engineering and
applications
CO 5 Acquire Knowledge on special purpose Materials used in electrical engineering
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2
CO2 (K4) 3 3
CO3 (K5) 3 3
CO4 (K3) 3 2
CO5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Dielectric Materials
Dielectric as Electric Field Medium leakage currents dielectric loss dielectric strength
breakdown voltage breakdown in solid dielectrics flashover liquid dielectrics electric
conductivity in solid liquid and gaseous dielectrics Ferromagnetic materials properties
of ferromagnetic materials in static fields spontaneous polarization curie point anti-
ferromagnetic materials piezoelectric materials pyroelectric materials
UNIT-II
Magnetic Materials
Classification of magnetic materials spontaneous magnetization in ferromagnetic
AR19 Mechanical Engineering
Aditya Engineering College (A) 127
materials magnetic Anisotropy Magnetostriction diamagnetism magnetically soft and
hard materials special purpose materials feebly magnetic materials Ferrites cast and
cermet permanent magnets ageing of magnets Factors effecting permeability and
hysteresis
UNIT-III
Semiconductor Materials
Properties of semiconductors Silicon wafers integration techniques Large and very large
scale integration techniques (VLSI)
UNIT-IV
Materials for Electrical Applications
Materials used for Resistors rheostats heaters transmission line structures stranded
conductors bimetals fuses soft and hard solders electric contact materials electric
carbon materials thermocouple materials Solid Liquid and Gaseous insulating materials
Effect of moisture on insulation
UNIT-V
Special Purpose Materials
Refractory Materials Structural Materials Radioactive Materials Galvanization and
Impregnation of materials Processing of electronic materials Insulating varnishes and
coolants Properties and applications of mineral oils Testing of Transformer oil as per
ISI
Text Books
1 A course in Electrical Engineering Materials by R K Rajput Laxmi Publications
2 A course in Electrical Engineering Materials by T K Basak New Age Science
Publications
Reference Books
1 Electrical Engineering Materials by TTTI Madras McGraw Hill Education
2 Electrical Engineering Materials by Adrianus J Dekker PHI Publication
3 A course in Electrical Engineering Materials by S P Seth P V Gupta Dhanpat
Rai amp Sons
Web Links
1 httpsnptelacincourses113102113102080
2 httpsnptelacincourses113107113107078
3 httpsnptelacincourses122102122102008
AR19 Mechanical Engineering
Aditya Engineering College (A) 128
BASIC ELECTRICAL MEASURMENTS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 3 0 0 3
Course Objectives
COB 1 To equip the student with the knowledge of different types of instruments
COB 2 To equip the student with the knowledge of different types of instruments for
measurements of voltage current power ampenergy
COB 3 To make the student understand various types of bridges for measurement of
parameters-resistance inductance capacitance and frequency
COB 4 To help the students learn the knowledge of the Transducers and Sensors
COB 5 To help student acquire knowledge on applications of CRO for measurement
of frequency phase difference and hysteresis loop using Lissajous patterns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the behaviour of different types of torques in instruments
CO 2 Apply the right type of instrument for measurement of voltage current power
ampenergy
CO 3 Develop the suitable bridge for the measurement of electrical parameters
CO 4 Analyze the behaviour of different types of Transducers and Sensors
CO 5 Explain frequency and phase difference between signals using CRO
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) 1
CO2 (K5) 1
CO3 (K4) 1
CO4 (K4) 1
CO5 (K5) 1
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Basics of Measuring instruments
List of important electrical quantities to be measured their units and the names of the
instruments to measure them- Classification of instruments - different types of torques
(Deflection Controlling and Damping torques) in the indicating instruments-definitions
of accuracy precision error resolution and sensitivity-types of error
UNIT-II
Electromechanical Measuring Instruments
MC and MI types of Ammeters and Voltmeters - their Construction and working- shunts
and multipliers for MC instruments - Dynamometer type Ammeter Voltmeter and
Wattmeterndashconstruction working errors- Measurement of energy ndashsingle phase
AR19 Mechanical Engineering
Aditya Engineering College (A) 129
Induction type energy meter- Construction and working
UNIT-III
Measurements of Parameters
Classification of resistance- List of methods of measurement of resistance-Wheat stonersquos
bridgendash Kelvinrsquos double bridge for measuring low resistance- Loss of charge method for
measurement of inductance ndashQuality Factor ndashMaxwellrsquos bridge-Hayrsquos bridge-
Measurement of capacitance and loss angle ndash Desauty Bridge ndash Schering
Bridge(elementary treatment only)
UNIT-IV
Transducers
Definition of transducer-need of transducer-Classification of Transducers ndash Factor
influencing while its selection -Applications of Transducers ndashThermocouple- Thermister-
working principle and use of Strain Gauge- construction working and use of LVDT Basic
Concept of Sensors and its applications
UNIT-V
Electronic amp Digital Instruments
Digital voltmeter ndash Successive approximation ndash Frequency ndash Hysteresis loop using
lissajious patterns in CRO ndash Ramp and integrating type ndashDigital multimeter ndashDigital
Tachometer
Text Books
1 A course in Electrical Measurements Electronic Measurements Instrumentation A K
Sawhney 11th Edition DhanpatRai and Sons
2 A course in Electrical and Electronic Measurements and Instrumentation J B Gupta
13th EditionSK Kataria and Sons
Reference Books
1 Electrical Measurements ndash by Buckingham and Price Prentice ndash Hall Electrical
Measurements by Forest K Harris John Wiley and Sons
2 Electrical Measurements Fundamentals Concepts Applications ndash by Reissland
MU New Age International (P) Limited Publishers
3 Electrical and Electronic Measurements ndashby GKBanerjee PHI Learning Private
Ltd New Delhi
Web Links
1 httpnptelacincourses10810505342
2 httpnptelacinsyllabus108106070
3 httpnptelacincourses108106070
AR19 Mechanical Engineering
Aditya Engineering College (A) 130
ENTREPRENEURSHIP DEVELOPMENT AND INCUBATION (Open Elective-I)
V Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make aware of the various concepts of entrepreneurship
COB 2 To help in understanding and apply the business plan of entrepreneurship
development
COB 3 To help in analyzing and apply the Institutions that are supporting to
Entrepreneurship Development
COB 4 To helps in understanding of entrepreneurship opportunities internationally
COB 5 To understand and apply the studentrsquos capital investments in association
with business incubations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe the meaning and concepts of entrepreneurship development
CO 2 Apply the business plan for preparation and evaluation of project
CO 3 Research on Institutional Support to Entrepreneur and MSMEs
CO 4 Apply the Opportunities of Entrepreneurship Internationally
CO 5 Research on Venture capital amp Risk for entrepreneurship socially
incubations
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - 1 2 - - 2 -
CO2 (K3) - - - - - 1 2 - - 2 -
CO3 (K4) - - - - - 3 3 - - 3 2
CO4 (K3) - - - - - 3 3 - - 3 2
CO5 (K3) - - - - - 1 2 - - 2 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - - CO2 (K3) - - - CO3 (K4) - - - CO4 (K3) - - - CO5 (K3) - - -
UNIT-I
Entrepreneur ampEntrepreneurship Meaning of entrepreneur - Evolution of the
concept - Functions of an Entrepreneur - Types of Entrepreneur - Intrapreneur- an
emerging class - Concept of Entrepreneurship - Evolution of Entrepreneurship -
Development of Entrepreneurship - Entrepreneurial Culture - Stages in entrepreneurial
process
UNIT-II
Business Planning Process Meaning of business plan - Business plan process -
Advantages of business planning - Marketing plan - Productionoperations plan -
Organization plan - Financial plan - Final Project Report with Feasibility Study -
AR19 Mechanical Engineering
Aditya Engineering College (A) 131
preparing a model project report for starting a new venture
UNIT-III
Institutions supporting Entrepreneurs Small industry financing developing countries
- A brief overview of financial institutions in India - Central level and state level
institutions - SIDBI - NABARD - IDBI - SIDCO - Indian Institute of Entrepreneurship
- DIC - Single Window - Latest Industrial Policy of Government of India
UNIT-IV
International Entrepreneurship Opportunities The nature of international
entrepreneurship - Importance of international business to the firm - International versus
domestic entrepreneurship - Stages of economic development - Entrepreneurship entry
into international business - exporting - Direct foreign investment - barriers to
international trade
UNIT-V
Informal Risk Capital and Venture Capital Informal risk capital market - venture
capital - nature and overview - venture capital process - locating venture capitalists -
approaching venture capitalists Social Entrepreneurship Social enterprise-need - types
- characteristics and benefits of social enterprises-Social entrepreneurship - Rural
entrepreneurship MSME Policies Make-In India Start-Up India Stand-Up India
Text Books
1 Arya Kumar ldquoEntrepreneurshiprdquo Pearson Publishing House New Delhi 2012
2 VSP Rao Kuratko ldquoEntrepreneurshiprsquo Cengage Learning New Delhi2011
3 KRamachandran ldquoEntrepreneurship Developmentrdquo TMH New Delhi 2012
Reference Books
1 BJanakiram M Rizwana ldquoEntrepreneurship Developmentrdquo Excel Books New
Delhi 2011
2 Rajeev Roy ldquoEntrepreneurshiprdquo Oxford University Press New Delhi2012
3 PCShejwalkar ldquoEntrepreneurship Developmentrdquo Everest Publishing House
New Delhi 2011
4 RH Hisrich MP Peters and DA Shepherd ldquoEntrepreneurshiprdquo Mc Graw
Hill Irwin 8th Edition 2010
5 Ryszard Praszkieramp Andrzej Nowak ldquoSocial Entrepreneurship Theory and
Practice Paperback ndash Illustratedrdquo Cambridge University Press New York-
February 2 2012
Reference Books
1 httpnptelacincourses
2 httpswwwtutorialspointcom
3 httpswwwediindiaorg
4 httpwwwquickmbacomentre
5 httpswwwscribdcomdocument150087992Entrepreneurship-Chapter-12-
Informal-Risk-Capital
AR19 Mechanical Engineering
Aditya Engineering College (A) 132
SIGNALS AND SYSTEMS
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O01 3 0 0 3
Course Objectives
COB 1 To introduce the concepts associated with signals and systems
COB 2 To familiarize the concepts of transform based continuous time and discrete
time analysis of signals and systems
COB 3 To prepare the students to analyze the characteristics of LTI systems using
different mathematical tools
COB 4 To create awareness on frequency transformation techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Categorize signals and systems based on their characteristics
CO 2 Demonstrate the spectral characteristics of signals using Fourier series
CO 3 Demonstrate the spectral characteristics of signals using Fourier Transform
CO 4 Identify system characteristics in time domain and frequency domain
CO 5 Apply Laplace transform techniques for the analysis of continuous time
signals and Systems
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 3 1 - - - - - - - - - -
CO 2(K2) 2 1 - - - - - - - - - -
CO 3(K3) 3 2 1 1 - - - - - - - -
CO 4(K3) 3 2 1 1 - - - - - - - -
CO 5(K4) 3 3 2 2 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Signals Classification of Signals Different deterministic signals
impulse step ramp gate signum sinc sinusoidal exponential complex exponential
Basic Operations on signals
UNIT-II
Fourier Series Representation of Fourier series for continuous time periodic signals
Trigonometric Fourier series and Exponential Fourier series Dirichletrsquos conditions
properties of Fourier series Complex Fourier spectrum Applications of Fourier series
UNIT-III
Fourier Transform Deriving Fourier Transform (FT) from Fourier series Fourier
transform of arbitrary signal Fourier transform of standard signals Fourier transform of
AR19 Mechanical Engineering
Aditya Engineering College (A) 133
periodic signals properties of Fourier transforms Fourier transforms involving impulse
function and Signum function Applications of Fourier Transforms Convolution and itrsquos
properties
UNIT-IV
Signal Transmission Through LTI Systems Classification of Systems Impulse
response and step response of LTI systems Transfer function of an LTI system Filter
characteristics of LTI systems Distortion less transmission through a system Ideal LPF
HPF and BPF characteristics Causality and Paley-Wiener criterion for physical
realization Signal bandwidth system bandwidth relationship between bandwidth and
rise time
UNIT-V
Laplace Transforms Review of Laplace transform (LT) Existence of Laplace
transform Concept of region of convergence (ROC) for Laplace transforms constraints
on ROC for various classes of signals Properties of Laplace transforms relation between
LTs and FT of a signal Inverse Laplace transform applications of Z Transform
Text Books
1 Signals and Systems - AV Oppenheim AS Willsky and SH Nawab PHI
2nd Edition 2016
2 Signals Systems amp Communications - BP Lathi BS Publications 2003
3 Signals and Systems ndash A Anand Kumar PHI 4th Edition 2017
Reference Books
1 Signals amp Systems - Simon Haykin and Van Veen Wiley 2nd Edition
2 Fundamentals of Signals and Systems- Michel J Robert MGH Int Edition 2008
3 Signals and Systems K Raja Rajeswari B Visweswara Rao PHI 2009
Web Links
1 httpsfreevideolecturescomcourse3540signals-and-systems-i
2 httpnptelacincourses117104074
3 httpnptelacincourses117101055
4 httpswwwtutorialspointcomsignals_and_systemsindexhtm
5 httpsocwmiteduresourcesres-6-007-signals-and-systems-spring-2011
AR19 Mechanical Engineering
Aditya Engineering College (A) 134
DIGITAL ELECTRONICS AND LOGIC DESIGN (Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O02 3 0 0 3
Course Objectives
COB 1 To make the students understand different number representations
COB 2 To make the students study the minimization techniques for logic optimization
COB 3 To equip the students design combinational logic circuits
COB 4 To make the students design Programmable Logic Device(PLD)
COB 5 To impart the knowledge on sequential circuits
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret numeric information in different code formats
CO 2 Develop optimized logic by using various optimization algorithms
CO 3 Construct various combinational logic circuits for required specifications
CO 4 Build different Programmable Logic Device for required specifications
CO 5 Build different sequential logic circuits for required specifications
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 3 3 - - - - - - - - -
CO4 (K4) 3 3 3 - - - - - - - - -
CO5 (K4) 3 3 3 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Digital Electronics amp its Usage
Number Systems Representation of numbers of different radix conversation from one
radix to another radix r-1rsquoscompliments and rrsquos compliments of signed numbers
problem solving
Binary Codes 4bit codes BCD Excess-3 2421 84-2-1 9rsquos compliment code etc error
detection amp correction codes Gray code error detection error correction codes (parity
checking even parity odd parity Hamming code)
UNIT-II
Boolean Algebra ampMinimization Techniques Basic logic operations NOTOR AND
Universal building blocks EX- OR EX-NOR Gates NAND-NAND and NOR-NOR
realizations Boolean theorems principle of complementation amp duality De-Morgan
theorems minimization of logic functions using Boolean theorems minimization of
switching functions using K-Map up to 6 variables tabular minimization
AR19 Mechanical Engineering
Aditya Engineering College (A) 135
UNIT-III
Combinational Logic Circuits Design of Half adder full adder half Sub-tractor full
sub-tractor applications of full adders 4-bit binary sub-tractor adder-sub-tractor circuit
BCD adder circuit Excess 3 adder circuit look-a-head adder circuit Design of decoder
demultiplexer7segment decoder higher order de-multiplexing encoder multiplexer
higher order multiplexing priority encoder 4-bit digital comparator
UNIT-IV
Programmable Logic Devices amp Sequential Circuits
Introduction to PLDrsquos PROM PAL PLA-Basics structures realization of Boolean
function with PLDs programming tables of PLDs merits amp demerits of PROM PAL
PLA comparison realization of Boolean functions using PROM PAL PLA
programming tables of PROM PAL PLA
UNIT-V
Sequential Circuits Classification of sequential circuitsbasic flip-flops truth tables and
excitation tables (NAND RS latch NOR RS latch RS flip-flop JK flip-flop T-flip-flop
D-flip-flop with reset and clear terminals) Conversion from one flip-flop to another flip-
flop Design of synchronous counters Johnson counter ring counter Design of registers
- Buffer register control buffer register shift register bi-directional shift register
universal shift register
Text Books
1 Switching Theory and Logic Design A Anand Kumar Pearson 3rd Edition 2013
2 Digital Design Morris Mano Pearson 3rd Edition 2002
Reference Books
1 Modern Digital Electronics RP Jain Tata Mc Graw Hill 4th Edition 2010
2 Introduction to Switching Theory and Logic Design Fredriac J Hill Gerald R
Peterson 3rd Edition John Wiley amp Sons Inc 1982
3 Fundamentals of Logic Design Charles H Roth Jr Jaico Publishers 2004
Web Links
1 httpswwwnptelacincourses1171060861Kuruvilla VargheseDESEInstitute of
Science
2 wwwnptelvideosin201212digital-circuits-and-systemshtmlProf S Srinivasan
Department of Electrical Engineering IIT Madras
AR19 Mechanical Engineering
Aditya Engineering College (A) 136
SEMICONDUCTOR DEVICES
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O03 2 1 0 3
Course Objectives
COB 1 To make the students understand the physical phenomenon such as
construction transport mechanism and characteristics of diodes
COB 2 To familiarize the students with the operation and characteristics of
Transistor
COB 3 To make the students understand the construction and operation of FET and
MOSFET
COB 4 To impart knowledge on basics of special semiconductor devices
COB 5 To make the students understand physical and technical base of sensors
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret the characteristics of semiconductor diodes
CO 2 Apply the knowledge of semiconductors to illustrate the functioning of BJT
CO 3 Demonstrate the switching and amplification Application of FET
CO 4 Classify the semiconductor devices for special Applications
CO 5 Identify the sensor types used in various applications and explain their
principle of operation
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 2 1 - - - - - - - - - -
CO 2(K3) 3 2 1 - - - - - - - - -
CO 3(K2) 2 1 - - - - - - - - - -
CO 4(K2) 2 1 - - - - - - - - - -
CO 5(K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
PN junction Diode Theory and Operation of PN junction diode V-I characteristics
Application of diode as Rectifier Clipper and Clamper
Zener diode Principle V-I characteristics Zener breakdown and Avalanche breakdown
Zener diode as a voltage regulator
UNIT-II
BJT Construction and operation of a transistor characteristics of transistor in Common
Base Common Emitter and Common Collector configurations transistor as a switch
transistor as an amplifier
AR19 Mechanical Engineering
Aditya Engineering College (A) 137
UNIT-III
FET Construction and operation of FET Characteristic of FET low frequency model of
FET FET as a switch and an amplifier MOSFET Characteristics (enhancement and
depletion mode)
UNIT-IV
Special Semiconductor Devices LED LCD Photo transistor Tunnel diode Varactor
diode Opto coupler solar cell Charged Coupled Device
UNIT-V
bull Sensors Temperature Sensor Proximity Sensor Sensistor Thermistor LDR Flame
Sensor Humidity sensor NEMSMEMS
Text Books
1 DNeamen and DBiswa ldquoSemiconductor physics and devicesrdquo McGraw Hill
Education2017
2 J Millman C Halkias Electronic Devices and Circuits Tata Mc-Graw Hill 2nd
Edition 2007
3 Clarence W de Silva ldquoSensors and Actuators Engineering System Instrumentationrdquo
CRC press second edition 2015
Reference Books
1 Umesh Mishra and Jasprit Singh ldquoSemiconductor Device Physics and Designrdquo
Springer2008
2 A A Balandin and K L Wang Handbook of Semiconductor Nanostructures and
Nanodevices Grainger 2006
3 WRFahrner ldquoNanotechnology and Nanoelectronics ndash Materials Devices
andMeasurement Techniquesrdquo Springer 2006
Web Links
1 httpsfreevideolecturescomcourse4277nptel-fundamentals-semiconductor-
devices58
2 httpswwwcourseraorgspecializationssemiconductor-devices
3 httpsnptelacincourses108108108108112 Prof Sanjiv Sambandan
AR19 Mechanical Engineering
Aditya Engineering College (A) 138
DATA STRUCTURES (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To make the students learn the basic Concepts of Data Structures and
algorithms
COB 2 To enable the students to analyze the various Searching and Sorting
techniques
COB 3 To provide knowledge on Stacks and Queues
COB 4 To impart knowledge on list and its applications
COB 5 To discuss the various operations of Trees
COB 6 To demonstrate the Graph Traversal Techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate time and space complexities of an algorithm
CO 2 Apply various searching and sorting techniques to solve computing
problems
CO 3 Make use of linear data structures to solve real time problems
CO 4 Develop applications using Tree Data Structures
CO 5 Solve problems using Graph Algorithms
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 - - - - - - -
CO2 (K3) 3 2 - - 3 - - - - - - -
CO3 (K3) 3 2 - - 3 - - - - - - -
CO4 (K3) 3 2 - - 3 - - - - - - -
CO5 (K3) 3 2 - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Basic Concepts Pseudo code Algorithm analysis Time and Space
Complexity
Introduction to Data Structures Definition Classification and Operations on Data
Structures
Searching Linear search Binary search
Sorting Bubble Sort Insertion Sort Selection Sort Quick Sort Merge Sort Radix
Sort
AR19 Mechanical Engineering
Aditya Engineering College (A) 139
UNIT-II
Stacks Introduction Array Representation of Stacks Operations and Implementation
Applications of Stacks-Reversing list Infix to Postfix Conversion Evaluating Postfix
Expressions
Queues Introduction Array Representation of Queues Operations and
Implementation Types of Queues Circular Queues and Dequeues Application of
Queues
UNIT-III
Linked Lists Introduction Singly linked list Operations on Singly Linked list -
Insertion Deletion Doubly linked list - Insertion Deletion Circular linked list-
Insertion Deletion Linked Representation of Stacks and Queues Applications of
Linked lists-Addition of Polynomials Sparse Matrix Representation using Linked List
UNIT-IV
Trees Basic Terminology in Trees Representation of Binary Trees using Arrays and
Linked lists Traversing a Binary Tree(In-Order Pre-Order Post-Order)Expression
Trees
Binary Search Trees Definition Operations Searching Insertion Deletion
UNIT-V
Graphs Introduction Graph Terminology Representation of Graphs-Adjacency
Matrix and using Linked list Graph Traversals Minimum Spanning Tree Using Prims
amp Kruskals Algorithm Dijkstrarsquos Shortest Path Warshallrsquos Algorithm Transitive
Closure (Algorithmic Concepts Only No Programs required)
Text Books
1 Data Structures Using CReema Thareja Oxford University Press
2 Data Structures and Algorithm Analysis In C Mark Allen Weiss2nd Edition
Reference Books
1 Fundamentals of Data Structure in C Horowitz Sahni Anderson Freed 2nd
Edition University Press2008
2 Data Structures Richard F Gilberg Forouzan 2E Cengage Learning
3 Data Structures and Algorithms G AVPai TMH2008
Web Links
1 httpnptelacincourses106102064
2 httpalgs4csprincetoneduhome
3 httpsfacultywashingtonedujstraubdsaMaster_2_7apdf
4 httpwwwudacitycom
5 httpwwwcourseeracom
AR19 Mechanical Engineering
Aditya Engineering College (A) 140
OBJECT ORIENTED PROGRAMMING THROUGH C++ (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To enable the students to learn the common concepts of Camp C++
COB 2 To illustrate the object oriented principles and their implementation in C++
COB 3 To impart the knowledge on classes objects member functions constructors
destructors and how to overload functions and operators in C++
COB 4 To make the students learn applications of inheritance
COB 5 To facilitate the students to write various programs using virtual functions
and Polymorphism
COB 6 To demonstrate Generic Programming with Templates
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare and contrast object oriented programming and procedural oriented
programming
CO 2 Summarize the OOPS concepts
CO 3 Make use of constructor and destructor to initialize and destroy class objects
CO 4 Develop programs using virtual functions and Polymorphism
CO 5 Apply inheritance to build real time applications
CO 6 Apply Exception handling mechanism to handle runtime errors
CO 7 Develop C++ classes with templates and STL
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - 3 - - 1 - - - - - - -
CO2 (K2) 2 1 - - 2 - - - - - - -
CO3 (K3) 3 - 1 - - - - - - - - -
CO4 (K3) 3 2 1 1 3 - - - - - - -
CO5 (K5) 3 3 3 3 3 3 - - - - - -
CO6 (K3) 3 2 1 1 - - - - - - - -
CO7 (K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
An Overview of C++ Difference between C and C++ The Origins of C++ Key
Concepts of Object Oriented Programming A Sample C++ Program Old Style vs
Modern C++ Namespaces
Classes and Objects Classes Declaring Objects Access Specifiers and their Scope
Defining Member Function Friend functions Inline Functions Static Member Variable
Static Member Function Constructors and Destructors Scope Resolution Operator
Nested class
AR19 Mechanical Engineering
Aditya Engineering College (A) 141
UNIT-II
Function Overloading Copy Constructor and Default Arguments Function
Overloading Constructor Overloading Constructor with Arguments Copy Constructor
Default Function Arguments Anonymous Objects Array of Objects
Operator Overloading Creating a Member Operator Function Operator Overloading
using Friend function Overloading Special Operators
UNIT-III
Inheritance Base Class Access Control Inheritance and protected Members Types of
Inheritance Pointer to Class Pointer Object The this Pointer Pointer to Derived Classes
and Base Class Virtual Base Classes Object as a Class Member Advantages and
Disadvantages of Inheritance
Virtual Functions and Polymorphisms Virtual Functions Rules for Virtual Function
Pure Virtual Functions Using Virtual Functions Virtual Destructor Early Vs Late
Binding
UNIT-IV
Templates Generic Functions Applying Generic Functions Generic Classes Power
of Templates Difference between Templates and Macros
Exception Handling Exception Handling Fundamentals Handling Derived Class
Exceptions Exception Handling Options Applying Exception Handling
UNIT-V
Introducing the Standard Template Library An Overview of STL Container
Classes Sequence Containers Associative Containers Vectors Lists Maps
Algorithms
Text Books
1 The Complete Reference C++ Herbert Schildt Fourth Edition TMH 2003
2 The C++ Programming Language Bjarne Stroustrup Fourth Edition Pearson
2014
Reference Books
1 A First Book Of C++ Gary Bronson Fourth Edition Cengage Learning 2012
2 C++ Primer Plus By Stephen Prata Sixth Edition Pearson 2011
3 Object Oriented Programming In C++ By E Balagurusamy Sixth Edition Tata
Mcgraw Hill 2013
4 Object Oriented Programming Using C++ Joyce Farrell Fourth Edition
CengageLearning 2008
5 C++ ProgrammingFrom Problem Analysis To Program Design Ds Malik
Eighth Edition Cengage Learning 2017
Web Links
1 httpsinudacitycomcoursec-for-programrs--ud210
2 httpswwwcourseraorgcoursesquery=c2B2B
3 httpnptelacincourses106105151
4 httpswwwjavatpointcomcpp-oops-concepts
5 httpswwwtutorialspointcomcplusplus
AR19 Mechanical Engineering
Aditya Engineering College (A) 142
JAVA PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O03 2 1 0 3
Course Objectives
COB 1 To make students understand object oriented programming concepts and
apply them in solving problems
COB 2 To provide knowledge on classes inheritance interfaces and packages
COB 3 To facilitate students in handling exceptions and multithreading
COB 4 To impart the knowledge on Input Output concepts and applets
COB 5 To enable the students develop standalone applications using AWT and
Swings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply object oriented programming features and concepts for solving given
problem
CO 2 Solve real time problems using the concepts of class inheritance interface and
packages
CO 3 Test for runtime exceptions arise in java applications
CO 4 Develop real time applications using multithreading and IO streams
CO 5 Develop GUI applications using event handlers adapter classes AWT and
Swing components
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 2 2 - 1 - - - - - - -
CO2 (K3) 2 2 3 - 2 - - - - - - -
CO3 (K4) 2 2 3 - 3 - - - - - - -
CO4 (K3) 2 2 3 2 3 - - - - - - -
CO5 (K3) 2 2 3 2 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Java History of Java Java features JVM architecture Classes and objects Program structure methods Passing arguments through command line Building Blocks of Java Variables primitive data types identifiers literals Operators
expressions primitive type conversion and casting flow of control
UNIT-II
Introduction to Classes Class declaration creating objects constructors Method
Overloading constructor overloading garbage collector importance of static keyword
and examples this keyword Arrays Strings nested classes
AR19 Mechanical Engineering
Aditya Engineering College (A) 143
Inheritance amp Interfaces Inheritance- types of inheritance super keyword final keyword overriding Interfaces- Defining an interface Implementing interfaces through classes Multiple inheritance through interfaces abstract class Packages Creating the packages using packages importance of CLASSPATH Access
Specifiers javalang package
UNIT-III
Exception Handling Exception handling importance of try catch throw throws and
finally block user defined exceptions Multithreading Introduction thread life cycle
creation of threads thread priorities thread synchronization communication between
threads
UNIT-IV
Input Output Byte Streams and Character Streams Predefined Streams Reading Console inputs- Reading characters Reading Strings Reading and writing Files Event Handling Event delegation model sources of event Event Listeners adapter
classes inner classes
UNIT-V
AWT Introduction components and containers Button Label Checkbox Radio Buttons List Boxes Choice Boxes Container class Layouts Menu and Scrollbar Swing Introduction Swing Components- JFrame JPanel Layout Managers JList
JTable JTree Dialog Box
Text Books
1 The Complete Reference Java Herbert Schildt Ninth Edition TMH 2014
2 Introduction to java programming by Y Daniel Liang Seventh Edition Pearson
2017
3 Java one step ahead Anita seth BLJuneja First Edition Oxford 2017
Reference Books
1 Core Java An Integrated Approach RNageswaraRao Dreamtechpress 2008
2 Thinking in Java ndash Bruce Eckel Fourth Edition Prentice Hall 2002
3 Beginning Programming with Java for Dummies Barry Burd John Wiley amp Sons
Inc 2014
Web Links
1 httpmathhwsedujavanotes
2 httpjavasuncomdocsbookstutorial
3 httpwwwtutorialspointcomjava
4 httpwwwjavatpointcom
5 httpwwww3schoolscomjava
AR19 Mechanical Engineering
Aditya Engineering College (A) 144
R PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O04 2 1 0 3
Course Objectives
COB 1 To impart the knowledge on the R basic concepts
COB 2 To enable the student learn R program structure
COB 3 To inculcate the knowledge on mathematical functions
COB 4 To illustrate the concept of graph functions
COB 5 To make the students understand the concepts of distribution functions and
regressions models
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the basic concepts and advanced data structures of R programming
CO 2 Understand control statements and operators in R
CO 3 Implement simulation Probability and linear algebra operations
CO 4 Make use of graph functions
CO 5 Develop programs for distribution functions and regression models
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - -
CO2(K2) 2 1 - - 1 - - - - - - -
CO3(K3) 3 2 1 1 3 - - - - - - -
CO4(K3) 3 2 1 1 3 - - - - - - -
CO5(K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction How to run R R Sessions and Functions Basic Math Variables Data
Types Vectors Conclusion Advanced Data Structures Data Frames Lists Matrices
Arrays Classes
UNIT-II
R Programming Structures Control Statements Loops - Looping Over Nonvector
Sets If-Else Arithmetic and Boolean Operators and values Default Values for
Argument Return Values Deciding Whether to explicitly call return- Returning
Complex Objects Functions are Objective No Pointers in R Recursion A Quicksort
Implementation-Extended Extended Example A Binary Search Tree
UNIT-III
Simulation in R Math Function Extended Example Calculating Probability-
AR19 Mechanical Engineering
Aditya Engineering College (A) 145
Cumulative Sums and Products-Minima and Maxima- Calculus Functions Fir Statistical
Distribution Sorting Linear Algebra Operation on Vectors and Matrices Extended
Example Vector cross Product- Extended Example Finding Stationary Distribution of
Markov Chains Set Operation Input output Accessing the Keyboard and Monitor
Reading and writer Files
UNIT-IV
Graphics Creating Graphs The Workhorse of R Base Graphics the plot() Function ndash Customizing Graphs Saving Graphs to Files
UNIT-V
Probability Distributions Normal Distribution- Binomial Distribution- Poisson Distributions Other Distribution Basic Statistics Correlation and Covariance T-Tests-
ANOVA Linear Models Simple Linear Regression -Multiple Regression Generalized Linear Models Logistic Regression
Text Books
1 The Art of R Programming Norman Matloff 1st Edition Cengage Learning2011
2 R for Everyone Lander 2nd
EditionPearson 2018
Reference Books
1 R Cookbook JDLongamp PaulTeetor 2nd EditionOreilly 2019
2 R in ActionRob Kabacoff2nd Edition Manning 2015
Web Links
1 httpsonlinecoursesnptelacinnoc19_ma33preview
2 httpswwwcourseraorgprojectsgetting-started-with-r
3 httpswwwgeeksforgeeksorgintroduction-to-r-programming-language
4 httpswwwudacitycomcoursedata-analysis-with-r--ud651
AR19 Mechanical Engineering
Aditya Engineering College (A) 146
DATABASE MANAGEMENT SYSTEMS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O01 2 1 0 3
Course Objectives
COB 1 To discuss the basic concepts of database systems and its architectures
COB 2 To enable the students learn various data models
COB 3 To illustrate the mechanisms involved in normalization of relational databases
COB 4 To make use of SQL statements for performing operations on databases
COB 5 To impart knowledge on transaction management and concurrency controls
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the database characteristics and various database architectures
CO 2 Interpret relational database using SQL
CO 3 Examine issues in data storage and query processing for appropriate solutions
CO 4 Make use of normalization techniques to build database system for real world
problems
CO 5 Illustrate the mechanisms of transaction management
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 - 3 - - - - -
CO 2 (K2) 2 1 - - - - 3 - - - - -
CO 3 (K3) 3 2 1 1 3 - 3 - - - - -
CO 4 (K3) 3 2 1 1 3 - 3 - - - - -
CO 5 (K2) 2 1 - - 2 - 3 - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Databases Characteristics of database approach advantages of using
the DBMS approach
Overview of Database Languages and Architectures Data models schemas and
instances three schema architecture and data independence database system
environment centralized and clientserver architectures for DBMSs classification of
database management system
SQL Data Definition Constraints and Basic Queries and Updates SQL data
definition ndash DDL commands and data types specifying constraints in SQL INSERT
DELETE and UPDATE statements in SQL basic retrieval queries in SQL
UNIT-II
Introduction to Database Design Database Design and ER Diagrams Entities
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
Introduction to Database Design Database Design and ER Diagrams Entities
AR19 Mechanical Engineering
Aditya Engineering College (A) 147
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
The Relational Model Introduction to the relational model Integrity constraints over
relations enforcing integrity constraints querying relational data Nested Queries
Correlated Queries logical database design-ER to Relational
UNIT-III
Relational Algebra and Calculus Preliminaries relational algebra relational calculus
expressive power of algebra and calculus
Schema Refinement and Normal Forms Introduction to schema refinement functional
dependencies reasoning about FDs Normal forms (1NF 2NF 3NF and BCNF)
properties of decompositions normalization (decomposition into BCNF and 3NF)
schema refinement in database design other kinds of dependencies
UNIT-IV
Overview of Transaction Management amp Concurrency Control
Transaction Management
The ACID properties transactions and schedules concurrent execution of transactions
lock based concurrency control performance of locking and transaction support in SQL
introduction to crash recovery
Concurrency Control
2PLserializability and recoverability introduction to lock management lock conversions
dealing with deadlocks specialized locking techniques concurrency control without
locking
UNIT-V
Storage Overview of Storages and Indexing Data on External Storage- File Organization
and Indexing ndashClustered Indexing ndash Primary and Secondary Indexes Index Data
Structures Hash-Based Indexing ndash Tree-Based Indexing Comparison of File
Organization
Text Books
1 Database Management Systems Raghu Ramakrishnan Johannes Gehrke 3e
TMH
Reference Books
1 Introduction to Database Systems CJ Date Eighth Edition Pearson Education
2004
2 Database Systems - The Complete Book H G Molina J D Ullman J Widom Second
Edition Pearson Education 2009
3 Database Systems design Implementation and Management Peter Rob amp Carlos
Coronel Seventh Edition Cengage 2006
4 Fundamentals of Database Systems ElmasriNavathe Pearson Education 2015
5 Database System Concepts Silberschatz Korth Fifth Edition TMH 2006
Web Links
1 httpwwwnptelvideosin201211database-management-systemhtml
2 httpwwwgeeksforgeeksorgdbms
3 httpwwworaclecomtechnetworkdatabasefeaturesplsqlindexhtml
4 httpwwwcswiscedu~ dbbook
5 httpsbeginnersbookcom201505normalization-in-dbms
AR19 Mechanical Engineering
Aditya Engineering College (A) 148
COMPUTER GRAPHICS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O02 3 0 0 3
Course Objectives
COB 1 To discuss the basic principles of computer graphics primitives
COB 2 To demonstrate transformation clipping and viewing in 2D graphics
COB 3 To make the students learn projections transformations and visible surface
detections in 3D graphics
COB 4 To introduce the concepts of 3D primitives using OpenGL (Open Graphics
Library)
COB 5 To outline the Fractal geometry and Texturing in computer Graphics
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the applications of computer graphics and Video Display devices for
implementing Graphical user interface
CO 2 Analyze output primitives and filled area primitives in implementing various
algorithms
CO 3 Make use of Geometric Transformations Viewing and Clipping in 2D amp 3D
Graphics
CO 4 Illustrate various Visual Surface detection Methods in 3D Graphics
CO 5 Apply OpenGL for General Computer Animations
CO 6 Explain different object color modeling techniques Fractals and Ray tracing
concepts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K4) 3 3 2 2 3 - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - 2 - - - - - - -
CO5 (K3) 3 2 1 1 3 -
CO6 (K2) 2 1 - - 2 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Applications of Computer Graphics Video Display Devices-CRT
Raster-Scan and Random-Scan systems graphics monitors and work stations and input
devices
Output Primitives Line Drawing Algorithms- Bresenhamrsquos and DDA Line Drawing
Algorithms Mid-point circle and Ellipse algorithms
Filled Area Primitives Scan Line Polygon fill algorithm Boundary fill and Flood fill
algorithms
AR19 Mechanical Engineering
Aditya Engineering College (A) 149
UNIT-II
2-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations
2-D viewing The viewing pipeline Window to viewport coordinate transformation
2-D Clipping Cohen-Sutherland line clipping algorithm Sutherland-Hodgeman
polygon clipping algorithm and other clipping models Text amp Curve clipping models
UNIT-III
3-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations 3-D Viewing pipeline
Concepts Parallel and perspective projections and visible surface detection methods
UNIT-IV
Animations General computer animation Raster Key-frame Color models RGB
YIQ CMY HSV Graphics programming using OPENGL basic graphics primitives-
Generating three dimensional objects
UNIT-V
Fractals Fractals and self similarity Mandelbrot sets- Julia sets ndash Random Fractals
Overview of Ray Tracing Intersecting rays with other primitives-Adding surface
texture-Reflections and transparency-Boolean operations on objects
Text Books
1 Computer Graphics C Version Donald D Hearn M Pauline Baker 2nd Edition
Pearson
2 Computer Graphics using OPENGL Stephen M Kelley Francis S Hill 2nd
Edition Pearson
Reference Books
1 Computer Graphics- Principles and practices in C James D Foley Andries Van
Dam Steven K Feiner John F Hughes 2nd Edition Pearson Education 2007
2 Computer Graphics Samit Bhattacharya OXFORD Higher Education
3 Computer Graphics Peter Shirley CENGAGE
4 Principles of Interactive Computer Graphics Neuman Sproul TMH
5 The Computer Graphics manual Vol 2 David Soloman Springer
Web Links
1 httpsocwmiteducourseselectrical-engineering-and-computer-science6-837
computer-graphics-fall-2012
2 httpnptelacincourses106106090
3 httpsinudacitycomcourseinteractive-3d-graphics--s291
4 httpwwwcseiitmacin~vplabcomputer_graphicshtml
5 httpwwwgraphicscornelleduonlinelinkshtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 150
OVERVIEW OF MINING (Open Elective ndashI)
V Semester L T P C
Course Code 191MI5O01 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the mine lifecycle
COB 2 To make the students understand the factors responsible for location shape and
size of the shaft
COB 3 To demonstrate the students the system of ventilation Lighting and Permanent
lining need for drift
COB 4 To explain the special methods and Modern techniques of Shaft sinking
COB 5 To make the students understand the classification of explosives detonators and
detonating fuses and nonel detonators
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze different stages in the life of a mine
CO 2 Choose a suitable location for opening to a deposit
CO 3 Organize for building appropriate permanent lining drift with proper
ventilation and lighting arrangements
CO 4 Analyze the special methods need to be adopted for a particular situation
CO 5 Distinguish the uses of explosives
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - - - - - - 3 - - - - -
CO2 (K3) - - - 3 3 3 - - - - - -
CO3 (K3) - - - - - - - - 3 3 - -
CO4(K4) - 3 - 2 3 - - - - - - -
CO5 (K4) - 3 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Mineral distribution in India and World Contribution of mining to civilization Stages in
the life of a mine
UNIT-II
Overview of surface mining surface mining methods Unit operations Mechanization of
surface mines
UNIT-III
Overview of Underground Mines Methods of Underground mining Mechanization of
underground mines
AR19 Mechanical Engineering
Aditya Engineering College (A) 151
UNIT-IV
Safety practices in opencast and underground Mines
UNIT-V
Impacts of Mining on environment
Text Books
1 DJDeshmukh Elements of Mining Technology Denettamp Co Nagpur Vol I 1998
2 DrTNSingh Surface Mining Lovely Prakashan Dhanbad 2nd edition 2002
3 BVGokhale Blasthole drilling Technology multifields Bombay 1st edition 2001
Reference Books
1 Indian Bureau of Mines Minerals Year Book amp other publications Latest Edition
2 DrCMKole Khuli Khan KaAyojan (Hindi) CMPDIL Ranchi 1st edition 1996
3 Dr Calvin Konya ldquoRock Blasting and Overbreak Controlrdquo Precision Blasting
Services Montville Ohio 2nd edition 2004
Web Links
1 httpwwwminingglobalcomoperationsgifs-5-stages-mining-life-cycle
2 httpswwwslidesharenetumer_1stages-in-life-of-mine
3 httpswwwminecationstandardsorgfileadminMASdocumentsnmas-national
4 stabdardsafghanistanAMAS_0704_Storage_Transportation_Handling_of_Explosi
vespdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 152
PROCESS INTENSIFICATION IN PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O01 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in process intensification methodologies
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquos various principles associated to various unit operations
and unit processes
COB 5 To impart knowledge on available in petrochemical fine chemical
pharmaceutical carbon capture and bioprocess engineering to understand the
role of process intensification to improve process performance
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for process
intensification
CO 2 Analyze various modifications to process equipment and designs with which
process intensification becomes a reality in unit operations and unit processes
CO 3 Analyze various case studies available in petrochemical fine chemical bioprocesses
and carbon capture
CO 4 Correlate textbook reported methodologies with Computational Fluid
Dynamics and experimental process intensification
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K3)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
History of Process Intensification Rotating boilers ndash Rotating non-pipe ndash Separators ndash
Rotating heat transfer devices
Overview of Process Intensification Definition of Process Intensification (PI) ndash
Advantages of PI ndash Obstacles to PI
AR19 Mechanical Engineering
Aditya Engineering College (A) 153
UNIT-II
Mechanisms Involved in Process Intensification Mechanisms involved in heat transfer
intensification ndashElectrically enhanced process intensification ndash Microfluidics ndash Pressure
Compact and Micro-heat exchangers amp Process Intensification Plate Printed-circuit
Chart-flow Polymer film Foam and mesh heat exchangers ndash Micro-heat exchangers ndash
Small channels ndash Nano fluids
UNIT-III
Downhole Separation Technology
Overview- Potential Downhole Separation Technology-Present Status- Advantages-
Challenges-Downhole oil- water separation (DOWS) - hydrocyclone separator Different
configurations -Working Principle-Performance factors- Selection Criteria-Scale up-
Experiences with problems-Reinjection systems- Downhole completion designs for
DOWS - Downhole gas-water Separations-Application of electrical submersible pumps-
Working principle-Modified plunger pumps Three-phase Separation Technology- Case
studies on DOWS and DGWS
UNIT-IV
Application of Solar Energy in Oil and Gas Operations
Solar Energy-PV Cells-Concentration of Solar Power-Energy use in offshore rigs and
FPSO- Energy and Cost Analysis-Solar panels required to replace fossil fuels-
Comparison of Diesel Power with Solar Power Costs-Ability of Solar Energy Use on
Offshore Rigs-Solar Energy Enhanced Oil Recovery
UNIT-V
Application of Divided Wall Distillation technology in separation of NGL
Working principle of Divided wall distillation column-Advantages-Various
configurations-Separation of NGL
Text Books
1 Process Intensification Engineering for Efficiency Sustainability and Flexibility
D Reay C Ramshaw and A Harvey Butterworth-Heinemann 1st Edition
Burlington 2008
Reference Books
1 Re-Engineering the Chemical Processing Plant Process Intensification A
Stankiewicz and JA Moulijn (Editors) Marcel Dekker New York 2004
Web Links
1 httpswwwsciencedirectcombook9780750689410process-intensification
2 httpswwwsciencedirectcomsciencearticlepiiB9780750689410000043
3 httpwwwyourarticlelibrarycomenergysolar-energy-10-major-application-of-
solar-energy-explained28197
4 httpsenwikipediaorgwikiDigital_divide
AR19 Mechanical Engineering
Aditya Engineering College (A) 154
FUNDAMENTALS OF PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O02 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in petroleum industry
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquosvarious principles associated to various treating
operations and unit processes
COB 5 To impart knowledge on available in petroleum well servicing unit
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for petroleum
industry
CO 2 Analyze various modifications to equipment and designs with which evaluate
the lithological characteristics and behavior of reservoir
CO 3 Analyze various case studies available in petrochemical chemical bioprocesses for
treatment of wastage
CO 4 Analyze various modification to well for better production rate
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4 )
PO 3
(K5 )
PO 4
(K 3)
PO 5
(K3 )
PO 6
(K3)
PO 7
(K2 )
PO 8
(K3)
PO 9
(K2)
PO 10
(K2 )
PO11
(K3 )
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
The history of production Oil beginning- A case for casing- More fireworks-
Underground mysteries- Breathing of the earth- Crisis and reservoirengineering-
Horizontal drilling- The great offshore-Indian scenario
UNIT-II
The reservoir Origin- Transformation- Characterization- Discovery
Whatrsquos in the container The prize Determinants- The contents- Thechemistry-
Composition- Properties- Impurities- Fingerprints- The origin ofhydrocarbons
Drilling The spring pole- Cable tool drilling and operations- Rotarydrilling- Rig
components- Drilling mud- Blowout preventers- Drillingoffshore- Top drives and
AR19 Mechanical Engineering
Aditya Engineering College (A) 155
automation- The course- Location
UNIT-III
Logging testing and completing Logging- Correlation logs- Real time-Directional and
horizontal wells- Original hydrocarbons in place- Openhole testing- Completions- Cased
hole logging and measuring devices
Hydrocarbon activity in the reservoir Phases- Phases diagrams- Reservoirfluid
categories- Using phase diagrams- Gas wells Vs oil wells- Shrinkagendash Solution gas- oil
ratio- Relative permeability
Production The motivating force- Drive mechanisms- Producing phases-Primary
production- Secondary recovery- Pressure maintenance andwaterflooding- Tertiary
recovery
UNIT-IV
Making it marketable Field processing Gas treating- Oil treating- Waterdisposal-
Testing- Measurement and metering- Storage
UNIT-V
Remedial operations and workovers Decision making- Workover rigs-Coiled tubing-
Subsea completions- Well problems and stimulation-Changing production intervals
Text Books
1 Oil and Gas Production in Nontechnical Language Martin S Raymondamp William
L Leffler Penn Well Corporation 2006
Reference Books
1 Introduction to Oil and Gas Production American Petroleum Institute5th Edition
1996
2 Oil and Gas Production Hand Book An Introduction Oil and GasProduction
HavardDevold ABB ATPA Oil and Gas 2006
Web Links
1 httpsenwikipediaorgwikiPetroleum_industry
2 httpwwwoil-gasportalcomdrillingtechnologies
3 httpswwwibeforgindustryoil-gas-indiaaspx
4 httpswwwapiorgoil-and-natural-gaswells-to-consumertransporting
5 httpswwwsciencedirectcomtopicsengineeringpetroleum-refining
AR19 Mechanical Engineering
Aditya Engineering College (A) 156
BASIC CROP PRODUCTION PRACTICES (Open Elective ndashI)
V Semester L T P C
Course Code 191AG5O01 2 1 0 3
Course Objectives
COB 1 To enable the students to study principles of agricultural and horticultural crop
production and to introduce the production practices of crops
COB 2 To make the students to acquire knowledge for delineate the role of
agricultural and irrigation engineers in relation to various crop production
practices
COB 3 To make the students to acquire knowledge on crop selection crop production
and crop management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain factors affecting on crop growth and production
CO 2 Explain crop selection and establishment of an adequate crop stand and
ground cover
CO 3 Explain crop water management
CO 4 Apply agriculture crops production practices in field
CO 5 Apply the horticulture crops production practices in field
Mapping of Course Outcomes with Program Outcomes
COsPOrsquos PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - 1 - - 2 - - - - 3 - 3
CO2 (K2) - 1 - - 2 - - - - 3 - -
CO3 (K2) - 1 - - 2 - - - - 3 - 3
CO4 (K3) - 2 1 1 3 - - - - 3 - 3
CO5 (K3) - 2 1 1 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Agriculture and Crop Production Introduction to agriculture and its crop production sub-
sectors ndash field crop production and horticulture Factors affecting crop growth and
production genetic (internal) and environmental (external) factors Crop management
through environmental modification and adaptation of crops to the existing environment
through crop cultural practices
UNIT-II
Crop Selection and Establishment Regional and seasonal selection of crops Systems of
crop production Competition among crop plants Spacing and arrangement of crop plants
Field preparation for crops including systems of tillage Establishment of an adequate crop
stand and ground cover including selection and treatment of seed and nursery growing
AR19 Mechanical Engineering
Aditya Engineering College (A) 157
UNIT-III
Crop Management Crop water Management a Crop nutrition management ndash need for
supplementation to soil supplied nutrients sources generalized recommendations
methods and timing of application of supplemental nutrients including fertigation
scheduling Crop protection including management of weeds pests and pathogens
Integrated methods of managing water nutrients and plant protection Types and methods
of harvest
UNIT-IV
Production Practices of Agricultural Crops Generalized management and cultivation
practices for important groups of field crops in Andhra Pradesh cereal crops grain
legumes oil seed crops sugarcane and fiber crops and special purpose crops such as
those grown for green manure and fodder
UNIT-V
Production Practices of Horticultural Crops Important basic groups of horticultural crops
in AP such as vegetable crops fruit crops flower crops Cultivation practices of major
fruits major vegetables and major flowers of each group Special features of production
of horticultural crops ndash greenhouse cultivation Organic farming Zero budget farming
Vertical gardening and Kitchen farming
Text Books
1 Rajendra Prasad Text Book of Field Crop Production Directorate of Information and
Publication Krishi Anusandhan Bhavan Pusa New Delhi 2015
2 Reddy T Sankara GH Yellamanda Reddi Principles of Agronomy Kalyani
Publishers New Delhi 2005
3 Handbook of Agriculture ICAR Publications New Delhi 2011
Reference Books
1 Bose T K and LPYadav Commercial Flowers Naya Prakash Calcutta1989
2 Crop Production Guide Tamil Nadu Agricultural University Publication
Coimbatore 2005
3 Kumar N Abdul Khader M Rangaswami P and Irulappan I Introduction to
spices plantation crops medicinal and aromatic plants Rajalakshmi Publications
Nagercoil 1993
4 Kumar NrdquoIntroduction to Horticulturerdquo Rajalakshmi Publications Nagercoil 7th
edition 2015
5 Shanmugavel KG Production Technology of Vegetable Crops Oxford India
Publications New Delhi 1989
Web Links
1 httpswwwcareerlaunchercomcbse-ncertclass-8ScienceCBSE-Crop Production
andManagement-Notes html~text= E280A220Basic20 Practices20
of20Cropis20called20ploughing20or20tilling
2 httpswwwedubeanscomClass_VIII_Science_Crop-Production-and-Manage ment
php
3 httpsbyjuscombiologybasic-practices-of-crop-production
4 httpwwwapagrisnetgovinpdffarmerbookpdf
5 httpcbseacademicnicinweb_materialCurriculumVocational2018Basic20Ag
riculture20X20(408)pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 158
METROLOGYamp ICS LAB
V semester L T P C
Course Code 191ME5L05 0 0 3 15
Course Objectives
COB 1 To make the students measure bores by internal micrometers and dial bore
indicators
COB 2 To impart the knowledge of measurement of the angle and taper by bevel
protractor sine bars etc
COB 3 To induce the knowledge of principles involved in calibration
COB 4 To induce the knowledge about temperature sensors thermocouples RTD
thermisters)
Course Outcomes
At the end of the Course Student will be able to
CO 1 Measure the bores by internal micrometers and dial bore indicators
CO 2 Measure the angle and taper using bevel protractor and sine bar
CO 3 Measure screw thread parameters
CO 4 Find the errors and calibrate photo and magnetic pickups
CO 5 Find the errors and calibrate the pressure gauge temperature detectors and
LVDT
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
List of Experiments
Section A Metrology Lab
1 Measurement of lengths heights diameters by vernier calipers micrometers
2 Angle and taper measurements with bevel protractor Sine bar rollers and balls
3 Measurement of bores by internal micrometers and dial bore indicators
4 Straightness measuring using autocollimator
5 Gear tooth thickness measurement using gear tooth vernier calipers
Section B Instrumentation Lab
6 Calibration of pressure gauge
7 Study and calibration of LVDT transducer for displacement measurement
8 Calibration of thermocouple
AR19 Mechanical Engineering
Aditya Engineering College (A) 159
9 Study and calibration of photo and magnetic speed pickups
10 Calibration of resistance temperature detector
List of Augmented Experiments
Metrology Lab
(Any one of the following experiments can be performed)
11 Flatness measurement using optical flat
12 Machine tool alignment test on lathe using various metrology instruments
Instrumentation Lab
(Any one of the following experiments can be performed)
13 Calibration of Force measuring setup
14 Study and calibration of a Rotameter for flow measurement
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers
2 Measurement Systems Applications amp design DS Kumar Metropolitian Book
Co pvt ltd
Web Links
1 httpwwwatrieduinimagespdfdepartmentsINSTRUMENTATION20L
AB20 manual
2 httpwwwbitswglacinMEMetrology-Lab-Manual20320year 201 sem
3 httpslideplayercomslide7020420
4 httpgps-mechblogspotin201201lab-manual-for-measurement-andhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 160
THEORY OF MACHINES LAB
V semester L T P C
Course Code 191ME5L06 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge on governors and flywheels
COB 2 To provide practical exposure to students on gyroscopic forces and moments
COB 3 To impart knowledge of finding natural frequency of different types of
vibrations
COB 4 To develop knowledge on balancing of the machine parts statically and
dynamically
COB 5 To impart practical knowledge on analysis of mechanisms for a specified type
of motion in a machine
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the critical speed of whirling of shaft
CO 2 Determine the position of sleeve against the controlling force and speed in
governors
CO 3 Analyze the motion of motorized gyroscopic couple
CO 4 Measure the frequency of damped and un-damped vibrations of a spring mass
system
CO 5 Apply the principles of balancing of masses to various links mechanisms and
engines
CO 6 Analyze the displacement velocity and acceleration against crank rotation in
slider crank mechanism
CO 7 Calculate the moment of inertia of flywheel
CO 8 Analyze cam profile for various cam follower systems
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
LIST OF EXPERIMENTS
1 Determine whirling speed of shaft theoretically and experimentally
2 Plot follower displacement vs cam rotation for various Cam Follower systems
3 Determine the position of sleeve against controlling force and speed of a Hartnell
governor and plot the characteristic curve of radius of rotation
AR19 Mechanical Engineering
Aditya Engineering College (A) 161
4 Analyze the motion of a motorized gyroscope when the couple is applied along its
spin axis
5 Determine the frequency of un-damped free vibration of an equivalent spring mass
system
6 Determine the frequency of damped force vibration of a spring mass system
7 Study the static and dynamic balancing using rigid blocks
8 Find the moment of inertia of a flywheel
9 Plot slider displacement velocity and acceleration against crank rotation for single
slider crank mechanismFour bar mechanism
10 Find coefficient of friction between belt and pulley
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
11 Study simple and compound screw jack and determine the mechanical advantage
velocity ratio and efficiency
12 Study various types of gears- Spur Helical Worm and Bevel Gears
13 To determine the position of sleeve against controlling force and speed of a porter
governor and to plot the characteristic curve of radius of rotation
Reference Books
1 Theory of machines lab manual ndash Aditya Engineering College
2 Theory of machines by RSKhurmi JKGupta
AR19 Mechanical Engineering
Aditya Engineering College (A) 162
THERMAL ENGINEERING LAB
V semester L T P C
Course Code 191ME5L07 0 0 3 15
Course Objectives
COB 1 To provide the knowledge to the student about working of IC Engines
COB 2 To train the student to conduct performance and heat balance test on IC
Engines
COB 3 To practice the student to calculate the frictional losses in an IC Engine
COB 4 To impart practical exposure on performance of Reciprocating air Compressor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the various parts of an IC Engine
CO 2 Sketch the Valve and Port Timing diagrams for IC Engines
CO 3 Determine the performance of various types of IC Engines
CO 4 Prepare the heat balance sheet for various types of IC Engines
CO 5 Calculate the frictional power in various types of IC Engines
CO 6 Analyze the performance of reciprocating air compressor
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - 3 - -
CO2(K3) 3 2 - - - - - - - 3 - -
CO3(K3) 3 2 - 1 - - 3 - - 3 - 3
CO4(K3) 3 2 - - - - - - - 3 - -
CO5(K3) 3 2 - 1 - - 3 - - 3 - 3
CO6(K4) 3 3 - 2 - - 3 - - 3 - 3
CO7(K2) 2 1 - - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 2 -
CO2 (K3) - 2 -
CO3 (K3) 3 2 -
CO4 (K3) - 2 -
CO5 (K3) 3 2 -
CO6 (K4) 3 2 -
CO7 (K2) - 2 -
List of Experiments
1 (A)Draw amp Study The Valve Timing Diagrams For Four Stroke Diesel Engine
(Cut Section Model)
(B) Draw amp Study The Port Timing Diagrams For Two Stroke Petrol Engine (Cut
Section Model)
2 (A) Evaluate The Performance of 4 -Stroke Diesel Engine
(B) Draw The Heat Balance Sheet For 4-Stroke Single Cylinder Diesel Engine
(C) Determination of frictional power by retardation test on a 4-Stroke petrol
engine
3 (A) Evaluate The Performance of 4 -Stroke multi cylinder petrol Engine
AR19 Mechanical Engineering
Aditya Engineering College (A) 163
(B) Draw The Heat Balance Sheet For 4-Stroke multi cylinder petrol Engine
(C) Evaluation of frictional power by conducting morse test on 4-stroke multi
cylinder petrol engine
4 (A)Evaluate The Performance of 4 ndashStroke Petrol Engine Test Rig With Dc
Generator
(B)To Measure The Frictional Power of The Given Four Stroke Single Cylinder
Petrol Engine By Conducting Motoring Test
5 (A)Evaluate The performance of variable compression ratio engine
(B)Draw The Heat Balance Sheet For variable compression ratio engine
6 Performance test on reciprocating air compressor unit
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
7 (A) Determine the flash and fire point of given oil sample
(B) Determination of Viscosity using Red Wood Viscometer
(C) Determination of viscosity using Saybolt Viscometer
(D) Determination of calorific value of fuels by using Bomb Calorimeter
(E) ECONOMICAL SPEED TEST on IC Engines
Reference Books
1 Internal Combustion Engines V Ganesan TMH Publication 4th Edition
2 Internal Combustion Engines Fundamentals John B Heywood MGH
3 Thermal Engineering lab Manual Aditya Engineering College
Web Links
1 httpswwwscribdcomdoc38559760Thermal-Lab-Manual
2 httpwwwksrctacinpagethermal-engineering-labhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 164
EMPLOYABILITY SKILLS-III (Common to all branches)
Course Objectives
COB 1 To provide basic communication to ensure employability skills
COB 2 To meet the changing global needs and demands
COB 3 To orient students towards career and profession
COB 4 To equip students with fundamental and advanced inputs as various techniques
of strengthening their professional abilities
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the clock and calendar problems by simple methods
CO 2 Discuss about different types of puzzles
CO 3 Breakdown the typical write-up skills
CO 4 Apply different types of models on percentages profit and loss simple interest
and compound interest
CO 5 Demonstrate the tools of the soft skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
UNIT-I
Aptitude puzzle test group reasoning
Soft Skills Group discussion
UNIT-II
Aptitude clock calendar
Soft Skills Resume writing Personalized Resume preparation Compose and Prepare a
cover letter
UNIT-III
Aptitude cubes ampdice partnership
Soft Skills E-mail -Writing ampEtiquette Business Etiquette
UNIT-IV
Aptitude percentage profit and loss
Soft Skills Interviewing skills-1Dorsquosamp donrsquots in an interview Interview Demonstration
V Semester L T P C
Course Code 191HS5T06 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 165
Videos Interview Preparation
UNIT-V
Aptitude simple interest compound interest
Soft Skills Stress Management Personal priorities effect on career decisions Personal
priorities to professional priorities
Text Books
1 Quantitative Aptitude - Dr RS Aggarwal S CHAND
2 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
2 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
3 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 4
team and to manage projects in multidisciplinary environments
PO 12 Recognize the need for and have the preparation and ability to engage in
independent and life-long learning in the broadest context of technological
change
PROGRAM SPECIFIC OUTCOMES (PSOs)
After successful completion of the program the graduates will be able to
PSO 1 Ability to absorb analyse demonstrate and maintain latest developments in
mechanical engineering and allied areas
PSO 2 Conduct experiments and perform analysis by using research methods such
as design of experiments synthesizes the information and to provide valid
conclusions
PSO 3 Model design and analyse the mechanical systems and components taking
into account social economic and environmental implications
Mission of the department ndash PEOs mapping
PEOs Statements M1 M2 M3 M4
PEO 1 Progress in professional career with a solid
foundation in mathematics science and engineering 3 3 3 2
PEO 2 Solve real time engineering problems using
professional knowledge and skills resulting in
significant societal development
3 3 3 3
PEO 3 Demonstrate multidisciplinary skills to analyze
engineering issues in a broader perspective with
ethical responsibility towards sustainable
development
3 3 3 3
PEO 4 Demonstrate interpersonal skills leadership and team
building to achieve their career goals and pursue
lifelong learning and higher education necessary for
successful profession
2 2 2 2
Note
Bloomrsquos Taxonomy
Knowledge Level
Knowledge Level
Representation
Remember K1
Understand K2
Apply K3
Analyse K4
Evaluate K5
Create K6
Mapping Correlation levels
1 Slight (Low)
2 Moderate (Medium)
3 Substantial (High)
AR19 Mechanical Engineering
Aditya Engineering College (A) 5
PROGRAM STRUCTURE I SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191HS1T01 Communicative English HSMC 3 0 0 3 3
191BS1T01 Differential Equations and Linear
Algebra
BSC 3 0 0 3 3
191BS1T02 Engineering Physics BSC 3 0 0 3 3
191ES1T01 Programming for Problem Solving
Using C
ESC 3 0 0 3 3
191HS1L01 Communicative English Lab-I HSMC 0 0 3 3 15
191BS1L01 Engineering Physics Lab BSC 0 0 3 3 15
191ES1L01 Programming for Problem Solving
Using C Lab
ESC 0 0 3 3 15
191ES1L02 Basic Engineering Workshop ESC 0 0 3 3 15
191MC1A01 Environmental Science MC 2 0 0 2 0
191MC1A02 Constitution of India MC 2 0 0 2 0
TOTAL 16 0 12 28 18
II SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS2T05 Partial Differential Equations and
Vector Calculus
BSC 3 0 0 3 3
191BS2T06 Chemistry of Materials BSC 3 0 0 3 3
191ES2T02 Engineering Graphics and Design ESC 1 0 3 4 25
191ES2T03 Essential Electrical and Electronics
Engineering
ESC 3 0 0 3 3
191ES2T04 Engineering Mechanics ESC 3 0 0 3 3
191HS2L02 Communicative English Lab-II HSMC 0 0 2 2 1
191BS2L04 Engineering Chemistry Lab BSC 0 0 3 3 15
191ES2L03 Essential Electrical and Electronics
Engineering Lab
ESC 0 0 3 3 15
191ES2L07 Mechanical Engineering Workshop ESC 0 0 3 3 15
191PR2P01 Engineering Exploration Project PROJ 0 0 2 2 1
TOTAL 13 0 16 29 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 6
III SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS3T11 Integral Transforms And
Applications Of Partial
Differential Equations
(CE ME AgE)
BSC 3 0 0 3 3
191ME3T01 Fluid Mechanics and Hydraulic
Machinery
PCC 3 0 0 3 3
191ME3T02 Computer Aided Engineering
Drawing Practice
PCC 2 0 2 4 3
191ME3T03 Mechanics of Solids PCC 3 0 0 3 3
191ME3T04 Thermodynamics PCC 3 0 0 3 3
191ME3T05 Metallurgy amp Material Science PCC 3 0 0 3 3
191ME3L01 Fluid Mechanics amp Hydraulic
Machines Lab
PCC 0 0 3 3 15
191ME3L02 Mechanics of Solids amp Metallurgy
Lab
PCC 0 0 3 3 15
191MC3A03 Employability Skills ndash I MC 0 0 2 2 0
191MC3A04 Essence of Indian Traditional
Knowledge
MC 2 0 0 2 0
TOTAL 19 0 10 29 21
IV SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS4T16 Numerical methods amp Statistical
Techniques (CE ME Ag E)
BSC 3 0 0 3 3
191HS4T04 Managerial Economics amp
Financial Analysis
HSMC 3 0 0 3 3
191ES4T15 Internet of Things ESC 3 0 0 3 3
191ME4T06 Production Technology PCC 3 0 0 3 3
191ME4T07 Kinematics of Machinery PCC 3 0 0 3 3
191ME4T08 Thermal Engineering-I PCC 3 0 0 3 3
191ME4L03 Production Technology Lab PCC 0 0 3 3 15
191ME4L04 Computer Aided Machine
Drawing
PCC 0 0 3 3 15
191MC4A05 Employability Skills ndash II MC 0 0 2 2 0
191MC4A06 Biology for Engineers MC 2 0 0 2 0 TOTAL 20 0 8 28 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 7
V SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME5T09 Dynamics of Machinery PCC 3 0 0 3 3
191ME5T10 Design of Machine Members-I PCC 3 0 0 3 3
191ME5T11 Thermal Engineering-II PCC 3 0 0 3 3
---- PE-I PEC 3 0 0 3 3
---- OE-I OEC 3 0 0 3 3
191ME5L05 Metrology ICS lab PCC 0 0 3 3 15
191ME5L06 Theory of Machines Lab PCC 0 0 3 3 15
191ME5L07 Thermal Engineering Lab PCC 0 0 3 3 15
191HS5T06 Employability Skills ndash III HSMC 0 0 2 2 1
191PR5P02 Socially Relevant Project PROJ 0 0 0 0 1
TOTAL 15 0 11 26 215
VI SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME6T12 Heat Transfer PCC 3 0 0 3 3
191ME6T13 Design of Machine Members-II PCC 3 0 0 3 3
191ME6T14 Metal cutting and Machine Tools PCC 3 0 0 3 3
---- PE-II PEC 3 0 0 3 3
---- PE-III PEC 3 0 0 3 3
---- OE-II OEC 3 0 0 3 3
191ME6L08 Metal Cutting and Machine Tools
Lab
PCC 0 0 3 3 15
191ME6L09 Heat Transfer Lab PCC 0 0 3 3 15
191HS6T07 Employability Skills ndash IV HSMC 0 0 2 2 1
TOTAL 18 0 8 26 22
VII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME7T15 Operations Research PCC 3 0 0 3 3
191ME7T16 Finite Element Methods PCC 3 0 0 3 3
---- PE-IV PEC 3 0 0 3 3
---- PE-V PEC 3 0 0 3 3
---- OE-III OEC 3 0 0 3 3
191ME7P03 Internship PROJ 0 0 0 0 2
191ME7L10 CAM Mechatronics Lab PCC 0 0 3 3 15
191ME7L11 CAD CFD lab PCC 0 0 4 4 2
191ME7P04 Project Part 1 PROJ 0 0 0 0 2
TOTAL 15 0 7 22 225
AR19 Mechanical Engineering
Aditya Engineering College (A) 8
VIII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
---- PE-VI (MOOCs) PEC 3 0 0 3 3
---- OE-IV (MOOCs) OEC 3 0 0 3 3
191ME8P05 Project Part 2 PROJ 0 0 0 0 7
TOTAL 6 0 0 6 13
BSC Basic Sciences Courses HSMC Humanities and Social Sciences including Management
Courses ESC Engineering Sciences Courses PCC Professional Core Courses PEC
Professional Elective Courses OEC Open Elective Courses SSC Self Study Course MC
Mandatory Courses PROJ Project
PROFESSIONAL ELECTIVES
Professional Elective ndash I Professional Elective ndash II
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME5E01 Automobile Engineering 1 191ME6E07 Industrial Engineering amp
Management
2 191ME5E02 Composite Materials 2 191ME6E08 Mechatronics
3 191ME5E03 Fluid Engineering 3 191ME6E09 Non Destructive Evaluation
4 191ME5E04 Mechanical Vibrations 4 191ME6E10 Refrigeration and Air
Conditioning
5 191ME5E05 Metrology amp Instrumentation 5 191ME6E11 Robotics
6 191ME5E06 Organizational Behavior
Professional Elective ndash III Professional Elective ndash IV
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME6E12 Additive Manufacturing 1 191ME7E17 Advanced Automobile
Engineering
2 191ME6E13 Alternative Fuels 2 191ME7E18 Advanced Fluid Mechanics
3 191ME6E14 Design for Manufacturing 3 191ME7E19 Computational Fluid Dynamics
4 191ME6E15 Green Engineering Systems 4 191ME7E20 Nano materials amp Technology
5 191ME6E16 Lean Manufacturing 5 191ME7E21 Power Plant Engineering
Professional Elective ndash V Professional Elective ndash VI SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME7E22 CAD CAM 1 191ME8E27 Advanced Materials
2 191ME7E23 Condition Monitoring 2 191ME8E28 Manufacturing Methods in
Precision Engineering
3 191ME7E24 Design of Transmission
Systems
3 191ME8E29 Production Planning and
Control
4 191ME7E25 Flexible Manufacturing
Systems
4 191ME8E30 Thermal Equipment Design
5 191ME7E26 Gas Dynamics 5 191ME8E31 Total Quality Management
AR19 Mechanical Engineering
Aditya Engineering College (A) 9
OPEN ELECTIVE - I (V Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE5O01 Basic Concrete Technology CE EEE CE
2 191EE5O01 Electrical Safety EEE EEE
3 191EE5O02 Electrical Materials EEE EEE
4 191EE5O03 Basic Electrical Measurements EEE ECE EEE
5 191ME5O01 Renewable Energy Sources CE EEE ME Ag E ME
6 191ME5O02 Fundamentals of Mechanical
Engineering
ME ME
7 191ME5O03 Supply Chain Management ME ME
8 191ME5O04 3D Printing ME ME
9 191ME5O05 Entrepreneurship Development and
Incubation
ME
10 191EC5O01 Signals amp Systems EEE ECE ECE
11 191EC5O02 Digital Electronics and Logic
Design
EEE ECE CSE IT ECE
12 191EC5O03 Semi conductor devices EEE ECE ECE
13 191CS5O01 Data Structures EEE ECE CSE IT CSE
14 191CS5O02 Object Oriented Programming
through C++
CSE IT CSE
15 191CS5O03 Java Programming CSE IT CSE
16 191CS5O04 R Programming CSE
17 191IT5O01 Database Management Systems CSE IT IT
18 191IT5O02 Computer Graphics CSE IT IT
19 191MI5O01 Overview of Mining MinE MinE
20 191PT5O01 Process Intensification in Petroleum
Industry
PT PT
21 191PT5O02 Fundamentals of Petroleum
Industry
PT PT
22 191AG5O01 Basic Crop Production Practices AgE AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 10
OPEN ELECTIVE - II (VI Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE6O02 Disaster Management CE
2 191EE6O04 Energy Audit and Conservation
Management
EEE EEE
3 191EE6O05 Non Conventional Energy
resources
EEE EEE
4 191EE6O06 Instrumentation EEE ECE Ag E EEE
5 191ME6O06 Solar Energy Utilisation ME Ag E ME
6 191ME6O07 Basic Thermodynamics and
Heat Transfer
EEE ME PT AgE
MinE
ME
7 191ME6O08 Introduction to Hydraulics and
Pneumatics
CE ME PT ME
8 191ME6O09 3D Printing ME ME
9 191ME6O06 Robotics ME ME
10 191ME6O09 Management Science CE CSE IT PT Min
E
ME
11 191ME6O12 Entrepreneurship Development
and Incubation
ME
12 191ME6O07 Biomedical Instrumentation ECE
13 191ME6O08 ECAD Tools ECE ECE
14 191CS6O05 Python Programming EEE CSE IT CSE
15 191CS6O06 Operating Systems CSE IT CSE
16 191CS6O07 Web Technologies CSE IT CSE
17 191CS6O08 Cyber Security CSE IT CSE
18 191CS6O09 AR VR CSE
19 191IT6O03 Computer Organization CSE IT IT
20 191IT6O04 AI Tools amp Techniques CSE IT IT
21 191IT6O05 Robotic Process Automation
IT
22 191MI6O02 Industrial Safety Practices AgE MinE
23 191MI6O03 Electrical Equipmentrsquos in Mines MinE
24 191PT6O03 Unconventional Hydrocarbon
Resources
PT PT
25 191PT6O04 Asset Management PT
26 191AG6O02 Weather forecast in Agriculture AgE
27 191AG6O03 Bio-energy systems design and
applications
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 11
OPEN ELECTIVE - III (VII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE7O03 Waste Water Management CE CE
2 191EE7O07 Electrical and Hybrid Vehicles EEE EEE
3 191EE7O08 Special Electrical Machines EEE EEE
4 191EE7O09 Industrial Electrical Systems EEE EEE
5 191ME7O13 Optimization techniques
ME
6 191ME7O14 Energy Conservation
ME
7 191ME7O15 Introduction to Material Handling
Systems
ME
8 191ME7O16 Robotics ME ME
9 191ME7O17 Entrepreneurship Development and
Incubation
ME
10 191EC7O06 Overview of Digital Signal Processing EEE ECE ECE
11 191EC7O07 Basics of VLSI Design ECE ECE
12 191EC7O08 Micro Electro Mechanical Systems
ECE
13 191EC7O09 Image Processing ECE CSE IT ECE
14 191CS7O10 Big Data Analytics CSE IT CSE
15 191CS7O11 Mobile Application Development CSE IT CSE
16 191CS7O12 Data Science CSE IT CSE
17 191IT7O06 Machine Learning CSE IT IT
18 191IT7O07 Quantum Computing
IT
19 191IT7O08 Block Chain Technologies CSE IT IT
20 191MI7O04 Communication System in Mines
MinE
21 191MI7O05 Drilling amp Blasting MinE MinE
22 191PT7O05 Introduction to Earth Sciences CE PT Min E PT
23 191PT7O06 Basic Concepts in Petroleum Drilling and
Completions
PT PT
24 191AG7O04 Greenhouse Technology AgE AgE
25 191AG7O05 Reusability of Municipal Effluent in
Agriculture
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 12
OPEN ELECTIVE ndash IV (VIII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE8O04 Integrated Waste Management for a
Smart City
CE
2 191EE8O10 Fundamentals of Electrical Engineering EEE ECE EEE
3 191EE8O11 Basic Electrical Circuits EEE ECE EEE
4 191EE8O12 Electrical Machines EEE EEE
5 191EE8O13 Power Electronics EEE EEE
6 191EE8O14 Non-Conventional Energy Sources CE EEE ME EEE
7 191ME8O18 Fabrication processes ME ME
8 191ME8O19 Smart Materials ME
9 191EC8O10 Micro Electro Mechanical Systems ECE
10 191EC8O11 Basic Electronic Circuits EEE amp ECE ECE
11 191EC8O12 Principles of Communications ECE ECE
12 191EC8O13 Electronic Instrumentation EEE amp ECE ECE
13 191EC8O14 Digital Image Processing ECE CSE IT ECE
14 191CS8O13 Cyber Security CSE IT CSE
15 191CS8O14 Data Science CSE IT CSE
16 191CS8O15 Game Theory CSE IT CSE
17 191CS8O16 AR VR CSE
18 191IT8O09 Deep learning CSE IT IT
19 191IT8O10 Block Chain Technologies CSE IT IT
20 191PT8O07 Chemical Process Safety PT
21 191PT8O08 Mechanical Unit Operations PT
22 191AG8O06 GIS essentials in Agriculture and its
application
CE AgE
23 191AG8O07 Organic Farming for Sustainable
Agricultural Production
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 13
COMMUNICATIVE ENGLISH (Common to all branches)
I Semester L T P C
Course Code 191HS1T01 3 0 0 3
Introduction
In view of the growing importance of English as a tool for global communication and the
consequent emphasis on training the students to acquire communicative competence the
syllabus has been designed to develop linguistic and communicative competence of the
students of Engineering
As far as the detailed textbooks are concerned the focus should be on the skills of
listening speaking reading and writing The non-detailed textbooks are meant for
extensive reading for pleasure and profit
Thus the stress in the syllabus is primarily on the development of communicative skills
and fostering of ideas
Course Objectives
COB 1 To improve the language proficiency of the students in English with emphasis on
LSRW skills
COB 2 To enable the students to study and comprehend the prescribed lessons and
subjects more effectively relating to their theoretical and practical components
COB 3 To develop the communication skills of the students in both formal and informal
situations
COB 4 To develop the ways to overcome fear and use of words for irony
COB 5 To make the learners understand the development conditions and the core
Competences of the state to prioritize education system
COB 6 To discuss that water is the worlds most precious natural resources
COB 7 To discuss how human sensitivity changes in accordance to times and situations
in life
COB 8 To inform the learner that all men can come together to abolish the war
LISTENING SKILLS
Objectives
1 To enable the students to appreciate the role of listening skill and improve their
pronunciation
2 To enable the students to comprehend the speech of people belonging to different
backgrounds and regions
3 To enable the students to listen for general content to fill up information and for
specific information
SPEAKING SKILLS
Objectives
1 To make the students aware of the importance of speaking for their personal and
professional communication
2 To enable the students to express themselves fluently and accurately in social and
professional success
AR19 Mechanical Engineering
Aditya Engineering College (A) 14
3 To help the students describe objects situations and people
4 To make the students participate in group activities like role-plays discussions and
debates
5 To make the students participate in just a minute talks
READING SKILLS
Objectives
1 To enable the students to comprehend a text through silent reading
2 To enable the students to guess the meanings of words messages and inferences of
texts in given contexts
3 To enable the students to skim and scan a text
4 To enable the students to identify the topic sentence
5 To enable the students to identify discourse features
6 To enable the students to make intensive and extensive reading
WRITING SKILLS
Objectives
1 To make the students understand that writing is an exact formal skills
2 To enable the students to write sentences paragraphs e-mails and essays
3 To make the students identify and use appropriate vocabulary
4 To enable the students to narrate and describe
5 To enable the students to write coherently and cohesively
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the ways to overcome fear and use of words for irony
CO 2 Interpret the development conditions and the core competences of the state to
prioritize education system
CO 3 Explain water as the worlds most precious natural resources
CO 4 Illustrate human sensitivity to the changing times and situations in life
CO 5 Identify that all men can come together to abolish the war
CO 6 Rephrase coherent writing in social political and religious background
CO 7 Demonstrate writing and concepts of grammar skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - - 2 - -
CO2 (K2) - - - - - - - - - 3 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K2) - - - - - - - - - 3 - -
CO5 (K3) - - - - - - - - - 2 - -
CO6 (K2) - - - - - - - - - 3 - -
CO7 (K2) - - - - - - - - - 3 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
CO6 (K2) - - -
CO7 (K2) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 15
Methodology
1 The class is to be learner-centred where the learners are to read the texts to get a
comprehensive idea of those texts on their own with the help of the peer group and
the teacher
2 Integrated skill development methodology has to be adopted with focus on
individual language skills as per the tasksexercise
3 The tasksexercises at the end of each unit should be completed by the learners only
and the teacher intervention is permitted as per the complexity of the taskexercise
4 The teacher is expected to use supplementary material wherever necessary and also
generate activitiestasks as per the requirement
5 The teacher is permitted to use lecture method when a completely new concept is
introduced in the class
Recommended Topics
UNIT-I
1 An Astrologersrsquos Day - RK Narayan (Detailed)
2 Bade Bhai Saab - Munshi Premchand (Non-Detail)
UNIT-II
1 Building A New State - A P J Abdul Kalam (Detailed)
2 Morning Bells- Jayashree Mohan Raj (Non-Detail)
UNIT-III
1 WaterThe Elixer Of Life- C V Raman (Detailed)
2 The Power Of Plate Of Rice- Ifeoma Okoye (Non-Detail)
UNIT-IV
1 The Woodrose-Abburi Chaya Devi (Detailed)
2 The Cop And The Anthem- O Henry (Non-Detail)
UNIT-V
1 Progress- St John Ervine (Detailed)
2 Dial 000- Barry Rosenberg (Non-Detail)
Textbooks
Detailed Text Book lsquoUsing Englishrsquo by Orient Black Swan
Non Detailed Text Book lsquoLife language and Culture -Explorationsrsquo by Cengage
Reference Books
1 Objective English Pearson Publications
2 Effective English Communication Tata Mc Graw-Hill Publishing
3 Effective Technical English Scitech
Web Links
1 httpsittingbeecoman-astrologers-day-r-k-narayan
2 httpbbrenglishforallblogspotcom201401building-new-state-study-materialhtml
3 httpswwwliteraturewormscom201210water-elixir-of-life-by-sircvramanhtml
4 httpmaconholeswoodrose-abburi-chaya-devipdf
5 httpsardhendudeblogspotcom201307analysis-of-progress-by-st-john-ervinehtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 16
DIFFERENTIAL EQUATIONS AND LINEAR ALGEBRA (Common to all branches)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that
are essential for an engineering course
COB 2 To help the students form a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the concepts of Mean Value theorem Partial Differentiation and identify
the maxima and minima of a given function
CO 2 Solve the linear differential equations and model various situations involving
differential equations of first order
CO 3 Solve linear differential equations of higher order and model various situations
involving second order differential equations
CO 4 Calculate Rank of a matrix and solve the system of Linear equations and find the
Eigen values and Eigen vectors
CO 5 Compute various powers of a matrix and identify the nature of the quadratic form
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
UNIT I
Differential Calculus
Rollersquos theorem Lagrangersquos theorem Cauchy Mean Value theorem Taylorrsquos and Maclaurinrsquos
theorems (All theorems Without Proof)
Partial Differentiation Eulerrsquos theorem (without proof) Total derivative Chain rule Taylorrsquos
and Maclaurinrsquos series expansion of functions of two variables Jacobian Functional
dependence
Applications
Maxima and Minima of functions of several variables without constraints and with constraints
(Lagrangersquos method)
(SCILAB Exercise Plot graphs of various single and multivariable functions)
I Semester L T P C
Course Code 191BS1T01 3 0 0 3
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K3) 3 - -
CO 3 (K3) 3 - -
CO 4 (K3) - - -
CO 5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 17
UNIT II
Differential equations of first order
Introduction to differential equations linear differential equation of first order - Bernoulli
differential equation - Exact differential equations- Equations reducible to exact
Applications
Orthogonal trajectories Newtonrsquos Law of cooling RL circuit
UNIT III
Linear differential equations of second and higher order
Linear differential equations of higher order with constant coefficients Complementary function
and Particular integral with RHS term of the type polynomials in x eax sin ax
cos ax eax V(x) xV(x)- Method of Variation of parameters Equations reducible to constant
coefficients ndashCauchy-Euler equation Legendrersquos equation
Application LCR Circuit
(SCILAB Exercise Introduction to SCILAB commands and Solution of Initial Value
Problems)
UNIT IV
System of linear equations Eigen values and Eigen vectors
Definition of a Vector space Linear dependence and independence of vectors Rank of a matrix
Echelon form and Normal form solving system of Homogenous and Non homogenous linear
equations- Gauss Jordon elimination method Eigen values Eigen vectors Properties of eigen
values and eigen vectors (without proof )
Applications
Free vibrations of a two mass system
UNIT V
Quadratic forms
Cayley -Hamilton theorem (without proof ) Inverse and powers of a matrix by using Cayley -
Hamilton theorem Diagonalization of a matrix Quadratic forms Reduction of quadratic form to
canonical form using orthogonal transformation Nature of the quadratic form
(SCILAB Exercise Basic Operations on matrices computation of rank computation of eigen
values and eigen vectors)
Not to be examined
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley-India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson Publications
Reference Books
1 DGZill MICHAIL R CULTER Advanced Engineering Mathematics 3rd Edition Norosa
Publications 2009
2 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
3 Peter Orsquoneil Advanced Engineering Mathematics Cengage Learning
4 Glyn James Advanced modern engineering mathematics Pearson education
AR19 Mechanical Engineering
Aditya Engineering College (A) 18
Web Links
1 httpsnptelacincourses111106100
2 httpsnptelacincourses12210703714
3 httpsnptelacincourses111106051
4 httpmathworldwolframcom
5 httpswwwkhanacademyorg
6 httpsspoken-tutorialorgtutorial-
searchsearch_foss=Scilabampsearch_language=English
AR19 Mechanical Engineering
Aditya Engineering College (A) 19
ENGINEERING PHYSICS (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To identify different types of crystals analyze acoustic properties of for concert
halls NDT using ultrasonics
COB 2 To study different types of moduli and their relation applications of LASER light
in various Industries study different types of sensors
COB 3 To impart the knowledge of magnetic and dielectric materials and their
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basic concepts of crystal structure and X-ray diffraction Techniques
CO 2 Apply the knowledge of acoustics to improve acoustic quality of concert halls and
understand the concepts of flaw detection techniques using ultrasonics
CO 3 Apply the structure- property relationship exhibited by solid materials within the
elastic limit
CO 4 Explain the basic concepts of LASERs along with its Engineering applications and
familiarize with types of sensors for various engineering applications
CO 5 Explain about magnetic and dielectric properties of different materials
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K2) 2 - -
CO5 (K2) - - 2
UNIT-I
Crystal Structure Basis and lattice ndash Crystal Systems ndash Bravais Lattice - Symmetry
elements- Unit cell-packing fraction ndash coordination number- Miller indices ndash Separation
between successive (h k l) planes ndash Braggrsquos law-Braggrsquos x-ray spectrometer
Crystal Defects (qualitative description only) Point defects-Schottky Frenkel defects Line
defects-Edge screw dislocations
UNIT-II
Acoustics Introduction ndash Reverberation - Reverberation time - Sabinersquos formula (Derivation)ndash
I Semester L T P C
Course Code 191BS1T02 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 20
absorption coefficient and its determination- factors affecting acoustics of buildings and their
remedies
Ultrasonics Production of ultrasonics by Magnetostriction and piezoelectric methods ndash
Detection of ultrasonics - acoustic grating - Non-Destructive Testing- pulse echo system
through transmission and reflection modes - Applications
UNIT-III
Elasticity Stress strain Hookersquos law stress-strain curve generalized Hookersquos law with and
without thermal strains for isotropic materials different types of moduli and their relations
bending of beams ndash Bending moment of a beam ndash Depression of cantilever
UNIT-IV
Laser Introduction to wave optics amp Interferometer-CharacteristicsndashSpontaneous and
Stimulated emission of radiation ndash population inversion - Einsteinrsquos coefficients amp Relation
between them and their significance - Pumping Mechanisms - Ruby laser ndash Helium Neon laser
ndash CO2 laser-Applications
Sensors (qualitative description only) Different types of sensors and applications Strain and
Pressure sensors- Piezoelectric magnetostrictive sensors Temperature sensor - bimetallic
strip pyroelectric detectors
UNIT-V
Magnetism Introduction ndash Magnetic dipole moment ndash Magnetization-Magnetic susceptibility
and permeability ndash Origin of permanent magnetic moment ndash Bohr Magneton - Classification
of magnetic materials (Dia Para and Ferro) ndash Domain concept of Ferromagnetism - Hysteresis
ndash soft and hard magnetic materials ndash Applications of Ferromagnetic materials
Dielectrics Introduction - Dielectric polarization ndash Dielectric polarizability Susceptibility and
Dielectric constant-types of polarizations Electronic and Ionic (Quantitative) Orientational
polarizations (qualitative)-Lorentz internal field ndash Claussius_Mossoti equation- Frequency
dependence of polarization - Applications of dielectrics
Text Books
1 ldquoText book of Engineering Physicsrdquo by P G Kshirsagar amp M N Avadhanulu S Chand amp
Company Ltd
2 ldquoEngineering Physicsrdquo by R K Gaur and S L Gupta Dhanpat Rai Publications
3 ldquoSensor and Transducersrdquo by Ian R Sinclair Elsevier (Newnes) 3rd Eds
Reference Books
1 ldquoEngineering Physicsrdquo by M R Srinivasan New Age International Publishers
2 ldquoLectures on Physicsrdquo by Richard P Feynman Pearson Publishers New Millennium Eds
3 ldquoLasers and Non-linear Opticsrdquo by B B Laud New Age International Publishers (3rd
Eds)
Web Links
1 httpnptelacincourses12210703511
2 httpnptelacincourses115102023
3 httpsphetcoloradoeduensimulationscategoryphysics
4 httpphysicsgecgblogspotinpreading-materialshtml
5 httpssitesgooglecomsitephysicsbysureshsagantihome
AR19 Mechanical Engineering
Aditya Engineering College (A) 21
PROGRAMMING FOR PROBLEM SOLVING USING C (Common to all branches)
Course Objectives
COB 1 To impart adequate knowledge on the need of programming languages and problem
solving techniques and develop programming skills
COB 2 To enable effective usage of control structures and implement different operations on
arrays
COB 3 To demonstrate the use of strings and functions
COB 4 To impart the knowledge of pointers and understand the principles of dynamic
memory allocation
COB 5 To make the students understand the concepts of structures unions files and their
operations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the fundamental concepts of computers and basics of computer
programming
CO 2 Make use of control structures and arrays in solving complex problems
CO 3 Develop modular program aspects and strings fundamentals
CO 4 Demonstrate the ideas of pointers usage
CO 5 Solve real world problems using the concept of structures unions and File operations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K2) 2 1 - - 2 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 2
CO2 (K3) 3 2 3
CO3 (K3) 3 2 3
CO4 (K2) - - -
CO5 (K3) 3 2 3
UNIT-I
Computer History Hardware Software Programming Languages and Algorithms
Components and functions of a Computer System Concept of Hardware and Software
Programming Languages Low-level and High-level Languages Program Design Tools
Algorithm Flowchart Pseudo code
Introduction to C Programming Introduction Structure of a C Program Comments
Keywords Identifiers Data Types Variables Constants InputOutput Statements Operators
Type Conversion
I Semester L T P C
Course Code 191ES1T01 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 22
UNIT -II
Control Flow Relational Expressions amp Arrays Conditional Branching Statements if if-
else if-elsendashif switch Basic Loop Structures while do-while loops for loop nested loops
The Break and Continue Statements goto statement
Arrays Introduction Operations on Arrays One dimensional Array Two dimensional Array
Multi dimensional arrays
UNIT-III
Strings String Fundamentals String Processing with and without Library Functions
Functions Introduction Function Declaration Function Definition Function call Categories
of Functions passing parameters to Functions Arrays as Function Arguments Scope of
Variables Variable Storage Classes Recursion
UNIT-IV
Pointers Concept of a Pointer Declaring and Initializing Pointer Variables Pointer
Expressions and Address Arithmetic Null Pointers Generic Pointers Pointers as Function
arguments Pointers and Arrays Pointers and Strings Pointer to Pointer Dynamic Memory
Allocation Dangling Pointer Command line Arguments
UNIT-V
Structures Unions Bit Fields Introduction Nested Structures Arrays of Structures
Structures and Functions Self-Referential Structures Unions Enumerated Data Type ndashenum
variables Using Typedef keyword Bit Fields
Data Files Introduction to Files Using Files in C Reading from Text Files Writing to Text
Files Random File Access
Text Books
1 Computer Programming Reema Thareja Oxford University Press
2 Byron Gottfried Schaums Outline of Programming with C McGraw-Hill
3 Programming In C A-Practial Approach Ajay Mittal Pearson
Reference Books
1 C Programming ndash A Problem Solving Approach Forouzan Gilberg Cengage
2 The C Programming Language Dennis Richie And Brian Kernighan Pearson
Education
3 Programming In C Ashok Kamthane Second Edition Pearson Publication
Web Links
1 httpwwwc4learncom
2 httpwwwgeeksforgeeksorgc
3 httpnptelacincourses122104019
4 httpwwwlearn-corg
5 httpswwwtutorialspointcomcprogramming
AR19 Mechanical Engineering
Aditya Engineering College (A) 23
COMMUNICATIVE ENGLISH LAB ndashI (Common to all branches)
Course Objectives
COB 1 To facilitate computer-aided multi-media instruction enabling
Individualized and independent language learning
COB 2 To sensitize the students to the nuances of English speech sounds word
accent and intonation
COB 3 To bring about a consistent accent and intelligibility in their pronunciation
of English by providing an opportunity for practice in speaking
COB 4 To improve the fluency in spoken English and neutralize mother tongue
influence
COB 5 To train students to use language appropriately
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
A Greeting Introducing and taking leave
B Pure Vowel
PRACTICE 2
A Giving Information and Asking for Information B Diphthongs
I Semester L T P C
Course Code 191HS1L01 0 0 3 15
CO 1 Demonstrate nuances of language through audio-visual experience and
group activities
CO 2 Identify accent for intelligibility
CO 3 Demonstrate in conversation jams and public speaking
CO 4 Make use of the concepts to communicate confidently and competently in
English Language in all spheres
AR19 Mechanical Engineering
Aditya Engineering College (A) 24
PRACTICE 3
A Inviting Accepting and Declining Invitations
B Consonants
PRACTICE 4
A Commands Instructions and Requests
B Accent and Rhythm
PRACTICE 5
A Suggestions and Opinions
B Intonation
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra
JRaju and DrGSuvarna Lakshmi Maruthi Publications
2 English for Professionals by Prof Eliah BS Publications Hyderabad
3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata McGraw ndash Hill
Publishing Company
5 Word power made handy Dr Shalini verma S Chand Company
6 Let us hear them speak Jayashree Mohanraj Sage texts
AR19 Mechanical Engineering
Aditya Engineering College (A) 25
ENGINEERING PHYSICS LAB (Common to CE ME MinE PT AgE)
Course Objectives COB 1 To make the students gain practical knowledge to co- relate with the
theoretical studies
COB 2 To impart skills in measurements
COB 3 To plan the experimental procedure and to record and process the results
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the rigidity and youngrsquos modulus to understand material properties
CO 2 Determine Acceleration due to Gravity and Radius of Gyration and spring constant
by oscillatory mechanics
CO 3 Find the strength of the magnetic field
CO 4 Determine wave length of unknown source particle size using lasers
CO 5 Determination of velocity of sound moment of inertia
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - - -
CO3 (K2) - - -
CO4 (K3) - - -
CO 5 (K3) 3 - -
LIST OF EXPERIMENTS
(Any 10 of the following listed experiments)
1 Determination of Rigidity modulus of a material- Torsional Pendulum
2 Determination of Youngrsquos modulus by method of single cantilever oscillations
3 Determination of Acceleration due to Gravity and Radius of Gyration - Compound
Pendulum
4 Verification of laws of vibrations in stretched strings ndash Sonometer
5 Determination of spring constant of springs using coupled oscillators
6 Magnetic field along the axis of a current carrying coil ndash Stewart and Geersquos apparatus
7 Study the variation of B versus H by magnetizing the magnetic material (B-H curve)
I Semester L T P C
Course Code 191BS1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 26
8 Measurement of magnetic susceptibility by Gouyrsquos method
9 Determination of ultrasonic velocity in liquid (Acoustic Grating)
10 Determination of dielectric constant by charging and discharging method
11 Determination of wavelength of Laser by diffraction grating
12 Determination of particle size using Laser
13 Determeination of Pressure variation using strain Gauge sensor
14 Determination of Moment of Inertia of a Fly Wheel
15 Determination of Velocity of sound ndashVolume Resoantor
LIST OF AUGMENTED EXPERIMENTS
16 to 19 (Any two of the following experiments can be performed)
16 Determine the Youngs Modulus of the material of the bar subjected to uniform bending
17 Determine the Youngs Modulus of the material of the bar subjected to non-
uniform bending
18 V-I characteristics of P-N junction Diode
19 V-I characteristics and Breakdown voltage of Zener Diode
Reference Books
1 Engineering Physics Lab Manual by DrCVMadhusudhana Rao VVasanth Kumar
Scitech Publications
2 Laboratory Manual Cum Record for Engineering Physics I amp II by DrYAparna
DrKVenkateswara Rao VGS Technoseries
ENGINEERING PHYSICS - VIRTUAL LAB ndash ASSIGNMENTS
LIST OF EXPERIMENTS
1 Hall Effect
2 Crystal Structure
3 Brewsterrsquos angle
4 Numerical Aperture of Optical fiber
5 Photoelectric Effect
6 LASER ndash Beam Divergence and Spot size
7 Michelsonrsquos interferometer
8 Black body radiation
9 Flywheel ndash moment of inertia
10 AC Sonometer
11 Resistivity by four probe method
12 Newtonrsquos rings ndashRefractive index of liquid
Web Link
URL wwwvlabcoin
AR19 Mechanical Engineering
Aditya Engineering College (A) 27
PROGRAMMING FOR PROBLEM SOLVING USING C LAB (Common to all branches)
Course Objectives
COB 1 To impart knowledge on basic Linux commands various Editors Raptor
COB 2 To make the students understand the concepts of C programming
COB 3 To nurture the students on Control Structures and develop different operations on
arrays
COB 4 To enable the students to learn string fundamentals and modular programming
constructs
COB 5 To impart knowledge on dynamic memory allocation
COB 6 To explain the concepts of Structure Unions and files for solving various
problems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Develop the basic programs in C and draw the flowcharts using Raptor
CO 2 Make use of conditional and iterative statements to solve real time scenarios in C
CO 3 Apply the concept of arrays modularity and strings to handle complex problems
CO 4 Apply the dynamic memory allocation functions using pointers
CO 5 Develop programs using structures and Files
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K3) 2 1 - - 3 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1(K2) 2 1 2
CO2(K3) 3 2 3
CO3(K3) 3 2 3
CO4(K3) - - -
CO5(K3) 3 2 3
1 Introduction to C Programming
11) Basic Linux Commands
12) Exposure to Turbo C Vi Emacs Code Blocks IDE Dev C++
13) Writing simple programs using printf() scanf()
2 Raptor
21) Installation and Introduction to Raptor
22) Draw a flow chart to find the Sum of 2 numbers
23) Draw a flow chart to find Simple interest
I Semester L T P C
Course Code 191ES1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 28
For the following experiments develop flow charts using Raptor and implement C
programs to
3 Basic Math
31) Convert Celsius to Fahrenheit and vice versa
32) Find largest of three numbers using ternary operator
33) Calculate area of a Triangle using Herons formula
4 Control Flow- I
41) Find Whether the Given Year is a Leap Year or not
42) Find the roots of a Quadratic Equation
43) Make a simple Calculator to Add Subtract Multiply or Divide Using switchhellipcase
5 Control Flow- II
51) Find Whether the Given Number is Prime number or not
52) Find Whether the Given Number is Armstrong Number or not
53) Print Floyd Triangle
6 Control Flow- III
61) Find the sum of individual digits of a positive integer
62) Check whether given number is palindrome or not
63) Read two numbers x and n and then compute the sum of the geometric progression
1+x+x2 +x3 +helliphelliphelliphellip+xn
7 Arrays
71) Search an element in the given array (Linear Search)
72) Perform matrix addition
73) Perform matrix multiplication
8 Strings
81) Implementation of string manipulation operations with library function
a) copy
b) concatenate
c) length
d) compare
82) Implementation of string manipulation operations without library function
a) copy
b) concatenate
c) length
d) compare
83) Verify whether the given string is a palindrome or not
9 Functions Array amp Pointers
91) Demonstrate parameter passing in Functions
92) Find Fibonacci Factorial of a number with Recursion and without Recursion
93) Find the sum of given numbers with arrays and pointers
10 Pointers
101) Perform Addition Subtraction Multiplication and Division of two numbers using
Command line arguments
102) Find sum of n elements entered by user To perform this program allocate memory
dynamically using malloc () function
AR19 Mechanical Engineering
Aditya Engineering College (A) 29
103) Find sum of n elements entered by user To perform this program allocate memory
dynamically using calloc () function
11 Structures
111) Store Information of a book Using Structure
112) Add Two Complex Numbers by Passing Structure to a Function
12 Files
121) Open a file and to print the contents of the file on screen
122) Copy content of one file to another file
123) Merge two files and store content in another file
LIST OF AUGMENTED EXPERIMENTS
13 to 16 (Any 2 of the following experiments can be performed)
13 Atm Pin Generation
Aditya purchased a credit card He has to generate a PIN number to access the ATM and Net
banking for which OTP was sent to his registered mobile number Using this OTP number he
has to generate ATM PIN number After generating PIN number he can use it for further
transactions Maximum login he can make is 3 times
Sample Input
OTP 6732
If valid
Enter PIN 8858
Confirm your PIN 8858
Sample output
validInvalid
PIN generated successfully
Note OTP is hard coded
14 Reset Password
Aditya was using Syndicate Bankrsquos Online Account She wanted to pay her bills through
Online But she forgets her password Now she has to reset the password For resetting the
password she has to select reset option from the Menu
NOTE using switch case
Sample input
Fast withdrawal
Mini Statement
Balance Enquiry
Reset Password Enter your choice 4
Sample Output
Reset password New password Confirm password
15 Student Attendance Report Generation
Some of the school staff had failed to maintain the attendance of the students causing lack of
essential records related to students attendance that should be submitted in a parents meet The
school management has decided to automate the process in order to maintain the attendance of
every student effectively You are asked to write a program to the above scenario and display
whether the student is allowed to write the Exam or not
AR19 Mechanical Engineering
Aditya Engineering College (A) 30
Percentagelt65 Detained
gt=65 and lt75 should pay condonation to appear for
Exams
gt=75 Allowed for exams
Sample Input
Enter no of students 5
Enter Students Details
Rno1 NameKalyan Attendance() 67 Should pay
condonation to appear for exams
Rno2 Name Laxman Attendance() 56 Rno3 NameYamini Attendance() 79 Rno4 Name Aryan Attendance() 60 Rno5 Name Raghav Attendance() 88
Sample output Rno Name Attendance () Remarks
1 Kalyan 67 67 should pay condonation to
appear for Exams 2 Laxman 56 detained 3 Yamini 79 allowed for Exams 4 Aryan 60 detained 5 Raghav 88 allowed for Exams
16 Library Management
Shilpa is a student of PGEC got the Library Card She wants to lend the books from the Library
The college gave two cards to each and every student The students can lend only two books at
a time and it has to be returned back after 15 days If the books are not returned late fee will be
collected for no of days the books were returned after the due date Late fee per day is Rs50-
Sample output
Enter the name of student nalini
Enter the Roll No555
Enter the branch cse
Enter the section A
Enter the year 3
Enter the Date of Lend (dd mm yyyy ) 08 08 2017
Enter the Date of return (dd mm yyyy ) 09 10 2017
The no of days book used by the student = 62
Extra days used by the student = 47
Late return fine fee = 2350
Reference Books
1 Let Us C Yashwanth Kanetkar Eighth edition BPB Publications
2 Programming in C A-Practial Approach Ajay Mittal Pearson Education
3 The C programming Language Dennis Richie and Brian Kernighan Pearson
Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 31
Web Links
1 httpswwwhackerrankcom
2 httpswwwcodechefcom
3 httpswwwtopcodercom
4 httpscode-crackergithubio
5 httpsraptormartincarlislecom
6 httpsnptelacincourses1061050852
AR19 Mechanical Engineering
Aditya Engineering College (A) 32
BASIC ENGINEERING WORKSHOP (Common to all branches)
I Semester L T P C
Course Code 191ES1L02 0 0 3 15
Course Objectives
COB 1 To make the students practice basic engineering trades and skills
COB 2 To nurture the students build various joints used in different trades for several
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct the various wooden joints
CO 2 Develop various fitting joints
CO 3 Develop components for making the various sheet metal models
CO 4 Experiment with the various house wiring connections
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 - 3 - - - - - - -
CO2 (K3) 3 2 1 - 3 - - - - - - -
CO3 (K3) 3 2 1 - 3 - - - - - - -
CO4 (K3) 3 2 1 - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) - - -
List of Experiments
Carpentry
1 Cross Lap Joint
2 Dovetail Joint
3 T - Joint
Fitting
4 Vee Fit
5 Square Fit
House Wiring
6 Parallel Connection of three bulbs
7 Series Connection of three bulbs
Tin Smithy
8 Taper Tray
9 Funnel
10 Plain Pipe
AR19 Mechanical Engineering
Aditya Engineering College (A) 33
List of Augmented Experiments
(Student can perform any one of the following experiments)
1 Stair Case wiring
2 Florescent Lamp Fitting
Reference Books
1 Engineering Workshop by Dr A B Srinivasa Rao AMIGO Books
2 Manual on Workshop practice by Dr PKannaiah amp Dr KLNarayana Scitech
publications
Web Links
1 httptiteacinindexphpdepartmentsmechanical-engineeringworkshop
2 httpswwwgopracticalscombasic-engineeringworkshop
AR19 Mechanical Engineering
Aditya Engineering College (A) 34
ENVIRONMENTAL SCIENCE (Common to all branches)
I Semester L T P C
Course Code 191MC1A01 2 0 0 0
Course Objectives
COB 1 To define the various ecosystems and its diversity
COB 2 To summarize the overall natural resources
COB 3 To classify environmental impacts of developmental activities
COB 4 To discuss social issues environmental legislation and global t treaties
COB 5 To educate human population and environment
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the need for protecting the producers and consumers in various ecosystems
and their role in the food web
CO 2 Outline the natural resources and their importance for the sustenance of the life
CO 3 List out the biodiversity of India threats and its conservation methods
CO 4 Illustrate various attributes of the pollution impacts and measures to control the
pollution along with waste management practices
CO 5 Describe social issues both rural and urban environment to combat the
challenges
CO 6 Summarize the legislations of India in environmental protection
CO 7 Explains the population growth and its implications
CO 8 Transforms existing campus into self sustaining green campus with environment
Friendly aspects of ndash Energy Water and waste water reuse plantation rain water
Harvesting and Parking Curriculum
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K1) 1 - - - - 1 2 1 - - - -
CO2 (K2) 1 - - - - 1 2 1 - - - -
CO3 (K1) 1 - - - - 1 2 1 - - - -
CO4 (K2) 1 - - 1 - 1 2 1 - - - -
CO5 (K2) 1 - - - - 1 2 1 - 3 - -
CO6 (K2) 1 - - - - 1 2 1 - - - -
CO7 (K4) 1 - - - - 1 2 1 - - - -
CO8 (K2) 2 1 2 1 - 2 3 2 3 3 2 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K1) - - -
CO2 (K2) - - 2
CO3 (K1) - - -
CO4 (K2) 2 - -
CO5 (K2) - - -
CO6 (K2) - - -
CO7 (K4) - - -
CO8 (K2) 2 1 2
AR19 Mechanical Engineering
Aditya Engineering College (A) 35
UNIT- I
Multidisciplinary Nature Of Environmental Studies
Definition Scope and Importance Need for Public Awareness
Natural Resources Renewable and non-renewable resources ndash Natural resources and
associated problems
UNIT - II
Ecosystem Biodiversity And Its Conservation
Ecosystems Concept of an ecosystem ndash Structure and function of an ecosystem ndash Producers
consumers and decomposers Food chains food webs and ecological pyramids
Biodiversity And Its Conservation Definition genetic species and ecosystem diversity ndash Bio-
geographical classification of India ndash Values of biodiversity Hot-spots of biodiversity ndash
Threats to biodiversity Conservation of biodiversity In-situ and Ex-situ conservation of
biodiversity
UNIT - III
Environmental Pollution And Solid Waste Management
Environmental Pollution Definition Cause effects and control
measures of
a Air Pollution
b Water pollution
c Soil pollution
d Marine pollution
e Noise pollution
Solid Waste Management Causes effects and control measures of urban and industrial
wastes ndash Role of an individual in prevention of pollution
UNIT - IV
Social Issues And The Environment
Social Issues and the Environment From Unsustainable to Sustainable development ndash
Urban problems related to Energy ampWater Resettlement and rehabilitation of people
Environmental ethics Climate change global warming acid rain ozone layer depletion
nuclear accidents and holocaust Environment Protection Act ndash Air (Prevention and Control
of Pollution) Act ndash Water (Prevention and control of Pollution) Act-Wildlife Protection Act
ndash Forest Conservation Act ndash Issues involved in enforcement of environmental legislation ndash
Public awareness
UNIT - V
Human Population And The Environment
Human population and the environment Population growth variation among nations
Environment and human health Human Rights Value Education Role of Information
Technology in Environment and human health
AR19 Mechanical Engineering
Aditya Engineering College (A) 36
Text Books
1 Text book of Environmental Studies for Undergraduate Courses by Erach Bharucha
for University Grants Commission Universities Press
2 Environmental Studies by Palaniswamy ndash Pearson education
3 Environmental Studies by DrSAzeem Unnisa Academic Publishing Company
Reference Books
1 Textbook of Environmental Science by Deeksha Dave and ESai Baba Reddy Cengage
Publications
2 Text book of Environmental Sciences and Technology by MAnji Reddy BS
Publication
3 Comprehensive Environmental studies by JPSharma Laxmi publications
4 Environmental sciences and engineering ndash J Glynn Henry and Gary W Heinke ndash
Prentice hall of India Private limited
5 A Text Book of Environmental Studies by GRChatwal Himalaya Publishing House
6 Introduction to Environmental engineering and science by Gilbert M Masters and
Wendell P Ela - Prentice hall of India Private limited
Web Links
1 httpswwwyoutubecomwatchv=mOwyPENHhbc
2 httpswwwyoutubecomwatchv=_mgvsPnCYj4
3 httpswwwyoutubecomwatchv=L5B-JMnBIyQ
4 httpswwwyoutubecomwatchv=3RDGV5i82_Q
AR19 Mechanical Engineering
Aditya Engineering College (A) 37
CONSTITUTION OF INDIA (Common to all branches)
I Semester L T P C
Course Code 191MC1A02 2 0 0 0
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain historical background of the constitution making and its importance for
building a democratic India
CO 2 Compare the functioning of three wings of the government ie executive
legislative and judiciary
CO 3 Interpret the value of the fundamental rights and duties for becoming good citizen
of India
CO 4 Compare the decentralization of power between central state and local self-
government
CO 5 Extend the knowledge in strengthening of the constitutional institutions like CAG
Election Commission and UPSC for sustaining democracy
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 2 - - -
CO2 (K2) - - - - - - - - 3 - - -
CO3 (K2) - - - - - - - - 3 - - -
CO4 (K2) - - - - - - - - 3 - - -
CO5 (K3) - - - - - - - - 2 - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Indian Constitution Constitutionrsquo meaning of the term Indian Constitution -
Sources and constitutional history Features - Citizenship Preamble Fundamental Rights and
Duties Directive Principles of State Policy
COB 1 To enable the student to interpret the importance of constitution
COB 2 To facilitate the students to illustrate the structure of executive legislature and
judiciary
COB 3 To allow the students to classify philosophy of fundamental rights and duties
COB 4 To facilitate the students to outline the autonomous nature of constitutional bodies
like Supreme Court High Court Comptroller and Auditor General of India and
Election Commission of India
COB 5 To enable the student to interpret the central and state relations of finance and
administration
AR19 Mechanical Engineering
Aditya Engineering College (A) 38
UNIT-II
Union Government and its Administration Structure of the Indian Union Federalism Centre-
State relationship President Role power and position PM and Council of ministers Cabinet
and Central Secretariat Lok Sabha Rajya Sabha The Supreme Court and High Court Powers
and Functions
UNIT-III
State Government and its Administration Governor - Role and Position - CM and Council of
ministers State Secretariat Organisation Structure and Functions
UNIT-IV
A Local Administration - Districtrsquos Administration Head - Role and Importance
Municipalities - Mayor and role of Elected Representative - CEO of Municipal Corporation
PachayatiRaj Functions PRI Zila Panchayat Elected officials and their roles CEO Zila
Panchayat Block level Organizational Hierarchy - (Different departments) Village level -
Role of Elected and Appointed officials - Importance of grass root democracy
UNIT-V
Election Commission Election Commission- Role of Chief Election Commissioner and
Election Commissionerate State Election Commission Functions of Commissions for the
welfare of SCSTOBC and women
Text Books
1 Durga Das Basu Introduction to the Constitution of India Prentice ndash Hall of India Pvt
Ltd New Delhi
2 Subash Kashyap Indian Constitution National Book Trust
Reference Books
1 JA Siwach Dynamics of Indian Government amp Politics
2 DC Gupta Indian Government and Politics
3 HMSreevai Constitutional Law of India 4th edition in 3 volumes (Universal Law
Publication)
4 JC Johari Indian Government and Politics Hans
Web Links
1 nptelacincourses1091040748
2 nptelacincourses109104045
3 nptelacincourses101104065
4 wwwhssiitbacinenlecture-details
5 wwwiitbacinenevent2nd-lecture-institute-lecture-series-indian-constitution
AR19 Mechanical Engineering
Aditya Engineering College (A) 39
PARTIAL DIFFERENTIAL EQUATIONS AND VECTOR CALCULUS (Common to CE EEE ME MinE PT AgE)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that are
essential for an engineering course
COB 2 To help the students acquire a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Solve improper integrals using beta and gamma functions
CO 2 Solve partial differential equations of first order
CO 3 Compute the double integral over a region and triple integral over a volume
CO 4 Calculate the gradient of a scalar function divergence and curl of a vector function
CO 5 Apply line surface and volume integrals
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT - I
Special Functions
Beta and Gamma functions Properties Relation between Beta and Gamma functions
Evaluation of improper integrals
UNIT II
Partial Differential Equations
Formation of partial differential equations by elimination of arbitrary constants and arbitrary
functions Solutions of first order linear partial differential equations nonlinear partial
differential equations (standard types) Homogeneous linear partial differential equations with
constant coefficients
UNIT III
Multiple Integrals
Double integrals Change of order of integration Change of variables Double integral in polar
coordinates Triple integrals Finding Area and Volume as a double integral
II Semester L T P C
Course Code 191BS2T05 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 40
UNIT IV
Vector Differentiation
Introduction Gradient of a scalar field Directional Derivative Divergence of a vector field
Curl of a vector field Solenoidal and irrotational fields Conservative force field Scalar
potential Laplace operator Vector identities
UNIT V
Vector Integration
Introduction Line integral Work done Surface and volume integrals Greenrsquos theorem Stokes theorem and Gauss Divergence theorem (All theorems without proof) and related problems
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley- India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson
Publications
Reference Books
1 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
2 Dass HK Rajnish Verma Er Higher Engineering Mathematics S Chand Co Pvt
Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited 2006
Web Links
4 httpsnptelacincourses11110710825
5 httpsnptelacincourses111103021
6 httpsnptelacincourses111105122
7 httpmathworldwolframcom
8 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 41
CHEMISTRY OF MATERIALS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191BS2T06 3 0 0 3
Course Objectives
COB 1 To acquaint the students with soft and hard water types and softening methods
COB 2 To impart the knowledge on the basic concepts of electrochemical cells and battery
technology
COB 3 To impart knowledge about engineering materials their properties and
applications
COB 4 To impart knowledge on corrosion and its significance
COB 5 To explain Nano and smart materials and their uses
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare the quality of drinking water and problems associated with hard water
CO 2 Outline the difference between primary and secondary cells
CO 3 Explain about polymers and engineering materials
CO 4 Explain corrosion and their control methods
CO 5 Summarize the importance of Nano materials Semi conductors and Super
conductors
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - - - - -
CO2 (K2) 2 - - - - - - - - - - -
CO3 (K2) 2 - - - - - - - - - - -
CO4 (K2) 2 - - - - - - - - - - -
CO5 (K2) 2 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 -
CO2 (K2) 2 - -
CO3 (K2) 2 - -
CO4 (K2) - - -
CO5 (K2) - 1 -
UNIT- I
Water Technology
Introduction ndash Soft Water and hardness of water types of hardness of water degree of hardness
of water Units of hardness of water problems on hardness Boiler troubles - scale and sludge
Boier corrosion Industrial water treatment- zeolite and ion-exchange processes
Specifications for drinking water Bureau of Indian Standards (BIS) and World health
organization (WHO) standards - desalination of brackish water reverse osmosis (RO) and
electrodialysis
AR19 Mechanical Engineering
Aditya Engineering College (A) 42
UNIT - II
Electrochemical Energy Systems
Introduction- Electrochemical Cell (Galvanic cell) Electrochemical series Applications
single electrode potential Hydrogen and Calomel electrode Nernst Equation for a single
electrode Concentration Cells (Electrode amp Electrolyte) Construction of glass electrode
Batteries ndash Classical batteries-dryLeclanche cell Modern batteries-zinc air lithium cells-Li
MnO2 cell- challenges of battery technology Fuel cells- Introduction - classification of fuel
cells ndash hydrogen and oxygen fuel cell propane and oxygen fuel cell- Merits of fuel cell
UNIT - III
Polymers and Building Materials
Introduction to polymers functionality of monomers chain growth and step growth
polymerization coordination polymerization copolymerization (stereospecific
polymerization) with specific examples and mechanisms of polymer formation (Free radical
mechanism for addition ploymerization)
Plastics - Thermoplastics and Thermo settings Preparation properties and applications of ndash
PVC Bakelite
Steel ndash Types of Steel chemical composition ndash applications of alloy steels
Cement Portland cement constituents Manufacture of Portland Cement chemistry of setting
and hardening of cement
UNIT - IV
Corrosion Engineering
Corrosion Definition ndash theories of corrosion dry corrosion and electro chemical corrosion ndash
factors affecting corrosion nature of the metal and nature of the environment
Corrosion controlling methods Sacrificial and Impressed current cathodic protection
Metallic coatings anodic coatings cathodic coating galvanizing and tinning metal cladding
Electroplating ndashorganic coatings paints (constituents and their functions)
UNIT - V
Material Science and Engineering
Nano Materials Introduction to Nano materials chemical synthesis of nanomaterials Sol-
gel method characterization of nanomateirals by TEM (includes basic principle of TEM)
Applications of nanomaterials in waste water treatment lubricants and engines
Nano Tubes Carbon nano tubes- Types of CNTrsquos-preparation methodsndashArc vapourisation
Laser abiliation and chemical vapour deposition ndashproperties and applications
Band Theory of Solids Introduction ndashExplanation of conductors semi conductors Insulators
by Band Theory- Super conductors-Types-Preparation-Properties and Applications
Appendix Introduction to Smart Materials
Text Books
1 PC Jain and M Jain Engineering Chemistry 16e Dhanapat Rai amp Sons (2014)
2 BK Sharma Engineering Chemistry Krishna Prakasham (2014)
3 Engineering Chemistry by Shikha Agarwal Cambridge University Press 2015
edition
Reference Books
1 Sashi Chawla A Textbook of Engineering Chemistry Dhanapath Rai and sons (2003)
2 BS Murthy and P Shankar A Text Book of Nano Science and Nano Technology
University Press (2013)
AR19 Mechanical Engineering
Aditya Engineering College (A) 43
3 SS Dara A Textbook of Engineering Chemistry SChand amp Co (2010)
Web Links 1 httpwwwnptelvideosin201211chemistry-of-materials
2 httpwwwnptelvideoscomlecturephpid=2946
3 httpwwwnptelvideoscomlecturephpid=2922
4 httpwwwnptelvideoscomlecturephpid=2954
AR19 Mechanical Engineering
Aditya Engineering College (A) 44
ENGINEERING GRAPHICS AND DESIGN (Common to CE ME ECE CSE IT MinE PT amp AgE)
II Semester L T P C
Course Code 191ES2T02 1 0 3 25
Course Objectives
COB 1 To teach the practices for accuracy and clarity in presenting the technical
information used in industry
COB 2 To train the students with graphical skills in design of mechanical engineering
components
COB 3 To impart the knowledge of drawing machine components using AutoCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Make use of fundamentals of Engineering Drawing to sketch basic curves conic
sections cycloid epicycloid hypocycloid and involute
CO 2 Apply the principles of orthographic projections for points lines and planes
CO 3 Apply the principles of orthographic projections for solids
CO 4 Apply the AutoCAD software for the orthographic projection of the machine parts
CO 5 Apply the AutoCAD software for the isometric projection of the machine parts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K3) 3 - - - - - - - - 3 - -
CO2(K3) 3 - - - - - - - - 3 - -
CO3(K3) 3 - - - - - - - - 3 - -
CO4(K3) 3 - - - 3 - - - - 3 - 3
CO5(K3) 3 - - - 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - 3
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CONVENTIONAL DRAFTING
Unit-I
Introduction to Engineering graphics Principles of Engineering Graphics and their
significance- conventions in drawing- lettering ndash BIS Conventions- - Conic sections -Cycloid
epicycloids and hypocycloid-Involutes
UNIT-II
Projection of points lines and planes Projection of points in any quadrant lines inclined to
one or both planes finding true lengths angle made by line Projections of regular plane
surfaces
UNIT-III
Projections of solids Projections of regular solids inclined to one or both planes by rotational
AR19 Mechanical Engineering
Aditya Engineering College (A) 45
or auxiliary views method COMPUTER AIDED DRAFTING
UNIT-IV
Introduction to Computer Aided Drafting Basic drawing and editing commands-
Dimensioning principles and conventional representations Systems of projections
Conventions and application to orthographic projections
UNIT-V
Isometric Projections Principles of isometric projection- Isometric scale Isometric views
lines planes figures simple and compound solids
Text Books
1 NDBhatt Engineering Drawing 53rd Edition Charotar Publishers 2016
2 KLNarayana amp PKannaiah Engineering Drawing 3rd Edition Scitech Publishers
Chennai 2012
Reference Books
1 Dhanajay A Jolhe Engineering Drawing Tata McGraw-Hill Copy Right 2009
2 Shah and Rana Engineering Drawing 2e Pearson Education 2009
3 Venugopal Engineering Drawing and Graphics 3e New Age Publishers 2000
4 KCJohn Engineering Graphics 2e PHI 2013
5 Basant Agarwal amp CMAgarwal Engineering Drawing Tata McGraw-Hill Copy
Right 2008
Note
1 Manual and Computer Aided Drafting classes can be held in alternative weeks for
optimal utilization of computer facilities
2 External examinations to be conducted both manual and computer mode with equal
weightage of marks
Web Links
1 httpswwwwiziqcomtutorialsengineering-drawing
2 wwwmeumneducourses
3 Youtube http-seworCarletoncagkardos88403drawingshtml conic sections-online
red woodsedu
AR19 Mechanical Engineering
Aditya Engineering College (A) 46
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING (Common to CE ME CSE IT MinE PT AgE)
Course Objectives
COB 1 To impart the principles of basic lawrsquos for electrical networks
COB 2 To explain the concepts of electrical machines and their characteristics
COB 3 To expose the principle of operation construction details and testing methods of
transformer
COB 4 To impart the adequate knowledge about the operation of AC rotating machines
COB 5 To describe the characteristics of diodes transistors and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct simple electrical circuits using basic laws
CO 2 Explain the constructional features of DC Machines and working
CO 3 Examine the performance of single phase transformer
CO 4 Illustrate the principle of AC rotating machines
CO 5 Analyze the device structure operation and application of diode and BJT
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - - - -
CO2 (K2) 3 3 2 - - - - - - - - -
CO3 (K4) 2 1 - - - - - - - - - -
CO4 (K3) 2 1 - - - - - - - - - -
CO 5 (K4) 3 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) 2 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO 5 (K4) - - -
UNIT- I
Basic laws and Theorems Electrical circuit elements (R-L and C) ac and dc independent
sources and their V-I relationship Ohms law Kirchoffs Laws mesh analysis series and
parallel circuits delta-star and delta-star conversion Network Theorems (with DC Excitation)
superposition theorem Thevenins and Nortons theorem maximum power transfer theorem
with simple examples
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- II
DC Machines Constructional features Principle of operation of DC generator EMF equation
types of dc generators OCC characteristics of dc shunt generator Principle of operation of dc
II Semester L T P C
Course Code 191ES2T03 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 47
motor torque expressions 3-point starter losses and efficiency Swinburnersquos test efficiency
by direct loading Speed control methods of dc motor
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- III
Transformers Principle of operation and construction of single phase transformer EMF
equation voltage regulation losses and efficiency openshort- circuit tests and determination
of efficiency
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- IV
AC Rotating Machines Principle of operation of alternators Types of alternators Principle
of operation of synchronous motor Principle of operation of 3-Phase induction motor Slip-
torque characteristics Efficiency calculations from direct loading
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- V
Semiconductor Devices p-n Junction diode principle V-I characteristics rectifier circuits
(half-wave full-wave Descriptive treatment only) Zener diode as Voltage Regulator
Construction and working P-N-P and N-P-N Junction transistor Transistor as an CE amplifier
Text Books
1 Electrical Technology by Surinder Pal Bali Pearson Publications Vol I and Vol II
2 Electronic Devices and Circuits R L Boylestad and Louis Nashelsky 9th edition
PEIPHI 2006
Reference Books
1 Basic Electrical Engineering by M S Naidu and S Kamakshiah TMH Publications
2 DP Kothari IJ Nagrath Basic Electrical and Electronics Engineering 1st edition
McGraw Hill Education (India) Private Limited 2017
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 RK Rajput Basic Electrical and Electronics Engineering University Science Press
New Delhi 2012
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 wwwfalstadcomcircuits
AR19 Mechanical Engineering
Aditya Engineering College (A) 48
ENGINEERING MECHANICS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191ES2T04 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the concept of forces and their resolution in different planes
resultant of force system forces acting on a body their free body diagrams using
graphical methods and to know the concept of friction
COB 2 To make the students calculate the centre of gravity and moment of inertia of solids
and surfaces
COB 3 To educate the students about kinematics kinetics work - energy and impulse -
momentum principles
Course Outcomes
At the end of the Course Students will be able to
CO 1 Determine the resultant force and moment for a given force system
CO 2 Solve the member forces in trusses
CO 3 Apply concept of Virtual work to find the work done by force and couple
CO 4 Solve the centre of gravity and moment of inertia for various geometric shapes
CO 5 Determine the displacement velocity and acceleration relations in dynamic systems
CO 6 Apply the concepts of kinematics kinetics work - energy and impulse - momentum
methods to particle motion
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 3 - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 2 1 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K5) 3 3 3 - - - - - - - - -
CO6 (K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K5) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 3 -
CO6 (K3) 3 - -
UNIT I
Introduction to Engineering Mechanics Composition and resolution of forces
parallelogram law principle of transmissibility types of force systems - concurrent and
concurrent coplanar forces resultant of coplanar force systems couple moment of a force
Varignons theorem concept of free body diagrams concept of equilibrium of coplanar force
systems
AR19 Mechanical Engineering
Aditya Engineering College (A) 49
UNIT II
Analysis of Structures Introduction to plane trusses analysis of plane trusses by method of
joints and method of sections
Virtual Work Equilibrium of ideal systems work done by a force work done by a couple
principle of virtual work
UNIT III
Properties of Surfaces and Volumes Centroid and center of gravity derivation of centroids
from first moment of area centroids of composite sections center of gravity of common
volumes - cylinder cone sphere theorem of Pappus
Moment of Inertia Area moment of inertia of plane and composite shapes parallel axis
theorem perpendicular axis theorem polar moment of inertia mass moment of inertia of
common volumes -thin plates thin rod cylinder cone sphere rectangular prism radius of
gyration
UNIT IV
Kinematics Fundamentals of kinematics of motion- Rotation of a rigid body about a fixed
axis introduction to plane motion
Kinetics Principles of dynamics - Newtons Laws of motion DAlemberts principle in
rectilinear translation Concepts of Friction
UNIT V
Applications Principle of work and energy- Principle of conservation of energy Concept of
power Conservation of linear and angular momentum Principle of momentum and impulse
Types of impact
Text Books
1 Engineering Mechanics- Statics and Dynamics- ANelson Mc Graw Hill publishers
2 STimoshenko DH Young JV Rao Sukumar Pati Engineering Mechanics (in SI
units) 5e McGraw Hill 2013
3 N H Dubey Engineering Mechanics Statics and Dynamics McGraw Hill 2014
Reference Books
1 Basudeb Bhattacharya Engineering Mechanics 2e Oxford University Press (India)
2015
2 Irving Shames G K M Rao Engineering Mechanics Statics and Dynam-ics 4e
Pearson 2009
3 K L Kumar Veenu Kumar Engineering Mechanics 4e Tata McGraw Hill 2010
4 S S Bhavikatti Engineering Mechanics 4e New Age International 2008
Web Links
1 httpswwwiitgacinrkbcme101PresentationL01-03pdf
2 httpswwwhzgdeimperiamdcontenthzginstitut_fuer_werkstoffforschungwmsen
g_mech_2006pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 50
COMMUNICATIVE ENGLISH LAB ndashII (Common to all branches)
II Semester L T P C
Course Code 191HS2L02 0 0 2 1
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate interpersonal skills using language confidently and effectively for
personal and profession growth
CO 2 Make use of effective delivery strategies to select compile and synthesize
information for an oral presentation
CO 3 Demonstrate in mock interviews mock group discussion and public speaking
CO 4 Identify communicative competency to respond to others in different
situations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
Body Language
PRACTICE 2
Dialogues
PRACTICE 3
Presentation Skills
COB 1 To facilitate computer-aided multi-media instruction enabling individualized
and independent language learning
COB 2 To improve the fluency in spoken English and neutralize mother tongue
Influence
COB 3 To train students to use language appropriately
AR19 Mechanical Engineering
Aditya Engineering College (A) 51
PRACTICE 4
Group Discussion
PRACTICE 5
Interviews and Telephonic Interviews
PRACTICE 6
Debates
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra JRaju
and DrGSuvarna Lakshmi Maruthi Publications 2 English for Professionals by Prof Eliah BS Publications Hyderabad 3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata Mcraw ndash Hill
Publishing Company 5 Cornerstone Developing soft skills Pearson Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 52
ENGINEERING CHEMISTRY LAB (Common to CE ME ECE CSE MinE PT AgE)
II Semester L T P C
Course Code 191BS2L04 0 0 3 15
Course Objectives
COB 1 To acquaint the students with the basic concepts of Engineering Chemistry lab
COB 2 To demonstrate the digital instrument methods of analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the hardness of water
CO 2 Calculate the strength of acids amp bases by instrumental analysis
CO 3 Prepare advanced polymer materials
CO 4 Prepare alternative fuel like Bio-Diesel
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - 3 - - - - - - -
CO2 (K3) 3 - - - 3 - - - - - - -
CO3 (K3) 3 - - - 3 - - - - - - -
CO4 (K3) 3 - - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - - -
Introduction to Chemistry laboratory ndash Molarity Normality Primary secondary
standard solutions Volumetric titrations Quantitative analysis Qualitative analysis etc
Exercise 1 Determination of Total Hardness of a water sample
Exercise 2
Determination of Dissolved Oxygen in Water Sample
Exercise 3
Determination of Zinc by Complexometric method
Exercise 4
PH metric titration of (i) strong acid vs strong base
Exercise 5
Determination of Fe (II) in Mohrrsquos salt by potentiometric method
Exercise 6 Potentiometry ndash Titration between strong acid ndash strong base
Exercise 7
AR19 Mechanical Engineering
Aditya Engineering College (A) 53
Conductometric titrations(Strong acid vs Strong base)
Exercise 8
Preparation of Phenol- Formaldehyde resin
Exercise 9
Preparation of Urea-Formaldehyde resin
Exercise 10
Preparation of bio diesel
Exercise 11
Determination of Vitamin ndash C
LIST OF AUGMENTED EXPERIMENTS
12 to 15 (Any two of the following experiments can be performed)
Exercise 12
Determination of percentage Moisture content in a coal sample
Exercise 13
Determination of acid value and saponification value of a given lubricant
Exercise 14
Determination of viscosity of a liquid
Exercise 15 Estimation of Calcium in port land Cement
Reference Books
1 A Textbook of Quantitative Analysis Arthur J Vogel
2 DrJyotsna Cherukuris (2012) Laboratory Manual of engineering chemistry - II
VGS Techno Series
3 Chemistry Practical Manual Lorven Publications K Mukkanti (2009) Practical
Engineering Chemistry BSPublication
AR19 Mechanical Engineering
Aditya Engineering College (A) 54
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING
LAB (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To enable the students learn various network reduction techniques
COB 2 To impart the knowledge of efficiency of machines with direct and indirect
loading
COB 3 To make the students understand the performance of single phase transformer
COB 4 To enable the students learn the characteristics of diode and its applications
COB 5 To make the students learn the simulation of diode and transistor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the electrical networks using network theorems
CO 2 Analyze the performance of AC and DC Machines
CO 3 Estimate the performance of 1-phase transformer
CO 4 Explain diode characteristics and its applications
CO 5 Explain the simulation of diode and transistor
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 - - - - - - - -
CO2 (K4) 3 3 2 - - - - - - - - -
CO3 (K3) 3 2 1 1 - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K4) 3 - -
CO3 (K3) 3 - -
CO4 (K2) - - -
CO5 (K2) - - -
All the 10 experiments need to perform from
1 Verification of Kirchhoffrsquos Laws KVL and KCL
2 Verification of Superposition Theorem
3 Verification of Thevenins Theorem and Nortons Theorem
4 Speed control of DC shunt motor
5 OCC characteristics of DC shunt generators
6 Swinburnes test on a DC shunts machine
7 Brake Test on DC shunt motor
8 OC and SC Tests on single phase transformer
9 Current Voltage Characteristics of a p-n Junction Diode
10 Characteristics of single phase full wave bridge rectifier
II Semester L T P C
Course Code 191ES2L03 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 55
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 Voltage Regulation with Zener Diodes
12 Brake test on three phase induction motor
13 Regulation of Alternator by synchronous impedance method
14 Simulation of Diode and Transistor Circuit Analysis using PSPICE
Reference Books
1 Electrical Technology M S Naidu and S Kamakshiah TMH Publications 2006
2 Fundamentals of Electrical Engineering Rajendra Prasad PHI Publications 2nd
Edition
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 Electrical Circuit Theory and Technology by John Bird Routledge Taylor amp
Francis Group
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 httpnptelacincourses117106101
3 httpnptelacincourses122106025
AR19 Mechanical Engineering
Aditya Engineering College (A) 56
MECHANICAL ENGINEERING WORKSHOP II Semester L T P C
Course Code 191ES2L07 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To develop the knowledge for plastics processing techniques
COB 4 To impart the concept of assembling and disassembling of machine parts
COB 5 To provide basic knowledge about machine tools and power tools
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate pattern making process mould making process by using greens
and and casting process
CO 2 Distinguish among various metal fabrication processes such as Arc welding
Gas Welding Resistance spot welding process and Soldering amp Brazing
CO 3 Create the plastic object through different plastic processing techniques
CO 4 Experiment with assembling and disassembling of machine parts
CO 5 Make use of the basic machine tools and power tools used in manufacturing
Mapping of Course Outcomes with Program Outcomes
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) 3 3 -
CO3 (K6) 3 3 -
CO4 (K3) 3 2 -
CO5 (K3) 3 - -
List of Experiments
I Foundry Technology
1 Pattern Design and making - for casting drawing
2 Determination of average grain size for sand sample using sieve shaker
3 Mould preparation by Using Green Sand
4 Metal Melting and Casting of molten metal
II Metal Fabrication Techniques
5 Lap amp Butt Joint by Gas welding
6 Lap amp Butt Joint Double V butt Joint on thick plate by Arc welding
III Plastic Processing Techniques
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - - - -
CO2(K4) 3 3 - - - - - 3 - - - -
CO3(K6) 3 3 - - - - - - - - - -
CO4(K3) 3 2 - - - - - 3 - - - -
CO5(K3) 3 2 - - - - - 2 - - 3 -
AR19 Mechanical Engineering
Aditya Engineering College (A) 57
7 Injection Moulding (Jewelry Box and Bottle cap)
8 Blow Moulding (Water Bottle with cap)
IV AssemblingDisassembling Practice
9 Clutch and carburettor
10 Two-wheeler engine parts
V Basic Manufacturing Machine Tools And Power Tools
11 Drilling Boring Dieing and Tapping
12 Basic knowledge of Power Tools
List of Augmented Experiments
(Any one of the following experiments can be performed)
1 Lap amp Butt strap Joint by Resistance Spot Welding
2 Brazing and soldering
Reference Books
1 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II fourth
edition
2 Elements of Manufacturing Technology Vol II Hajra ChoudharySK and Hajra
Choudhary AK Media Publishers 2007 Edition
Web Links
1 httpssjceacinwp-contentuploads201804Foundry-and-Forging-Laboratory -
Manualpdf
2 httpwwwiitkacinmmetestTA201pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 58
ENGINEERING EXPLORATION PROJECT (Common to all branches)
Course Objectives
bull Build mindsets amp foundations essential for designers
bull Learn about the Human-Centered Design methodology and understand
their real-world applications
bull Use Design Thinking for problem solving methodology for investigating
illdefined problems
bull Undergo several design challenges and work towards the final design
challenge
Apply Design Thinking on the following Streams to
bull Project Stream 1 Electronics Robotics IOT and Sensors
bull Project Stream 2 Computer Science and IT Applications
bull Project Stream 3 Mechanical and Electrical tools
bull Project Stream4 Eco-friendly solutions for waste management
infrastructure safety alternative energy sources Agriculture
Environmental science and other fields of engineering
HOW TO PURSUE THE PROJECT WORK
bull The first part will be learning-based-masking students to embrace the
methodology by exploring all the phases of design thinking through the
wallet bag challenge and podcasts
bull The second part will be more discussion-based and will focus on building
some necessary skills as designers and learning about complementary
material for human- centered design
bull The class will then divide into teams and they will be working with one
another for about 2 ndash 3 weeks These teams and design challenges will be
the basis for the final project and final presentation to be presented
bull The teams start with Design Challenge and go through all the phases more
in depth from coming up with the right question to empathizing to ideating
to prototyping and to testing
bull Outside of class students will also be gathering the requirements identifying the challenges usability importance etc
bull At the end Students are required to submit the final reports and will be
evaluated by the faculty
TASKS TO BE DONE
Task 1 Everyone is a Designer
bull Understand class objectives amp harness the designer mindset
II Semester L T P C
Course Code 191PR2P01 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 59
Task 2 The WalletBag Challenge and Podcast
bull Gain a quick introduction to the design thinking methodology
bull Go through all stages of the methodology through a simple design challenge
bull Podcast Observe Listen and Engage with the surrounding
environment and identify a design challenge
Task 3 Teams amp Problems
bull Start Design Challenge and learn about teams amp problems through this
bull Foster team collaboration find inspiration from the environment and
learn how to identify problems
Task 4 Empathizing
bull Continue Design Challenge and learn empathy
bull Learn techniques on how to empathize with users
bull Go to the field and interview people in their environments
bull Submit Activity Card
Task 5 Ideating
bull Continue Design Challenge and learn how to brainstorm effectively
bull Encourage exploration and foster spaces for brainstorming
bull Submit Activity Card
Task 6 Prototyping
bull Continue Design Challenge and learn how to create effective prototypes
bull Build tangible models and use them as communication tools
bull Start giving constructive feedback to classmates and teammates
bull Submit Activity Card
Task 7 Testing
bull Finish Design Challenge and iterate prototypes and ideas through user
feedback
bull Evolve ideas and prototypes through user feedback and constructive
criticism
bull Get peer feedback on individual and group performance
bull Submit Activity Card
Task 8
bull Final Report Submission and Presentation
AR19 Mechanical Engineering
Aditya Engineering College (A) 60
Note The colleges may arrange for Guest Speakers from Various Design Fields
Graphic Design Industrial Design Architecture Product Design Organizational
Design etc to enrich the students with Design Thinking Concept
References
1 Tom Kelly The Art of Innovation Lessons in Creativity From IDEO
Americarsquos Leading Design Firm (Profile Books 2002)
2 Tim Brown Change by Design How Design Thinking Transforms
Organizations and Inspires Innovation (Harper Business 2009)
3 Jeanne Liedtka Randy Salzman and Daisy Azer Design Thinking for the
Greater Good Innovation in the Social Sector (Columbia Business School
Publishing 2017)
Web Links
bull Human-Centered Design Toolkit (IDEO)
httpswwwideocompostdesign-kit
bull Design Thinking Boot Camp Bootleg
(Stanford D-School)
httpsdschoolstanfordeduresource
sthe-bootcamp-bootleg bull Collective Action Toolkit (frogdesign)
httpswwwfrogdesigncomwpcontent
o uploads201603CAT_20_Englishpdf
bull Design Thinking for Educators (IDEO) httpsdesignthinkingforeducatorscom
AR19 Mechanical Engineering
Aditya Engineering College (A) 61
INTEGRAL TRANSFORMS AND APPLICATIONS OF PARTIAL
DIFFERENTIAL EQUATIONS (Common to CE ME Ag E)
III Semester L T P C
Course Code 191BS3T11 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
that are essential for an engineering course
COB 2 To help the students acquire problem analysis and problem solving skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compute the Fourier series of a function
CO 2 Compute the Fourier transform of a function
CO 3 Compute Laplace transform of a function
CO 4 Apply Laplace transform to solve initial value problems
CO 5 Solve one dimensional heat equation wave equation and two dimensional
Laplace equation
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO1 PSO2 PSO3 PSO4
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Fourier series
Fourier series of periodic function Dirichletrsquos conditions for Fourier expansion
Functions having points of discontinuities Change of interval Even and odd functions
Half-range series
UNIT-II
Fourier Transforms
Fourier integral theorem (without proof) Fourier sine and cosine integrals Fourier
Transforms Fourier sine and cosine transforms properties inverse transforms Finite
Fourier transforms
UNIT-III
Laplace Transforms
Laplace transforms of standard functions First Shifting theorem Change of scale
AR19 Mechanical Engineering
Aditya Engineering College (A) 62
Multiplication with t Division by t Transforms of derivatives and integrals Unit step
function Dirac delta function Periodic function Evaluating improper integrals by
using Laplace Transform
UNIT-IV
Inverse Laplace Transforms
Inverse Laplace transforms Convolution theorem (without proof) Second shifting
theorem
Solving differential equations and integro-differential equations using Laplace
transforms
(MATLAB Exercise Computing Laplace transform of f(t) using symbolic toolbox
Solving initial value problems)
UNIT-V
Application of PDE Classification of Higher order PDE - Method of separation of Variables- Solution of One dimensional Wave equation Heat equation and two-dimensional Laplace equation
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyengar 4th Edition Alpha
Science Publications
2 Advanced Engineering Mathematics Erwin Kreyszig 10th Edition Wiley-
3 Higher Engineering Mathematics BSGrewal 43rd Edition Khanna Publishers
Reference Books
1 Advanced engineering mathematics with MATLAB Dean G Duffy CRC Press
2 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited
2006
Web Links
1 httpsnptelacincourses111105123
2 httpsnptelacincourses111105093
3 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 63
FLUID MECHANICS AND HYDRAULIC MACHINERY
III Semester L T P C
Course Code 191ME3T01 3 0 0 3
Course Objectives
COB 1 Explain the properties of fluids and its applications
COB 2 Understand the principle of buoyancy stability of a floating body
COB 3 Analyze the losses in various flow systems
COB 4 Estimate the impact of jets on various vane geometries
COB 5 Understand the concepts of hydraulic machines and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Fluid Statics Kinematics and Dynamics
CO 2 Calculate the meta centric height of a submerged body
CO 3 Analyze the concepts of Boundary Layer Theory and its applications
CO 4 Model the derived Quantities with Dimensional Analysis
CO 5 Solve the hydrodynamic force of jet on various vanes
CO 6 Compare different types of Turbines and Pumps characteristics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 1 - - - - - - - - -
CO2 (K3) 3 3 1 - - - - - - - - -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 2 2 1 - - - - - - - - -
CO6 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K4) PSO 2(K4) PSO 3(K6)
CO1 (K2) - 3 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - 3 -
CO5 (K3) - - -
UNIT-I
Fluid Statics Dimensions and units Physical properties of fluidsndashMass Density
Specific weight Specific volume Specific gravity Viscosity Surface tension Vapor
pressure and their influence on fluid motion Atmospheric pressure Gauge pressure and
vacuum pressure Measurement of pressure Piezometers U-tube and differential
manometers
Buoyancy and Flotation Meta center Stability of floating body Submerged bodies
Calculation of metacentric height Stability analysis and applications
UNIT-II
Fluid Kinematics Streamline Path line and streak lines and stream tubes
Classification of flows ideal fluid and real fluidndashsteady and unsteady flows Uniform
and non-uniform flows Laminar and turbulent flows Rotational and irrotational flows
Equation of continuity for one-dimensional flows
AR19 Mechanical Engineering
Aditya Engineering College (A) 64
Fluid Dynamics Various forces acting on a fluid element- Eulerrsquos and Bernoullirsquos
equation for flow along a stream line Momentum equation and its applications for pipe
bend problem
UNIT-III
Closed Conduit Flow Reynolds number Reynolds experimentndashDarcyndashWeisbach
equationndashMinor losses in pipes Pipes in series and pipes in parallel Total energy line
Hydraulic gradient line
Boundary Layer Theory Introduction Momentum Integral equation Displacement
Momentum and energy thickness and Introduction to Aerodynamic forces like Drag
and Lift
UNIT-IV
Impact of Jet on Vanes Hydrodynamic force on jets on stationary and moving flat
Inclined and curved vanes Jet striking centrally and at tip Velocity diagrams Work
done and efficiency Flow over radial vanes
Introduction to Hydraulic Machinery
Hydraulic Turbines Classification of turbinesndashImpulse and reaction turbines Pelton
wheel Working principle
UNIT-V
Francis turbine and Kaplan turbinendashWorking principles Draft tube theory Functions
Introduction to Performance of turbines
Centrifugal and Reciprocating Pumps Classification Working of centrifugal pump
Working of Reciprocating pumps Discharge through Centrifugal Pumps Comparison
between Centrifugal and Reciprocating pumps Introduction to Performance of pumps
Text Books
1 Fluid Mechanics and Hydraulic Machines RKBansal Laxmi Publications (P)
Ltd 9th Edition
2 Fluid Mechanics Frank MWhite Mcgraw-Hill series 7th edition
Reference Books
1 Hydraulics and Fluid mechanics including Hydraulics machines by PNModi amp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
2 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
3 Fluid Mechanics and Fluid Power Engineering DS Kumar Kotaria amp Sons
Revised Edition
4 Fluid Mechanics and Machinery D Rama Durgaiah New Age International
Revised Edition
Web Links
1 httpnptelacincourses1121051711
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 65
COMPUTER AIDED ENGINEERING DRAWING PRACTICE (Common to ME amp Min E)
III Semester L T P C
Course Code 191ME3T02 2 0 2 3
Course Educational Objectives
COB 1 To train the students to improve the graphical skills in design of mechanical
components
COB 2 To impart the knowledge of drawing machine components in
AUTOCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Draw the sectional view of the solids
CO 2 Develop the surfaces of solids like prism pyramid cone and cylinder
CO 3 Sketch the intersection of solids and Isometric Views
CO 4 Draw the isometric and orthographic projections of the machine parts
through AutoCAD
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - 3 - -
CO2 (K3) 3 - - - - - - - - 3 - -
CO3 (K3) 3 - - - 3 - - - - 3 - 3
CO4 (K3) 3 - - - 3 - - - - 3 - 3
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) - - 1
CO4 (K3) - - 1
UNIT-I
Sections of Solids Cylinder Cone Prism and Pyramid
Development of Surfaces Cylinder Cone Prism and Pyramid
UNIT-II
Intersection of Solids Cylinder Cone Prism and Pyramid
UNIT-III
Isometric Projections Conversion of orthographic views to isometric views
UNIT-IV
Computer Aided Drafting 2D wire frame modelling 3D wire frame modelling View
point coordinates and view(s) displayed Examples to exercise different options like
save Restore Delete Joint Single option
UNIT-V
Computer Aided Solid Modeling Isometric projections Orthographic projections
of isometric projections
AR19 Mechanical Engineering
Aditya Engineering College (A) 66
Modeling of simple solids Modeling of Machines amp Machine Parts
Text Books
1 Engineering Drawing ND Bhatt Charotar Publications 53rd Edition
2 Text book of Engineering Drawing with Auto-CAD K Venkata Reddy BS
Publications 4th Edition
Reference Books
1 Mastering Auto CAD 2013 and Auto CAD LT 2013 ndash George Omura Sybex
Publication
2 Auto CAD 2013 fundamentals- Elisemoss SDC Publication
3 Engineering Drawing and Graphics using AutoCAD T Jeyapoovan Vikas
Publication
4 Engineering Drawing Auto CAD K Venugopal V Prabhu Raja New Age
Publication
Web Links
1 httpnptelacincourses11210301935
2 httpnptelacincourses11210301933
3 httpwwwengineeringdrawingorgcategoryprojection_of_solids
4 httpwwwengineeringdrawingorgcategorysection_of_solids
AR19 Mechanical Engineering
Aditya Engineering College (A) 67
MECHANICS OF SOLIDS
III Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make the student calculate the various types of stresses and strains in a
body for various loading conditions
COB 2 To make the student draw the shear force and bending moment diagrams for
beams of various loading conditions
COB 3 To train the students calculate the bending and shear stresses across the
beams of various cross-sections
COB 4 To enable the student determine the slope and deflection of beam under
various loads
COB 5 To make the student solve the shear stress due to twisting and buckling load
in columns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the stresses and strains in bodies of varying cross-section
Composite bars
CO 2 Sketch the shear force and bending moment diagrams for beams of various
supports and loads
CO 3 Analyze the variation of bending and shear stresses across a beam cross-
section
CO 4 Calculate the slope and deflection for beams of various load and support
arrangements
CO 5 Compute the shear stresses due to application of twisting moment
CO 6 Evaluate the buckling loads for various columns
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 2 2 - - 1 - - 1 - 1
CO2 (K3) 3 2 1 - - - 1 - - 1 - 1
CO3 (K4) 3 3 2 2 - - 1 - - 1 - 1
CO4 (K3) 3 2 1 2 - - 1 - - 1 - 1
CO5 (K3) 3 2 1 2 - - 1 - - 1 - 1
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 1 -
CO2 (K3) 1 1 -
CO3 (K4) 1 1 -
CO4 (K3) 1 1 -
CO5 (K3) 1 1 -
UNIT-I
Simple Stresses amp Strains Elasticity and plasticity ndash Types of stresses amp strainsndash
Hookersquos law ndash stress ndash strain diagram for mild steel ndash Working stress ndash Factor of safety
ndash Lateral strain Poissonrsquos ratio amp Volumetric strain ndash Bars of varying section ndash
Composite bars ndash Temperature stresses- Relation between elastic constants- Strain
energy ndash Resilience ndash Gradual Sudden Impact and Shock loadings
AR19 Mechanical Engineering
Aditya Engineering College (A) 68
UNIT-II
Shear Force and Bending Moment Definition of beam ndash Types of beams ndash Concept
of shear force and Bending moment ndash SF and BM diagrams for Cantilever Simply
supported and Overhanging beams subjected to point loads Uniformly distributing
loads Uniformly varying loads Simple couples Eccentric loads and combination of
these loads ndash Point of contra flexure ndash Relation between SF BM and rate of loading
at a section of a beam
UNIT-III
Flexural Stresses Theory of simple bending ndash Assumptions ndash Bending equation-
Neutral axis ndash Bending stresses ndash Section modulus of rectangular and circular sections
(Solid and Hollow)-I-section T-section Angle and Channel section ndash Design of simple
beam sections
Shear Stresses Shear stress distribution across various beams sections-Rectangular
Circular Triangular I-section T-section Angle section
UNIT-IV
Deflection of Beams Bending into a circular arc ndash Slope Deflection and Radius of
curvature ndash Differential equation for the elastic line of a beam ndash Double integration and
Macaulayrsquos methods ndash Determination of slope and deflection for cantilever and simply
supported beams subjected to point loads ndash Uniformly distributing loads ndash Uniformly
varying loadndash Moment area method ndash Mohrrsquos theorems -Application to simple cases
including overhanging beams
UNIT-V
Torsion Introduction ndash Derivation ndash Torsion of Circular shafts ndash Pure Shear ndash
Transmission of power by circular shafts Shafts in series Shafts in parallel
Columns Buckling and Stability Columns with Pinned ends Columns with other
support conditions Limitations of Eulerrsquos Formula Rankinersquos Formula
Text Books
1 Mechanics of Materials B C Punmia Laxmi Publications
2 Strength of Materials GH Ryder 3rd Edition
Reference Books
1 Mechanics of Materials James M Gere Nelson Thornes Publication 6th
Edition
2 Mechanics of Materials E Russell Johnston and John T Dewolf Mc Graw Hills
3rd Edition
3 Strength of Materials Part-1 STimshenko CBS Publication 3rd Edition
4 Strength of Materials S Ramamrutham Dhanapat Rai Publications 16th Edition
Web Links
1 httpnptelacincourses112107147
2 httpwwwnptelacincoursesWebcoursecontentsIITROORKEEstrength20of
20materialshomepagehtm
3 httpswwwaccessengineeringlibrarycommapsstrength-of-materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 69
THERMODYNAMICS
III Semester L T P C
Course Code 191ME3T04 3 0 0 3
Course Objectives
COB 1 To impart the knowledge of basic concepts of thermodynamics
COB 2 To illustrate the concept of first law of thermodynamics and applications
COB 3 To illustrate the concept of second law of thermodynamics
COB 4 To facilitate the students to know the concepts of pure substance and their
properties
COB 5 To help the students learn the properties of gas mixtures and power cycles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain basic concepts properties of substances and Laws of
thermodynamics
CO 2 Analyze thermodynamic processes using laws of thermodynamics
CO 3 Analyze thermodynamic processes to calculate heat and work transfer
CO 4 Suggest solutions for thermodynamic cycles application
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 - - - - - - - - - -
CO2 (K4) 3 3 - - - - - - - - - 1
CO3 (K4) 3 2 1 1 - - - - - - - 1
CO4 (K4) 3 3 1 1 - - - - - - - 1
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K4) 1 2 -
CO3 (K4) 1 2 -
CO4 (K4) 1 2 -
UNIT-I
Basic Concepts of Thermodynamics Introduction system boundary surrounding
control volume universe types of system Macroscopic and Microscopic View Point
concept of Continuum control volume control space Thermodynamic Equilibrium
State property process cycle Reversibility Quasi static process irreversible process
causes of irreversibility energy in state and energy in transition types of work and heat
point and path function Zeroth law of Thermodynamics- Concept of temperature
principles of thermometry reference points constant volume gas thermometer Scales
of temperature ideal gas scale
First Law of Thermodynamics Joulersquos Experiment- First law of thermodynamics
PMM-I Corollaries- First law applied to a Process applied to a system Steady Flow
Energy Equation throttling and free expansion processes Energy Balance deviations
from perfect gas model Vander walls equation of state compressibility charts variable
specific heats gas tables
AR19 Mechanical Engineering
Aditya Engineering College (A) 70
UNIT-II
Second Law of Thermodynamics Limitations of first law of thermodynamics
thermal reservoir heat engine heat pump parameters of performance second law of
thermodynamics Kelvin Planck and Clausius statements and their equivalence
collieries PMM-II Carnot Principle Carnot cycle and its specialities Thermodynamic
scale of temperature Clausius inequality Entropy principle of entropy increase
energy equation availability and irreversibility thermodynamic potentials Gibbs and
Helmholtz functions Maxwell relations elementary treatment of the third law of
thermodynamics
UNIT-III
Properties of Pure Substances Pure substance P-V-T surfaces T-S amp h-s diagrams
Mollier chart phase transformations triple point at critical state properties during the
change of phase dryness fraction Clausius Clapeyron equation property tables
Various thermodynamic processes energy transfer steam calorimetry
UNIT-IV
Properties of Gas Mixtures Mixture of perfect gases mole fraction mass fraction
gravimetric amp volumetric analysis Daltonrsquos law of partial pressure Avogadrorsquos law of
additive volumes equivalent gas constant molecular internal energy enthalpy of
specific heats and entropy of mixture of perfect gasses vapour and atmospheric air
UNIT-V
Thermodynamic Cycles
Air Standard Cycles Carnot Cycle Otto Cycle Diesel amp Dual Cycle
Gas Power Cycles Sterling Cycle Atkinson Cycle Ericson Cycle Lenoir Cycle
Refrigeration Cycles Carnot cycle Bell Coleman cycle Vapor Refrigeration cycles-
Description and representation on PndashV and T-S diagram Thermal Efficiency Mean
Effective pressures on Air standard basis ndash Comparison of Cycles
Text Books
1 Engineering Thermodynamics PK Nag Tata McGraw Hill Publishers 5th
Edition
2 Heat Engineering VPVasandhani amp DS Kumar Metropolitan Book Depot
2011 Edition
Reference Books
1 Thermodynamics An Engineering Approach YA Cengel and MA Boles Tata
Mc-Graw Hill Publishers 7th Edition
2 Engineering Thermodynamics Mayhew and Rogers Longman Green amp Co Ltd
London ELBS 8th Edition
3 Fundamentals of Classical Thermodynamics (SI Version) Van Wylen GJ and
Sonntag RE 2nd Edition
Web Links
1 httpswwwnptelacincourses1121051231
2 httpswww3ndedu~powersame20231planckdoverpdf
3 httpswwweduinformercomengineering-thermodyna
AR19 Mechanical Engineering
Aditya Engineering College (A) 71
METALLURGY AND MATERIALS SCIENCE
III Semester L T P C
Course Code 191ME3T05 3 0 0 3
Course Objectives
COB 1 To make the students familiarize with the concepts of structure of metals and
mechanical behaviour of materials
COB 2 To make the students understand the basic knowledge in the constitution of
alloys and in different types of alloy systems
COB 3 To teach the basic concept of iron-iron carbide equilibrium diagram and heat
treatment of alloys
COB 4 To make the students comprehend the areas of non-ferrous metals and alloys
COB 5 To make the students understand the basic concepts in the area of ceramic
and composite materials
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concepts of structure of metals and mechanical behavior under
different loading conditions
CO 2 Apply the concepts of equilibrium diagrams to make use of various alloys in
various industrial applications
CO 3 Discuss the concept of solidification of alloys and the analyze phases of iron-
iron carbide equilibrium diagram
CO 4 Apply the processes of heat treatment on different types of Cast irons and
Steels
CO 5 Use the concepts of non-ferrous metals and alloys in industrial applications
CO 6 Summarize the properties and applications of ceramic and composite
materials
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 - - - - - - - - - - -
CO2 (K3) 2 - - - - 1 1 - - - - -
CO3 (K3) 2 - - - - - - - - - - -
CO4 (K3) 2 - - - - 2 2 - - - - -
CO5 (K3) 2 - - - - 1 1 - - - - -
CO6 (K3) 2 - - - - 1 1 - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
CO6(K3) 1 - -
UNIT-I
Structure of Metals Bonds in solids-metallic bond-crystal structure - BCC FCC HCP
Unit cells Packing factor Crystallization of metals Grains and grain boundaries Effect of
grain boundaries on properties of metals Crystal imperfections
Mechanical Behavior of Materials Elastic deformation Plastic deformation - Twinning
AR19 Mechanical Engineering
Aditya Engineering College (A) 72
Fracture
Constitution of alloys Necessity of alloying Types of solid solutions Hume Rothery
rules Intermediate alloy phases and Electron compounds
UNIT-II
Equilibrium Diagrams Phase rule Experimental method of construction of equilibrium
diagrams Isomorphous alloy systems Equilibrium cooling and heating of alloys Lever rule
Coring miscibility gaps Eutectic systems Congruent melting intermediate phases Peritectic
reaction Transformations in solid state ndash allotropy Eutectoid Peritectoid reactions
Relationship between equilibrium diagrams and properties of alloys Study of important
binary phase diagrams of Cu-Ni Al-Cu Bi-Cd Cu-An Cus-Sn and Fe-Fe3C
UNIT-III
Metallurgy of Iron and Steels Fe-Fe3C equilibrium diagram Micro constituents in steels
Classification of steels Structure and properties of plain carbon steels Heat treatment of
steels- Annealing Normalizing Hardening TTT diagrams Tempering Hardenability
Surface hardening methods Age hardening treatment Cryogenic treatment of alloys Effect
of alloying elements on Fe-Fe3C system Low alloy steels Stainless steels Hadfield
manganese steels Tool steels and Die steels Structure and properties of White cast iron
Malleable cast iron Grey cast iron and Spheroidal grey cast iron
UNIT-IV
Non-Ferrous Metals and Alloys
Structure and properties of Copper and its alloys Aluminum and its alloys and Titanium and its alloys
UNIT-V
Ceramic Materials Crystalline ceramics Glasses Cermets Abrasive materials Nano
materials - Definition Properties and Applications
Composite Materials Classification of Composites Particle reinforced materials Fiber
reinforced materials Metal ceramic mixtures Metal-matrix composite and C-C composites
Introduction to Powder metallurgy Preparation methods and Applications of Powder
metallurgy- Selection of materials for various industrial applications
Text Books
1 Introduction to Physical Metallurgy Sidney H Avner TMH Publications 2nd Edition
2 Materials Science and Metallurgy VD Kodgire Everest Publishing House 39th
Edition
Reference Books
1 Materials Science and Engineering An Introduction William DCallister Wiley
Publications 9th Edition
2 Elements of Materials Science VRaghavan Pearson Education 6th Edition
3 Engineering Materials amp Metallurgy RK Rajput S Chand Publications 2nd Edition
4 Essentials of Material Science Donald Askeland SI Edition 3rd Edition
Web Links
1 httpnptelacincourses113105021
2 wwwthemetalcastingcom
3 httpswwwtuenl
4 httpswwweurothermcommetallic-alloys
AR19 Mechanical Engineering
Aditya Engineering College (A) 73
FLUID MECHANICS AND HYDRAULIC MACHINERY LAB
III Semester L T P C
Course Code 191ME3L01 0 0 3 15
Course Objectives
COB 1 Apply Bernoullirsquos principle for practical pipe flow applications
COB 2 Distinguish performance of venture meter and orifice meters
COB 3 Choosing the Centrifugal and Reciprocating pumps based on application
COB 4 Understand the impact of water jets on various vane geometries
COB 5 Select the Impulse and Reaction turbines based on application
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the head losses causing decrease in energy of flow experimentally
and by the verification of Bernoullirsquos theorem
CO 2 Compare the flow meters for their better performing characteristics when
used in pipes of turbines etc
CO 3 Calculate the efficiencies of Centrifugal and Reciprocating pumps while
maintaining similar conditions
CO 4 Evaluate performance characteristic curves and efficiencies of different
hydraulic turbines
CO 5 Calculate the work done and efficiency of various vane shapes for turbine
applications
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - 2 - - - - 2 1 - 2
CO2 (K2) 2 2 - 2 - - - - 2 1 - 2
CO3 (K3) 3 2 - 2 - - - - 2 1 - 2
CO4 (K5) 3 2 - 2 - - - - 2 1 - 2
CO5 (K3) 3 2 - 2 - - - - 2 1 - 2
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K2) - 2 -
CO3 (K3) - 2 -
CO4 (K5) - 3 -
CO5 (K3) - 2 -
The following experiments are required to be conducted as compulsory
experiments
1 To determine the of major losses (friction factor) in pipes
2 To determine the minor losses in pipes
3 To determine the of co-efficient of discharge of a Venturi meter
4 To determine the of co-efficient of discharge of an Orifice meter
5 To determine the Discharge and efficiency of a Centrifugal pump
6 To determine the Discharge and efficiency of a Reciprocating pump
7 To determine the Head Discharge and efficiency of a Pelton wheel
8 To determine the Head Discharge and efficiency of a Francis turbine
AR19 Mechanical Engineering
Aditya Engineering College (A) 74
9 To determine the Head Discharge and efficiency of a Kaplan turbine
10 To determine the velocity of flow at any point in a pipe using Pitot tube
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 To verify the Bernoullirsquos theorem using experimental setup
12 To find the Laminar and Turbulent flow types using Reynoldsrsquos Experiment
13 To determine the co-efficient of discharge of a Rotameter
14 To determine the co-efficient of the discharge of a water meter
Reference Books
1 Hydraulic Machines by Banga amp Sharma Khanna Publishers6th Edition
2 Hydraulics and Fluid mechanics including Hydraulics machines by
3 PNModi amp SMSeth Rajsons publications pvt ltd Standard Book House
(2017 edition)
4 Fluid Mechanics and Hydraulic Machines RK Rajput SChand
Web Links
1 httpwwwscience-animationscomfluidmechanicshtml
2 httpsiitbmechdampwordpress
AR19 Mechanical Engineering
Aditya Engineering College (A) 75
MECHANICS OF SOLIDS AND METALLURGY LAB
III Semester L T P C
Course Code 191ME3L02 0 0 3 15
Course Objectives
COB 1 To impart the practical knowledge on testing of material mechanical
behavior under various direct loads
COB 2 To make the students to test the mechanical behavior of spring and cube
under load
COB 3 To impart the practical knowledge on testing of material under various
indirect loads
COB 4 To make the students to study of the Micro Structure of pure metals and
alloys
COB 5 To aware the students to calculate the hardness of various treated and
untreated steels
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the material mechanical behavior under various direct loads
CO 2 Calculate the mechanical strength of spring and cube
CO 3 Demonstrate the materials mechanical behavior under various indirect loads
CO 4 Analyze the Structure of pure metals and alloys
CO 5 Estimate the hardness of various treated and untreated steels
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - 3 - 2 2 - -
CO2(K3) 3 2 - - - - 3 - 2 2 - -
CO3(K2) 2 1 - - - - 3 - 2 2 - -
CO4(K4) 3 3 - - - - 3 - 2 2 - -
CO5(K2) 2 1 - - - - 3 - 2 2 - -
Mapping of course outcomes with program Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1(K2) 1 2 -
CO2(K3) 1 2 -
CO3(K2) 1 2 -
CO4(K4) - 2 1
CO5(K2) - 2 1
The following experiments are required to be conducted as compulsory
experiments
Section A Mechanics of Solids
1 To conduct direct tension test on mild steel bar
2 To conduct bending test on Simply supported beam amp Cantilever beam
3 To determine Modulus of rigidity of given specimen by conducting Torsion
4 To determine hardness value for the given metal specimen using
(a) Brinell hardness tester (b) Rockwell hardness tester
5 To conduct compression and tension test on springs
6 To determine the compression strength on cube by UTM
AR19 Mechanical Engineering
Aditya Engineering College (A) 76
The following experiments are required to be conducted as compulsory
experiments
Section B Metallurgy amp Material Science
7 To Analyze the Micro Structure of pure metals like Iron Cu and Al
8 To Analyze the Microstructure of Mild steels low carbon steels high carbon
steels
9 To Analyze the Micro Structures of Cast Irons
10 To Analyze the Micro Structures of Non-Ferrous alloys
11 To Analyze the Micro structures of Heat treated steels
12 To determine the hardenability of steels by Jominy End Quench Test
List of Augmented Experiments - Mechanics of Solids
(Any one of the following experiments can be performed)
13 To conduct Impact test by (a) Izod test (b) Charpy test
14 To find shear strength on given specimen by Punch shear test
15 To determine the maximum shear stress induced in circular beam
List of Augmented Experiments - Metallurgy amp Material Science
(Any one of the following experiments can be performed)
16 To find out the hardness of various treated and untreated steels
17 To study the microstructure of high speed steels
18 To find the increase in hardness values for the given steel alloys (EN8) specimen
by (oil quenching) medium hardening method
Reference Books
1 A laboratory manual of Metals and Alloys S M Ashram Sharif Ahmed Volume
2 Strength of Materials RKRajput SChand Publications 4th edition
3 Introduction to Physical Metallurgy Sidney H Avener TMH 2nd edition
Web Links
1 httpwwwmlrinstitutionsacinsitesdefaultfileslab1cb1938e0e081ecdd712d1c
8778bd2fc 1- MMS-labpdf
2 httpwwwiitkacinmseoldmse_newfacilitieslaboratoriesMaterial_Testing_
LabMSE313Apdf
3 httpwebmiteduemechdontindex-build
AR19 Mechanical Engineering
Aditya Engineering College (A) 77
EMPLOYABILITY SKILLS-I (Common to all branches)
III Semester L T P C
Course Code 191MC3A03 0 0 2 0
Course Objectives
COB 1 To provide necessary training to impart employability skills
COB 2 To Prepare Students for Campus Placements
COB 3 To Improve Confidence Decision Making in Career planning
COB 4 To Achieve Life Goals with Proper Time Management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the number and letter series techniques in different models
CO 2 Differentiate Career Objectives ampGoals
CO 3 Compare the different types of number and letter analogy models
CO 4 Transfer the different models of coded elements to decoded elements
CO 5 Illustrate Out Of Box thinking in Students
CO 6 Solve LCM amp HCF Simple Equations by using simple logics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
UNIT-I
Aptitude Number series
Soft Skills Attitude SWOT analysis self-confidence self esteem
UNIT-II
Aptitude Number Analogy
Soft Skills Decision Making Situation Reaction Test
UNIT-III
Aptitude Letter series Letter Analogy Coding amp Decoding
Soft Skills Verbal Aptitude-I synonyms Antonyms Spotting of errors
AR19 Mechanical Engineering
Aditya Engineering College (A) 78
UNIT-IV
Aptitude Divisibility Rules LCMampHCF
Soft Skills Creativity Out of box thinking lateral thinking
UNIT-V
Aptitude Simple Equations
Soft Skills Goal setting Smart goals Time Management
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 79
ESSENCE OF INDIAN TRADITIONAL KNOWLEDGE (Common to all branches)
III Semester L T P C
Course Code 191MC3A04 2 0 0 0
Course Objectives
COB 1 To facilitate the students with the concepts of Indian traditional knowledge
and to make them understand the Importance of roots of knowledge system
COB 2 To make the students understand the traditional knowledge and analyse it
and apply it to their day to day life
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the concept of Traditional knowledge and its importance
CO 2 Explain the need and importance of protecting traditional knowledge
CO 3 Illustrate the various enactments related to the protection of traditional
knowledge
CO 4 Interpret the concepts of Intellectual property to protect the traditional
knowledge
CO 5 Explain the importance of Traditional knowledge in Agriculture and
Medicine
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K3) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K3) - - - - - - - - - - - -
CO 5 (K3) - - - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Introduction to traditional knowledge Define traditional knowledge nature and
characteristics scope and importance kinds of traditional knowledge Indigenous
Knowledge (IK) characteristics traditional knowledge vis-agrave-vis indigenous
knowledge traditional knowledge Vs western knowledge traditional knowledge
UNIT-II
Protection of traditional knowledge The need for protecting traditional knowledge
Significance of TK Protection value of TK in global economy Role of Government
to harness TK
AR19 Mechanical Engineering
Aditya Engineering College (A) 80
UNIT-III
Legal framework and TK
The Scheduled Tribes and Other Traditional Forest Dwellers (Recognition of Forest
Rights) Act 2006 Plant Varieties Protection and Farmers Rights Act 2001 (PPVFR
Act) The Biological Diversity Act 2002 and Rules 2004 the protection of traditional
knowledge bill 2016
UNIT-IV
Traditional knowledge and intellectual property Systems of traditional knowledge
protection Legal concepts for the protection of traditional knowledge Patents and
traditional knowledge Strategies to increase protection of traditional knowledge
UNIT-V
Traditional knowledge in different sectors Traditional knowledge and engineering
Traditional medicine system TK in agriculture Traditional societies depend on it for
their food and healthcare needs Importance of conservation and sustainable
development of environment Management of biodiversity Food security of the
country and protection of TK
Text Books
1 Traditional Knowledge System in India by Amit Jha 2009
2 Traditional Knowledge System and Technology in India by Basanta Kumar
Reference Books
1 Traditional Knowledge System in India by Amit Jha Atlantic publishers 2002
2 Knowledge Traditions and Practices of India Kapil Kapoor1 Michel Danino2
Web Links
1 httpswwwyoutubecomwatchv=LZP1StpYEPM
2 httpnptelacincourses121106003
AR19 Mechanical Engineering
Aditya Engineering College (A) 81
NUMERICAL METHODS amp STATISTICAL TECHNIQUES (Common to CE ME amp AgE)
IV Semester L T P C
Course Code 191BS4T16 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
those are essential for an engineering course
COB 2 To familiarize the students with the foundations of probability and statistical
methods and solve application problems in their disciplines
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply numerical methods to solve equations and interpolation of polynomials
CO 2 Apply numerical methods to solve initial value problems and problems
involving integration
CO 3 Apply discrete and continuous probability distributions
CO 4 Compute the components of a classical hypothesis test
CO 5 Apply the statistical inferential methods based on small and large sampling
tests
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Solution of Algebraic and Transcendental Equations
Introduction Bisection method Secant method Method of false position Iteration
method Newton - Raphson method
Interpolation
Introduction to Interpolation Finite differences Forward differences Backward
differences Central difference Relation between operators Newtonrsquos formula for
interpolation Lagrangersquos interpolation Newtonrsquos divided difference interpolation
UNIT-II
Numerical Integration and solution of Ordinary Differential Equations
Trapezoidal rule Simpsonrsquos 13rd and 38th rule Solution of ordinary differential
equations by Taylorrsquos series Picardrsquos method of successive Eulerrsquos method Modified
Eulerrsquos method Runge-Kutta method (fourth order)
AR19 Mechanical Engineering
Aditya Engineering College (A) 82
UNIT-III
Probability and Distributions
Review of probability and Bayersquos theorem ndash Random variables ndash Discrete and
Continuous random variables ndash Distribution function ndash Mathematical Expectation and
Variance ndash Binomial Poisson Uniform and Normal distributions
UNIT - IV
Sampling Theory
Introduction ndash Population and samples ndash Sampling distribution of Means and Variance
(definition only) ndash Central limit theorem (without proof) ndash Introduction to t 2 and F-
distributions ndash Point and Interval estimations ndash Maximum error of estimate
UNIT- V
Tests of Hypothesis
Introduction ndash Hypothesis ndash Null and Alternative Hypothesis ndash Type I and Type II
errors ndash Level of significance ndash One tail and two-tail tests ndash Tests concerning one mean
and two means (Large and Small samples) ndash Tests on proportions
Text Books
1 Advanced Engineering Mathematics R K Jain S R K Iyengar 4th Edition
Alpha Science Publications
2 Miller and Freundrsquos Probability and Statistics for Engineers 7e Pearson 2008
3 Higher Engineering Mathematics B S Grewal 43rdEdition Khanna Publishers
Reference Books
1 M K Jain S R K Iyengar and R K Jain Numerical Methods for Scientific
and engineering Computations New age International Publication (P) Ltd
2 S C Gupta and V K Kapoor Fundamentals of Mathematical Statistics 11e
Sultan Chandamp Sons Publications 2012
3 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
4 Sheldon M Ross Introduction to probability and statistics Engineers and the
Scientists 4th Edition Academic Foundation 2011
Web Links
1 httpsnptelacincourses111107111107105
2 httpsnptelacincourses111105111105041
3 httpsnptelacincourses111105111105090
4 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 83
MANAGERIAL ECONOMICS AND FINANCIAL ANALYSIS (Common To CE EEE ME ECE CSE IT AgE amp PT)
IV Semester L T P C
Course Code 191HS4T04 3 0 0 3
Course Objectives
COB 1 To equip the students with the basic inputs of managerial economics and
demand concepts
COB 2 To understand the nature of markets Methods of Pricing in the different
market structures and to know the different forms of Business organization
and the concept of Business Cycles
COB 3 To impart the knowledge on production theories its factors and cost
analysis
COB 4 To make the students take optimal decisions and acquiring the knowledge
on financial accounting and its analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Managerial Economic concepts for decision making and forward
planning
CO 2 Illustrate the law of demand and its exceptions by using different forecasting
methods
CO 3 Identify the cost behavior for managerial decision making and Break Even
Point (BEP) of an enterprise
CO 4 Classify the different types of business organizations along with basic
knowledge on business cycle
CO 5 Make use of the process amp principles of accounting for the preparation of
final accounts
CO 6 Utilize various techniques on investment project proposals with the help of
capital budgeting techniques for decision making
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) - - - - - - - - - - - -
CO 2(K2) 1 1 - - - - - - - 1 - -
CO 3(K3) - - - - - - - - - - 1 -
CO 4(K2) 1 1 - - - - - - - - 1 -
CO 5(K3) 1 1 - - - - - 2 - 1 - -
CO 6(K3) 1 1 - - - - - - - - 1 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K2) - - -
CO 2(K2) - - -
CO 3(K3) - - -
CO 4(K2) - - -
CO 5(K3) - - -
CO 6(K3) - - -
UNIT-I
Introduction to Managerial Economics and demand Analysis
Definition of Managerial Economics ndashScope of Managerial Economics and its
relationship with other subjects ndashConcept of Demand Types of Demand Determinants
of Demand- Demand schedule Demand curve Law of Demand and its limitations-
AR19 Mechanical Engineering
Aditya Engineering College (A) 84
Elasticity of Demand Types and Measurement-Demand forecasting and its Methods
UNIT-II
Production and Cost Analyses
Concept of Production function- Cobb-Douglas Production function ndash Law of Variable
proportions-Isoquants and Isocosts and choice of least cost factor combination-Concepts
of Returns to scale and Economies of scale-Different cost concepts opportunity costs
explicit and implicit costs- Fixed costs Variable Costs and Total costs ndash Cost ndashVolume-
Profit analysis-Determination of Breakeven point(simple problems)- Managerial
significance and limitations of Breakeven point
UNIT-III
Introduction to Markets Pricing Policies amp Types of Business Organization and
Business Cycles
Market Structures Perfect Competition Monopoly Monopolistic competition and
Oligopoly ndash Features ndash Price and Output Determination ndash Methods of Pricing Average
cost pricing Limit Pricing Market Skimming Pricing and Internet Pricing Flat Rate
Pricing Usage sensitive pricing and Priority Pricing Features and Evaluation of Sole
Trader Partnership Joint Stock Company ndash Business Cycles Phases of Business Cycles
UNIT-IV
Introduction to Accounting amp Financing Analysis
Introduction to Double Entry Systems ndash Journal entries ndash Ledger ndash Trail Balance ndash
Trading and Profit and Loss Account - Preparation of Financial Statements - Introduction
to Ratio Analysis
UNIT-V
Capital and Capital Budgeting Capital Budgeting Meaning of Capital- Capitalization-
Meaning of Capital Budgeting-Time value of money- Methods of appraising Project
profitability Traditional Methods(pay back period accounting rate of return) and modern
methods(Discounted cash flow method Net Present Value method Internal Rate of
Return Method and Profitability Index)
Text Books
1 Dr A R Aryasri ndash Managerial Economics and Financial Analysis TMH 2011
2 Dr N Appa Rao Dr P Vijay Kumar lsquoManagerial Economics and Financial
Analysisrsquo Cengage Publications New Delhi ndash 2011
3 Prof JVPrabhakara rao Prof P Venkatarao lsquoManagerial Economics and Financial
Analysisrsquo Ravindra Publication
Reference Books
1 V Maheswari Managerial Economics Sultan Chand
2 Suma Damodaran Managerial Economics Oxford 2011
3 Dr B Kuberudu and Dr T V Ramana Managerial Economics amp Financial
Analysis Himalaya Publishing House 2011
4 Vanitha Agarwal Managerial Economics Pearson Publications 2011
5 Sanjay Dhameja Financial Accounting for Managers Pearson
6 Maheswari Financial Accounting Vikas Publications
7 S A Siddiqui amp A S Siddiqui Managerial Economics and Financial Analysis
New Age International Publishers 2012
Web Links
1 wwwmanagementstudyguidecom
2 wwwtutorialspointcom
AR19 Mechanical Engineering
Aditya Engineering College (A) 85
INTERNET OF THINGS
IV Semester L T P C
Course Code 191ES4T15 3 0 0 3
Course Objectives
COB 1 To present interconnection and integration of the physical world and the cyber
space
COB 2 To demonstrate applications of Internet of Things
COB 3 To educate building blocks and characteristics of Internet of Things
COB 4 To introduce communication protocols used in Internet of Things
COB 5 To impart knowledge on design amp develop IoT devices
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the application areas of IoT
CO 2 Illustrate revolution of Internet in Mobile Devices Cloud amp Sensor Networks
CO 3 Explain communication protocols used in IoT
CO 4 Make use of Raspberry PI programming to implement Internet of Things
through Arduino
CO 5 Apply the principles of IoT in real world scenario
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 3 - - - - - - - - - -
CO2 (K3) 2 2 2 - - - - - - - - -
CO3 (K4) 3 2 2 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K3) 3 1 3 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to IoT
Internet of Things - Physical Design- Logical Design- IoT Enabling Technologies - IoT
Levels amp Deployment Templates - Domain Specific IoTs - IoT and M2M - IoT System
Management with NETCONF-YANG- IoT Platforms Design Methodology
UNIT-II
IoT Architecture
M2M high-level ETSI architecture - IETF architecture for IoT - OGC architecture - IoT
reference model - Domain model - information model - functional model - communication
model - IoT reference architecture
AR19 Mechanical Engineering
Aditya Engineering College (A) 86
UNIT-III
IoT Protocols
Protocol Standardization for IoT ndash Efforts ndash M2M and WSN Protocols ndash SCADA and RFID
Protocols ndash Unified Data Standards ndash Protocols ndash IEEE 802154 ndash BACNet Protocol ndash
Modbusndash Zigbee Architecture ndash Network layer ndash 6LowPAN - CoAP ndash Security
UNIT-IV
Building IoT with Raspberry PI amp Arduino
Building IOT with RASPERRY PI- IoT Systems - Logical Design using Python ndash IoT
Physical Devices amp Endpoints - IoT Device -Building blocks -Raspberry Pi -Board - Linux
on Raspberry Pi - Raspberry Pi Interfaces -Programming Raspberry Pi with Python - Other
IoT Platforms - Arduino
UNIT-V
Case Studies And Real-World Applications
Biometric Car Door opening system Accident monitoring system Engine oil and Coolant
level monitoring system Fleet and Driver Management system Smart road communication
system Road Vehicle communication at hilly areas real time car telematics tracking system
Text Books
1 Rajesh Singh Anita Gehlot etal - Internet of Things in Automotive Industries and
Road Safety Electronic Circuits program Coding and Cloud Servers River
publishers ISBN- 978-87-7022-010-1
2 Arshdeep Bahga Vijay Madisetti ―Internet of Things ndash A hands-on approach
Universities Press 2015
Reference Books
1 Dieter Uckelmann Mark Harrison Michahelles Florian (Eds) ―Architecting the
Internet of Things Springer 2011
2 Honbo Zhou ―The Internet of Things in the Cloud A Middleware Perspective
CRC Press 2012
3 Olivier Hersent David Boswarthick Omar Elloumi ―The Internet of Things ndash Key
applications and Protocols Wiley 2012
Web Links
1 httpsonlinecoursesnptelacinnoc18_cs46preview
2 httpsswayamgovincoursespublickeyword=Introduction20to20internet20
of20things
3 httpsswayamgovincoursespublickeyword=Design20for20internet20of
20things
4 httpswwwcourseraorgspecializationsiot
AR19 Mechanical Engineering
Aditya Engineering College (A) 87
PRODUCTION TECHNOLOGY
IV Semester L T P C
Course Code 191ME4T06 3 0 0 3
Course Objectives
COB 1 To make the students to understand the fundamentals of casting and their
application
COB 2 To impart the knowledge of special types of casting processes solidification of
metals and different casting defects
COB 3 To perceive the students various types of welding processes and welding defects
COB 4 To introduce the fundamentals of various sheet metal forming techniques and
plastic processing techniques
COB 5 To enable the students to acquire the types of bulk forming processes rolling and
various extrusion methods
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basics of casting and its applications
CO 2 Demonstrate various special casting processes
CO 3 Distinguish between the different joining techniques
CO 4 Explain the basics of sheet metal forming and plastics processing techniques
CO 5 Summarize the bulk metal deforming process
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 - - - - - - - 2 2 - -
CO2 (K3) 2 - - - - - - - 2 - - -
CO3 (K4) 2 - - - - - - - - - - -
CO4 (K3) - - - - - - - - - - - -
CO5 (K3) 1 - - - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 3 - -
CO3 (K4) 3 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction
Engineering materials and its properties and classification of various manufacturing
processes
Casting Introduction to casting Requirements of casting Steps involved in making a
casting Advantage of casting and its applications
Patterns Types of patterns Materials used for patterns
Allowances All Pattern allowances and their construction
Gating Principles of Gating Gating ratio and design of gating systems
Runner amp Risers Types function and design of riser Cleaning of castings
AR19 Mechanical Engineering
Aditya Engineering College (A) 88
UNIT-II
Special Casting Techniques
Molding sand Preparation and Composition Sand property test Casting shakeout Core
Types of core Core print Chaplets Chills and Exothermic materials applications in sand
casting Metal fluidity
Furnace Crucible furnace Cupola Induction furnace Reverberatory furnace Open
hearth Arc furnace
Casting design considerations
Solidification of casting Concept of Solidification of metal and Alloys Problems on
solidification time
Special casting processes Centrifugal casting Die casting and Investment casting Shell
molding
Casting defects Causes and remedies
UNIT-III
Metal Joining Methods
Introduction to welding process Classification of welding processes Types of welded
joints and their characteristics
Gas welding Different types of flames Oxy-acetylene welding and Cutting
Arc welding Basic principles of Arc welding V-I Characteristic curves of power source
Problems on V-I Characteristic Duty cycle MMAW SAW TIG MIG
Solid state welding processes Friction welding Friction stir welding Forge welding
Explosive welding Thermit welding PAW Laser beam welding EBW Soldering amp
Brazing Resistance welding and its types Heat affected zone (HAZ)
Welding defects ndash Causes and Remedies
Testing Destructive and Non-destructive of welds
UNIT-IV
Sheet Metal Forming amp Plastic Processing Techniques
Introduction Role of sheet components Shearing mechanism Various press working
operations Presses for sheet metal working and press tools Die and Punch Different type
of dies Blanking and Piercing Forces and Load estimation in forming Deep drawing
Stretch forming Bending Coining Spinning Spring back and its remedies
High energy rate forming process Principles of explosive forming Electromagnetic
forming Electro hydraulic forming and Rubber pad forming Advantage and Limitations
Plastic Processing Types of Plastics Properties Applications and their processing
methods Blow molding and Injection molding
UNIT-V
Bulk Metal Deforming Processes
Introduction to bulk deforming process Plastic deformation Yield and flow criteria
Machine and equipmentrsquos for the metal deforming processes Parameters and force
calculations for different processes
Classification of metal deforming processes Swaging Forging and itrsquos all types
Forging defects
Rolling Fundamentals and Types of rolling mills and Products
Extrusion Basics and its characteristics Types of extrusion Impact extrusion
Hydrostatic extrusion Wire drawing and Tube drawing
AR19 Mechanical Engineering
Aditya Engineering College (A) 89
Text Books
1 Manufacturing Technology Volume I PN Rao TMH Publications 6th Edition
2 Hajra Choudhry Elements of Workshop Technology Vol ndash II Media Promoters amp
Publishers 1994
Reference Books
1 Manufacturing Processes for Engineering Materials Kalpakjian S amp Steven R
Schmid Pearson Publication 5th Edition
2 Manufacturing Science AGhosh amp AK Mallik East West Press Pvt Ltd
Publication 3rd Edition
3 Process and materials of manufacture Lindberg PHI Publications 4th Edition
4 Advance Welding Processes RSParmar Khanna Publishers
Web Links
1 httpnptelacincourses112107144
2 httpstudycomarticlesOnline_Welding_Classes_and_Training_Programs
3 httpnptelacincourses112107089
4 httpnptelacincoursephp
AR19 Mechanical Engineering
Aditya Engineering College (A) 90
KINEMATICS OF MACHINERY
IV Semester L T P C
Course Code 191ME4T07 3 0 0 3
Course Objectives
COB 1 To understand the kinematics and rigid-body dynamics of kinematically
driven machine components
COB 2 To understand the motion of linked mechanisms in terms of the displacement
velocity and acceleration at any point in a rigid link
COB 3 To be able to design some linkage mechanisms and cam systems to generate
specified output motion
COB 4 To understand the kinematics of gear trains
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the inversions and applications of a kinematic chain
CO 2 Construct the velocity and acceleration diagrams using Relative velocity
method and Instantaneous centre method
CO 3 Construct displacement diagram and profile of Cam with different types of
follower motions
CO 4 Calculate the velocities of different components of a gear train
CO 5 Explain how real time machines work and operate
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 1 1 - - - - - - - -
CO2 (K3) 2 2 1 1 - - - - - - - 1
CO3 (K4) 2 2 2 1 - - 1 - - - - 1
CO4 (K3) 3 2 2 1 - - 1 - - - - 1
CO5 (K3) 2 2 2 1 - - 1 - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Classification of mechanisms- Basic kinematic concepts and definitions- Degree of
freedom mobility- Grashofrsquos law Kinematic inversions of four bar chain and slider
crank chains-Limit positions- Mechanical advantage- Transmission angle- Description
of some common mechanisms- Quick return mechanism straight line generators-
Universal Joint- Rocker mechanisms
UNIT-II
Kinematics Plane motion of body Instantaneous centre of rotation centrode and axode
- relative motion between two bodies ndash Kennedyrsquos three centres in line theorem ndash
Graphical determination of instantaneous centre for simple bar four bar and single slider
AR19 Mechanical Engineering
Aditya Engineering College (A) 91
crank chain mechanisms and determination of angular velocity of points and links
Motion of a link in machine - Determination of Displacement velocity and acceleration
for a Simple Four Bar Mechanism Single slider crank chain mechanism Double slider
crank chain mechanism (Whitworth Quick Return Motion mechanisms)
UNIT-III
CAMS Definition and classification of cams and followers - their uses - Terminology
- Types of follower motion Uniform velocity Simple harmonic motion and uniform
acceleration and retardation Cycloidal motion for Knife edge Flat face and Roller
follower and offset follower
UNIT-IV
Power Transmission Introduction ndashModes of power transmission applications
Gears and Gear trains Classification Terminology Law of Gearing path of contact
arc of contact Interferences methods of avoiding interferences Simple gear train
compound gear train reverted gear train epicyclical gear train and Differential
UNIT-V
Practical Applications Design and fabrication of any one of the following
mechanisms Whitworth Quick Return Mechanism Oscillating Cylinder Mechanism
Elliptical Trammel ManualMotorized Scotch Yoke Mechanism Piston Bench Tapping
Machine Mini Conveyor using Geneva Mechanism Mini Hacksaw Powered by Beam
Engine
Text Books
1 Theory of Machines Thomas Bevan 3rd edition CBS Publishers amp Distributors
2005
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East-
West Press
Reference Books
1 Cleghorn WL Mechanisms of Machines Oxford University Press 2005
2 Robert L Norton Kinematics and Dynamics of Machinery Tata McGrawHill
2009
3 Ghosh A and Mallick AK Theory of Mechanisms and Machines Affiliated East
West Pvt Ltd New Delhi 1988
4 Kinematics of Machinery through Hyper Works JS Rao Springer Publ
5 Theory of Machines by Jagadishlal-Metropolitan Book Co
6 Theory of Machines by RS Khurmi and J K Gupta ndash S Chand Publishers
AR19 Mechanical Engineering
Aditya Engineering College (A) 92
THERMAL ENGINEERING-I
IV Semester L T P C
Course Code 191ME4T08 3 0 0 3
Course Objectives
COB 1 To impart the knowledge and providing holistic view on IC Engines and its
developments
COB 2 To enable the students to calculate the performance and testing of IC engines
COB 3 To fetch with SI amp CI fueling system and combustion behaviour and its
advancements to meet the stringent emission norms
COB 4 Understanding the formation and control strategies of SI and CI Engine
emissions
Course Outcomes
At the end of the Course Student will be able to
CO 1 Differentiate the ideal air standard cycles and actual thermodynamic cycles
CO 2 Evaluate the Engine performance based on the experimental data
CO 3 Analyze the fueling system and combustion behaviour of SI engine
CO 4 Analyze the fueling system and combustion behaviour of CI engine
CO 5 Explain the formation of emissions and its control strategies of bot SI amp CI
Engines
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K4) 3 3 2 2 3 3 - - - 3 3 -
CO3 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO4 (K2) 2 1 - - 2 2 - - - 3 2 -
CO5 (K3) 3 2 1 1 3 3 - - - 3 3 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) - - -
CO3 (K3) 3 - -
CO4 (K2) 2 - -
CO5 (K3) - - -
UNIT-I
Actual Cycles and Engine Construction Introduction Comparison of Air Standard
and Actual Cycles Time Loss Factor Heat Loss Factor Exhaust Blow down-Loss due
to Gas exchange process Volumetric Efficiency Loss due to Rubbing Friction Actual
and Fuel-Air Cycles of CI Engines Constructional Details of Four Stroke SI and CI
Engines Working Principle Actual Indicator Diagram Two Stroke Engine
Construction and Operation Comparison of Four Stroke and Two Stroke Engine
Operation Firing Order and Its Significance UNIT-II
ENGINE TESTING amp PERFORMANCE
Engine Performance Testing amp Numerical- methods and Performance
Characteristics
AR19 Mechanical Engineering
Aditya Engineering College (A) 93
Testing and measurement equipment- dynamometers Air amp Fuel consumption
temperature etc Variables Affecting Engine Performance Performance Maps
Lubrication and Cooling systems Introduction to Supercharging and Turbocharging
UNIT-III
SI ENGINE FUELING amp COMBUSTION
Carburetor Working Principle Requirements of an Automotive Carburetor and types
Fuel Injection Systems Pre-mixed charge combustion SI Engine Combustion
Conceptual models Thermodynamic Analysis of Combustion Cycle-to-Cycle
Combustion variations and Knocking Combustion
UNIT-IV
CI ENGINE FUELING amp COMBUSTION
Fuel Injection and Spray Structure Fuel Atomization and Droplet size distribution Sauter
Mean Diameter Spray Penetration CI Engine Combustion Conceptual Models
Conventional and Decrsquos Combustion Models Diesel Combustion Process
Characterization Ignition Delay Effect of Engine and Operational Parameters on Delay
Pre-mixed Combustion Mixing Controlled Combustion Thermodynamic Analysis
Multi Pulse Injections Introduction to Low Temperature Combustion Like
Homogeneous Charge Compression Ignition(HCCI) Fuel Stratified Charge combustion
Reactivity Controlled Compression Ignition (RCCI) Technologies Pre-mixed Charge
Compression (PCCI) and Dual fuel technologies
UNIT-V FORMATION OF ENGINE EMISSIONS amp CONTROL TECHNOLOGIES (SI amp CI)
Emission Effects on Health amp Environment Sources of Engine emissions Formation of
CO NO UBHC Soot and Particulate Matter Diesel NOx-Particulate Trade off Effect
of SI Design and operating variables Effect of Diesel Engine Design and operating
Variables SI Engine Emission Control Technology Add-on systems for treatment of
Emissions with in Engine Exhaust After treatment CI Engine Emission Control
Technology Application of EGR Exhaust after treatment and new engine technologies
for emission control
Text Books
1 IC Engines ML Mathur amp RP Sharma Dhanpath Rai amp Sons
2 Engine Emissions Pollutant Formation and Advances in Control Technology BP
Pundir Narosa Publishing House
Reference Books
1 IC Engines Fundamentals John B Heywood Mc Graw Hill Publications
2 Engineering Fundamentals of I C Engines Wiliard WPulkrabek Prentice Hall
Publications
3 Mixture Formation in Internal Combustion Engines Carsten Baumgaten Springer
Pub
4 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
Web Links
1 httpnptelacincourses112105123
2 httpnptelacincourses112108148
3 httpnptelacincourses112104113
4 httpnptelacincourses112104033
AR19 Mechanical Engineering
Aditya Engineering College (A) 94
PRODUCTION TECHNOLOGY LAB
IV Semester L T P C
Course Code 191ME4L03 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To impart knowledge of metal forming processes
COB 4 To develop the knowledge for plastics processing techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate mould making process for casting process and sand preparation
methods
CO 2 Identify basic knowledge of casting defects and their remedies
CO 3 Differentiate between various gas welding arc welding processes and Solid
state welding process
CO 4 Apply the principles of sheet-metal forming process for making a
component
CO 5 Produce the plastic object through different plastic processing techniques
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - 3 - -
CO2 (K3) 2 1 - - - 2 - - - - - -
CO3 (K4) 2 1 - - - - - - 3 3 2 -
CO4 (K5) 3 2 - - - - - - - 3 3 -
CO5 (K3) 3 2 - - - - - - - 3 3 -
Mapping of course outcomes with program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 2 1 -
CO3 (K4) 2 1 2
CO4 (K5) 3 2 -
CO5 (K3) 3 - 3
The following experiments are required to be conducted as compulsory experiments
Casting
1 To design and manufacture a Wooden Pattern for a given Casting
2 To prepare a Casting for the given Solid Pattern using Green Sand Molding
Processes
3 To Prepare a Aluminium Casting for the given Split Pattern using Green Sand
Molding Processes
Welding
4 To prepare a V Butt amp Lap Joint using Arc Welding Process
5 To prepare a lap Joint on the given work pieces using spot welding equipment
6 To prepare a V Butt Joint Using TIG Welding
7 To prepare a corner Joint amp T Joint using Arc Welding Process
AR19 Mechanical Engineering
Aditya Engineering College (A) 95
Sheet metal experiment
8 To perform the punching and blanking operation
9 To prepare a work piece using Compound die
Bulk deformation
10 To perform Bending Operation on a given pipe
Plastic Processing technique
11 To make an Air Tight Bottle Cap amp Screw type Bottle Cap by Using Injection
Moulding
12 To prepare a plastic bottle by using Blow Moulding
LIST OF AUGMENTED EXPERIMENTS
13 to 17 (Any two of the following experiments can be performed)
13 To determine the Grain size Permeability and Compressive Strength of the
Molding Sand
14 To prepare a Single Strap Butt Joint on the given work pieces using spot welding
equipment
15 To prepare a Lap Joint Using TIG welding and MIG welding
16 To study the progressive tool and perform blanking and piercing operations
17 To determine the punching force and blanking force theoretically and compare
obtained readings
Reference Books
1 Aditya Engineering College Laboratory Manual
2 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II 4th
Edition
3 Elements of Manufacturing Technology Vol II Hajra ChoudharySK amp Hajra
Web Links
1 httpwwwsmeorgfmp
2 httpscosmolearningorgcoursesmanufacturing-processes-i-538video-lectures
AR19 Mechanical Engineering
Aditya Engineering College (A) 96
COMPUTER AIDED MACHINE DRAWING
IV Semester L T P C
Course Code 191ME4L04 0 0 3 15
Course Objectives
COB 1 To impart the fundamental knowledge of machine drawing by elaborating
on how to concretize the idea of new structure such as a machine element
COB 2 To study the conventions and rules to be followed by engineers for making
accurate drawings
COB 3 To understand the basic dimensioning practices that has to be followed in
the preparation of drawings
COB 4 To inculcate the reading of the drawings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Discuss the conventional representation of materials and machine
components
CO 2 Apply the principles of engineering drawing in machine drawing
CO 3 Construct various types of temporary fasteners
CO 4 Sketch various types of permanent fasteners
CO 5 Practice assembly drawings from the given part drawings for
manufacturing
CO 6 Construct part drawings from the given assembly drawing
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - 3 - -
CO2 (K3) 3 - 1 - - - - - - 3 - -
CO3 (K3) 3 - 1 - - - - - - 3 - -
CO4 (K3) 3 - 1 - - - - - - 3 - -
CO5 (K3) 3 - 1 - - - - - - 3 - -
CO6 (K3) 3 - 1 - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - 2
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CO6 (K3) 3 - 3
UNIT-I
Machine Drawing Conventions
Need for drawing conventions ndash introduction to standard conventions
A) Conventional representation of materials common machine elements and parts such
as screws nuts bolts keys gears webs ribs
B) Types of sections ndash selection of section planes and drawing of sections and auxiliary
sectional views Parts not usually sectioned
C) Drawing of machine elements and simple parts Selection of views additional views
for the following machine elements and parts with easy drawing proportions
AR19 Mechanical Engineering
Aditya Engineering College (A) 97
i) Standard forms of screw threads bolts nuts stud bolts tap bolts set screws
ii) Keys cotter joint and knuckle joint
iii) Riveted joints for plates
iv) Shaft coupling spigot and socket pipe joint
v) Journal bearing and foot step bearing
UNIT-II
Assembly Drawings
Drawings of assembled views for the part drawings of the following using conventions
and easy drawing proportions
A) Engine parts ndash eccentric petrol engine connecting rod piston assembly
B) Other machine parts - screw jack machine vice Plummer block lathe tailstock
C) Valves- steam stop valve non-return valve and feed check valve
Production Drawing (only for Practice not for Examination)
Introduction to Limits Fitsamp Tolerances Types of Assembly systems Importance of
BOM Part drawing procedure construction of part drawings from the given assembly
drawings using conventions and easy drawing proportions Part drawings of Eccentric
Single tool post Plummer block Screw Jack
Note Sheets under unit I need to be practiced with any one basic 2D drafting software
Sheets under assembly drawing need to be practiced with any one solid modelling
software Sheets under production drawing need to be practiced with Drafting and solid
modelling software
Note for question paper Students should answer 2 questions from unit I and 1 question
from unit II Each question will have internal choice Unit I carries 20 Marks and Unit
II carries 40 Marks
Text Books
1 Machine Drawing NSiddeswarPKannaiahVVSSastry Mcgraw hill education
2
3
Machine Drawing GRNagpal Khanna publications
Machine Drawing NDBhatt
Reference Books
1 Ajeet Singh Machine Drawing includes AutoCAD McGraw Hill 2nd Edition
2 Machine drawing PSGill SKKataria amp Sons 3rd Edition
3 Goutam Pohit Goutam Ghosh Machine Drawing with AutoCAD Pearson
Education 1st Edition
Web Links
1 nptelacinsyllabus112106075
2 wwwmachinedesignonlinecom
AR19 Mechanical Engineering
Aditya Engineering College (A) 98
EMPLOYABILITY SKILLS-II (Common to all branches)
Course Objectives
COB 1 To Teach Empathy For Solving Complex Problems
COB 2 To Inculcate Reading Skills
COB 3 To Teach Competitive Written English
COB 4 To Teach Team Building ampLeadership Skills
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
UNIT-I
Aptitude Symbols ampNotations Direction test
Soft Skills Team work leadership skills
UNIT-II
Aptitude Venn Diagrams Blood Relations
Soft Skills Negotiation skills persuasionamp Negotiation stages of Negotiation
UNIT-III
Aptitude Problems on Numbers
Soft Skills Listening skills types of listening Active listening
IV Semester L T P C
Course Code 191MC4A05 0 0 2 0
CO 1 Examine the symbols notations and Venn -diagrams
CO 2 Explain Empathy to Create Positive
CO 3 Observe Different Types Of Number Systems
CO 4 Deduct the logics in the puzzles and arrangements
CO 5 Solve Ratio ampProportion Ages and Averages By Using Simple Logics
CO 6 Correlate Teambuilding ampLeadership Skills
AR19 Mechanical Engineering
Aditya Engineering College (A) 99
UNIT-IV
Aptitude Ratio ampproportion
Soft Skills Verbal Aptitude -II Idioms amp phrases
UNIT-V
Aptitude Average and Ages
Soft Skills Verbal Aptitude -III sentence Anagram Reading Comprehension
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 100
BIOLOGY FOR ENGINEERS (Common to all branches)
Course Objectives
COB 1 To introduce students to modern biology with an emphasis on evolution of
biology as a multi-disciplinary field
COB 2 To make them aware of application of engineering principles in biology
and engineering robust solutions inspired by biological examples
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K2) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K2) - - - - - - - - - - - -
CO 5 (K2) - - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K2) - - -
CO 3 (K3) - - -
CO 4 (K2) - - -
CO 5 (K2) - - -
UNIT-I
Introduction to life
Characteristics of living organisms-Basic classification-cell theory-structure of
prokaryotic and eukaryotic cell-Introduction to biomolecules definition-general
classification and important functions of carbohydrates-lipids-proteins-nucleic acids
vitamins and enzymes-genes and chromosome
UNIT-II
Biodiversity
Plant System basic concepts of plant growth-nutrition-photosynthesis and nitrogen
IV Semester L T P C
Course Code 191MC4A06 2 0 0 0
CO 1
Apply biological engineering principles procedures needed to solve real-
world problems
CO 2 Demonstrate the fundamentals of living things their classification cell
structure and biochemical constituents
CO 3 Apply the concept of plant animal and microbial systems and growth in real
life situations
CO 4 Explain genetics and the immune system to know the cause symptoms
diagnosis and treatment of common diseases
CO 5 Demonstrate basic knowledge of the applications of biological systems in
relevant industries
AR19 Mechanical Engineering
Aditya Engineering College (A) 101
fixation-Animal System elementary study of digestive-respiratory-circulatory-excretory
systems and their functions Microbial System history-types of microbes-economic
importance and control of microbes
UNIT-III
Genetics and immune system
Evolution theories of evolution-Mendelrsquos cell divisionndashmitosis and meiosis-evidence of
e laws of inheritance-variation and speciation- nucleic acids as a genetic material-central
dogma immunity antigens-antibody-immune response
UNIT-IV
Human diseases
Definition- causes symptoms diagnosis treatment and prevention of diabetes cancer
hypertension influenza AIDS and Hepatitis
UNIT-V
Biology and its industrial application
Transgenic plants and animals-stem cell and tissue engineering-bioreactors-
biopharming-recombinant vaccines-cloning-drug discovery-biological neural networks-
bioremediation-biofertilizer-biocontrolbiofilters-biosensors-biopolymers-bioenergy-
biomaterials-biochips-basic biomedical instrumentation
Text Books
1 A Text book of Biotechnology RCDubey S Chand Higher Academic
Publications 2013
2 Diseases of the Human Body Carol D Tamparo and Marcia A Lewis FA Davis
Company 2011
3 Biomedical instrumentation Technology and applications R Khandpur McGraw
Hill Professional 2004
Reference Books
1 Biology for Engineers Arthur T Johnson CRC Press Taylor and Francis 2011
2 Cell Biology and Genetics (Biology The unity and diversity of life Volume I) Cecie
Starr Ralph Taggart Christine Evers and Lisa Starr Cengage Learning 2008
3 Biotechnology Expanding horizon BD Singh Kalyani Publishers 2012
Web Links
1 httpswwwbiology-onlineorg
2 httpwwwbiologyreferencecom
3 httpwwwallexpertscombrowsecgicatLvl=2ampcatID=229
4 httpswwwlibraryqmulacuksubject-guidesbiological-sciences
AR19 Mechanical Engineering
Aditya Engineering College (A) 102
DYNAMICS OF MACHINERY
V semester L T P C
Course Code 191ME5T09 3 0 0 3
Course Objectives
COB 1 To equip the student with fundamental knowledge of dynamics of machines so
that student can appreciate problems of dynamic force balance transmissibility
of forces isolation of systems vibrations
COB 2 To develop knowledge of analytical and graphical methods for calculating
balancing of rotary and reciprocating masses
COB 3 To develop understanding of vibrations and its significance on engineering
design
COB 4 To develop understanding of dynamic balancing flywheel analysis gyroscopic
forces and moments
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze stabilization of sea vehicles aircrafts and automobile vehicles
CO 2 Compute frictional losses and torque transmission of mechanical systems
CO 3 Calculate the dynamic forces acting on the flywheels and governors
CO 4 Apply analytical and graphical methods of calculating balancing of rotary and
reciprocating masses
CO 5 Determine the natural frequencies of vibrating system
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - 1
CO2 (K3) 3 2 2 1 - - - - - - - 1
CO3 (K3) 2 2 2 1 - - - - - - - 1
CO4 (K4) 2 2 2 1 - - - - - - - 1
CO5 (K3) 2 2 2 1 - - - - - - - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K4) 1 - -
CO5 (K3) 1 - -
UNIT-I
Precession Gyroscopes effect of precession motion on the stability of moving vehicles
such as motor car motor cycle aero planes and ships (Demonstration of models in video
show)
UNIT-II
Clutches Friction clutches- uniform pressure uniform wear single disc or plate clutch
multiple disc clutch cone clutch centrifugal clutch
Brakes And Dynamometers Simple block brakes internal expanding brake band brake
AR19 Mechanical Engineering
Aditya Engineering College (A) 103
of vehicle General description and operation of dynamometers Prony Rope brake
Epicyclic Bevis Gibson and belt transmission
UNIT-III
Turning Moment Diagrams Dynamic force analysis of slider crank mechanism inertia
torque angular velocity and acceleration of connecting rod crank effort and turning
moment diagrams ndash fluctuation of energy ndash fly wheels and their design
Governers Watt porter and proell governors spring loaded governorsndash Hartnell and
Hartung with auxiliary springs Sensitiveness isochronism and hunting
UNIT-IV
Balancing Balancing of rotating masses single and multiple ndash single and different planes
use analytical and graphical methods Primary secondary and higher balancing of
reciprocating masses Analytical and graphical methods unbalanced forces and couples
locomotive balancing hammer blow swaying couple variation of tractive effort
UNIT-V
Vibrations Free and forced vibration of single degree of freedom systems effect of
damping vibration isolation and transmissibility resonance critical speeds of shafts
Text Books
1 Theory of machines- Thomas Bevan
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of machines and mechanisms ndash PLBallaney-Khanna publications
Reference Books
1 Theory of Machines ndash Sadhu Singh Pearsons Edn
2 Mechanical Vibrations ndash G K Grover
3 Mechanism and Machine Theory - JSRao RV Dukkipati New Age
4
5
Mechanism and Machine Theory ndash Ashok G Ambekar PHI Publication
Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East- West
Press
Web Links
1 httpswwwslidesharenethareeshangunit-7-gyroscope
2 httpwwwsvecweduinDocs5CMEDMLNotes2013pdf
3 httpswwwvidyarthipluscomvpattachmentphp
4 httpnptelacindownloads112101096
AR19 Mechanical Engineering
Aditya Engineering College (A) 104
DESIGN OF MACHINE MEMBERS-I
V Semester L T P C
Course Code 191ME5T10 3 0 0 3
Course Objectives
COB 1 To illustrate the design function in mechanical engineering the steps involved
in designing and the relation of design activity with manufacturing activity
COB 2 To enable the student select proper materials for different machine elements
based on their mechanical properties
COB 3 To impart knowledge about various theories of failure to design a machine
component
COB 4 To teach the student to estimate the strength of machine elements
COB 5 To make the student learn the design procedure for the different machine
elements such as fasteners shafts couplings keys axially loaded joints etc
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the design procedure to engineering problems including the consideration
of technical and manufacturing constraints
CO 2 Evaluate the strength stiffness and fatigue of machine elements
CO 3 Analyze various types of stresses on mechanical components subjected to both
static and dynamic loads
CO 4 Explain the design of fasteners subjected to eccentric amp fluctuating loads
CO 5 Calculate the design parameters of various components like springs and pressure
vessels
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 3 - 3 - - 3 -
CO2 (K5) 2 2 3 3 - - - - - - - -
CO3 (K4) 2 3 2 2 - - - - - - - -
CO4 (K4) 2 2 2 2 - - - - - - - -
CO5 (K3) 3 2 1 1 3 3 - 3 - - 3 -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K5) 3 - -
CO3 (K4) 3 - -
CO4 (K4) 3 - -
CO5 (K3) - 2 -
UNIT-I
Introduction to Machine Design
Introduction to machine design- Engineering Materials and their properties ndash selection
ndashManufacturing considerations in design- Preferred numbers- BIS Codes ndash Combined
Stresses - Complex Stresses - Stresses on an inclined plane under different uniaxial and
biaxial stress conditions - Principal planes and principal stresses - Mohrrsquos circle -
various theories of failure
AR19 Mechanical Engineering
Aditya Engineering College (A) 105
UNIT-II
Design Under Fluctuating Stresses
Stress concentration ndashTheoretical Stress Concentration Factor ndash Fatigue Stress
Concentration Factor - Notch Sensitivity ndash Design for fluctuating stresses ndash Endurance
limit ndashEstimation of endurance strength ndash Goodmanrsquos line ndash Soderbergrsquos line ndash Modified
Goodmanrsquos line
Design of Shafts
Design of solid and hollow shafts for strength and rigidity ndash Design of shafts for
combined bending and axial loads ndash shaft sizes - Design of shafts for gear and belt
drives
UNIT-III
Design of Keys and Couplings
Design of keys-stresses in keys- Rigid couplings ndash Muff Split muff and Flange
couplings-Flexible couplings ndash Flange coupling (Modified)
Cotter amp Knuckle Joints
Spigot and socket Sleeve and cotter Jib and cotter joints- Knuckle joints
UNIT-IV
Design of Fasteners
Riveted and welded joints ndash Design of joints with initial stresses ndash Eccentric loading
Bolted joints ndash Design of bolts with pre-stresses ndash Design of joints under eccentric
loading ndash Locking devices ndash Bolts of uniform strength Different seals
UNIT-V
Springs
Stresses and deflections of helical springs ndash Extension -Compression springs ndash Springs
for fatigue loading Energy storage capacity ndash Helical torsion springs ndash Co-axial springs
Leaf springs
Pressure Vessels
Thin seamless cylindrical shells ndash Derivation of formula for longitudinal and
circumferential stresses ndash Hoop Longitudinal and Volumetric strains ndash Changes in
diameter and volume of thin cylinders ndash Riveted boiler shells ndash Thin spherical shells -
Thick Cylinders- Lamersquos equation ndash Cylinders subjected to inside amp outside pressures
ndashCompound cylinders
Note Design data books are not allowed for End Semester Examinations
Text Books
1 Design of Machine Elements VBBhandari TMH Publishers 4th Edition
2 Machine Design Pandya amp Shah Charothar Publishers 17th Edition
Reference Books
1 Mechanical Engineering Design JEShigley amp CRMischkie Tata McGraw Hill
3rd Edition
2 Machine Design Sundararajamoorthy TVamp ShanmugamN Anuradha
Publications
3 Design of Machine Elements MFSpotts Pearson Education 8th Edition
4 Design Data PSG College of Technology Kalaikathir Achchagam Publishers 2nd
Edition
5 Design Data Hand Book SMdJalaludeen Anuradha Publications
AR19 Mechanical Engineering
Aditya Engineering College (A) 106
Web Links
1 httpnptelacincoursesWebcourse contents IIT 20Kharagpur Machine20
design1 New_index1html
2 httpwwwnptelacindownloads112105125
3 httpwwwalljntuworldindownloaddesign-machine-members-1-dmm-1-
materials- notes
4 wwwjntumaterialscoin201504jntujntuk-design-of-machine-members-ihtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 107
THERMAL ENGINEERING - II
V Semester L T P C
Course Code 191ME5T11 3 0 0 3
Course Objectives
COB 1 To develop basic knowledge of students on Rankine cycles
COB 2 To provide sufficient knowledge on Boilers and chimneys to the students
COB 3 To enable studentsrsquo knowledge on steam nozzles and steam turbines
COB 4 To improve the knowledge of students on steam formation process
COB 5 To provide sufficient knowledge to the students on gas turbines and its
application
Course Outcomes At the end of the Course Student will be able to
CO 1 Apply different methods used to improve the efficiency of Rankine Cycle
CO 2 Solve problems related to boiler efficiency and chimney
CO 3 Analyze the performance of Steam nozzles and steam turbines
CO 4 Distinguish different types of condenser used in a steam power plant
CO 5 Explain the methods to increase the performance of Gas Turbine and its
applications
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - 1
CO3 (K4) 3 3 - - - - - - - - - 1
CO4 (K4) 3 3 - - - - - - - - - -
CO5 (K4) 3 3 - - - - - - - - - 2
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 2 - -
CO3 (K4) 2 - -
CO4 (K4) 2 - -
CO5 (K4) 2 - -
UNIT-I
Introduction to Steam Power Cycles
Rankine cycle Schematic layout Thermodynamic analysis Methods to improve cycle
performance ndash Regeneration amp reheating
Combustion Fuels and combustion Concepts of heat of reaction Adiabatic flame
temperature Stoichiometry and flue gas analysis
UNIT-II
Boilers amp Draught
Classification Working principles of LP amp HP boilers with sketches mountings and
accessories Working principles Boiler horse power Equivalent evaporation Efficiency
and heat balance
Draught Classification height of chimney for given draught and discharge Condition
for maximum discharge Efficiency of chimney Artificial draught Induced and Forced
draught
AR19 Mechanical Engineering
Aditya Engineering College (A) 108
UNIT-III
Steam Nozzles
Function of a nozzle applications types Flow through nozzles and thermodynamic
analysis assumptions velocity of fluid at nozzle exit - Ideal and actual expansion in a
nozzle Velocity coefficient and condition for maximum discharge Critical pressure
ratio Super saturated flow and its effects Degree of super saturation and Degree of under
cooling Wilson line
Steam Turbines
Classification Impulse turbine-Mechanical details velocity diagram effect of friction
power developed Axial thrust Blade or diagram efficiency condition for maximum
efficiency De-Laval turbine methods to reduce rotor speed-Velocity compounding
Pressure compounding and velocity amp pressure compounding Velocity and pressure
variation along the flow combined velocity diagram for a velocity compounded impulse
turbine Condition for maximum efficiency
UNIT-IV
Reaction Turbine
Mechanical details principle of operation Thermodynamic analysis of a stage Degree
of reaction velocity diagram Parsonrsquos reaction turbine Condition for maximum
efficiency Calculation of blade height
Steam Condensers
Requirements of steam condensing plant Classification of condensers working principle
of different types vacuum efficiency and condenser efficiency air leakage Sources and
its affects Air pump cooling water requirement
UNIT-V
Gas Turbines
Simple gas turbine plant Ideal cycle Essential components parameters of performance
Actual cycle Regeneration Inter cooling and reheating Closed and semi-closed cycles
Merits and demerits Types of combustion chambers
Jet Propulsion
Principle of operation Classification of jet propulsive engines Working principles with
schematic diagrams and representation on T-S diagram thrust thrust power and
propulsion efficiency turbo jet engines - schematic diagram Thermodynamic cycle
Performance evaluation Thrust augmentation methods ndash Simple Problems
Rockets
Application working principle Classification propellant type thrust Propulsive
efficiency specific impulse Solid and Liquid propellant rocket engines
Text Books
1 Thermodynamics and Heat Engines Volume- II RYadav Central publishing house
6th Edition
2 Heat Engineering VP Vasandani and DS Kumar Metropolitan Book Company 6th
Edition
Reference Books 1 Thermal Engineering PLBallaney Khanna publishers25th Edition
2 Thermal Engineering MLMathur amp Mehta Jain bros 6th Edition
3 Gas Turbines V Ganesan Tata McGraw-Hill Education 3th Edition
4 Thermal Engineering RK Rajput Laxmi Publications 10th Edition
AR19 Mechanical Engineering
Aditya Engineering College (A) 109
Web Links 1 httpsnptelacincourses112103112103277
2 httpnptelacincourses112106166
3 httphomeiitkacin~sullerlectureslec29htm
AR19 Mechanical Engineering
Aditya Engineering College (A) 110
AUTOMOBILE ENGINEERING (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E01 3 0 0 3
Course Objectives
COB 1 To equip the students with fundamental working principles and technologies
in automotive engineering
COB 2 To introduce basic and entry level theories and terminology
COB 3 To make aware of the importance of transmission system
COB 4 To impart the principles of automobile systems sub systems and provides
the salient features of safety of automobiles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Summarize the Vehicle Chassis Layouts of 4-wheelers and Motor Vehicle
Act
CO 2 Identify the different constructional features and working principles of Un-
Sprung components of the given vehicle
CO 3 Identify the different constructional features and working principles Sprung
components of the given vehicle
CO 4 Summarize the functionalities of various Electrical systems of typical
Automobile
CO 5 Explain the different Active and Passive Vehicle Safety Systems
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
CO 1(K2) 2 1 - - - - 3 - 3 3
CO 2(K3) 2 1 - - - - 3 - - 3
CO 3(K3) 2 1 - - - - - - - 3
CO 4(K2) 2 1 - - - - - - 3 3
CO 5(K3) 3 2 - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 K2) 3 - -
CO 2(K3) 2 - -
CO 3(K3) 2 - -
CO 4(K2) 2 - -
CO 5(K3) 3 - 3
UNIT-I
Introduction
Components of four wheeler automobile ndash chassis and body ndashChassis Layout - power
transmission ndash rear wheel drive front wheel drive 4 wheel drive and Motor Vehicle Act
1988 ndash Legal AspectsCompliance of Automotive
Vehicles Introduction to Motor Vehicle Act Registration of Vehicles Inspection and
Fitness of vehicles and Homologation of Vehicles
UNIT ndash II
Transmission System
Clutches principle types gear boxes types Propeller shaft ndashHotch ndash Kiss drive
AR19 Mechanical Engineering
Aditya Engineering College (A) 111
Torque tube drive universal joint differential rear axlesndash types
Steering System
Steering geometry ndash camber castor king pin rake combined angle toe-in toe-out
center point steering Types of steering mechanism ndashAckerman steering mechanism
Davis steering mechanism steering linkages
UNIT ndash III
Suspension System
Objects of suspension systems ndash rigid axle suspension system torsion bar shock
absorber Independent suspension system Air Suspension Rubber Suspension
Hydrolastic suspension system Hydragas suspension system
Braking System
Mechanical braking system hydraulic braking system requirement of brake fluid
pneumatic and vacuum brakes Parking Braking system
UNIT ndash IV
Wheels And Tyres
Basic Requirements of Wheels and Tyres Construction of Wheel Assembly Tyre
Construction Types Tyre Sizes and Designation Aspect Ratio Tyre Tread Pattern
Selection of Tyre under Different Applications
UNIT ndash V
Electrical System
Charging circuit generator starting system lighting horn wiper fuel gauge oil
pressure gauge engine temperature indicator
Safety Systems
Introduction safety systems - seat belt air bags bumper anti-lock brake system (ABS)
Electronic Brake force Distribution (EBD) mirrors central locking speed control
Retractable Steering system Head restraints seats with anti-submarine effects and fuel
cut off switch
Text Books
1 Automobile Engineering Vol 1 Dr Kirpal Singh Standard Publishers13th
Edition
2 Automotive Mechanics William H Crouse TMH Distributors10th Edition
Reference Books
1 Advanced vehicle Technology by Heinz Heisher 2nd BH Pub
2 Automotive Chassis by Jonsen Reimpell BH Pub
3 Automobile Electrical amp Electronics by Tom Denton 3rd Elsevier Pub
4 The Motor Vehicle Act 1988 Bare Act with Amendments Law Literature
Publication
5 The Central Motor Vehicle Rules 1989 Bare Act with short notes Lexis Nexis
Publications
Web Links
1 httpsnptelacincourses125106002
2 httpswwwautomotive-onlinecom
3 https sciencelinksjpj-eastarticle
4 https wwwsciencedirectcomsciencebook9780750650540
AR19 Mechanical Engineering
Aditya Engineering College (A) 112
COMPOSITE MATERIALS
(Professional Elective-I)
V Semester L T P C
Course Code 191ME5E02 3 0 0 3
Course Objectives
COB 1 To make the student aware about the composite materials Matrix fibers etc
COB 2 To make the student classify the composites based on the matrix material
COB 3 To make the student classify the composites based on the reinforcements
COB 4 To enable the student determine the strength of an orthotropic laminate
COB 5 To make the student determine stiffness and strength of unidirectional
composites
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain about the composite materials matrix fibers etc
CO 2 Select the composites based on the matrix materials
CO 3 Select the composites based on the reinforcements
CO 4 Calculate the stress and strain of various types of laminates
CO 5 Evaluate stiffness and strength of unidirectional composites
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 1 - - - - - - - - 1 - 1
CO2 (K4) 3 - - - - - - - - 1 - 1
CO3 (K4) 3 - - - - - - - - 1 - 1
CO4 (K3) 3 2 2 2 - - - - - 1 - 1
CO5 (K5) 3 3 3 3 - - - - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 1 - -
CO2 (K4) 3 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 - -
UNIT-I
Introduction Definitions Composites Reinforcements and matrices Types of
reinforcements Matrix materials Functions of a Matrix Desired Properties of a
Matrix Types of composites Carbon Fibre composites Properties of composites in comparison with standard materials Applications of metal ceramic and polymer
matrix composites Role and Selection or reinforcement materials Types of fibres
Glass fibers Carbon fibers Aramid fibers Metal fibers Alumina fibers Boron Fibers
Silicon carbide fibers Quartz and Silica fibers Multiphase fibers Whiskers Flakes
etc Mechanical properties of fibres Advantages and limitations of composite
materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 113
UNIT-II
Classification based on Matrix Material
Organic Matrix composites Polymer matrix composites (PMC) Carbon matrix
Composites or Carbon-Carbon Composites Metal matrix composites (MMC) Ceramic
matrix composites (CMC)
Classification based on reinforcements Fiber Reinforced Composites Fiber
Reinforced Polymer (FRP) Composites Laminar Composites Particulate Composites
Comparison with Metals Advantages amp limitations of Fiber Reinforced Composites
UNIT-III Fabrication methods of composites
UNIT-IV
Laminates Plate Stiffness and Compliance Assumptions Strains Stress Resultants
Plate Stiffness and Compliance Computation of Stresses Types of Laminates -
Symmetric Laminates Anti-symmetric Laminate Balanced Laminate Quasi-isotropic
Laminates Cross-ply Laminate Angle-ply Laminate Strength of an orthotropic
Laminate Laminate Moduli Hygro thermal Stresses
UNIT-V
Mechanical Properties -Stiffness and Strength Geometrical aspects ndash volume and
weight fraction Unidirectional continuous fibre discontinuous fibers Short fiber
systems woven reinforcements ndashMechanical Testing Determination of stiffness and
strengths of unidirectional composites tension compression flexure and shear
Text Books
1 Composite materials Production properties testing and applications
K Srinivasan Alpha science international ltd
2 Mechanics of composite materials Robert M Jones CRC Press 2nd Edition
Reference Books
1 Composite materials Engineering and Science FL Matthews and R D
Rawlings Woodhead publishing
2 Composite materials Design and applications Daniel Gay CRC Press 3rd
Edition
3 Composite materials Krishan K Chawla Springer Publication 3rd Edition
4 Laminar composites George H Staab Elsevier Science amp Technology
Web Links
1 httpsnptelacincourses112104112104229
2 httpsnptelacincontentstorage2courses105108124pdfLecture_NotesLN
m1pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 114
FLUID ENGINEERING (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E03 3 0 0 3
Course Objectives
COB 1 To make students learn about different types of compressors and to calculate
power and efficiency
COB 2 Understand the concepts of hydraulic machines and their applications
COB 3 Understand the working principle of centrifugal pump and its characteristics
COB 4 Understand the principle of reciprocating pump
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the working of various types of reciprocating compressor
CO 2 Evaluate efficiency of various types of rotary compressors
CO 3 Compare different types of Turbines and its characteristics
CO 4 Explain the working principle of Centrifugal Pump
CO 5 Explain the working principle Reciprocating Pump
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - 3 -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT ndashI
Compressors Classification Positive displacement and roto dynamic machinery
Power producing and power absorbing machines Fan Blower and Compressor
Positive displacement and dynamic types Reciprocating and rotary types
Reciprocating Compressor Principle of operation Work required Isothermal
efficiency Volumetric efficiency and effect of clearance Multi stage compression
Under cooling Saving of work Minimum work condition for two stage compression
UNIT-II
Rotary Compressor (Positive Displacement Type) Roots Blower Vane sealed
compressor Lysholm compressor Mechanical details and Principle of working
Efficiency considerations
Centrifugal Compressors Mechanical details and principle of operation Velocity and
AR19 Mechanical Engineering
Aditya Engineering College (A) 115
pressure variation Energy transfer-Impeller blade shape-losses Slip factor Power
input factor Pressure coefficient and adiabatic coefficient Velocity diagrams Power
Axial Flow Compressors Mechanical details and principle of operation Velocity
triangles and energy transfer per stage degree of reaction Work done factor - Isentropic
efficiency- Pressure rise calculations Polytropic efficiency
UNIT-III
Hydraulic Machines Turbines
Velocity Triangles and Work done for a Pelton Wheel Design of Pelton Wheel Radial
Flow reaction Turbines- Inward amp Outward Degree of reaction Francis Turbine Axial
Flow Reaction Turbines Draft Tube Specific Speed Unit Quantities Characteristic
curves of Hydraulic turbines and governing of turbines
UNIT-IV
Centrifugal Pumps
Work done by the Centrifugal Pump Heads and efficiencies Minimum speed to start
Multistage Specific speed Model testing Priming Characteristic curves Cavitation
Maximum suction Lift Net positive Suction Head
UNIT-V
Reciprocating Pumps
Discharge Work done and power required calculations Slip Variation of velocity and
acceleration in suction and delivery pipes Effect of variation of velocity on friction in
the suction and delivery pipes Indicator diagram Air vessels and Comparison of
Centrifugal and Reciprocating Pumps
Text Books
1 Heat EnginesVP Vasandani amp DS Kumar Metropolitan Book Co Pvt Ltd
4th Edition
2 Fluid Mechanics and Hydraulic Machines RK Bansal Laxmi Publications (P)
Ltd 9th Edition
Reference Books
1 Thermal Engineering RK Rajput Lakshmi Publications 10th Edition
2 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
3 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
4 Hydraulics and Fluid mechanics including Hydraulics machines by PNModiamp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
5 Mechanics of fluids by Bernard Massey 9th Edition CRC Press 2019
Web Links
1 httpnptelacincourses112104033
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 116
MECHANICAL VIBRATIONS (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E04 3 0 0 3
Course Objectives
COB 1 To analyze the various 1-D periodic and periodic responses of a vibrating
system with and without damping
COB 2 To derive the equations of motion and solution for Two and multi degree
freedom systems by the application of analytical methods
COB 3 To understand the numerical methods for quick estimation of 1st natural
frequency of multi degree freedom systems
COB 4 Have the knowledge of the various physical vibration measuring
instruments
COB 5 To solve vibrations problems of continuous systems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the various 1-D periodic and periodic responses of an vibrating
system with and without damping and damping mechanisms
CO 2 Find solutions for two degree freedom systems with and without damping
for free and forced vibrations
CO 3 Derive solutions for Multi-degree freedom systems emphasing on modal
analysis techniques
CO 4 Estimate 1st natural frequency of multi degree freedom systems
CO 5 Apply the knowledge of the various physical vibration measuring
instruments and their applications in real life vibration data acquisition
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - -
CO2 (K3) 3 2 2 1 - - - - - - - -
CO3 (K3) 2 2 2 1 - - - - - - - -
CO4 (K3) 2 2 2 1 - - - - - - - -
CO5 (K3) 2 2 2 1 - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Single degree of Freedom systems Undamped and damped free vibrations forced
vibrations coulomb damping Response to harmonic excitation rotating unbalance and
AR19 Mechanical Engineering
Aditya Engineering College (A) 117
support excitation Vibration isolation and transmissibility
UNIT-II
Vibration Measurement Vibrometers velocity meters amp accelerometers
Two degree of freedom systems Principal modes ndash undamped and damped free and forced
vibrations undamped vibration absorbers
UNIT-III
Multi degree of freedom systems Matrix formulation stiffness and flexibility influence
coefficients Eigen value problem normal modes and their properties Free and forced
vibration by Modal analysis Method of matrix inversion Torsional vibrations of multi ndash
rotor systems and geared systems Discrete Time systems
UNIT-IV
Numerical Methods Rayleighrsquos stodolarsquos Matrix iteration Rayleigh-Ritz Method and
Holzerrsquos methods
UNIT-V
Application of concepts Free vibration of strings ndash longitudinal oscillations of bars-
transverse vibrations of beams- Torsional vibrations of shafts Critical speeds without and
with damping secondary critical speed
Text Books
1 Theory of Vibrations with Applications 5th Edition William T Thomson Marie
Dillon Dahleh Chandramouli Padmanabhan John Vlissides
2 Mechanical Vibrations 8th Edition ndash GK Grover
Reference Books
1 Vibration problems in Engineering by SP Timoshenko
2 Mechanical Vibrations ndash Schaum series
3 Mechanical Vibrations 4th Edition Singiresu S Rao
4 Vibration and Acoustics 1st Edition C Sujatha
5 Elements of Vibration Analysis by Meirovitch
AR19 Mechanical Engineering
Aditya Engineering College (A) 118
METROLOGY amp INSTRUMENTATION (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E05 3 0 0 3
Course Objectives
COB 1 To make the students understand the working of linear and angular measuring
instruments
COB 2 To familiarize with the working of optical measuring instruments and
fundamentals of limits and limit gauges
COB 3 To teach the basic idea about various methods for measurement of screw
thread and surface finish parameters
COB 4 To provide students an overview of mechanical measurements systems and
principle of instrument for motion and dimension measurement
COB 5 To provide basic idea about working principle and applications of devices
for measurement of temperature pressure flow level stress and strain
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concept of systems of limits and fits and theory of linear and
angular measurement
CO 2 Explain the surface roughness measurement screw thread measurement and
gear measurement
CO 3 Explain the concepts of machine tool alignments
CO 4 Select appropriate elements of a measurement system and select instruments
for displacement measurement
CO 5 Select instruments for temperature pressure and flow measurement
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - 1 - - - - - - 2 -
CO2 (K2) 2 1 - 1 - - - - - - 2 -
CO3 (K3) 3 2 - 1 - - - - - - 3 -
CO4 (K4) 2 3 - 2 - - - - - - 3 -
CO5 (K4) 2 3 - 2 - - - - - - 2 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K5) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 1 -
CO2 (K2) - 1 -
CO3 (K3) - 2 -
CO4 (K4) - 3 -
CO5 (K4) - 3 -
UNIT- I
Linear and Angular Measurements Limits and Fits
ISO system Fits and Types of interchangeability Taylorrsquos Principle or plain limit
gauges Use of Plug Ring and Snap gauges Indicating type limit gauges Introduction-
Linear and Angular measurements - Slip gauges and End bars - Gauge material and
manufacturing methods Different types of Micrometers Height gauges Tomlinson
AR19 Mechanical Engineering
Aditya Engineering College (A) 119
gauges Precision polygon Sine bar Auto collimator
UNIT- II
Optical Measurement and Comparators
Dial indicator Sigma and Mechanical comparator Free flow and Back pressure type
Pneumatic comparator Application of set jet gauge heads Optical projector Chart
screen gauges and measuring methods Micro gauge bridge lines Tool makerrsquos
Microscope applications Measurement of Straightness and- Flatness Roundness
measurement with bench centers and talyround Coordinate Measuring Machine in
components geometries
UNIT- III
Surface Roughness Measurements and Gear tooth measurement
Parameters as per ISO indices Profilometer Taylor Hobson Talysurf Application of Thread metrology - 2 wire and 3 Wire methods Gear measurement - Gear tooth
thickness Parkinson gear tester General geometric tests for testing machine tools-Lathe drill mill
UNIT- IV
Displacement and Strain Measurement
Elements of instrumentation system Static and Dynamic characteristics Types of errors
Displacement transducers LVDT Strain measurement - Wire and foil type resistance strain gauges Rosette Gauges Bonding procedure Lead resistance compensation
Adjacent arm and self compensating gauges Proving ring Strain gauge load cells measurement of axial load and torsion by strain gauges Piezo electric load cell
UNIT- V
Temperature Pressure and Flow Measurement
Introduction to Seismic Transducers - displacement and acceleration measurement
Pressure measurement - Bourdon pressure gauge bulk modulus gauge pirani gauge
Temperature measurement by thermo couples Laws of thermo electricity Types of
materials used in thermocouples Rotameter magnetic ultrasonic turbine flow meter
hot ndash wire anemometer laser Doppler anemometer (LDA) dynamometers
Text Books
1 Dimensional MetrologyConnie Dotson Cengage Learning2016
2 Measurement System Applications and Design DSKumar Metropolitian book Co
pvtlmtd 1st edition
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers 2008
2 Engineering Metrology ICGupta Dhanpat Rai Publishers 2018
3 Mechanical and Industrial Measurements RK Jain Khanna Publishers 2008
4 Instrumentation measurement amp analysis BCNakra amp KKChoudhary TMH
2008
Web Links
1 httpsnptelacincourses112106179
2 httpswwwslidesharenetengrnoumanmetrology-measurement
3 httpwwwmetrologypggdapl
4 httpsindiaoupcomproductengineering-metrology
AR19 Mechanical Engineering
Aditya Engineering College (A) 120
ORGANIZATIONAL BEHAVIOUR
(Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E06 3 0 0 3
Course Objectives
COB 1 To make the students understand the factors affecting the individual behavior
and its impact on organizational behavior
COB 2 To impart the knowledge on management and the way it is performed in the
organizations
COB 3 To familiarize the students with the basic concepts of stress and emotions
the contributions of various managerial issues in the organization
COB 4 To obtain students of frameworks and tools to effectively analyze and
approach various organizational situations
COB 5 To intended to help the students to gain a solid understanding of human
behavior in the workplace from an individual group and organizational
perspective
Course Outcomes
At the end of the Course Student will be able to
CO 1
Explain the OB a range of organizational behavior models key elements and
roles of OB
CO 2 Analyze the behavior of individuals and groups in organizations in terms of
organizational behavior interpersonal behavior and personality traits
concepts
CO 3 Utilize various stress and emotional organizational behavior concepts
models and theories to real life management situations through case analysis
CO 4 Make use of organizational communication and organization culture to
understanding of organizational communication and culture to cope up with
the organization better way
CO 5 Classify the different groups and teams in the organization and its features
for dealing these groups in a good way for better result and motivate them
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 1 - 1 -
CO2 (K3) - - - - - - - - - 1 - 1
CO3 (K4) - - - - - - - - 1 - - -
CO4 (K3) - - - - - - - - - 1 1 -
CO5 (K3) - - - - - - - - - 1 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 121
UNIT-I
Organizational Behavior Concept of Organizational Behavior (OB)-
Importance of Organizational Behaviour- Key Elements of Organizational
Behavior Role of Managers in OB- Interpersonal Roles-Informational Roles-
Decisional Roles Foundations or Approaches to Organizational Behavior
Challenges and Opportunities for OB
UNIT-II
Interpersonal Behavior Nature and meaning of Interpersonal Behavior
Concept of Self Transaction Analysis (TA) Benefits and uses of Transactional
Analysis Johari Window Model
Personality Definition and Meaning of Personality - Importance of Personality
Determinants of Personality Theories of Personality Personality Traits
Influencing OB
UNIT-III
Emotions Nature and Meaning of Emotions - Characteristics of Emotions
Theories of Emotions Emotions in the Context of OB
Organizational Stress Definition and Meaning Sources of Stress Types of
Stress Impact of Stress on Organizations Stress Management Techniques
UNIT-IV
Organizational Communication Meaning and Importance of Communication
FunctionsprocesstypesInterpersonalCommunicationOrganizational
Communication Tips for Effective Communication
Organization Culture Meaning and Nature of Organization Culture - Origin of
Organization Culture Functions of Organization Culture Types of Culture
Creating and Maintaining Organization Culture Managing Cultural Diversity
UNIT-V
Groups and Teams Meaning and Importance of Groups Reasons for Group
Formation Types of Groups Stages of Group Development Meaning and
Importance of Teams Types of Teams Creating an Effective Team
Text Books
1 K Ashwathappa Organizational Behavior Himalaya Publishing House 2005
2 DrPSubba Rao and Prof NSambasiva RaordquoManagement and Organizational
Behaviour - (Text and Cases)rdquo Himalaya Publishing House Mumbai
Reference Books
1 Udai Pareek Understanding Organisational Behaviour 2nd Edition Oxford
Higher Education 2004
2 Mc Shane amp Von Glinov Organisational Behaviour 4th Edition Tata Mc Graw
Hill 2007
3 Anjali Ghanekar Organizational Behavior Everest Publications 2001
4 PareekUdai ldquoUnderstanding Organizational Behaviorrdquo Oxford University Press
New Delhi 2007
Web Links
1 httpswwwyoutubecomwatchv=JIa7vP3gyL4
2 httpswwwyoutubecomwatchv=-sLHfYnxh8samplist =PLbMVog Vj5Njqyx
oO3foSZ6CrU7aCCwTsb
3 httpswwwyoutubecomwatchv=YIyjkkUk80w
AR19 Mechanical Engineering
Aditya Engineering College (A) 122
BASIC CONCRETE TECHNOLOGY (Open Elective ndashI)
V Semester L T P C
Course Code 191CE5O01 3 0 0 3
Course Objectives
COB 1 To teach the students about the properties of ingredients in concrete
COB 2 To enable the student understand different types and properties of aggregate
COB 3 To make the students to study the behaviour of concrete as its fresh and
hardened state
COB 4 To impart the students with the knowledge on quality control of concrete
COB 5 To illustrate the concept of special concrete and their use
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the basic concepts of concrete
CO 2 Explain the properties of ingredients of concrete
CO 3 Select the suitability of different types of aggregate for their use
CO 4 Explain about fresh Concrete hardened concrete
CO 5 Illustrate the concept of special concrete and their use
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K2) 2 1 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Cement amp Admixtures
Portland cement ndash Chemical composition ndashHydration Setting of cement Fineness of
cementndash Test for physical properties ndash Different grades of cements ndashAdmixtures ndash
Mineral and chemical admixtures ndash accelerators retarders air entrainers plasticizers
super plasticizers fly ash and silica fume
UNIT-II
Aggregates
Classification of aggregate ndash Particle shape amp texture ndash Bond strength amp other
mechanical properties of aggregates ndash Specific gravity Bulk density porosity adsorption
amp moisture content of aggregate ndash Bulking of sand ndashDeleterious substance in aggregate ndash
Soundness of aggregatendash Thermal properties ndash Sieve analysis ndash Fineness modulus ndash
Grading curves ndash Grading of fine amp coarse Aggregates ndash Gap graded and well graded
AR19 Mechanical Engineering
Aditya Engineering College (A) 123
aggregate as per relevant IS code ndash Maximum aggregate size Quality of mixing water
UNIT-III
Fresh Concrete
Steps in Manufacture of Concretendashproportion mixing placing compaction finishing
curing ndash including various types in each stage Properties of fresh concrete-Workability ndash
Factors affecting workability ndash Measurement of workability by different tests Effect of
time and temperature on workability ndash Segregation amp bleeding
UNIT-IV
Hardened Concrete
Nature of strength of concretendash Factors affecting strength ndash Relation between compression
amp tensile strength ndashTesting of Hardened Concrete Compression tests ndash Tension tests ndash
Flexure tests ndashSplitting tests ndash Non-destructive testing methods
UNIT-V
Special Concretes
Light weight aggregate concrete Cellular concrete No-fines concrete High density
concrete Fiber reinforced concrete Different types of fibers Factors affecting properties
of FRC Polymer concrete Types of Polymer concrete Properties of polymer concrete
High performance concrete ndash Self consolidating concrete SIFCON self healing concrete
Recycled concrete Shotcrete
Text Books
1 Concrete Technology MSShetty Chand Publication 6th Edition 2010
2 Concrete Technology Theory and Practice ML Gambhir McGraw Hill 4th Edition
2009
3 Concrete Microstructure Properties and Materials Kumar Mehta and Paulo JM
Monteiro McGraw Hill 3rd Edition 2006
Reference Books
1 Properties of Concrete AM Neville Pearson 2004
2 Concrete Technology AM Neville and JJ Brooks Pearson 2004
3 Concrete S Mindess and JF Young Prentice-Hall 1981
4 Concrete Technology AR Santhakumar Oxford 2007
Web Links
1 httpsnptelacincourses105102012
2 wwwbrighthubengineeringcom rsaquo Concrete Technology
3 httpswwwmaterialsworldmodulesorgindexphpweb-links-sumitted-by-
members
4 httpswwwfhwadotgovresourcecenterteamsconstructionlinkscfm
5 wwwalmahrooscomindexphpfrcomponenttagstag17-concrete-technology
AR19 Mechanical Engineering
Aditya Engineering College (A) 124
ELECTRICAL SAFETY (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O01 3 0 0 3
Course Objectives
COB 1 To help the students to know about electrical hazards
COB 2 To help the students to know about various grounding techniques
COB 3 To help the students to know about safety procedures
COB 4 To help the students to know about various electrical maintenance techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe electrical hazards and safety equipment
CO 2 Analyze and apply various grounding and bonding techniques
CO 3 Select appropriate safety method for low medium and high voltage equipment
CO 4 Participate in a safety team
CO 5 Carry out proper maintenance of electrical equipment by understanding
various Standards
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 3 1 3 1 - - - - - - - -
CO2 (K4) 3 3 3 - - - - - - - - -
CO3 (K3) 3 2 3 1 - - - - - - - -
CO4 (K3) - - 3 - - - - - - - - -
CO5 (K2) 3 1 3 1 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Hazards of Electricity and Electrical Safety Equipment
Primary and secondary hazards- arc blast shocks-causes and effects-safety equipment-
flash and thermal protection head and eye protection-rubber insulating equipment hot
sticks insulated tools barriers and signs safety tags locking devices- voltage measuring
instruments- proximity and contact testers-safety electrical one line diagram- electricianrsquos
safety kit
UNIT-II
Grounding of Electrical Systems and Equipment
General requirements for grounding and bonding- definitions- grounding of electrical
equipment-bonding of electrically conducting materials and other equipment-connection
of grounding and bonding equipment- system grounding- purpose of system grounding-
grounding electrode system- grounding conductor connection to electrodes-use of
grounded circuit conductor for grounding equipment- grounding of low voltage and high
AR19 Mechanical Engineering
Aditya Engineering College (A) 125
voltage systems
UNIT-III
Safety Procedures and Methods
The six step safety methods- pre job briefings - hot-work decision tree-safe switching of
power system- lockout-tag out- flash hazard calculation and approach distances-
calculating the required level of arc protection-safety equipment procedure for low
medium and high voltage systems- the one minute safety audit
UNIT-IV
Safety Management and Organizing Structure
Electrical safety program structure development- company safety team- safety policy
program implementation- employee electrical safety teams- safety meetings- safety audit
accident prevention- first aid- rescue techniques-accident investigation
UNIT-V
Electrical Maintenance and Legal Safety Requirements and Standards
Safety related case for electrical maintenance- reliability centered maintenance (RCM) -
eight step maintenance program- frequency of maintenance- maintenance requirement for
specific equipment and location- regulatory bodies- national electrical safety code-
standard for electrical safety in work place- occupational safety and health administration
standards Indian Electricity Acts related to Electrical Safety
Text Books
1 Electrical Safety Handbook by John Cadick Mary Capelli-Schellpfeffer Dennis
Neitzel Al Winfieldrsquo McGraw-Hill Education 4 th Edition
Reference Books
1 lsquoElectrical Safety- a guide to the causes and prevention of electric hazards by
Maxwell AdamsJrsquo The Institution of Electric Engineers IET
2 Electrical Safety in the Workplace by Ray A Jones Jane G Jones Jones amp Bartlett
Learning
Web Links
1 httpnptelacincourses1031060715 2 httpswwwelectricalsafetyfirstorguk
2 httpsnptelacincourses1131071131070
3 httpsnptelacincourses1221021221020
AR19 Mechanical Engineering
Aditya Engineering College (A) 126
ELECTRICAL MATERIALS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O02 3 0 0 3
Course Objectives
COB 1 To enable the students study various types of dielectric materials their
properties in various conditions
COB 2 To assist the students to Know the magnetic materials and their behaviour
COB 3 To assist the students to Know the semiconductor materials and technologies
COB 4 To help the students acquire the Knowledge on Materials used in electrical
engineering and applications
COB 5 To help the students acquire the Knowledge on special purpose Materials used
in electrical engineering
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify various types of dielectric materials their properties in various
conditions
CO 2 Analyze magnetic materials and their behaviour
CO 3 Evaluate semiconductor materials and technologies
CO 4 Develop Knowledge on Materials used in electrical engineering and
applications
CO 5 Acquire Knowledge on special purpose Materials used in electrical engineering
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2
CO2 (K4) 3 3
CO3 (K5) 3 3
CO4 (K3) 3 2
CO5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Dielectric Materials
Dielectric as Electric Field Medium leakage currents dielectric loss dielectric strength
breakdown voltage breakdown in solid dielectrics flashover liquid dielectrics electric
conductivity in solid liquid and gaseous dielectrics Ferromagnetic materials properties
of ferromagnetic materials in static fields spontaneous polarization curie point anti-
ferromagnetic materials piezoelectric materials pyroelectric materials
UNIT-II
Magnetic Materials
Classification of magnetic materials spontaneous magnetization in ferromagnetic
AR19 Mechanical Engineering
Aditya Engineering College (A) 127
materials magnetic Anisotropy Magnetostriction diamagnetism magnetically soft and
hard materials special purpose materials feebly magnetic materials Ferrites cast and
cermet permanent magnets ageing of magnets Factors effecting permeability and
hysteresis
UNIT-III
Semiconductor Materials
Properties of semiconductors Silicon wafers integration techniques Large and very large
scale integration techniques (VLSI)
UNIT-IV
Materials for Electrical Applications
Materials used for Resistors rheostats heaters transmission line structures stranded
conductors bimetals fuses soft and hard solders electric contact materials electric
carbon materials thermocouple materials Solid Liquid and Gaseous insulating materials
Effect of moisture on insulation
UNIT-V
Special Purpose Materials
Refractory Materials Structural Materials Radioactive Materials Galvanization and
Impregnation of materials Processing of electronic materials Insulating varnishes and
coolants Properties and applications of mineral oils Testing of Transformer oil as per
ISI
Text Books
1 A course in Electrical Engineering Materials by R K Rajput Laxmi Publications
2 A course in Electrical Engineering Materials by T K Basak New Age Science
Publications
Reference Books
1 Electrical Engineering Materials by TTTI Madras McGraw Hill Education
2 Electrical Engineering Materials by Adrianus J Dekker PHI Publication
3 A course in Electrical Engineering Materials by S P Seth P V Gupta Dhanpat
Rai amp Sons
Web Links
1 httpsnptelacincourses113102113102080
2 httpsnptelacincourses113107113107078
3 httpsnptelacincourses122102122102008
AR19 Mechanical Engineering
Aditya Engineering College (A) 128
BASIC ELECTRICAL MEASURMENTS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 3 0 0 3
Course Objectives
COB 1 To equip the student with the knowledge of different types of instruments
COB 2 To equip the student with the knowledge of different types of instruments for
measurements of voltage current power ampenergy
COB 3 To make the student understand various types of bridges for measurement of
parameters-resistance inductance capacitance and frequency
COB 4 To help the students learn the knowledge of the Transducers and Sensors
COB 5 To help student acquire knowledge on applications of CRO for measurement
of frequency phase difference and hysteresis loop using Lissajous patterns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the behaviour of different types of torques in instruments
CO 2 Apply the right type of instrument for measurement of voltage current power
ampenergy
CO 3 Develop the suitable bridge for the measurement of electrical parameters
CO 4 Analyze the behaviour of different types of Transducers and Sensors
CO 5 Explain frequency and phase difference between signals using CRO
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) 1
CO2 (K5) 1
CO3 (K4) 1
CO4 (K4) 1
CO5 (K5) 1
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Basics of Measuring instruments
List of important electrical quantities to be measured their units and the names of the
instruments to measure them- Classification of instruments - different types of torques
(Deflection Controlling and Damping torques) in the indicating instruments-definitions
of accuracy precision error resolution and sensitivity-types of error
UNIT-II
Electromechanical Measuring Instruments
MC and MI types of Ammeters and Voltmeters - their Construction and working- shunts
and multipliers for MC instruments - Dynamometer type Ammeter Voltmeter and
Wattmeterndashconstruction working errors- Measurement of energy ndashsingle phase
AR19 Mechanical Engineering
Aditya Engineering College (A) 129
Induction type energy meter- Construction and working
UNIT-III
Measurements of Parameters
Classification of resistance- List of methods of measurement of resistance-Wheat stonersquos
bridgendash Kelvinrsquos double bridge for measuring low resistance- Loss of charge method for
measurement of inductance ndashQuality Factor ndashMaxwellrsquos bridge-Hayrsquos bridge-
Measurement of capacitance and loss angle ndash Desauty Bridge ndash Schering
Bridge(elementary treatment only)
UNIT-IV
Transducers
Definition of transducer-need of transducer-Classification of Transducers ndash Factor
influencing while its selection -Applications of Transducers ndashThermocouple- Thermister-
working principle and use of Strain Gauge- construction working and use of LVDT Basic
Concept of Sensors and its applications
UNIT-V
Electronic amp Digital Instruments
Digital voltmeter ndash Successive approximation ndash Frequency ndash Hysteresis loop using
lissajious patterns in CRO ndash Ramp and integrating type ndashDigital multimeter ndashDigital
Tachometer
Text Books
1 A course in Electrical Measurements Electronic Measurements Instrumentation A K
Sawhney 11th Edition DhanpatRai and Sons
2 A course in Electrical and Electronic Measurements and Instrumentation J B Gupta
13th EditionSK Kataria and Sons
Reference Books
1 Electrical Measurements ndash by Buckingham and Price Prentice ndash Hall Electrical
Measurements by Forest K Harris John Wiley and Sons
2 Electrical Measurements Fundamentals Concepts Applications ndash by Reissland
MU New Age International (P) Limited Publishers
3 Electrical and Electronic Measurements ndashby GKBanerjee PHI Learning Private
Ltd New Delhi
Web Links
1 httpnptelacincourses10810505342
2 httpnptelacinsyllabus108106070
3 httpnptelacincourses108106070
AR19 Mechanical Engineering
Aditya Engineering College (A) 130
ENTREPRENEURSHIP DEVELOPMENT AND INCUBATION (Open Elective-I)
V Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make aware of the various concepts of entrepreneurship
COB 2 To help in understanding and apply the business plan of entrepreneurship
development
COB 3 To help in analyzing and apply the Institutions that are supporting to
Entrepreneurship Development
COB 4 To helps in understanding of entrepreneurship opportunities internationally
COB 5 To understand and apply the studentrsquos capital investments in association
with business incubations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe the meaning and concepts of entrepreneurship development
CO 2 Apply the business plan for preparation and evaluation of project
CO 3 Research on Institutional Support to Entrepreneur and MSMEs
CO 4 Apply the Opportunities of Entrepreneurship Internationally
CO 5 Research on Venture capital amp Risk for entrepreneurship socially
incubations
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - 1 2 - - 2 -
CO2 (K3) - - - - - 1 2 - - 2 -
CO3 (K4) - - - - - 3 3 - - 3 2
CO4 (K3) - - - - - 3 3 - - 3 2
CO5 (K3) - - - - - 1 2 - - 2 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - - CO2 (K3) - - - CO3 (K4) - - - CO4 (K3) - - - CO5 (K3) - - -
UNIT-I
Entrepreneur ampEntrepreneurship Meaning of entrepreneur - Evolution of the
concept - Functions of an Entrepreneur - Types of Entrepreneur - Intrapreneur- an
emerging class - Concept of Entrepreneurship - Evolution of Entrepreneurship -
Development of Entrepreneurship - Entrepreneurial Culture - Stages in entrepreneurial
process
UNIT-II
Business Planning Process Meaning of business plan - Business plan process -
Advantages of business planning - Marketing plan - Productionoperations plan -
Organization plan - Financial plan - Final Project Report with Feasibility Study -
AR19 Mechanical Engineering
Aditya Engineering College (A) 131
preparing a model project report for starting a new venture
UNIT-III
Institutions supporting Entrepreneurs Small industry financing developing countries
- A brief overview of financial institutions in India - Central level and state level
institutions - SIDBI - NABARD - IDBI - SIDCO - Indian Institute of Entrepreneurship
- DIC - Single Window - Latest Industrial Policy of Government of India
UNIT-IV
International Entrepreneurship Opportunities The nature of international
entrepreneurship - Importance of international business to the firm - International versus
domestic entrepreneurship - Stages of economic development - Entrepreneurship entry
into international business - exporting - Direct foreign investment - barriers to
international trade
UNIT-V
Informal Risk Capital and Venture Capital Informal risk capital market - venture
capital - nature and overview - venture capital process - locating venture capitalists -
approaching venture capitalists Social Entrepreneurship Social enterprise-need - types
- characteristics and benefits of social enterprises-Social entrepreneurship - Rural
entrepreneurship MSME Policies Make-In India Start-Up India Stand-Up India
Text Books
1 Arya Kumar ldquoEntrepreneurshiprdquo Pearson Publishing House New Delhi 2012
2 VSP Rao Kuratko ldquoEntrepreneurshiprsquo Cengage Learning New Delhi2011
3 KRamachandran ldquoEntrepreneurship Developmentrdquo TMH New Delhi 2012
Reference Books
1 BJanakiram M Rizwana ldquoEntrepreneurship Developmentrdquo Excel Books New
Delhi 2011
2 Rajeev Roy ldquoEntrepreneurshiprdquo Oxford University Press New Delhi2012
3 PCShejwalkar ldquoEntrepreneurship Developmentrdquo Everest Publishing House
New Delhi 2011
4 RH Hisrich MP Peters and DA Shepherd ldquoEntrepreneurshiprdquo Mc Graw
Hill Irwin 8th Edition 2010
5 Ryszard Praszkieramp Andrzej Nowak ldquoSocial Entrepreneurship Theory and
Practice Paperback ndash Illustratedrdquo Cambridge University Press New York-
February 2 2012
Reference Books
1 httpnptelacincourses
2 httpswwwtutorialspointcom
3 httpswwwediindiaorg
4 httpwwwquickmbacomentre
5 httpswwwscribdcomdocument150087992Entrepreneurship-Chapter-12-
Informal-Risk-Capital
AR19 Mechanical Engineering
Aditya Engineering College (A) 132
SIGNALS AND SYSTEMS
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O01 3 0 0 3
Course Objectives
COB 1 To introduce the concepts associated with signals and systems
COB 2 To familiarize the concepts of transform based continuous time and discrete
time analysis of signals and systems
COB 3 To prepare the students to analyze the characteristics of LTI systems using
different mathematical tools
COB 4 To create awareness on frequency transformation techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Categorize signals and systems based on their characteristics
CO 2 Demonstrate the spectral characteristics of signals using Fourier series
CO 3 Demonstrate the spectral characteristics of signals using Fourier Transform
CO 4 Identify system characteristics in time domain and frequency domain
CO 5 Apply Laplace transform techniques for the analysis of continuous time
signals and Systems
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 3 1 - - - - - - - - - -
CO 2(K2) 2 1 - - - - - - - - - -
CO 3(K3) 3 2 1 1 - - - - - - - -
CO 4(K3) 3 2 1 1 - - - - - - - -
CO 5(K4) 3 3 2 2 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Signals Classification of Signals Different deterministic signals
impulse step ramp gate signum sinc sinusoidal exponential complex exponential
Basic Operations on signals
UNIT-II
Fourier Series Representation of Fourier series for continuous time periodic signals
Trigonometric Fourier series and Exponential Fourier series Dirichletrsquos conditions
properties of Fourier series Complex Fourier spectrum Applications of Fourier series
UNIT-III
Fourier Transform Deriving Fourier Transform (FT) from Fourier series Fourier
transform of arbitrary signal Fourier transform of standard signals Fourier transform of
AR19 Mechanical Engineering
Aditya Engineering College (A) 133
periodic signals properties of Fourier transforms Fourier transforms involving impulse
function and Signum function Applications of Fourier Transforms Convolution and itrsquos
properties
UNIT-IV
Signal Transmission Through LTI Systems Classification of Systems Impulse
response and step response of LTI systems Transfer function of an LTI system Filter
characteristics of LTI systems Distortion less transmission through a system Ideal LPF
HPF and BPF characteristics Causality and Paley-Wiener criterion for physical
realization Signal bandwidth system bandwidth relationship between bandwidth and
rise time
UNIT-V
Laplace Transforms Review of Laplace transform (LT) Existence of Laplace
transform Concept of region of convergence (ROC) for Laplace transforms constraints
on ROC for various classes of signals Properties of Laplace transforms relation between
LTs and FT of a signal Inverse Laplace transform applications of Z Transform
Text Books
1 Signals and Systems - AV Oppenheim AS Willsky and SH Nawab PHI
2nd Edition 2016
2 Signals Systems amp Communications - BP Lathi BS Publications 2003
3 Signals and Systems ndash A Anand Kumar PHI 4th Edition 2017
Reference Books
1 Signals amp Systems - Simon Haykin and Van Veen Wiley 2nd Edition
2 Fundamentals of Signals and Systems- Michel J Robert MGH Int Edition 2008
3 Signals and Systems K Raja Rajeswari B Visweswara Rao PHI 2009
Web Links
1 httpsfreevideolecturescomcourse3540signals-and-systems-i
2 httpnptelacincourses117104074
3 httpnptelacincourses117101055
4 httpswwwtutorialspointcomsignals_and_systemsindexhtm
5 httpsocwmiteduresourcesres-6-007-signals-and-systems-spring-2011
AR19 Mechanical Engineering
Aditya Engineering College (A) 134
DIGITAL ELECTRONICS AND LOGIC DESIGN (Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O02 3 0 0 3
Course Objectives
COB 1 To make the students understand different number representations
COB 2 To make the students study the minimization techniques for logic optimization
COB 3 To equip the students design combinational logic circuits
COB 4 To make the students design Programmable Logic Device(PLD)
COB 5 To impart the knowledge on sequential circuits
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret numeric information in different code formats
CO 2 Develop optimized logic by using various optimization algorithms
CO 3 Construct various combinational logic circuits for required specifications
CO 4 Build different Programmable Logic Device for required specifications
CO 5 Build different sequential logic circuits for required specifications
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 3 3 - - - - - - - - -
CO4 (K4) 3 3 3 - - - - - - - - -
CO5 (K4) 3 3 3 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Digital Electronics amp its Usage
Number Systems Representation of numbers of different radix conversation from one
radix to another radix r-1rsquoscompliments and rrsquos compliments of signed numbers
problem solving
Binary Codes 4bit codes BCD Excess-3 2421 84-2-1 9rsquos compliment code etc error
detection amp correction codes Gray code error detection error correction codes (parity
checking even parity odd parity Hamming code)
UNIT-II
Boolean Algebra ampMinimization Techniques Basic logic operations NOTOR AND
Universal building blocks EX- OR EX-NOR Gates NAND-NAND and NOR-NOR
realizations Boolean theorems principle of complementation amp duality De-Morgan
theorems minimization of logic functions using Boolean theorems minimization of
switching functions using K-Map up to 6 variables tabular minimization
AR19 Mechanical Engineering
Aditya Engineering College (A) 135
UNIT-III
Combinational Logic Circuits Design of Half adder full adder half Sub-tractor full
sub-tractor applications of full adders 4-bit binary sub-tractor adder-sub-tractor circuit
BCD adder circuit Excess 3 adder circuit look-a-head adder circuit Design of decoder
demultiplexer7segment decoder higher order de-multiplexing encoder multiplexer
higher order multiplexing priority encoder 4-bit digital comparator
UNIT-IV
Programmable Logic Devices amp Sequential Circuits
Introduction to PLDrsquos PROM PAL PLA-Basics structures realization of Boolean
function with PLDs programming tables of PLDs merits amp demerits of PROM PAL
PLA comparison realization of Boolean functions using PROM PAL PLA
programming tables of PROM PAL PLA
UNIT-V
Sequential Circuits Classification of sequential circuitsbasic flip-flops truth tables and
excitation tables (NAND RS latch NOR RS latch RS flip-flop JK flip-flop T-flip-flop
D-flip-flop with reset and clear terminals) Conversion from one flip-flop to another flip-
flop Design of synchronous counters Johnson counter ring counter Design of registers
- Buffer register control buffer register shift register bi-directional shift register
universal shift register
Text Books
1 Switching Theory and Logic Design A Anand Kumar Pearson 3rd Edition 2013
2 Digital Design Morris Mano Pearson 3rd Edition 2002
Reference Books
1 Modern Digital Electronics RP Jain Tata Mc Graw Hill 4th Edition 2010
2 Introduction to Switching Theory and Logic Design Fredriac J Hill Gerald R
Peterson 3rd Edition John Wiley amp Sons Inc 1982
3 Fundamentals of Logic Design Charles H Roth Jr Jaico Publishers 2004
Web Links
1 httpswwwnptelacincourses1171060861Kuruvilla VargheseDESEInstitute of
Science
2 wwwnptelvideosin201212digital-circuits-and-systemshtmlProf S Srinivasan
Department of Electrical Engineering IIT Madras
AR19 Mechanical Engineering
Aditya Engineering College (A) 136
SEMICONDUCTOR DEVICES
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O03 2 1 0 3
Course Objectives
COB 1 To make the students understand the physical phenomenon such as
construction transport mechanism and characteristics of diodes
COB 2 To familiarize the students with the operation and characteristics of
Transistor
COB 3 To make the students understand the construction and operation of FET and
MOSFET
COB 4 To impart knowledge on basics of special semiconductor devices
COB 5 To make the students understand physical and technical base of sensors
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret the characteristics of semiconductor diodes
CO 2 Apply the knowledge of semiconductors to illustrate the functioning of BJT
CO 3 Demonstrate the switching and amplification Application of FET
CO 4 Classify the semiconductor devices for special Applications
CO 5 Identify the sensor types used in various applications and explain their
principle of operation
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 2 1 - - - - - - - - - -
CO 2(K3) 3 2 1 - - - - - - - - -
CO 3(K2) 2 1 - - - - - - - - - -
CO 4(K2) 2 1 - - - - - - - - - -
CO 5(K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
PN junction Diode Theory and Operation of PN junction diode V-I characteristics
Application of diode as Rectifier Clipper and Clamper
Zener diode Principle V-I characteristics Zener breakdown and Avalanche breakdown
Zener diode as a voltage regulator
UNIT-II
BJT Construction and operation of a transistor characteristics of transistor in Common
Base Common Emitter and Common Collector configurations transistor as a switch
transistor as an amplifier
AR19 Mechanical Engineering
Aditya Engineering College (A) 137
UNIT-III
FET Construction and operation of FET Characteristic of FET low frequency model of
FET FET as a switch and an amplifier MOSFET Characteristics (enhancement and
depletion mode)
UNIT-IV
Special Semiconductor Devices LED LCD Photo transistor Tunnel diode Varactor
diode Opto coupler solar cell Charged Coupled Device
UNIT-V
bull Sensors Temperature Sensor Proximity Sensor Sensistor Thermistor LDR Flame
Sensor Humidity sensor NEMSMEMS
Text Books
1 DNeamen and DBiswa ldquoSemiconductor physics and devicesrdquo McGraw Hill
Education2017
2 J Millman C Halkias Electronic Devices and Circuits Tata Mc-Graw Hill 2nd
Edition 2007
3 Clarence W de Silva ldquoSensors and Actuators Engineering System Instrumentationrdquo
CRC press second edition 2015
Reference Books
1 Umesh Mishra and Jasprit Singh ldquoSemiconductor Device Physics and Designrdquo
Springer2008
2 A A Balandin and K L Wang Handbook of Semiconductor Nanostructures and
Nanodevices Grainger 2006
3 WRFahrner ldquoNanotechnology and Nanoelectronics ndash Materials Devices
andMeasurement Techniquesrdquo Springer 2006
Web Links
1 httpsfreevideolecturescomcourse4277nptel-fundamentals-semiconductor-
devices58
2 httpswwwcourseraorgspecializationssemiconductor-devices
3 httpsnptelacincourses108108108108112 Prof Sanjiv Sambandan
AR19 Mechanical Engineering
Aditya Engineering College (A) 138
DATA STRUCTURES (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To make the students learn the basic Concepts of Data Structures and
algorithms
COB 2 To enable the students to analyze the various Searching and Sorting
techniques
COB 3 To provide knowledge on Stacks and Queues
COB 4 To impart knowledge on list and its applications
COB 5 To discuss the various operations of Trees
COB 6 To demonstrate the Graph Traversal Techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate time and space complexities of an algorithm
CO 2 Apply various searching and sorting techniques to solve computing
problems
CO 3 Make use of linear data structures to solve real time problems
CO 4 Develop applications using Tree Data Structures
CO 5 Solve problems using Graph Algorithms
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 - - - - - - -
CO2 (K3) 3 2 - - 3 - - - - - - -
CO3 (K3) 3 2 - - 3 - - - - - - -
CO4 (K3) 3 2 - - 3 - - - - - - -
CO5 (K3) 3 2 - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Basic Concepts Pseudo code Algorithm analysis Time and Space
Complexity
Introduction to Data Structures Definition Classification and Operations on Data
Structures
Searching Linear search Binary search
Sorting Bubble Sort Insertion Sort Selection Sort Quick Sort Merge Sort Radix
Sort
AR19 Mechanical Engineering
Aditya Engineering College (A) 139
UNIT-II
Stacks Introduction Array Representation of Stacks Operations and Implementation
Applications of Stacks-Reversing list Infix to Postfix Conversion Evaluating Postfix
Expressions
Queues Introduction Array Representation of Queues Operations and
Implementation Types of Queues Circular Queues and Dequeues Application of
Queues
UNIT-III
Linked Lists Introduction Singly linked list Operations on Singly Linked list -
Insertion Deletion Doubly linked list - Insertion Deletion Circular linked list-
Insertion Deletion Linked Representation of Stacks and Queues Applications of
Linked lists-Addition of Polynomials Sparse Matrix Representation using Linked List
UNIT-IV
Trees Basic Terminology in Trees Representation of Binary Trees using Arrays and
Linked lists Traversing a Binary Tree(In-Order Pre-Order Post-Order)Expression
Trees
Binary Search Trees Definition Operations Searching Insertion Deletion
UNIT-V
Graphs Introduction Graph Terminology Representation of Graphs-Adjacency
Matrix and using Linked list Graph Traversals Minimum Spanning Tree Using Prims
amp Kruskals Algorithm Dijkstrarsquos Shortest Path Warshallrsquos Algorithm Transitive
Closure (Algorithmic Concepts Only No Programs required)
Text Books
1 Data Structures Using CReema Thareja Oxford University Press
2 Data Structures and Algorithm Analysis In C Mark Allen Weiss2nd Edition
Reference Books
1 Fundamentals of Data Structure in C Horowitz Sahni Anderson Freed 2nd
Edition University Press2008
2 Data Structures Richard F Gilberg Forouzan 2E Cengage Learning
3 Data Structures and Algorithms G AVPai TMH2008
Web Links
1 httpnptelacincourses106102064
2 httpalgs4csprincetoneduhome
3 httpsfacultywashingtonedujstraubdsaMaster_2_7apdf
4 httpwwwudacitycom
5 httpwwwcourseeracom
AR19 Mechanical Engineering
Aditya Engineering College (A) 140
OBJECT ORIENTED PROGRAMMING THROUGH C++ (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To enable the students to learn the common concepts of Camp C++
COB 2 To illustrate the object oriented principles and their implementation in C++
COB 3 To impart the knowledge on classes objects member functions constructors
destructors and how to overload functions and operators in C++
COB 4 To make the students learn applications of inheritance
COB 5 To facilitate the students to write various programs using virtual functions
and Polymorphism
COB 6 To demonstrate Generic Programming with Templates
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare and contrast object oriented programming and procedural oriented
programming
CO 2 Summarize the OOPS concepts
CO 3 Make use of constructor and destructor to initialize and destroy class objects
CO 4 Develop programs using virtual functions and Polymorphism
CO 5 Apply inheritance to build real time applications
CO 6 Apply Exception handling mechanism to handle runtime errors
CO 7 Develop C++ classes with templates and STL
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - 3 - - 1 - - - - - - -
CO2 (K2) 2 1 - - 2 - - - - - - -
CO3 (K3) 3 - 1 - - - - - - - - -
CO4 (K3) 3 2 1 1 3 - - - - - - -
CO5 (K5) 3 3 3 3 3 3 - - - - - -
CO6 (K3) 3 2 1 1 - - - - - - - -
CO7 (K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
An Overview of C++ Difference between C and C++ The Origins of C++ Key
Concepts of Object Oriented Programming A Sample C++ Program Old Style vs
Modern C++ Namespaces
Classes and Objects Classes Declaring Objects Access Specifiers and their Scope
Defining Member Function Friend functions Inline Functions Static Member Variable
Static Member Function Constructors and Destructors Scope Resolution Operator
Nested class
AR19 Mechanical Engineering
Aditya Engineering College (A) 141
UNIT-II
Function Overloading Copy Constructor and Default Arguments Function
Overloading Constructor Overloading Constructor with Arguments Copy Constructor
Default Function Arguments Anonymous Objects Array of Objects
Operator Overloading Creating a Member Operator Function Operator Overloading
using Friend function Overloading Special Operators
UNIT-III
Inheritance Base Class Access Control Inheritance and protected Members Types of
Inheritance Pointer to Class Pointer Object The this Pointer Pointer to Derived Classes
and Base Class Virtual Base Classes Object as a Class Member Advantages and
Disadvantages of Inheritance
Virtual Functions and Polymorphisms Virtual Functions Rules for Virtual Function
Pure Virtual Functions Using Virtual Functions Virtual Destructor Early Vs Late
Binding
UNIT-IV
Templates Generic Functions Applying Generic Functions Generic Classes Power
of Templates Difference between Templates and Macros
Exception Handling Exception Handling Fundamentals Handling Derived Class
Exceptions Exception Handling Options Applying Exception Handling
UNIT-V
Introducing the Standard Template Library An Overview of STL Container
Classes Sequence Containers Associative Containers Vectors Lists Maps
Algorithms
Text Books
1 The Complete Reference C++ Herbert Schildt Fourth Edition TMH 2003
2 The C++ Programming Language Bjarne Stroustrup Fourth Edition Pearson
2014
Reference Books
1 A First Book Of C++ Gary Bronson Fourth Edition Cengage Learning 2012
2 C++ Primer Plus By Stephen Prata Sixth Edition Pearson 2011
3 Object Oriented Programming In C++ By E Balagurusamy Sixth Edition Tata
Mcgraw Hill 2013
4 Object Oriented Programming Using C++ Joyce Farrell Fourth Edition
CengageLearning 2008
5 C++ ProgrammingFrom Problem Analysis To Program Design Ds Malik
Eighth Edition Cengage Learning 2017
Web Links
1 httpsinudacitycomcoursec-for-programrs--ud210
2 httpswwwcourseraorgcoursesquery=c2B2B
3 httpnptelacincourses106105151
4 httpswwwjavatpointcomcpp-oops-concepts
5 httpswwwtutorialspointcomcplusplus
AR19 Mechanical Engineering
Aditya Engineering College (A) 142
JAVA PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O03 2 1 0 3
Course Objectives
COB 1 To make students understand object oriented programming concepts and
apply them in solving problems
COB 2 To provide knowledge on classes inheritance interfaces and packages
COB 3 To facilitate students in handling exceptions and multithreading
COB 4 To impart the knowledge on Input Output concepts and applets
COB 5 To enable the students develop standalone applications using AWT and
Swings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply object oriented programming features and concepts for solving given
problem
CO 2 Solve real time problems using the concepts of class inheritance interface and
packages
CO 3 Test for runtime exceptions arise in java applications
CO 4 Develop real time applications using multithreading and IO streams
CO 5 Develop GUI applications using event handlers adapter classes AWT and
Swing components
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 2 2 - 1 - - - - - - -
CO2 (K3) 2 2 3 - 2 - - - - - - -
CO3 (K4) 2 2 3 - 3 - - - - - - -
CO4 (K3) 2 2 3 2 3 - - - - - - -
CO5 (K3) 2 2 3 2 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Java History of Java Java features JVM architecture Classes and objects Program structure methods Passing arguments through command line Building Blocks of Java Variables primitive data types identifiers literals Operators
expressions primitive type conversion and casting flow of control
UNIT-II
Introduction to Classes Class declaration creating objects constructors Method
Overloading constructor overloading garbage collector importance of static keyword
and examples this keyword Arrays Strings nested classes
AR19 Mechanical Engineering
Aditya Engineering College (A) 143
Inheritance amp Interfaces Inheritance- types of inheritance super keyword final keyword overriding Interfaces- Defining an interface Implementing interfaces through classes Multiple inheritance through interfaces abstract class Packages Creating the packages using packages importance of CLASSPATH Access
Specifiers javalang package
UNIT-III
Exception Handling Exception handling importance of try catch throw throws and
finally block user defined exceptions Multithreading Introduction thread life cycle
creation of threads thread priorities thread synchronization communication between
threads
UNIT-IV
Input Output Byte Streams and Character Streams Predefined Streams Reading Console inputs- Reading characters Reading Strings Reading and writing Files Event Handling Event delegation model sources of event Event Listeners adapter
classes inner classes
UNIT-V
AWT Introduction components and containers Button Label Checkbox Radio Buttons List Boxes Choice Boxes Container class Layouts Menu and Scrollbar Swing Introduction Swing Components- JFrame JPanel Layout Managers JList
JTable JTree Dialog Box
Text Books
1 The Complete Reference Java Herbert Schildt Ninth Edition TMH 2014
2 Introduction to java programming by Y Daniel Liang Seventh Edition Pearson
2017
3 Java one step ahead Anita seth BLJuneja First Edition Oxford 2017
Reference Books
1 Core Java An Integrated Approach RNageswaraRao Dreamtechpress 2008
2 Thinking in Java ndash Bruce Eckel Fourth Edition Prentice Hall 2002
3 Beginning Programming with Java for Dummies Barry Burd John Wiley amp Sons
Inc 2014
Web Links
1 httpmathhwsedujavanotes
2 httpjavasuncomdocsbookstutorial
3 httpwwwtutorialspointcomjava
4 httpwwwjavatpointcom
5 httpwwww3schoolscomjava
AR19 Mechanical Engineering
Aditya Engineering College (A) 144
R PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O04 2 1 0 3
Course Objectives
COB 1 To impart the knowledge on the R basic concepts
COB 2 To enable the student learn R program structure
COB 3 To inculcate the knowledge on mathematical functions
COB 4 To illustrate the concept of graph functions
COB 5 To make the students understand the concepts of distribution functions and
regressions models
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the basic concepts and advanced data structures of R programming
CO 2 Understand control statements and operators in R
CO 3 Implement simulation Probability and linear algebra operations
CO 4 Make use of graph functions
CO 5 Develop programs for distribution functions and regression models
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - -
CO2(K2) 2 1 - - 1 - - - - - - -
CO3(K3) 3 2 1 1 3 - - - - - - -
CO4(K3) 3 2 1 1 3 - - - - - - -
CO5(K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction How to run R R Sessions and Functions Basic Math Variables Data
Types Vectors Conclusion Advanced Data Structures Data Frames Lists Matrices
Arrays Classes
UNIT-II
R Programming Structures Control Statements Loops - Looping Over Nonvector
Sets If-Else Arithmetic and Boolean Operators and values Default Values for
Argument Return Values Deciding Whether to explicitly call return- Returning
Complex Objects Functions are Objective No Pointers in R Recursion A Quicksort
Implementation-Extended Extended Example A Binary Search Tree
UNIT-III
Simulation in R Math Function Extended Example Calculating Probability-
AR19 Mechanical Engineering
Aditya Engineering College (A) 145
Cumulative Sums and Products-Minima and Maxima- Calculus Functions Fir Statistical
Distribution Sorting Linear Algebra Operation on Vectors and Matrices Extended
Example Vector cross Product- Extended Example Finding Stationary Distribution of
Markov Chains Set Operation Input output Accessing the Keyboard and Monitor
Reading and writer Files
UNIT-IV
Graphics Creating Graphs The Workhorse of R Base Graphics the plot() Function ndash Customizing Graphs Saving Graphs to Files
UNIT-V
Probability Distributions Normal Distribution- Binomial Distribution- Poisson Distributions Other Distribution Basic Statistics Correlation and Covariance T-Tests-
ANOVA Linear Models Simple Linear Regression -Multiple Regression Generalized Linear Models Logistic Regression
Text Books
1 The Art of R Programming Norman Matloff 1st Edition Cengage Learning2011
2 R for Everyone Lander 2nd
EditionPearson 2018
Reference Books
1 R Cookbook JDLongamp PaulTeetor 2nd EditionOreilly 2019
2 R in ActionRob Kabacoff2nd Edition Manning 2015
Web Links
1 httpsonlinecoursesnptelacinnoc19_ma33preview
2 httpswwwcourseraorgprojectsgetting-started-with-r
3 httpswwwgeeksforgeeksorgintroduction-to-r-programming-language
4 httpswwwudacitycomcoursedata-analysis-with-r--ud651
AR19 Mechanical Engineering
Aditya Engineering College (A) 146
DATABASE MANAGEMENT SYSTEMS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O01 2 1 0 3
Course Objectives
COB 1 To discuss the basic concepts of database systems and its architectures
COB 2 To enable the students learn various data models
COB 3 To illustrate the mechanisms involved in normalization of relational databases
COB 4 To make use of SQL statements for performing operations on databases
COB 5 To impart knowledge on transaction management and concurrency controls
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the database characteristics and various database architectures
CO 2 Interpret relational database using SQL
CO 3 Examine issues in data storage and query processing for appropriate solutions
CO 4 Make use of normalization techniques to build database system for real world
problems
CO 5 Illustrate the mechanisms of transaction management
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 - 3 - - - - -
CO 2 (K2) 2 1 - - - - 3 - - - - -
CO 3 (K3) 3 2 1 1 3 - 3 - - - - -
CO 4 (K3) 3 2 1 1 3 - 3 - - - - -
CO 5 (K2) 2 1 - - 2 - 3 - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Databases Characteristics of database approach advantages of using
the DBMS approach
Overview of Database Languages and Architectures Data models schemas and
instances three schema architecture and data independence database system
environment centralized and clientserver architectures for DBMSs classification of
database management system
SQL Data Definition Constraints and Basic Queries and Updates SQL data
definition ndash DDL commands and data types specifying constraints in SQL INSERT
DELETE and UPDATE statements in SQL basic retrieval queries in SQL
UNIT-II
Introduction to Database Design Database Design and ER Diagrams Entities
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
Introduction to Database Design Database Design and ER Diagrams Entities
AR19 Mechanical Engineering
Aditya Engineering College (A) 147
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
The Relational Model Introduction to the relational model Integrity constraints over
relations enforcing integrity constraints querying relational data Nested Queries
Correlated Queries logical database design-ER to Relational
UNIT-III
Relational Algebra and Calculus Preliminaries relational algebra relational calculus
expressive power of algebra and calculus
Schema Refinement and Normal Forms Introduction to schema refinement functional
dependencies reasoning about FDs Normal forms (1NF 2NF 3NF and BCNF)
properties of decompositions normalization (decomposition into BCNF and 3NF)
schema refinement in database design other kinds of dependencies
UNIT-IV
Overview of Transaction Management amp Concurrency Control
Transaction Management
The ACID properties transactions and schedules concurrent execution of transactions
lock based concurrency control performance of locking and transaction support in SQL
introduction to crash recovery
Concurrency Control
2PLserializability and recoverability introduction to lock management lock conversions
dealing with deadlocks specialized locking techniques concurrency control without
locking
UNIT-V
Storage Overview of Storages and Indexing Data on External Storage- File Organization
and Indexing ndashClustered Indexing ndash Primary and Secondary Indexes Index Data
Structures Hash-Based Indexing ndash Tree-Based Indexing Comparison of File
Organization
Text Books
1 Database Management Systems Raghu Ramakrishnan Johannes Gehrke 3e
TMH
Reference Books
1 Introduction to Database Systems CJ Date Eighth Edition Pearson Education
2004
2 Database Systems - The Complete Book H G Molina J D Ullman J Widom Second
Edition Pearson Education 2009
3 Database Systems design Implementation and Management Peter Rob amp Carlos
Coronel Seventh Edition Cengage 2006
4 Fundamentals of Database Systems ElmasriNavathe Pearson Education 2015
5 Database System Concepts Silberschatz Korth Fifth Edition TMH 2006
Web Links
1 httpwwwnptelvideosin201211database-management-systemhtml
2 httpwwwgeeksforgeeksorgdbms
3 httpwwworaclecomtechnetworkdatabasefeaturesplsqlindexhtml
4 httpwwwcswiscedu~ dbbook
5 httpsbeginnersbookcom201505normalization-in-dbms
AR19 Mechanical Engineering
Aditya Engineering College (A) 148
COMPUTER GRAPHICS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O02 3 0 0 3
Course Objectives
COB 1 To discuss the basic principles of computer graphics primitives
COB 2 To demonstrate transformation clipping and viewing in 2D graphics
COB 3 To make the students learn projections transformations and visible surface
detections in 3D graphics
COB 4 To introduce the concepts of 3D primitives using OpenGL (Open Graphics
Library)
COB 5 To outline the Fractal geometry and Texturing in computer Graphics
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the applications of computer graphics and Video Display devices for
implementing Graphical user interface
CO 2 Analyze output primitives and filled area primitives in implementing various
algorithms
CO 3 Make use of Geometric Transformations Viewing and Clipping in 2D amp 3D
Graphics
CO 4 Illustrate various Visual Surface detection Methods in 3D Graphics
CO 5 Apply OpenGL for General Computer Animations
CO 6 Explain different object color modeling techniques Fractals and Ray tracing
concepts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K4) 3 3 2 2 3 - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - 2 - - - - - - -
CO5 (K3) 3 2 1 1 3 -
CO6 (K2) 2 1 - - 2 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Applications of Computer Graphics Video Display Devices-CRT
Raster-Scan and Random-Scan systems graphics monitors and work stations and input
devices
Output Primitives Line Drawing Algorithms- Bresenhamrsquos and DDA Line Drawing
Algorithms Mid-point circle and Ellipse algorithms
Filled Area Primitives Scan Line Polygon fill algorithm Boundary fill and Flood fill
algorithms
AR19 Mechanical Engineering
Aditya Engineering College (A) 149
UNIT-II
2-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations
2-D viewing The viewing pipeline Window to viewport coordinate transformation
2-D Clipping Cohen-Sutherland line clipping algorithm Sutherland-Hodgeman
polygon clipping algorithm and other clipping models Text amp Curve clipping models
UNIT-III
3-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations 3-D Viewing pipeline
Concepts Parallel and perspective projections and visible surface detection methods
UNIT-IV
Animations General computer animation Raster Key-frame Color models RGB
YIQ CMY HSV Graphics programming using OPENGL basic graphics primitives-
Generating three dimensional objects
UNIT-V
Fractals Fractals and self similarity Mandelbrot sets- Julia sets ndash Random Fractals
Overview of Ray Tracing Intersecting rays with other primitives-Adding surface
texture-Reflections and transparency-Boolean operations on objects
Text Books
1 Computer Graphics C Version Donald D Hearn M Pauline Baker 2nd Edition
Pearson
2 Computer Graphics using OPENGL Stephen M Kelley Francis S Hill 2nd
Edition Pearson
Reference Books
1 Computer Graphics- Principles and practices in C James D Foley Andries Van
Dam Steven K Feiner John F Hughes 2nd Edition Pearson Education 2007
2 Computer Graphics Samit Bhattacharya OXFORD Higher Education
3 Computer Graphics Peter Shirley CENGAGE
4 Principles of Interactive Computer Graphics Neuman Sproul TMH
5 The Computer Graphics manual Vol 2 David Soloman Springer
Web Links
1 httpsocwmiteducourseselectrical-engineering-and-computer-science6-837
computer-graphics-fall-2012
2 httpnptelacincourses106106090
3 httpsinudacitycomcourseinteractive-3d-graphics--s291
4 httpwwwcseiitmacin~vplabcomputer_graphicshtml
5 httpwwwgraphicscornelleduonlinelinkshtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 150
OVERVIEW OF MINING (Open Elective ndashI)
V Semester L T P C
Course Code 191MI5O01 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the mine lifecycle
COB 2 To make the students understand the factors responsible for location shape and
size of the shaft
COB 3 To demonstrate the students the system of ventilation Lighting and Permanent
lining need for drift
COB 4 To explain the special methods and Modern techniques of Shaft sinking
COB 5 To make the students understand the classification of explosives detonators and
detonating fuses and nonel detonators
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze different stages in the life of a mine
CO 2 Choose a suitable location for opening to a deposit
CO 3 Organize for building appropriate permanent lining drift with proper
ventilation and lighting arrangements
CO 4 Analyze the special methods need to be adopted for a particular situation
CO 5 Distinguish the uses of explosives
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - - - - - - 3 - - - - -
CO2 (K3) - - - 3 3 3 - - - - - -
CO3 (K3) - - - - - - - - 3 3 - -
CO4(K4) - 3 - 2 3 - - - - - - -
CO5 (K4) - 3 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Mineral distribution in India and World Contribution of mining to civilization Stages in
the life of a mine
UNIT-II
Overview of surface mining surface mining methods Unit operations Mechanization of
surface mines
UNIT-III
Overview of Underground Mines Methods of Underground mining Mechanization of
underground mines
AR19 Mechanical Engineering
Aditya Engineering College (A) 151
UNIT-IV
Safety practices in opencast and underground Mines
UNIT-V
Impacts of Mining on environment
Text Books
1 DJDeshmukh Elements of Mining Technology Denettamp Co Nagpur Vol I 1998
2 DrTNSingh Surface Mining Lovely Prakashan Dhanbad 2nd edition 2002
3 BVGokhale Blasthole drilling Technology multifields Bombay 1st edition 2001
Reference Books
1 Indian Bureau of Mines Minerals Year Book amp other publications Latest Edition
2 DrCMKole Khuli Khan KaAyojan (Hindi) CMPDIL Ranchi 1st edition 1996
3 Dr Calvin Konya ldquoRock Blasting and Overbreak Controlrdquo Precision Blasting
Services Montville Ohio 2nd edition 2004
Web Links
1 httpwwwminingglobalcomoperationsgifs-5-stages-mining-life-cycle
2 httpswwwslidesharenetumer_1stages-in-life-of-mine
3 httpswwwminecationstandardsorgfileadminMASdocumentsnmas-national
4 stabdardsafghanistanAMAS_0704_Storage_Transportation_Handling_of_Explosi
vespdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 152
PROCESS INTENSIFICATION IN PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O01 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in process intensification methodologies
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquos various principles associated to various unit operations
and unit processes
COB 5 To impart knowledge on available in petrochemical fine chemical
pharmaceutical carbon capture and bioprocess engineering to understand the
role of process intensification to improve process performance
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for process
intensification
CO 2 Analyze various modifications to process equipment and designs with which
process intensification becomes a reality in unit operations and unit processes
CO 3 Analyze various case studies available in petrochemical fine chemical bioprocesses
and carbon capture
CO 4 Correlate textbook reported methodologies with Computational Fluid
Dynamics and experimental process intensification
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K3)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
History of Process Intensification Rotating boilers ndash Rotating non-pipe ndash Separators ndash
Rotating heat transfer devices
Overview of Process Intensification Definition of Process Intensification (PI) ndash
Advantages of PI ndash Obstacles to PI
AR19 Mechanical Engineering
Aditya Engineering College (A) 153
UNIT-II
Mechanisms Involved in Process Intensification Mechanisms involved in heat transfer
intensification ndashElectrically enhanced process intensification ndash Microfluidics ndash Pressure
Compact and Micro-heat exchangers amp Process Intensification Plate Printed-circuit
Chart-flow Polymer film Foam and mesh heat exchangers ndash Micro-heat exchangers ndash
Small channels ndash Nano fluids
UNIT-III
Downhole Separation Technology
Overview- Potential Downhole Separation Technology-Present Status- Advantages-
Challenges-Downhole oil- water separation (DOWS) - hydrocyclone separator Different
configurations -Working Principle-Performance factors- Selection Criteria-Scale up-
Experiences with problems-Reinjection systems- Downhole completion designs for
DOWS - Downhole gas-water Separations-Application of electrical submersible pumps-
Working principle-Modified plunger pumps Three-phase Separation Technology- Case
studies on DOWS and DGWS
UNIT-IV
Application of Solar Energy in Oil and Gas Operations
Solar Energy-PV Cells-Concentration of Solar Power-Energy use in offshore rigs and
FPSO- Energy and Cost Analysis-Solar panels required to replace fossil fuels-
Comparison of Diesel Power with Solar Power Costs-Ability of Solar Energy Use on
Offshore Rigs-Solar Energy Enhanced Oil Recovery
UNIT-V
Application of Divided Wall Distillation technology in separation of NGL
Working principle of Divided wall distillation column-Advantages-Various
configurations-Separation of NGL
Text Books
1 Process Intensification Engineering for Efficiency Sustainability and Flexibility
D Reay C Ramshaw and A Harvey Butterworth-Heinemann 1st Edition
Burlington 2008
Reference Books
1 Re-Engineering the Chemical Processing Plant Process Intensification A
Stankiewicz and JA Moulijn (Editors) Marcel Dekker New York 2004
Web Links
1 httpswwwsciencedirectcombook9780750689410process-intensification
2 httpswwwsciencedirectcomsciencearticlepiiB9780750689410000043
3 httpwwwyourarticlelibrarycomenergysolar-energy-10-major-application-of-
solar-energy-explained28197
4 httpsenwikipediaorgwikiDigital_divide
AR19 Mechanical Engineering
Aditya Engineering College (A) 154
FUNDAMENTALS OF PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O02 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in petroleum industry
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquosvarious principles associated to various treating
operations and unit processes
COB 5 To impart knowledge on available in petroleum well servicing unit
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for petroleum
industry
CO 2 Analyze various modifications to equipment and designs with which evaluate
the lithological characteristics and behavior of reservoir
CO 3 Analyze various case studies available in petrochemical chemical bioprocesses for
treatment of wastage
CO 4 Analyze various modification to well for better production rate
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4 )
PO 3
(K5 )
PO 4
(K 3)
PO 5
(K3 )
PO 6
(K3)
PO 7
(K2 )
PO 8
(K3)
PO 9
(K2)
PO 10
(K2 )
PO11
(K3 )
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
The history of production Oil beginning- A case for casing- More fireworks-
Underground mysteries- Breathing of the earth- Crisis and reservoirengineering-
Horizontal drilling- The great offshore-Indian scenario
UNIT-II
The reservoir Origin- Transformation- Characterization- Discovery
Whatrsquos in the container The prize Determinants- The contents- Thechemistry-
Composition- Properties- Impurities- Fingerprints- The origin ofhydrocarbons
Drilling The spring pole- Cable tool drilling and operations- Rotarydrilling- Rig
components- Drilling mud- Blowout preventers- Drillingoffshore- Top drives and
AR19 Mechanical Engineering
Aditya Engineering College (A) 155
automation- The course- Location
UNIT-III
Logging testing and completing Logging- Correlation logs- Real time-Directional and
horizontal wells- Original hydrocarbons in place- Openhole testing- Completions- Cased
hole logging and measuring devices
Hydrocarbon activity in the reservoir Phases- Phases diagrams- Reservoirfluid
categories- Using phase diagrams- Gas wells Vs oil wells- Shrinkagendash Solution gas- oil
ratio- Relative permeability
Production The motivating force- Drive mechanisms- Producing phases-Primary
production- Secondary recovery- Pressure maintenance andwaterflooding- Tertiary
recovery
UNIT-IV
Making it marketable Field processing Gas treating- Oil treating- Waterdisposal-
Testing- Measurement and metering- Storage
UNIT-V
Remedial operations and workovers Decision making- Workover rigs-Coiled tubing-
Subsea completions- Well problems and stimulation-Changing production intervals
Text Books
1 Oil and Gas Production in Nontechnical Language Martin S Raymondamp William
L Leffler Penn Well Corporation 2006
Reference Books
1 Introduction to Oil and Gas Production American Petroleum Institute5th Edition
1996
2 Oil and Gas Production Hand Book An Introduction Oil and GasProduction
HavardDevold ABB ATPA Oil and Gas 2006
Web Links
1 httpsenwikipediaorgwikiPetroleum_industry
2 httpwwwoil-gasportalcomdrillingtechnologies
3 httpswwwibeforgindustryoil-gas-indiaaspx
4 httpswwwapiorgoil-and-natural-gaswells-to-consumertransporting
5 httpswwwsciencedirectcomtopicsengineeringpetroleum-refining
AR19 Mechanical Engineering
Aditya Engineering College (A) 156
BASIC CROP PRODUCTION PRACTICES (Open Elective ndashI)
V Semester L T P C
Course Code 191AG5O01 2 1 0 3
Course Objectives
COB 1 To enable the students to study principles of agricultural and horticultural crop
production and to introduce the production practices of crops
COB 2 To make the students to acquire knowledge for delineate the role of
agricultural and irrigation engineers in relation to various crop production
practices
COB 3 To make the students to acquire knowledge on crop selection crop production
and crop management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain factors affecting on crop growth and production
CO 2 Explain crop selection and establishment of an adequate crop stand and
ground cover
CO 3 Explain crop water management
CO 4 Apply agriculture crops production practices in field
CO 5 Apply the horticulture crops production practices in field
Mapping of Course Outcomes with Program Outcomes
COsPOrsquos PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - 1 - - 2 - - - - 3 - 3
CO2 (K2) - 1 - - 2 - - - - 3 - -
CO3 (K2) - 1 - - 2 - - - - 3 - 3
CO4 (K3) - 2 1 1 3 - - - - 3 - 3
CO5 (K3) - 2 1 1 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Agriculture and Crop Production Introduction to agriculture and its crop production sub-
sectors ndash field crop production and horticulture Factors affecting crop growth and
production genetic (internal) and environmental (external) factors Crop management
through environmental modification and adaptation of crops to the existing environment
through crop cultural practices
UNIT-II
Crop Selection and Establishment Regional and seasonal selection of crops Systems of
crop production Competition among crop plants Spacing and arrangement of crop plants
Field preparation for crops including systems of tillage Establishment of an adequate crop
stand and ground cover including selection and treatment of seed and nursery growing
AR19 Mechanical Engineering
Aditya Engineering College (A) 157
UNIT-III
Crop Management Crop water Management a Crop nutrition management ndash need for
supplementation to soil supplied nutrients sources generalized recommendations
methods and timing of application of supplemental nutrients including fertigation
scheduling Crop protection including management of weeds pests and pathogens
Integrated methods of managing water nutrients and plant protection Types and methods
of harvest
UNIT-IV
Production Practices of Agricultural Crops Generalized management and cultivation
practices for important groups of field crops in Andhra Pradesh cereal crops grain
legumes oil seed crops sugarcane and fiber crops and special purpose crops such as
those grown for green manure and fodder
UNIT-V
Production Practices of Horticultural Crops Important basic groups of horticultural crops
in AP such as vegetable crops fruit crops flower crops Cultivation practices of major
fruits major vegetables and major flowers of each group Special features of production
of horticultural crops ndash greenhouse cultivation Organic farming Zero budget farming
Vertical gardening and Kitchen farming
Text Books
1 Rajendra Prasad Text Book of Field Crop Production Directorate of Information and
Publication Krishi Anusandhan Bhavan Pusa New Delhi 2015
2 Reddy T Sankara GH Yellamanda Reddi Principles of Agronomy Kalyani
Publishers New Delhi 2005
3 Handbook of Agriculture ICAR Publications New Delhi 2011
Reference Books
1 Bose T K and LPYadav Commercial Flowers Naya Prakash Calcutta1989
2 Crop Production Guide Tamil Nadu Agricultural University Publication
Coimbatore 2005
3 Kumar N Abdul Khader M Rangaswami P and Irulappan I Introduction to
spices plantation crops medicinal and aromatic plants Rajalakshmi Publications
Nagercoil 1993
4 Kumar NrdquoIntroduction to Horticulturerdquo Rajalakshmi Publications Nagercoil 7th
edition 2015
5 Shanmugavel KG Production Technology of Vegetable Crops Oxford India
Publications New Delhi 1989
Web Links
1 httpswwwcareerlaunchercomcbse-ncertclass-8ScienceCBSE-Crop Production
andManagement-Notes html~text= E280A220Basic20 Practices20
of20Cropis20called20ploughing20or20tilling
2 httpswwwedubeanscomClass_VIII_Science_Crop-Production-and-Manage ment
php
3 httpsbyjuscombiologybasic-practices-of-crop-production
4 httpwwwapagrisnetgovinpdffarmerbookpdf
5 httpcbseacademicnicinweb_materialCurriculumVocational2018Basic20Ag
riculture20X20(408)pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 158
METROLOGYamp ICS LAB
V semester L T P C
Course Code 191ME5L05 0 0 3 15
Course Objectives
COB 1 To make the students measure bores by internal micrometers and dial bore
indicators
COB 2 To impart the knowledge of measurement of the angle and taper by bevel
protractor sine bars etc
COB 3 To induce the knowledge of principles involved in calibration
COB 4 To induce the knowledge about temperature sensors thermocouples RTD
thermisters)
Course Outcomes
At the end of the Course Student will be able to
CO 1 Measure the bores by internal micrometers and dial bore indicators
CO 2 Measure the angle and taper using bevel protractor and sine bar
CO 3 Measure screw thread parameters
CO 4 Find the errors and calibrate photo and magnetic pickups
CO 5 Find the errors and calibrate the pressure gauge temperature detectors and
LVDT
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
List of Experiments
Section A Metrology Lab
1 Measurement of lengths heights diameters by vernier calipers micrometers
2 Angle and taper measurements with bevel protractor Sine bar rollers and balls
3 Measurement of bores by internal micrometers and dial bore indicators
4 Straightness measuring using autocollimator
5 Gear tooth thickness measurement using gear tooth vernier calipers
Section B Instrumentation Lab
6 Calibration of pressure gauge
7 Study and calibration of LVDT transducer for displacement measurement
8 Calibration of thermocouple
AR19 Mechanical Engineering
Aditya Engineering College (A) 159
9 Study and calibration of photo and magnetic speed pickups
10 Calibration of resistance temperature detector
List of Augmented Experiments
Metrology Lab
(Any one of the following experiments can be performed)
11 Flatness measurement using optical flat
12 Machine tool alignment test on lathe using various metrology instruments
Instrumentation Lab
(Any one of the following experiments can be performed)
13 Calibration of Force measuring setup
14 Study and calibration of a Rotameter for flow measurement
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers
2 Measurement Systems Applications amp design DS Kumar Metropolitian Book
Co pvt ltd
Web Links
1 httpwwwatrieduinimagespdfdepartmentsINSTRUMENTATION20L
AB20 manual
2 httpwwwbitswglacinMEMetrology-Lab-Manual20320year 201 sem
3 httpslideplayercomslide7020420
4 httpgps-mechblogspotin201201lab-manual-for-measurement-andhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 160
THEORY OF MACHINES LAB
V semester L T P C
Course Code 191ME5L06 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge on governors and flywheels
COB 2 To provide practical exposure to students on gyroscopic forces and moments
COB 3 To impart knowledge of finding natural frequency of different types of
vibrations
COB 4 To develop knowledge on balancing of the machine parts statically and
dynamically
COB 5 To impart practical knowledge on analysis of mechanisms for a specified type
of motion in a machine
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the critical speed of whirling of shaft
CO 2 Determine the position of sleeve against the controlling force and speed in
governors
CO 3 Analyze the motion of motorized gyroscopic couple
CO 4 Measure the frequency of damped and un-damped vibrations of a spring mass
system
CO 5 Apply the principles of balancing of masses to various links mechanisms and
engines
CO 6 Analyze the displacement velocity and acceleration against crank rotation in
slider crank mechanism
CO 7 Calculate the moment of inertia of flywheel
CO 8 Analyze cam profile for various cam follower systems
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
LIST OF EXPERIMENTS
1 Determine whirling speed of shaft theoretically and experimentally
2 Plot follower displacement vs cam rotation for various Cam Follower systems
3 Determine the position of sleeve against controlling force and speed of a Hartnell
governor and plot the characteristic curve of radius of rotation
AR19 Mechanical Engineering
Aditya Engineering College (A) 161
4 Analyze the motion of a motorized gyroscope when the couple is applied along its
spin axis
5 Determine the frequency of un-damped free vibration of an equivalent spring mass
system
6 Determine the frequency of damped force vibration of a spring mass system
7 Study the static and dynamic balancing using rigid blocks
8 Find the moment of inertia of a flywheel
9 Plot slider displacement velocity and acceleration against crank rotation for single
slider crank mechanismFour bar mechanism
10 Find coefficient of friction between belt and pulley
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
11 Study simple and compound screw jack and determine the mechanical advantage
velocity ratio and efficiency
12 Study various types of gears- Spur Helical Worm and Bevel Gears
13 To determine the position of sleeve against controlling force and speed of a porter
governor and to plot the characteristic curve of radius of rotation
Reference Books
1 Theory of machines lab manual ndash Aditya Engineering College
2 Theory of machines by RSKhurmi JKGupta
AR19 Mechanical Engineering
Aditya Engineering College (A) 162
THERMAL ENGINEERING LAB
V semester L T P C
Course Code 191ME5L07 0 0 3 15
Course Objectives
COB 1 To provide the knowledge to the student about working of IC Engines
COB 2 To train the student to conduct performance and heat balance test on IC
Engines
COB 3 To practice the student to calculate the frictional losses in an IC Engine
COB 4 To impart practical exposure on performance of Reciprocating air Compressor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the various parts of an IC Engine
CO 2 Sketch the Valve and Port Timing diagrams for IC Engines
CO 3 Determine the performance of various types of IC Engines
CO 4 Prepare the heat balance sheet for various types of IC Engines
CO 5 Calculate the frictional power in various types of IC Engines
CO 6 Analyze the performance of reciprocating air compressor
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - 3 - -
CO2(K3) 3 2 - - - - - - - 3 - -
CO3(K3) 3 2 - 1 - - 3 - - 3 - 3
CO4(K3) 3 2 - - - - - - - 3 - -
CO5(K3) 3 2 - 1 - - 3 - - 3 - 3
CO6(K4) 3 3 - 2 - - 3 - - 3 - 3
CO7(K2) 2 1 - - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 2 -
CO2 (K3) - 2 -
CO3 (K3) 3 2 -
CO4 (K3) - 2 -
CO5 (K3) 3 2 -
CO6 (K4) 3 2 -
CO7 (K2) - 2 -
List of Experiments
1 (A)Draw amp Study The Valve Timing Diagrams For Four Stroke Diesel Engine
(Cut Section Model)
(B) Draw amp Study The Port Timing Diagrams For Two Stroke Petrol Engine (Cut
Section Model)
2 (A) Evaluate The Performance of 4 -Stroke Diesel Engine
(B) Draw The Heat Balance Sheet For 4-Stroke Single Cylinder Diesel Engine
(C) Determination of frictional power by retardation test on a 4-Stroke petrol
engine
3 (A) Evaluate The Performance of 4 -Stroke multi cylinder petrol Engine
AR19 Mechanical Engineering
Aditya Engineering College (A) 163
(B) Draw The Heat Balance Sheet For 4-Stroke multi cylinder petrol Engine
(C) Evaluation of frictional power by conducting morse test on 4-stroke multi
cylinder petrol engine
4 (A)Evaluate The Performance of 4 ndashStroke Petrol Engine Test Rig With Dc
Generator
(B)To Measure The Frictional Power of The Given Four Stroke Single Cylinder
Petrol Engine By Conducting Motoring Test
5 (A)Evaluate The performance of variable compression ratio engine
(B)Draw The Heat Balance Sheet For variable compression ratio engine
6 Performance test on reciprocating air compressor unit
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
7 (A) Determine the flash and fire point of given oil sample
(B) Determination of Viscosity using Red Wood Viscometer
(C) Determination of viscosity using Saybolt Viscometer
(D) Determination of calorific value of fuels by using Bomb Calorimeter
(E) ECONOMICAL SPEED TEST on IC Engines
Reference Books
1 Internal Combustion Engines V Ganesan TMH Publication 4th Edition
2 Internal Combustion Engines Fundamentals John B Heywood MGH
3 Thermal Engineering lab Manual Aditya Engineering College
Web Links
1 httpswwwscribdcomdoc38559760Thermal-Lab-Manual
2 httpwwwksrctacinpagethermal-engineering-labhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 164
EMPLOYABILITY SKILLS-III (Common to all branches)
Course Objectives
COB 1 To provide basic communication to ensure employability skills
COB 2 To meet the changing global needs and demands
COB 3 To orient students towards career and profession
COB 4 To equip students with fundamental and advanced inputs as various techniques
of strengthening their professional abilities
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the clock and calendar problems by simple methods
CO 2 Discuss about different types of puzzles
CO 3 Breakdown the typical write-up skills
CO 4 Apply different types of models on percentages profit and loss simple interest
and compound interest
CO 5 Demonstrate the tools of the soft skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
UNIT-I
Aptitude puzzle test group reasoning
Soft Skills Group discussion
UNIT-II
Aptitude clock calendar
Soft Skills Resume writing Personalized Resume preparation Compose and Prepare a
cover letter
UNIT-III
Aptitude cubes ampdice partnership
Soft Skills E-mail -Writing ampEtiquette Business Etiquette
UNIT-IV
Aptitude percentage profit and loss
Soft Skills Interviewing skills-1Dorsquosamp donrsquots in an interview Interview Demonstration
V Semester L T P C
Course Code 191HS5T06 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 165
Videos Interview Preparation
UNIT-V
Aptitude simple interest compound interest
Soft Skills Stress Management Personal priorities effect on career decisions Personal
priorities to professional priorities
Text Books
1 Quantitative Aptitude - Dr RS Aggarwal S CHAND
2 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
2 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
3 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 5
PROGRAM STRUCTURE I SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191HS1T01 Communicative English HSMC 3 0 0 3 3
191BS1T01 Differential Equations and Linear
Algebra
BSC 3 0 0 3 3
191BS1T02 Engineering Physics BSC 3 0 0 3 3
191ES1T01 Programming for Problem Solving
Using C
ESC 3 0 0 3 3
191HS1L01 Communicative English Lab-I HSMC 0 0 3 3 15
191BS1L01 Engineering Physics Lab BSC 0 0 3 3 15
191ES1L01 Programming for Problem Solving
Using C Lab
ESC 0 0 3 3 15
191ES1L02 Basic Engineering Workshop ESC 0 0 3 3 15
191MC1A01 Environmental Science MC 2 0 0 2 0
191MC1A02 Constitution of India MC 2 0 0 2 0
TOTAL 16 0 12 28 18
II SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS2T05 Partial Differential Equations and
Vector Calculus
BSC 3 0 0 3 3
191BS2T06 Chemistry of Materials BSC 3 0 0 3 3
191ES2T02 Engineering Graphics and Design ESC 1 0 3 4 25
191ES2T03 Essential Electrical and Electronics
Engineering
ESC 3 0 0 3 3
191ES2T04 Engineering Mechanics ESC 3 0 0 3 3
191HS2L02 Communicative English Lab-II HSMC 0 0 2 2 1
191BS2L04 Engineering Chemistry Lab BSC 0 0 3 3 15
191ES2L03 Essential Electrical and Electronics
Engineering Lab
ESC 0 0 3 3 15
191ES2L07 Mechanical Engineering Workshop ESC 0 0 3 3 15
191PR2P01 Engineering Exploration Project PROJ 0 0 2 2 1
TOTAL 13 0 16 29 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 6
III SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS3T11 Integral Transforms And
Applications Of Partial
Differential Equations
(CE ME AgE)
BSC 3 0 0 3 3
191ME3T01 Fluid Mechanics and Hydraulic
Machinery
PCC 3 0 0 3 3
191ME3T02 Computer Aided Engineering
Drawing Practice
PCC 2 0 2 4 3
191ME3T03 Mechanics of Solids PCC 3 0 0 3 3
191ME3T04 Thermodynamics PCC 3 0 0 3 3
191ME3T05 Metallurgy amp Material Science PCC 3 0 0 3 3
191ME3L01 Fluid Mechanics amp Hydraulic
Machines Lab
PCC 0 0 3 3 15
191ME3L02 Mechanics of Solids amp Metallurgy
Lab
PCC 0 0 3 3 15
191MC3A03 Employability Skills ndash I MC 0 0 2 2 0
191MC3A04 Essence of Indian Traditional
Knowledge
MC 2 0 0 2 0
TOTAL 19 0 10 29 21
IV SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS4T16 Numerical methods amp Statistical
Techniques (CE ME Ag E)
BSC 3 0 0 3 3
191HS4T04 Managerial Economics amp
Financial Analysis
HSMC 3 0 0 3 3
191ES4T15 Internet of Things ESC 3 0 0 3 3
191ME4T06 Production Technology PCC 3 0 0 3 3
191ME4T07 Kinematics of Machinery PCC 3 0 0 3 3
191ME4T08 Thermal Engineering-I PCC 3 0 0 3 3
191ME4L03 Production Technology Lab PCC 0 0 3 3 15
191ME4L04 Computer Aided Machine
Drawing
PCC 0 0 3 3 15
191MC4A05 Employability Skills ndash II MC 0 0 2 2 0
191MC4A06 Biology for Engineers MC 2 0 0 2 0 TOTAL 20 0 8 28 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 7
V SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME5T09 Dynamics of Machinery PCC 3 0 0 3 3
191ME5T10 Design of Machine Members-I PCC 3 0 0 3 3
191ME5T11 Thermal Engineering-II PCC 3 0 0 3 3
---- PE-I PEC 3 0 0 3 3
---- OE-I OEC 3 0 0 3 3
191ME5L05 Metrology ICS lab PCC 0 0 3 3 15
191ME5L06 Theory of Machines Lab PCC 0 0 3 3 15
191ME5L07 Thermal Engineering Lab PCC 0 0 3 3 15
191HS5T06 Employability Skills ndash III HSMC 0 0 2 2 1
191PR5P02 Socially Relevant Project PROJ 0 0 0 0 1
TOTAL 15 0 11 26 215
VI SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME6T12 Heat Transfer PCC 3 0 0 3 3
191ME6T13 Design of Machine Members-II PCC 3 0 0 3 3
191ME6T14 Metal cutting and Machine Tools PCC 3 0 0 3 3
---- PE-II PEC 3 0 0 3 3
---- PE-III PEC 3 0 0 3 3
---- OE-II OEC 3 0 0 3 3
191ME6L08 Metal Cutting and Machine Tools
Lab
PCC 0 0 3 3 15
191ME6L09 Heat Transfer Lab PCC 0 0 3 3 15
191HS6T07 Employability Skills ndash IV HSMC 0 0 2 2 1
TOTAL 18 0 8 26 22
VII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME7T15 Operations Research PCC 3 0 0 3 3
191ME7T16 Finite Element Methods PCC 3 0 0 3 3
---- PE-IV PEC 3 0 0 3 3
---- PE-V PEC 3 0 0 3 3
---- OE-III OEC 3 0 0 3 3
191ME7P03 Internship PROJ 0 0 0 0 2
191ME7L10 CAM Mechatronics Lab PCC 0 0 3 3 15
191ME7L11 CAD CFD lab PCC 0 0 4 4 2
191ME7P04 Project Part 1 PROJ 0 0 0 0 2
TOTAL 15 0 7 22 225
AR19 Mechanical Engineering
Aditya Engineering College (A) 8
VIII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
---- PE-VI (MOOCs) PEC 3 0 0 3 3
---- OE-IV (MOOCs) OEC 3 0 0 3 3
191ME8P05 Project Part 2 PROJ 0 0 0 0 7
TOTAL 6 0 0 6 13
BSC Basic Sciences Courses HSMC Humanities and Social Sciences including Management
Courses ESC Engineering Sciences Courses PCC Professional Core Courses PEC
Professional Elective Courses OEC Open Elective Courses SSC Self Study Course MC
Mandatory Courses PROJ Project
PROFESSIONAL ELECTIVES
Professional Elective ndash I Professional Elective ndash II
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME5E01 Automobile Engineering 1 191ME6E07 Industrial Engineering amp
Management
2 191ME5E02 Composite Materials 2 191ME6E08 Mechatronics
3 191ME5E03 Fluid Engineering 3 191ME6E09 Non Destructive Evaluation
4 191ME5E04 Mechanical Vibrations 4 191ME6E10 Refrigeration and Air
Conditioning
5 191ME5E05 Metrology amp Instrumentation 5 191ME6E11 Robotics
6 191ME5E06 Organizational Behavior
Professional Elective ndash III Professional Elective ndash IV
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME6E12 Additive Manufacturing 1 191ME7E17 Advanced Automobile
Engineering
2 191ME6E13 Alternative Fuels 2 191ME7E18 Advanced Fluid Mechanics
3 191ME6E14 Design for Manufacturing 3 191ME7E19 Computational Fluid Dynamics
4 191ME6E15 Green Engineering Systems 4 191ME7E20 Nano materials amp Technology
5 191ME6E16 Lean Manufacturing 5 191ME7E21 Power Plant Engineering
Professional Elective ndash V Professional Elective ndash VI SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME7E22 CAD CAM 1 191ME8E27 Advanced Materials
2 191ME7E23 Condition Monitoring 2 191ME8E28 Manufacturing Methods in
Precision Engineering
3 191ME7E24 Design of Transmission
Systems
3 191ME8E29 Production Planning and
Control
4 191ME7E25 Flexible Manufacturing
Systems
4 191ME8E30 Thermal Equipment Design
5 191ME7E26 Gas Dynamics 5 191ME8E31 Total Quality Management
AR19 Mechanical Engineering
Aditya Engineering College (A) 9
OPEN ELECTIVE - I (V Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE5O01 Basic Concrete Technology CE EEE CE
2 191EE5O01 Electrical Safety EEE EEE
3 191EE5O02 Electrical Materials EEE EEE
4 191EE5O03 Basic Electrical Measurements EEE ECE EEE
5 191ME5O01 Renewable Energy Sources CE EEE ME Ag E ME
6 191ME5O02 Fundamentals of Mechanical
Engineering
ME ME
7 191ME5O03 Supply Chain Management ME ME
8 191ME5O04 3D Printing ME ME
9 191ME5O05 Entrepreneurship Development and
Incubation
ME
10 191EC5O01 Signals amp Systems EEE ECE ECE
11 191EC5O02 Digital Electronics and Logic
Design
EEE ECE CSE IT ECE
12 191EC5O03 Semi conductor devices EEE ECE ECE
13 191CS5O01 Data Structures EEE ECE CSE IT CSE
14 191CS5O02 Object Oriented Programming
through C++
CSE IT CSE
15 191CS5O03 Java Programming CSE IT CSE
16 191CS5O04 R Programming CSE
17 191IT5O01 Database Management Systems CSE IT IT
18 191IT5O02 Computer Graphics CSE IT IT
19 191MI5O01 Overview of Mining MinE MinE
20 191PT5O01 Process Intensification in Petroleum
Industry
PT PT
21 191PT5O02 Fundamentals of Petroleum
Industry
PT PT
22 191AG5O01 Basic Crop Production Practices AgE AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 10
OPEN ELECTIVE - II (VI Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE6O02 Disaster Management CE
2 191EE6O04 Energy Audit and Conservation
Management
EEE EEE
3 191EE6O05 Non Conventional Energy
resources
EEE EEE
4 191EE6O06 Instrumentation EEE ECE Ag E EEE
5 191ME6O06 Solar Energy Utilisation ME Ag E ME
6 191ME6O07 Basic Thermodynamics and
Heat Transfer
EEE ME PT AgE
MinE
ME
7 191ME6O08 Introduction to Hydraulics and
Pneumatics
CE ME PT ME
8 191ME6O09 3D Printing ME ME
9 191ME6O06 Robotics ME ME
10 191ME6O09 Management Science CE CSE IT PT Min
E
ME
11 191ME6O12 Entrepreneurship Development
and Incubation
ME
12 191ME6O07 Biomedical Instrumentation ECE
13 191ME6O08 ECAD Tools ECE ECE
14 191CS6O05 Python Programming EEE CSE IT CSE
15 191CS6O06 Operating Systems CSE IT CSE
16 191CS6O07 Web Technologies CSE IT CSE
17 191CS6O08 Cyber Security CSE IT CSE
18 191CS6O09 AR VR CSE
19 191IT6O03 Computer Organization CSE IT IT
20 191IT6O04 AI Tools amp Techniques CSE IT IT
21 191IT6O05 Robotic Process Automation
IT
22 191MI6O02 Industrial Safety Practices AgE MinE
23 191MI6O03 Electrical Equipmentrsquos in Mines MinE
24 191PT6O03 Unconventional Hydrocarbon
Resources
PT PT
25 191PT6O04 Asset Management PT
26 191AG6O02 Weather forecast in Agriculture AgE
27 191AG6O03 Bio-energy systems design and
applications
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 11
OPEN ELECTIVE - III (VII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE7O03 Waste Water Management CE CE
2 191EE7O07 Electrical and Hybrid Vehicles EEE EEE
3 191EE7O08 Special Electrical Machines EEE EEE
4 191EE7O09 Industrial Electrical Systems EEE EEE
5 191ME7O13 Optimization techniques
ME
6 191ME7O14 Energy Conservation
ME
7 191ME7O15 Introduction to Material Handling
Systems
ME
8 191ME7O16 Robotics ME ME
9 191ME7O17 Entrepreneurship Development and
Incubation
ME
10 191EC7O06 Overview of Digital Signal Processing EEE ECE ECE
11 191EC7O07 Basics of VLSI Design ECE ECE
12 191EC7O08 Micro Electro Mechanical Systems
ECE
13 191EC7O09 Image Processing ECE CSE IT ECE
14 191CS7O10 Big Data Analytics CSE IT CSE
15 191CS7O11 Mobile Application Development CSE IT CSE
16 191CS7O12 Data Science CSE IT CSE
17 191IT7O06 Machine Learning CSE IT IT
18 191IT7O07 Quantum Computing
IT
19 191IT7O08 Block Chain Technologies CSE IT IT
20 191MI7O04 Communication System in Mines
MinE
21 191MI7O05 Drilling amp Blasting MinE MinE
22 191PT7O05 Introduction to Earth Sciences CE PT Min E PT
23 191PT7O06 Basic Concepts in Petroleum Drilling and
Completions
PT PT
24 191AG7O04 Greenhouse Technology AgE AgE
25 191AG7O05 Reusability of Municipal Effluent in
Agriculture
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 12
OPEN ELECTIVE ndash IV (VIII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE8O04 Integrated Waste Management for a
Smart City
CE
2 191EE8O10 Fundamentals of Electrical Engineering EEE ECE EEE
3 191EE8O11 Basic Electrical Circuits EEE ECE EEE
4 191EE8O12 Electrical Machines EEE EEE
5 191EE8O13 Power Electronics EEE EEE
6 191EE8O14 Non-Conventional Energy Sources CE EEE ME EEE
7 191ME8O18 Fabrication processes ME ME
8 191ME8O19 Smart Materials ME
9 191EC8O10 Micro Electro Mechanical Systems ECE
10 191EC8O11 Basic Electronic Circuits EEE amp ECE ECE
11 191EC8O12 Principles of Communications ECE ECE
12 191EC8O13 Electronic Instrumentation EEE amp ECE ECE
13 191EC8O14 Digital Image Processing ECE CSE IT ECE
14 191CS8O13 Cyber Security CSE IT CSE
15 191CS8O14 Data Science CSE IT CSE
16 191CS8O15 Game Theory CSE IT CSE
17 191CS8O16 AR VR CSE
18 191IT8O09 Deep learning CSE IT IT
19 191IT8O10 Block Chain Technologies CSE IT IT
20 191PT8O07 Chemical Process Safety PT
21 191PT8O08 Mechanical Unit Operations PT
22 191AG8O06 GIS essentials in Agriculture and its
application
CE AgE
23 191AG8O07 Organic Farming for Sustainable
Agricultural Production
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 13
COMMUNICATIVE ENGLISH (Common to all branches)
I Semester L T P C
Course Code 191HS1T01 3 0 0 3
Introduction
In view of the growing importance of English as a tool for global communication and the
consequent emphasis on training the students to acquire communicative competence the
syllabus has been designed to develop linguistic and communicative competence of the
students of Engineering
As far as the detailed textbooks are concerned the focus should be on the skills of
listening speaking reading and writing The non-detailed textbooks are meant for
extensive reading for pleasure and profit
Thus the stress in the syllabus is primarily on the development of communicative skills
and fostering of ideas
Course Objectives
COB 1 To improve the language proficiency of the students in English with emphasis on
LSRW skills
COB 2 To enable the students to study and comprehend the prescribed lessons and
subjects more effectively relating to their theoretical and practical components
COB 3 To develop the communication skills of the students in both formal and informal
situations
COB 4 To develop the ways to overcome fear and use of words for irony
COB 5 To make the learners understand the development conditions and the core
Competences of the state to prioritize education system
COB 6 To discuss that water is the worlds most precious natural resources
COB 7 To discuss how human sensitivity changes in accordance to times and situations
in life
COB 8 To inform the learner that all men can come together to abolish the war
LISTENING SKILLS
Objectives
1 To enable the students to appreciate the role of listening skill and improve their
pronunciation
2 To enable the students to comprehend the speech of people belonging to different
backgrounds and regions
3 To enable the students to listen for general content to fill up information and for
specific information
SPEAKING SKILLS
Objectives
1 To make the students aware of the importance of speaking for their personal and
professional communication
2 To enable the students to express themselves fluently and accurately in social and
professional success
AR19 Mechanical Engineering
Aditya Engineering College (A) 14
3 To help the students describe objects situations and people
4 To make the students participate in group activities like role-plays discussions and
debates
5 To make the students participate in just a minute talks
READING SKILLS
Objectives
1 To enable the students to comprehend a text through silent reading
2 To enable the students to guess the meanings of words messages and inferences of
texts in given contexts
3 To enable the students to skim and scan a text
4 To enable the students to identify the topic sentence
5 To enable the students to identify discourse features
6 To enable the students to make intensive and extensive reading
WRITING SKILLS
Objectives
1 To make the students understand that writing is an exact formal skills
2 To enable the students to write sentences paragraphs e-mails and essays
3 To make the students identify and use appropriate vocabulary
4 To enable the students to narrate and describe
5 To enable the students to write coherently and cohesively
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the ways to overcome fear and use of words for irony
CO 2 Interpret the development conditions and the core competences of the state to
prioritize education system
CO 3 Explain water as the worlds most precious natural resources
CO 4 Illustrate human sensitivity to the changing times and situations in life
CO 5 Identify that all men can come together to abolish the war
CO 6 Rephrase coherent writing in social political and religious background
CO 7 Demonstrate writing and concepts of grammar skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - - 2 - -
CO2 (K2) - - - - - - - - - 3 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K2) - - - - - - - - - 3 - -
CO5 (K3) - - - - - - - - - 2 - -
CO6 (K2) - - - - - - - - - 3 - -
CO7 (K2) - - - - - - - - - 3 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
CO6 (K2) - - -
CO7 (K2) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 15
Methodology
1 The class is to be learner-centred where the learners are to read the texts to get a
comprehensive idea of those texts on their own with the help of the peer group and
the teacher
2 Integrated skill development methodology has to be adopted with focus on
individual language skills as per the tasksexercise
3 The tasksexercises at the end of each unit should be completed by the learners only
and the teacher intervention is permitted as per the complexity of the taskexercise
4 The teacher is expected to use supplementary material wherever necessary and also
generate activitiestasks as per the requirement
5 The teacher is permitted to use lecture method when a completely new concept is
introduced in the class
Recommended Topics
UNIT-I
1 An Astrologersrsquos Day - RK Narayan (Detailed)
2 Bade Bhai Saab - Munshi Premchand (Non-Detail)
UNIT-II
1 Building A New State - A P J Abdul Kalam (Detailed)
2 Morning Bells- Jayashree Mohan Raj (Non-Detail)
UNIT-III
1 WaterThe Elixer Of Life- C V Raman (Detailed)
2 The Power Of Plate Of Rice- Ifeoma Okoye (Non-Detail)
UNIT-IV
1 The Woodrose-Abburi Chaya Devi (Detailed)
2 The Cop And The Anthem- O Henry (Non-Detail)
UNIT-V
1 Progress- St John Ervine (Detailed)
2 Dial 000- Barry Rosenberg (Non-Detail)
Textbooks
Detailed Text Book lsquoUsing Englishrsquo by Orient Black Swan
Non Detailed Text Book lsquoLife language and Culture -Explorationsrsquo by Cengage
Reference Books
1 Objective English Pearson Publications
2 Effective English Communication Tata Mc Graw-Hill Publishing
3 Effective Technical English Scitech
Web Links
1 httpsittingbeecoman-astrologers-day-r-k-narayan
2 httpbbrenglishforallblogspotcom201401building-new-state-study-materialhtml
3 httpswwwliteraturewormscom201210water-elixir-of-life-by-sircvramanhtml
4 httpmaconholeswoodrose-abburi-chaya-devipdf
5 httpsardhendudeblogspotcom201307analysis-of-progress-by-st-john-ervinehtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 16
DIFFERENTIAL EQUATIONS AND LINEAR ALGEBRA (Common to all branches)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that
are essential for an engineering course
COB 2 To help the students form a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the concepts of Mean Value theorem Partial Differentiation and identify
the maxima and minima of a given function
CO 2 Solve the linear differential equations and model various situations involving
differential equations of first order
CO 3 Solve linear differential equations of higher order and model various situations
involving second order differential equations
CO 4 Calculate Rank of a matrix and solve the system of Linear equations and find the
Eigen values and Eigen vectors
CO 5 Compute various powers of a matrix and identify the nature of the quadratic form
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
UNIT I
Differential Calculus
Rollersquos theorem Lagrangersquos theorem Cauchy Mean Value theorem Taylorrsquos and Maclaurinrsquos
theorems (All theorems Without Proof)
Partial Differentiation Eulerrsquos theorem (without proof) Total derivative Chain rule Taylorrsquos
and Maclaurinrsquos series expansion of functions of two variables Jacobian Functional
dependence
Applications
Maxima and Minima of functions of several variables without constraints and with constraints
(Lagrangersquos method)
(SCILAB Exercise Plot graphs of various single and multivariable functions)
I Semester L T P C
Course Code 191BS1T01 3 0 0 3
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K3) 3 - -
CO 3 (K3) 3 - -
CO 4 (K3) - - -
CO 5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 17
UNIT II
Differential equations of first order
Introduction to differential equations linear differential equation of first order - Bernoulli
differential equation - Exact differential equations- Equations reducible to exact
Applications
Orthogonal trajectories Newtonrsquos Law of cooling RL circuit
UNIT III
Linear differential equations of second and higher order
Linear differential equations of higher order with constant coefficients Complementary function
and Particular integral with RHS term of the type polynomials in x eax sin ax
cos ax eax V(x) xV(x)- Method of Variation of parameters Equations reducible to constant
coefficients ndashCauchy-Euler equation Legendrersquos equation
Application LCR Circuit
(SCILAB Exercise Introduction to SCILAB commands and Solution of Initial Value
Problems)
UNIT IV
System of linear equations Eigen values and Eigen vectors
Definition of a Vector space Linear dependence and independence of vectors Rank of a matrix
Echelon form and Normal form solving system of Homogenous and Non homogenous linear
equations- Gauss Jordon elimination method Eigen values Eigen vectors Properties of eigen
values and eigen vectors (without proof )
Applications
Free vibrations of a two mass system
UNIT V
Quadratic forms
Cayley -Hamilton theorem (without proof ) Inverse and powers of a matrix by using Cayley -
Hamilton theorem Diagonalization of a matrix Quadratic forms Reduction of quadratic form to
canonical form using orthogonal transformation Nature of the quadratic form
(SCILAB Exercise Basic Operations on matrices computation of rank computation of eigen
values and eigen vectors)
Not to be examined
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley-India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson Publications
Reference Books
1 DGZill MICHAIL R CULTER Advanced Engineering Mathematics 3rd Edition Norosa
Publications 2009
2 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
3 Peter Orsquoneil Advanced Engineering Mathematics Cengage Learning
4 Glyn James Advanced modern engineering mathematics Pearson education
AR19 Mechanical Engineering
Aditya Engineering College (A) 18
Web Links
1 httpsnptelacincourses111106100
2 httpsnptelacincourses12210703714
3 httpsnptelacincourses111106051
4 httpmathworldwolframcom
5 httpswwwkhanacademyorg
6 httpsspoken-tutorialorgtutorial-
searchsearch_foss=Scilabampsearch_language=English
AR19 Mechanical Engineering
Aditya Engineering College (A) 19
ENGINEERING PHYSICS (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To identify different types of crystals analyze acoustic properties of for concert
halls NDT using ultrasonics
COB 2 To study different types of moduli and their relation applications of LASER light
in various Industries study different types of sensors
COB 3 To impart the knowledge of magnetic and dielectric materials and their
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basic concepts of crystal structure and X-ray diffraction Techniques
CO 2 Apply the knowledge of acoustics to improve acoustic quality of concert halls and
understand the concepts of flaw detection techniques using ultrasonics
CO 3 Apply the structure- property relationship exhibited by solid materials within the
elastic limit
CO 4 Explain the basic concepts of LASERs along with its Engineering applications and
familiarize with types of sensors for various engineering applications
CO 5 Explain about magnetic and dielectric properties of different materials
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K2) 2 - -
CO5 (K2) - - 2
UNIT-I
Crystal Structure Basis and lattice ndash Crystal Systems ndash Bravais Lattice - Symmetry
elements- Unit cell-packing fraction ndash coordination number- Miller indices ndash Separation
between successive (h k l) planes ndash Braggrsquos law-Braggrsquos x-ray spectrometer
Crystal Defects (qualitative description only) Point defects-Schottky Frenkel defects Line
defects-Edge screw dislocations
UNIT-II
Acoustics Introduction ndash Reverberation - Reverberation time - Sabinersquos formula (Derivation)ndash
I Semester L T P C
Course Code 191BS1T02 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 20
absorption coefficient and its determination- factors affecting acoustics of buildings and their
remedies
Ultrasonics Production of ultrasonics by Magnetostriction and piezoelectric methods ndash
Detection of ultrasonics - acoustic grating - Non-Destructive Testing- pulse echo system
through transmission and reflection modes - Applications
UNIT-III
Elasticity Stress strain Hookersquos law stress-strain curve generalized Hookersquos law with and
without thermal strains for isotropic materials different types of moduli and their relations
bending of beams ndash Bending moment of a beam ndash Depression of cantilever
UNIT-IV
Laser Introduction to wave optics amp Interferometer-CharacteristicsndashSpontaneous and
Stimulated emission of radiation ndash population inversion - Einsteinrsquos coefficients amp Relation
between them and their significance - Pumping Mechanisms - Ruby laser ndash Helium Neon laser
ndash CO2 laser-Applications
Sensors (qualitative description only) Different types of sensors and applications Strain and
Pressure sensors- Piezoelectric magnetostrictive sensors Temperature sensor - bimetallic
strip pyroelectric detectors
UNIT-V
Magnetism Introduction ndash Magnetic dipole moment ndash Magnetization-Magnetic susceptibility
and permeability ndash Origin of permanent magnetic moment ndash Bohr Magneton - Classification
of magnetic materials (Dia Para and Ferro) ndash Domain concept of Ferromagnetism - Hysteresis
ndash soft and hard magnetic materials ndash Applications of Ferromagnetic materials
Dielectrics Introduction - Dielectric polarization ndash Dielectric polarizability Susceptibility and
Dielectric constant-types of polarizations Electronic and Ionic (Quantitative) Orientational
polarizations (qualitative)-Lorentz internal field ndash Claussius_Mossoti equation- Frequency
dependence of polarization - Applications of dielectrics
Text Books
1 ldquoText book of Engineering Physicsrdquo by P G Kshirsagar amp M N Avadhanulu S Chand amp
Company Ltd
2 ldquoEngineering Physicsrdquo by R K Gaur and S L Gupta Dhanpat Rai Publications
3 ldquoSensor and Transducersrdquo by Ian R Sinclair Elsevier (Newnes) 3rd Eds
Reference Books
1 ldquoEngineering Physicsrdquo by M R Srinivasan New Age International Publishers
2 ldquoLectures on Physicsrdquo by Richard P Feynman Pearson Publishers New Millennium Eds
3 ldquoLasers and Non-linear Opticsrdquo by B B Laud New Age International Publishers (3rd
Eds)
Web Links
1 httpnptelacincourses12210703511
2 httpnptelacincourses115102023
3 httpsphetcoloradoeduensimulationscategoryphysics
4 httpphysicsgecgblogspotinpreading-materialshtml
5 httpssitesgooglecomsitephysicsbysureshsagantihome
AR19 Mechanical Engineering
Aditya Engineering College (A) 21
PROGRAMMING FOR PROBLEM SOLVING USING C (Common to all branches)
Course Objectives
COB 1 To impart adequate knowledge on the need of programming languages and problem
solving techniques and develop programming skills
COB 2 To enable effective usage of control structures and implement different operations on
arrays
COB 3 To demonstrate the use of strings and functions
COB 4 To impart the knowledge of pointers and understand the principles of dynamic
memory allocation
COB 5 To make the students understand the concepts of structures unions files and their
operations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the fundamental concepts of computers and basics of computer
programming
CO 2 Make use of control structures and arrays in solving complex problems
CO 3 Develop modular program aspects and strings fundamentals
CO 4 Demonstrate the ideas of pointers usage
CO 5 Solve real world problems using the concept of structures unions and File operations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K2) 2 1 - - 2 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 2
CO2 (K3) 3 2 3
CO3 (K3) 3 2 3
CO4 (K2) - - -
CO5 (K3) 3 2 3
UNIT-I
Computer History Hardware Software Programming Languages and Algorithms
Components and functions of a Computer System Concept of Hardware and Software
Programming Languages Low-level and High-level Languages Program Design Tools
Algorithm Flowchart Pseudo code
Introduction to C Programming Introduction Structure of a C Program Comments
Keywords Identifiers Data Types Variables Constants InputOutput Statements Operators
Type Conversion
I Semester L T P C
Course Code 191ES1T01 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 22
UNIT -II
Control Flow Relational Expressions amp Arrays Conditional Branching Statements if if-
else if-elsendashif switch Basic Loop Structures while do-while loops for loop nested loops
The Break and Continue Statements goto statement
Arrays Introduction Operations on Arrays One dimensional Array Two dimensional Array
Multi dimensional arrays
UNIT-III
Strings String Fundamentals String Processing with and without Library Functions
Functions Introduction Function Declaration Function Definition Function call Categories
of Functions passing parameters to Functions Arrays as Function Arguments Scope of
Variables Variable Storage Classes Recursion
UNIT-IV
Pointers Concept of a Pointer Declaring and Initializing Pointer Variables Pointer
Expressions and Address Arithmetic Null Pointers Generic Pointers Pointers as Function
arguments Pointers and Arrays Pointers and Strings Pointer to Pointer Dynamic Memory
Allocation Dangling Pointer Command line Arguments
UNIT-V
Structures Unions Bit Fields Introduction Nested Structures Arrays of Structures
Structures and Functions Self-Referential Structures Unions Enumerated Data Type ndashenum
variables Using Typedef keyword Bit Fields
Data Files Introduction to Files Using Files in C Reading from Text Files Writing to Text
Files Random File Access
Text Books
1 Computer Programming Reema Thareja Oxford University Press
2 Byron Gottfried Schaums Outline of Programming with C McGraw-Hill
3 Programming In C A-Practial Approach Ajay Mittal Pearson
Reference Books
1 C Programming ndash A Problem Solving Approach Forouzan Gilberg Cengage
2 The C Programming Language Dennis Richie And Brian Kernighan Pearson
Education
3 Programming In C Ashok Kamthane Second Edition Pearson Publication
Web Links
1 httpwwwc4learncom
2 httpwwwgeeksforgeeksorgc
3 httpnptelacincourses122104019
4 httpwwwlearn-corg
5 httpswwwtutorialspointcomcprogramming
AR19 Mechanical Engineering
Aditya Engineering College (A) 23
COMMUNICATIVE ENGLISH LAB ndashI (Common to all branches)
Course Objectives
COB 1 To facilitate computer-aided multi-media instruction enabling
Individualized and independent language learning
COB 2 To sensitize the students to the nuances of English speech sounds word
accent and intonation
COB 3 To bring about a consistent accent and intelligibility in their pronunciation
of English by providing an opportunity for practice in speaking
COB 4 To improve the fluency in spoken English and neutralize mother tongue
influence
COB 5 To train students to use language appropriately
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
A Greeting Introducing and taking leave
B Pure Vowel
PRACTICE 2
A Giving Information and Asking for Information B Diphthongs
I Semester L T P C
Course Code 191HS1L01 0 0 3 15
CO 1 Demonstrate nuances of language through audio-visual experience and
group activities
CO 2 Identify accent for intelligibility
CO 3 Demonstrate in conversation jams and public speaking
CO 4 Make use of the concepts to communicate confidently and competently in
English Language in all spheres
AR19 Mechanical Engineering
Aditya Engineering College (A) 24
PRACTICE 3
A Inviting Accepting and Declining Invitations
B Consonants
PRACTICE 4
A Commands Instructions and Requests
B Accent and Rhythm
PRACTICE 5
A Suggestions and Opinions
B Intonation
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra
JRaju and DrGSuvarna Lakshmi Maruthi Publications
2 English for Professionals by Prof Eliah BS Publications Hyderabad
3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata McGraw ndash Hill
Publishing Company
5 Word power made handy Dr Shalini verma S Chand Company
6 Let us hear them speak Jayashree Mohanraj Sage texts
AR19 Mechanical Engineering
Aditya Engineering College (A) 25
ENGINEERING PHYSICS LAB (Common to CE ME MinE PT AgE)
Course Objectives COB 1 To make the students gain practical knowledge to co- relate with the
theoretical studies
COB 2 To impart skills in measurements
COB 3 To plan the experimental procedure and to record and process the results
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the rigidity and youngrsquos modulus to understand material properties
CO 2 Determine Acceleration due to Gravity and Radius of Gyration and spring constant
by oscillatory mechanics
CO 3 Find the strength of the magnetic field
CO 4 Determine wave length of unknown source particle size using lasers
CO 5 Determination of velocity of sound moment of inertia
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - - -
CO3 (K2) - - -
CO4 (K3) - - -
CO 5 (K3) 3 - -
LIST OF EXPERIMENTS
(Any 10 of the following listed experiments)
1 Determination of Rigidity modulus of a material- Torsional Pendulum
2 Determination of Youngrsquos modulus by method of single cantilever oscillations
3 Determination of Acceleration due to Gravity and Radius of Gyration - Compound
Pendulum
4 Verification of laws of vibrations in stretched strings ndash Sonometer
5 Determination of spring constant of springs using coupled oscillators
6 Magnetic field along the axis of a current carrying coil ndash Stewart and Geersquos apparatus
7 Study the variation of B versus H by magnetizing the magnetic material (B-H curve)
I Semester L T P C
Course Code 191BS1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 26
8 Measurement of magnetic susceptibility by Gouyrsquos method
9 Determination of ultrasonic velocity in liquid (Acoustic Grating)
10 Determination of dielectric constant by charging and discharging method
11 Determination of wavelength of Laser by diffraction grating
12 Determination of particle size using Laser
13 Determeination of Pressure variation using strain Gauge sensor
14 Determination of Moment of Inertia of a Fly Wheel
15 Determination of Velocity of sound ndashVolume Resoantor
LIST OF AUGMENTED EXPERIMENTS
16 to 19 (Any two of the following experiments can be performed)
16 Determine the Youngs Modulus of the material of the bar subjected to uniform bending
17 Determine the Youngs Modulus of the material of the bar subjected to non-
uniform bending
18 V-I characteristics of P-N junction Diode
19 V-I characteristics and Breakdown voltage of Zener Diode
Reference Books
1 Engineering Physics Lab Manual by DrCVMadhusudhana Rao VVasanth Kumar
Scitech Publications
2 Laboratory Manual Cum Record for Engineering Physics I amp II by DrYAparna
DrKVenkateswara Rao VGS Technoseries
ENGINEERING PHYSICS - VIRTUAL LAB ndash ASSIGNMENTS
LIST OF EXPERIMENTS
1 Hall Effect
2 Crystal Structure
3 Brewsterrsquos angle
4 Numerical Aperture of Optical fiber
5 Photoelectric Effect
6 LASER ndash Beam Divergence and Spot size
7 Michelsonrsquos interferometer
8 Black body radiation
9 Flywheel ndash moment of inertia
10 AC Sonometer
11 Resistivity by four probe method
12 Newtonrsquos rings ndashRefractive index of liquid
Web Link
URL wwwvlabcoin
AR19 Mechanical Engineering
Aditya Engineering College (A) 27
PROGRAMMING FOR PROBLEM SOLVING USING C LAB (Common to all branches)
Course Objectives
COB 1 To impart knowledge on basic Linux commands various Editors Raptor
COB 2 To make the students understand the concepts of C programming
COB 3 To nurture the students on Control Structures and develop different operations on
arrays
COB 4 To enable the students to learn string fundamentals and modular programming
constructs
COB 5 To impart knowledge on dynamic memory allocation
COB 6 To explain the concepts of Structure Unions and files for solving various
problems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Develop the basic programs in C and draw the flowcharts using Raptor
CO 2 Make use of conditional and iterative statements to solve real time scenarios in C
CO 3 Apply the concept of arrays modularity and strings to handle complex problems
CO 4 Apply the dynamic memory allocation functions using pointers
CO 5 Develop programs using structures and Files
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K3) 2 1 - - 3 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1(K2) 2 1 2
CO2(K3) 3 2 3
CO3(K3) 3 2 3
CO4(K3) - - -
CO5(K3) 3 2 3
1 Introduction to C Programming
11) Basic Linux Commands
12) Exposure to Turbo C Vi Emacs Code Blocks IDE Dev C++
13) Writing simple programs using printf() scanf()
2 Raptor
21) Installation and Introduction to Raptor
22) Draw a flow chart to find the Sum of 2 numbers
23) Draw a flow chart to find Simple interest
I Semester L T P C
Course Code 191ES1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 28
For the following experiments develop flow charts using Raptor and implement C
programs to
3 Basic Math
31) Convert Celsius to Fahrenheit and vice versa
32) Find largest of three numbers using ternary operator
33) Calculate area of a Triangle using Herons formula
4 Control Flow- I
41) Find Whether the Given Year is a Leap Year or not
42) Find the roots of a Quadratic Equation
43) Make a simple Calculator to Add Subtract Multiply or Divide Using switchhellipcase
5 Control Flow- II
51) Find Whether the Given Number is Prime number or not
52) Find Whether the Given Number is Armstrong Number or not
53) Print Floyd Triangle
6 Control Flow- III
61) Find the sum of individual digits of a positive integer
62) Check whether given number is palindrome or not
63) Read two numbers x and n and then compute the sum of the geometric progression
1+x+x2 +x3 +helliphelliphelliphellip+xn
7 Arrays
71) Search an element in the given array (Linear Search)
72) Perform matrix addition
73) Perform matrix multiplication
8 Strings
81) Implementation of string manipulation operations with library function
a) copy
b) concatenate
c) length
d) compare
82) Implementation of string manipulation operations without library function
a) copy
b) concatenate
c) length
d) compare
83) Verify whether the given string is a palindrome or not
9 Functions Array amp Pointers
91) Demonstrate parameter passing in Functions
92) Find Fibonacci Factorial of a number with Recursion and without Recursion
93) Find the sum of given numbers with arrays and pointers
10 Pointers
101) Perform Addition Subtraction Multiplication and Division of two numbers using
Command line arguments
102) Find sum of n elements entered by user To perform this program allocate memory
dynamically using malloc () function
AR19 Mechanical Engineering
Aditya Engineering College (A) 29
103) Find sum of n elements entered by user To perform this program allocate memory
dynamically using calloc () function
11 Structures
111) Store Information of a book Using Structure
112) Add Two Complex Numbers by Passing Structure to a Function
12 Files
121) Open a file and to print the contents of the file on screen
122) Copy content of one file to another file
123) Merge two files and store content in another file
LIST OF AUGMENTED EXPERIMENTS
13 to 16 (Any 2 of the following experiments can be performed)
13 Atm Pin Generation
Aditya purchased a credit card He has to generate a PIN number to access the ATM and Net
banking for which OTP was sent to his registered mobile number Using this OTP number he
has to generate ATM PIN number After generating PIN number he can use it for further
transactions Maximum login he can make is 3 times
Sample Input
OTP 6732
If valid
Enter PIN 8858
Confirm your PIN 8858
Sample output
validInvalid
PIN generated successfully
Note OTP is hard coded
14 Reset Password
Aditya was using Syndicate Bankrsquos Online Account She wanted to pay her bills through
Online But she forgets her password Now she has to reset the password For resetting the
password she has to select reset option from the Menu
NOTE using switch case
Sample input
Fast withdrawal
Mini Statement
Balance Enquiry
Reset Password Enter your choice 4
Sample Output
Reset password New password Confirm password
15 Student Attendance Report Generation
Some of the school staff had failed to maintain the attendance of the students causing lack of
essential records related to students attendance that should be submitted in a parents meet The
school management has decided to automate the process in order to maintain the attendance of
every student effectively You are asked to write a program to the above scenario and display
whether the student is allowed to write the Exam or not
AR19 Mechanical Engineering
Aditya Engineering College (A) 30
Percentagelt65 Detained
gt=65 and lt75 should pay condonation to appear for
Exams
gt=75 Allowed for exams
Sample Input
Enter no of students 5
Enter Students Details
Rno1 NameKalyan Attendance() 67 Should pay
condonation to appear for exams
Rno2 Name Laxman Attendance() 56 Rno3 NameYamini Attendance() 79 Rno4 Name Aryan Attendance() 60 Rno5 Name Raghav Attendance() 88
Sample output Rno Name Attendance () Remarks
1 Kalyan 67 67 should pay condonation to
appear for Exams 2 Laxman 56 detained 3 Yamini 79 allowed for Exams 4 Aryan 60 detained 5 Raghav 88 allowed for Exams
16 Library Management
Shilpa is a student of PGEC got the Library Card She wants to lend the books from the Library
The college gave two cards to each and every student The students can lend only two books at
a time and it has to be returned back after 15 days If the books are not returned late fee will be
collected for no of days the books were returned after the due date Late fee per day is Rs50-
Sample output
Enter the name of student nalini
Enter the Roll No555
Enter the branch cse
Enter the section A
Enter the year 3
Enter the Date of Lend (dd mm yyyy ) 08 08 2017
Enter the Date of return (dd mm yyyy ) 09 10 2017
The no of days book used by the student = 62
Extra days used by the student = 47
Late return fine fee = 2350
Reference Books
1 Let Us C Yashwanth Kanetkar Eighth edition BPB Publications
2 Programming in C A-Practial Approach Ajay Mittal Pearson Education
3 The C programming Language Dennis Richie and Brian Kernighan Pearson
Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 31
Web Links
1 httpswwwhackerrankcom
2 httpswwwcodechefcom
3 httpswwwtopcodercom
4 httpscode-crackergithubio
5 httpsraptormartincarlislecom
6 httpsnptelacincourses1061050852
AR19 Mechanical Engineering
Aditya Engineering College (A) 32
BASIC ENGINEERING WORKSHOP (Common to all branches)
I Semester L T P C
Course Code 191ES1L02 0 0 3 15
Course Objectives
COB 1 To make the students practice basic engineering trades and skills
COB 2 To nurture the students build various joints used in different trades for several
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct the various wooden joints
CO 2 Develop various fitting joints
CO 3 Develop components for making the various sheet metal models
CO 4 Experiment with the various house wiring connections
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 - 3 - - - - - - -
CO2 (K3) 3 2 1 - 3 - - - - - - -
CO3 (K3) 3 2 1 - 3 - - - - - - -
CO4 (K3) 3 2 1 - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) - - -
List of Experiments
Carpentry
1 Cross Lap Joint
2 Dovetail Joint
3 T - Joint
Fitting
4 Vee Fit
5 Square Fit
House Wiring
6 Parallel Connection of three bulbs
7 Series Connection of three bulbs
Tin Smithy
8 Taper Tray
9 Funnel
10 Plain Pipe
AR19 Mechanical Engineering
Aditya Engineering College (A) 33
List of Augmented Experiments
(Student can perform any one of the following experiments)
1 Stair Case wiring
2 Florescent Lamp Fitting
Reference Books
1 Engineering Workshop by Dr A B Srinivasa Rao AMIGO Books
2 Manual on Workshop practice by Dr PKannaiah amp Dr KLNarayana Scitech
publications
Web Links
1 httptiteacinindexphpdepartmentsmechanical-engineeringworkshop
2 httpswwwgopracticalscombasic-engineeringworkshop
AR19 Mechanical Engineering
Aditya Engineering College (A) 34
ENVIRONMENTAL SCIENCE (Common to all branches)
I Semester L T P C
Course Code 191MC1A01 2 0 0 0
Course Objectives
COB 1 To define the various ecosystems and its diversity
COB 2 To summarize the overall natural resources
COB 3 To classify environmental impacts of developmental activities
COB 4 To discuss social issues environmental legislation and global t treaties
COB 5 To educate human population and environment
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the need for protecting the producers and consumers in various ecosystems
and their role in the food web
CO 2 Outline the natural resources and their importance for the sustenance of the life
CO 3 List out the biodiversity of India threats and its conservation methods
CO 4 Illustrate various attributes of the pollution impacts and measures to control the
pollution along with waste management practices
CO 5 Describe social issues both rural and urban environment to combat the
challenges
CO 6 Summarize the legislations of India in environmental protection
CO 7 Explains the population growth and its implications
CO 8 Transforms existing campus into self sustaining green campus with environment
Friendly aspects of ndash Energy Water and waste water reuse plantation rain water
Harvesting and Parking Curriculum
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K1) 1 - - - - 1 2 1 - - - -
CO2 (K2) 1 - - - - 1 2 1 - - - -
CO3 (K1) 1 - - - - 1 2 1 - - - -
CO4 (K2) 1 - - 1 - 1 2 1 - - - -
CO5 (K2) 1 - - - - 1 2 1 - 3 - -
CO6 (K2) 1 - - - - 1 2 1 - - - -
CO7 (K4) 1 - - - - 1 2 1 - - - -
CO8 (K2) 2 1 2 1 - 2 3 2 3 3 2 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K1) - - -
CO2 (K2) - - 2
CO3 (K1) - - -
CO4 (K2) 2 - -
CO5 (K2) - - -
CO6 (K2) - - -
CO7 (K4) - - -
CO8 (K2) 2 1 2
AR19 Mechanical Engineering
Aditya Engineering College (A) 35
UNIT- I
Multidisciplinary Nature Of Environmental Studies
Definition Scope and Importance Need for Public Awareness
Natural Resources Renewable and non-renewable resources ndash Natural resources and
associated problems
UNIT - II
Ecosystem Biodiversity And Its Conservation
Ecosystems Concept of an ecosystem ndash Structure and function of an ecosystem ndash Producers
consumers and decomposers Food chains food webs and ecological pyramids
Biodiversity And Its Conservation Definition genetic species and ecosystem diversity ndash Bio-
geographical classification of India ndash Values of biodiversity Hot-spots of biodiversity ndash
Threats to biodiversity Conservation of biodiversity In-situ and Ex-situ conservation of
biodiversity
UNIT - III
Environmental Pollution And Solid Waste Management
Environmental Pollution Definition Cause effects and control
measures of
a Air Pollution
b Water pollution
c Soil pollution
d Marine pollution
e Noise pollution
Solid Waste Management Causes effects and control measures of urban and industrial
wastes ndash Role of an individual in prevention of pollution
UNIT - IV
Social Issues And The Environment
Social Issues and the Environment From Unsustainable to Sustainable development ndash
Urban problems related to Energy ampWater Resettlement and rehabilitation of people
Environmental ethics Climate change global warming acid rain ozone layer depletion
nuclear accidents and holocaust Environment Protection Act ndash Air (Prevention and Control
of Pollution) Act ndash Water (Prevention and control of Pollution) Act-Wildlife Protection Act
ndash Forest Conservation Act ndash Issues involved in enforcement of environmental legislation ndash
Public awareness
UNIT - V
Human Population And The Environment
Human population and the environment Population growth variation among nations
Environment and human health Human Rights Value Education Role of Information
Technology in Environment and human health
AR19 Mechanical Engineering
Aditya Engineering College (A) 36
Text Books
1 Text book of Environmental Studies for Undergraduate Courses by Erach Bharucha
for University Grants Commission Universities Press
2 Environmental Studies by Palaniswamy ndash Pearson education
3 Environmental Studies by DrSAzeem Unnisa Academic Publishing Company
Reference Books
1 Textbook of Environmental Science by Deeksha Dave and ESai Baba Reddy Cengage
Publications
2 Text book of Environmental Sciences and Technology by MAnji Reddy BS
Publication
3 Comprehensive Environmental studies by JPSharma Laxmi publications
4 Environmental sciences and engineering ndash J Glynn Henry and Gary W Heinke ndash
Prentice hall of India Private limited
5 A Text Book of Environmental Studies by GRChatwal Himalaya Publishing House
6 Introduction to Environmental engineering and science by Gilbert M Masters and
Wendell P Ela - Prentice hall of India Private limited
Web Links
1 httpswwwyoutubecomwatchv=mOwyPENHhbc
2 httpswwwyoutubecomwatchv=_mgvsPnCYj4
3 httpswwwyoutubecomwatchv=L5B-JMnBIyQ
4 httpswwwyoutubecomwatchv=3RDGV5i82_Q
AR19 Mechanical Engineering
Aditya Engineering College (A) 37
CONSTITUTION OF INDIA (Common to all branches)
I Semester L T P C
Course Code 191MC1A02 2 0 0 0
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain historical background of the constitution making and its importance for
building a democratic India
CO 2 Compare the functioning of three wings of the government ie executive
legislative and judiciary
CO 3 Interpret the value of the fundamental rights and duties for becoming good citizen
of India
CO 4 Compare the decentralization of power between central state and local self-
government
CO 5 Extend the knowledge in strengthening of the constitutional institutions like CAG
Election Commission and UPSC for sustaining democracy
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 2 - - -
CO2 (K2) - - - - - - - - 3 - - -
CO3 (K2) - - - - - - - - 3 - - -
CO4 (K2) - - - - - - - - 3 - - -
CO5 (K3) - - - - - - - - 2 - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Indian Constitution Constitutionrsquo meaning of the term Indian Constitution -
Sources and constitutional history Features - Citizenship Preamble Fundamental Rights and
Duties Directive Principles of State Policy
COB 1 To enable the student to interpret the importance of constitution
COB 2 To facilitate the students to illustrate the structure of executive legislature and
judiciary
COB 3 To allow the students to classify philosophy of fundamental rights and duties
COB 4 To facilitate the students to outline the autonomous nature of constitutional bodies
like Supreme Court High Court Comptroller and Auditor General of India and
Election Commission of India
COB 5 To enable the student to interpret the central and state relations of finance and
administration
AR19 Mechanical Engineering
Aditya Engineering College (A) 38
UNIT-II
Union Government and its Administration Structure of the Indian Union Federalism Centre-
State relationship President Role power and position PM and Council of ministers Cabinet
and Central Secretariat Lok Sabha Rajya Sabha The Supreme Court and High Court Powers
and Functions
UNIT-III
State Government and its Administration Governor - Role and Position - CM and Council of
ministers State Secretariat Organisation Structure and Functions
UNIT-IV
A Local Administration - Districtrsquos Administration Head - Role and Importance
Municipalities - Mayor and role of Elected Representative - CEO of Municipal Corporation
PachayatiRaj Functions PRI Zila Panchayat Elected officials and their roles CEO Zila
Panchayat Block level Organizational Hierarchy - (Different departments) Village level -
Role of Elected and Appointed officials - Importance of grass root democracy
UNIT-V
Election Commission Election Commission- Role of Chief Election Commissioner and
Election Commissionerate State Election Commission Functions of Commissions for the
welfare of SCSTOBC and women
Text Books
1 Durga Das Basu Introduction to the Constitution of India Prentice ndash Hall of India Pvt
Ltd New Delhi
2 Subash Kashyap Indian Constitution National Book Trust
Reference Books
1 JA Siwach Dynamics of Indian Government amp Politics
2 DC Gupta Indian Government and Politics
3 HMSreevai Constitutional Law of India 4th edition in 3 volumes (Universal Law
Publication)
4 JC Johari Indian Government and Politics Hans
Web Links
1 nptelacincourses1091040748
2 nptelacincourses109104045
3 nptelacincourses101104065
4 wwwhssiitbacinenlecture-details
5 wwwiitbacinenevent2nd-lecture-institute-lecture-series-indian-constitution
AR19 Mechanical Engineering
Aditya Engineering College (A) 39
PARTIAL DIFFERENTIAL EQUATIONS AND VECTOR CALCULUS (Common to CE EEE ME MinE PT AgE)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that are
essential for an engineering course
COB 2 To help the students acquire a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Solve improper integrals using beta and gamma functions
CO 2 Solve partial differential equations of first order
CO 3 Compute the double integral over a region and triple integral over a volume
CO 4 Calculate the gradient of a scalar function divergence and curl of a vector function
CO 5 Apply line surface and volume integrals
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT - I
Special Functions
Beta and Gamma functions Properties Relation between Beta and Gamma functions
Evaluation of improper integrals
UNIT II
Partial Differential Equations
Formation of partial differential equations by elimination of arbitrary constants and arbitrary
functions Solutions of first order linear partial differential equations nonlinear partial
differential equations (standard types) Homogeneous linear partial differential equations with
constant coefficients
UNIT III
Multiple Integrals
Double integrals Change of order of integration Change of variables Double integral in polar
coordinates Triple integrals Finding Area and Volume as a double integral
II Semester L T P C
Course Code 191BS2T05 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 40
UNIT IV
Vector Differentiation
Introduction Gradient of a scalar field Directional Derivative Divergence of a vector field
Curl of a vector field Solenoidal and irrotational fields Conservative force field Scalar
potential Laplace operator Vector identities
UNIT V
Vector Integration
Introduction Line integral Work done Surface and volume integrals Greenrsquos theorem Stokes theorem and Gauss Divergence theorem (All theorems without proof) and related problems
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley- India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson
Publications
Reference Books
1 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
2 Dass HK Rajnish Verma Er Higher Engineering Mathematics S Chand Co Pvt
Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited 2006
Web Links
4 httpsnptelacincourses11110710825
5 httpsnptelacincourses111103021
6 httpsnptelacincourses111105122
7 httpmathworldwolframcom
8 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 41
CHEMISTRY OF MATERIALS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191BS2T06 3 0 0 3
Course Objectives
COB 1 To acquaint the students with soft and hard water types and softening methods
COB 2 To impart the knowledge on the basic concepts of electrochemical cells and battery
technology
COB 3 To impart knowledge about engineering materials their properties and
applications
COB 4 To impart knowledge on corrosion and its significance
COB 5 To explain Nano and smart materials and their uses
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare the quality of drinking water and problems associated with hard water
CO 2 Outline the difference between primary and secondary cells
CO 3 Explain about polymers and engineering materials
CO 4 Explain corrosion and their control methods
CO 5 Summarize the importance of Nano materials Semi conductors and Super
conductors
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - - - - -
CO2 (K2) 2 - - - - - - - - - - -
CO3 (K2) 2 - - - - - - - - - - -
CO4 (K2) 2 - - - - - - - - - - -
CO5 (K2) 2 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 -
CO2 (K2) 2 - -
CO3 (K2) 2 - -
CO4 (K2) - - -
CO5 (K2) - 1 -
UNIT- I
Water Technology
Introduction ndash Soft Water and hardness of water types of hardness of water degree of hardness
of water Units of hardness of water problems on hardness Boiler troubles - scale and sludge
Boier corrosion Industrial water treatment- zeolite and ion-exchange processes
Specifications for drinking water Bureau of Indian Standards (BIS) and World health
organization (WHO) standards - desalination of brackish water reverse osmosis (RO) and
electrodialysis
AR19 Mechanical Engineering
Aditya Engineering College (A) 42
UNIT - II
Electrochemical Energy Systems
Introduction- Electrochemical Cell (Galvanic cell) Electrochemical series Applications
single electrode potential Hydrogen and Calomel electrode Nernst Equation for a single
electrode Concentration Cells (Electrode amp Electrolyte) Construction of glass electrode
Batteries ndash Classical batteries-dryLeclanche cell Modern batteries-zinc air lithium cells-Li
MnO2 cell- challenges of battery technology Fuel cells- Introduction - classification of fuel
cells ndash hydrogen and oxygen fuel cell propane and oxygen fuel cell- Merits of fuel cell
UNIT - III
Polymers and Building Materials
Introduction to polymers functionality of monomers chain growth and step growth
polymerization coordination polymerization copolymerization (stereospecific
polymerization) with specific examples and mechanisms of polymer formation (Free radical
mechanism for addition ploymerization)
Plastics - Thermoplastics and Thermo settings Preparation properties and applications of ndash
PVC Bakelite
Steel ndash Types of Steel chemical composition ndash applications of alloy steels
Cement Portland cement constituents Manufacture of Portland Cement chemistry of setting
and hardening of cement
UNIT - IV
Corrosion Engineering
Corrosion Definition ndash theories of corrosion dry corrosion and electro chemical corrosion ndash
factors affecting corrosion nature of the metal and nature of the environment
Corrosion controlling methods Sacrificial and Impressed current cathodic protection
Metallic coatings anodic coatings cathodic coating galvanizing and tinning metal cladding
Electroplating ndashorganic coatings paints (constituents and their functions)
UNIT - V
Material Science and Engineering
Nano Materials Introduction to Nano materials chemical synthesis of nanomaterials Sol-
gel method characterization of nanomateirals by TEM (includes basic principle of TEM)
Applications of nanomaterials in waste water treatment lubricants and engines
Nano Tubes Carbon nano tubes- Types of CNTrsquos-preparation methodsndashArc vapourisation
Laser abiliation and chemical vapour deposition ndashproperties and applications
Band Theory of Solids Introduction ndashExplanation of conductors semi conductors Insulators
by Band Theory- Super conductors-Types-Preparation-Properties and Applications
Appendix Introduction to Smart Materials
Text Books
1 PC Jain and M Jain Engineering Chemistry 16e Dhanapat Rai amp Sons (2014)
2 BK Sharma Engineering Chemistry Krishna Prakasham (2014)
3 Engineering Chemistry by Shikha Agarwal Cambridge University Press 2015
edition
Reference Books
1 Sashi Chawla A Textbook of Engineering Chemistry Dhanapath Rai and sons (2003)
2 BS Murthy and P Shankar A Text Book of Nano Science and Nano Technology
University Press (2013)
AR19 Mechanical Engineering
Aditya Engineering College (A) 43
3 SS Dara A Textbook of Engineering Chemistry SChand amp Co (2010)
Web Links 1 httpwwwnptelvideosin201211chemistry-of-materials
2 httpwwwnptelvideoscomlecturephpid=2946
3 httpwwwnptelvideoscomlecturephpid=2922
4 httpwwwnptelvideoscomlecturephpid=2954
AR19 Mechanical Engineering
Aditya Engineering College (A) 44
ENGINEERING GRAPHICS AND DESIGN (Common to CE ME ECE CSE IT MinE PT amp AgE)
II Semester L T P C
Course Code 191ES2T02 1 0 3 25
Course Objectives
COB 1 To teach the practices for accuracy and clarity in presenting the technical
information used in industry
COB 2 To train the students with graphical skills in design of mechanical engineering
components
COB 3 To impart the knowledge of drawing machine components using AutoCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Make use of fundamentals of Engineering Drawing to sketch basic curves conic
sections cycloid epicycloid hypocycloid and involute
CO 2 Apply the principles of orthographic projections for points lines and planes
CO 3 Apply the principles of orthographic projections for solids
CO 4 Apply the AutoCAD software for the orthographic projection of the machine parts
CO 5 Apply the AutoCAD software for the isometric projection of the machine parts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K3) 3 - - - - - - - - 3 - -
CO2(K3) 3 - - - - - - - - 3 - -
CO3(K3) 3 - - - - - - - - 3 - -
CO4(K3) 3 - - - 3 - - - - 3 - 3
CO5(K3) 3 - - - 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - 3
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CONVENTIONAL DRAFTING
Unit-I
Introduction to Engineering graphics Principles of Engineering Graphics and their
significance- conventions in drawing- lettering ndash BIS Conventions- - Conic sections -Cycloid
epicycloids and hypocycloid-Involutes
UNIT-II
Projection of points lines and planes Projection of points in any quadrant lines inclined to
one or both planes finding true lengths angle made by line Projections of regular plane
surfaces
UNIT-III
Projections of solids Projections of regular solids inclined to one or both planes by rotational
AR19 Mechanical Engineering
Aditya Engineering College (A) 45
or auxiliary views method COMPUTER AIDED DRAFTING
UNIT-IV
Introduction to Computer Aided Drafting Basic drawing and editing commands-
Dimensioning principles and conventional representations Systems of projections
Conventions and application to orthographic projections
UNIT-V
Isometric Projections Principles of isometric projection- Isometric scale Isometric views
lines planes figures simple and compound solids
Text Books
1 NDBhatt Engineering Drawing 53rd Edition Charotar Publishers 2016
2 KLNarayana amp PKannaiah Engineering Drawing 3rd Edition Scitech Publishers
Chennai 2012
Reference Books
1 Dhanajay A Jolhe Engineering Drawing Tata McGraw-Hill Copy Right 2009
2 Shah and Rana Engineering Drawing 2e Pearson Education 2009
3 Venugopal Engineering Drawing and Graphics 3e New Age Publishers 2000
4 KCJohn Engineering Graphics 2e PHI 2013
5 Basant Agarwal amp CMAgarwal Engineering Drawing Tata McGraw-Hill Copy
Right 2008
Note
1 Manual and Computer Aided Drafting classes can be held in alternative weeks for
optimal utilization of computer facilities
2 External examinations to be conducted both manual and computer mode with equal
weightage of marks
Web Links
1 httpswwwwiziqcomtutorialsengineering-drawing
2 wwwmeumneducourses
3 Youtube http-seworCarletoncagkardos88403drawingshtml conic sections-online
red woodsedu
AR19 Mechanical Engineering
Aditya Engineering College (A) 46
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING (Common to CE ME CSE IT MinE PT AgE)
Course Objectives
COB 1 To impart the principles of basic lawrsquos for electrical networks
COB 2 To explain the concepts of electrical machines and their characteristics
COB 3 To expose the principle of operation construction details and testing methods of
transformer
COB 4 To impart the adequate knowledge about the operation of AC rotating machines
COB 5 To describe the characteristics of diodes transistors and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct simple electrical circuits using basic laws
CO 2 Explain the constructional features of DC Machines and working
CO 3 Examine the performance of single phase transformer
CO 4 Illustrate the principle of AC rotating machines
CO 5 Analyze the device structure operation and application of diode and BJT
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - - - -
CO2 (K2) 3 3 2 - - - - - - - - -
CO3 (K4) 2 1 - - - - - - - - - -
CO4 (K3) 2 1 - - - - - - - - - -
CO 5 (K4) 3 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) 2 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO 5 (K4) - - -
UNIT- I
Basic laws and Theorems Electrical circuit elements (R-L and C) ac and dc independent
sources and their V-I relationship Ohms law Kirchoffs Laws mesh analysis series and
parallel circuits delta-star and delta-star conversion Network Theorems (with DC Excitation)
superposition theorem Thevenins and Nortons theorem maximum power transfer theorem
with simple examples
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- II
DC Machines Constructional features Principle of operation of DC generator EMF equation
types of dc generators OCC characteristics of dc shunt generator Principle of operation of dc
II Semester L T P C
Course Code 191ES2T03 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 47
motor torque expressions 3-point starter losses and efficiency Swinburnersquos test efficiency
by direct loading Speed control methods of dc motor
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- III
Transformers Principle of operation and construction of single phase transformer EMF
equation voltage regulation losses and efficiency openshort- circuit tests and determination
of efficiency
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- IV
AC Rotating Machines Principle of operation of alternators Types of alternators Principle
of operation of synchronous motor Principle of operation of 3-Phase induction motor Slip-
torque characteristics Efficiency calculations from direct loading
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- V
Semiconductor Devices p-n Junction diode principle V-I characteristics rectifier circuits
(half-wave full-wave Descriptive treatment only) Zener diode as Voltage Regulator
Construction and working P-N-P and N-P-N Junction transistor Transistor as an CE amplifier
Text Books
1 Electrical Technology by Surinder Pal Bali Pearson Publications Vol I and Vol II
2 Electronic Devices and Circuits R L Boylestad and Louis Nashelsky 9th edition
PEIPHI 2006
Reference Books
1 Basic Electrical Engineering by M S Naidu and S Kamakshiah TMH Publications
2 DP Kothari IJ Nagrath Basic Electrical and Electronics Engineering 1st edition
McGraw Hill Education (India) Private Limited 2017
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 RK Rajput Basic Electrical and Electronics Engineering University Science Press
New Delhi 2012
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 wwwfalstadcomcircuits
AR19 Mechanical Engineering
Aditya Engineering College (A) 48
ENGINEERING MECHANICS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191ES2T04 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the concept of forces and their resolution in different planes
resultant of force system forces acting on a body their free body diagrams using
graphical methods and to know the concept of friction
COB 2 To make the students calculate the centre of gravity and moment of inertia of solids
and surfaces
COB 3 To educate the students about kinematics kinetics work - energy and impulse -
momentum principles
Course Outcomes
At the end of the Course Students will be able to
CO 1 Determine the resultant force and moment for a given force system
CO 2 Solve the member forces in trusses
CO 3 Apply concept of Virtual work to find the work done by force and couple
CO 4 Solve the centre of gravity and moment of inertia for various geometric shapes
CO 5 Determine the displacement velocity and acceleration relations in dynamic systems
CO 6 Apply the concepts of kinematics kinetics work - energy and impulse - momentum
methods to particle motion
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 3 - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 2 1 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K5) 3 3 3 - - - - - - - - -
CO6 (K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K5) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 3 -
CO6 (K3) 3 - -
UNIT I
Introduction to Engineering Mechanics Composition and resolution of forces
parallelogram law principle of transmissibility types of force systems - concurrent and
concurrent coplanar forces resultant of coplanar force systems couple moment of a force
Varignons theorem concept of free body diagrams concept of equilibrium of coplanar force
systems
AR19 Mechanical Engineering
Aditya Engineering College (A) 49
UNIT II
Analysis of Structures Introduction to plane trusses analysis of plane trusses by method of
joints and method of sections
Virtual Work Equilibrium of ideal systems work done by a force work done by a couple
principle of virtual work
UNIT III
Properties of Surfaces and Volumes Centroid and center of gravity derivation of centroids
from first moment of area centroids of composite sections center of gravity of common
volumes - cylinder cone sphere theorem of Pappus
Moment of Inertia Area moment of inertia of plane and composite shapes parallel axis
theorem perpendicular axis theorem polar moment of inertia mass moment of inertia of
common volumes -thin plates thin rod cylinder cone sphere rectangular prism radius of
gyration
UNIT IV
Kinematics Fundamentals of kinematics of motion- Rotation of a rigid body about a fixed
axis introduction to plane motion
Kinetics Principles of dynamics - Newtons Laws of motion DAlemberts principle in
rectilinear translation Concepts of Friction
UNIT V
Applications Principle of work and energy- Principle of conservation of energy Concept of
power Conservation of linear and angular momentum Principle of momentum and impulse
Types of impact
Text Books
1 Engineering Mechanics- Statics and Dynamics- ANelson Mc Graw Hill publishers
2 STimoshenko DH Young JV Rao Sukumar Pati Engineering Mechanics (in SI
units) 5e McGraw Hill 2013
3 N H Dubey Engineering Mechanics Statics and Dynamics McGraw Hill 2014
Reference Books
1 Basudeb Bhattacharya Engineering Mechanics 2e Oxford University Press (India)
2015
2 Irving Shames G K M Rao Engineering Mechanics Statics and Dynam-ics 4e
Pearson 2009
3 K L Kumar Veenu Kumar Engineering Mechanics 4e Tata McGraw Hill 2010
4 S S Bhavikatti Engineering Mechanics 4e New Age International 2008
Web Links
1 httpswwwiitgacinrkbcme101PresentationL01-03pdf
2 httpswwwhzgdeimperiamdcontenthzginstitut_fuer_werkstoffforschungwmsen
g_mech_2006pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 50
COMMUNICATIVE ENGLISH LAB ndashII (Common to all branches)
II Semester L T P C
Course Code 191HS2L02 0 0 2 1
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate interpersonal skills using language confidently and effectively for
personal and profession growth
CO 2 Make use of effective delivery strategies to select compile and synthesize
information for an oral presentation
CO 3 Demonstrate in mock interviews mock group discussion and public speaking
CO 4 Identify communicative competency to respond to others in different
situations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
Body Language
PRACTICE 2
Dialogues
PRACTICE 3
Presentation Skills
COB 1 To facilitate computer-aided multi-media instruction enabling individualized
and independent language learning
COB 2 To improve the fluency in spoken English and neutralize mother tongue
Influence
COB 3 To train students to use language appropriately
AR19 Mechanical Engineering
Aditya Engineering College (A) 51
PRACTICE 4
Group Discussion
PRACTICE 5
Interviews and Telephonic Interviews
PRACTICE 6
Debates
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra JRaju
and DrGSuvarna Lakshmi Maruthi Publications 2 English for Professionals by Prof Eliah BS Publications Hyderabad 3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata Mcraw ndash Hill
Publishing Company 5 Cornerstone Developing soft skills Pearson Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 52
ENGINEERING CHEMISTRY LAB (Common to CE ME ECE CSE MinE PT AgE)
II Semester L T P C
Course Code 191BS2L04 0 0 3 15
Course Objectives
COB 1 To acquaint the students with the basic concepts of Engineering Chemistry lab
COB 2 To demonstrate the digital instrument methods of analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the hardness of water
CO 2 Calculate the strength of acids amp bases by instrumental analysis
CO 3 Prepare advanced polymer materials
CO 4 Prepare alternative fuel like Bio-Diesel
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - 3 - - - - - - -
CO2 (K3) 3 - - - 3 - - - - - - -
CO3 (K3) 3 - - - 3 - - - - - - -
CO4 (K3) 3 - - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - - -
Introduction to Chemistry laboratory ndash Molarity Normality Primary secondary
standard solutions Volumetric titrations Quantitative analysis Qualitative analysis etc
Exercise 1 Determination of Total Hardness of a water sample
Exercise 2
Determination of Dissolved Oxygen in Water Sample
Exercise 3
Determination of Zinc by Complexometric method
Exercise 4
PH metric titration of (i) strong acid vs strong base
Exercise 5
Determination of Fe (II) in Mohrrsquos salt by potentiometric method
Exercise 6 Potentiometry ndash Titration between strong acid ndash strong base
Exercise 7
AR19 Mechanical Engineering
Aditya Engineering College (A) 53
Conductometric titrations(Strong acid vs Strong base)
Exercise 8
Preparation of Phenol- Formaldehyde resin
Exercise 9
Preparation of Urea-Formaldehyde resin
Exercise 10
Preparation of bio diesel
Exercise 11
Determination of Vitamin ndash C
LIST OF AUGMENTED EXPERIMENTS
12 to 15 (Any two of the following experiments can be performed)
Exercise 12
Determination of percentage Moisture content in a coal sample
Exercise 13
Determination of acid value and saponification value of a given lubricant
Exercise 14
Determination of viscosity of a liquid
Exercise 15 Estimation of Calcium in port land Cement
Reference Books
1 A Textbook of Quantitative Analysis Arthur J Vogel
2 DrJyotsna Cherukuris (2012) Laboratory Manual of engineering chemistry - II
VGS Techno Series
3 Chemistry Practical Manual Lorven Publications K Mukkanti (2009) Practical
Engineering Chemistry BSPublication
AR19 Mechanical Engineering
Aditya Engineering College (A) 54
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING
LAB (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To enable the students learn various network reduction techniques
COB 2 To impart the knowledge of efficiency of machines with direct and indirect
loading
COB 3 To make the students understand the performance of single phase transformer
COB 4 To enable the students learn the characteristics of diode and its applications
COB 5 To make the students learn the simulation of diode and transistor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the electrical networks using network theorems
CO 2 Analyze the performance of AC and DC Machines
CO 3 Estimate the performance of 1-phase transformer
CO 4 Explain diode characteristics and its applications
CO 5 Explain the simulation of diode and transistor
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 - - - - - - - -
CO2 (K4) 3 3 2 - - - - - - - - -
CO3 (K3) 3 2 1 1 - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K4) 3 - -
CO3 (K3) 3 - -
CO4 (K2) - - -
CO5 (K2) - - -
All the 10 experiments need to perform from
1 Verification of Kirchhoffrsquos Laws KVL and KCL
2 Verification of Superposition Theorem
3 Verification of Thevenins Theorem and Nortons Theorem
4 Speed control of DC shunt motor
5 OCC characteristics of DC shunt generators
6 Swinburnes test on a DC shunts machine
7 Brake Test on DC shunt motor
8 OC and SC Tests on single phase transformer
9 Current Voltage Characteristics of a p-n Junction Diode
10 Characteristics of single phase full wave bridge rectifier
II Semester L T P C
Course Code 191ES2L03 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 55
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 Voltage Regulation with Zener Diodes
12 Brake test on three phase induction motor
13 Regulation of Alternator by synchronous impedance method
14 Simulation of Diode and Transistor Circuit Analysis using PSPICE
Reference Books
1 Electrical Technology M S Naidu and S Kamakshiah TMH Publications 2006
2 Fundamentals of Electrical Engineering Rajendra Prasad PHI Publications 2nd
Edition
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 Electrical Circuit Theory and Technology by John Bird Routledge Taylor amp
Francis Group
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 httpnptelacincourses117106101
3 httpnptelacincourses122106025
AR19 Mechanical Engineering
Aditya Engineering College (A) 56
MECHANICAL ENGINEERING WORKSHOP II Semester L T P C
Course Code 191ES2L07 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To develop the knowledge for plastics processing techniques
COB 4 To impart the concept of assembling and disassembling of machine parts
COB 5 To provide basic knowledge about machine tools and power tools
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate pattern making process mould making process by using greens
and and casting process
CO 2 Distinguish among various metal fabrication processes such as Arc welding
Gas Welding Resistance spot welding process and Soldering amp Brazing
CO 3 Create the plastic object through different plastic processing techniques
CO 4 Experiment with assembling and disassembling of machine parts
CO 5 Make use of the basic machine tools and power tools used in manufacturing
Mapping of Course Outcomes with Program Outcomes
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) 3 3 -
CO3 (K6) 3 3 -
CO4 (K3) 3 2 -
CO5 (K3) 3 - -
List of Experiments
I Foundry Technology
1 Pattern Design and making - for casting drawing
2 Determination of average grain size for sand sample using sieve shaker
3 Mould preparation by Using Green Sand
4 Metal Melting and Casting of molten metal
II Metal Fabrication Techniques
5 Lap amp Butt Joint by Gas welding
6 Lap amp Butt Joint Double V butt Joint on thick plate by Arc welding
III Plastic Processing Techniques
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - - - -
CO2(K4) 3 3 - - - - - 3 - - - -
CO3(K6) 3 3 - - - - - - - - - -
CO4(K3) 3 2 - - - - - 3 - - - -
CO5(K3) 3 2 - - - - - 2 - - 3 -
AR19 Mechanical Engineering
Aditya Engineering College (A) 57
7 Injection Moulding (Jewelry Box and Bottle cap)
8 Blow Moulding (Water Bottle with cap)
IV AssemblingDisassembling Practice
9 Clutch and carburettor
10 Two-wheeler engine parts
V Basic Manufacturing Machine Tools And Power Tools
11 Drilling Boring Dieing and Tapping
12 Basic knowledge of Power Tools
List of Augmented Experiments
(Any one of the following experiments can be performed)
1 Lap amp Butt strap Joint by Resistance Spot Welding
2 Brazing and soldering
Reference Books
1 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II fourth
edition
2 Elements of Manufacturing Technology Vol II Hajra ChoudharySK and Hajra
Choudhary AK Media Publishers 2007 Edition
Web Links
1 httpssjceacinwp-contentuploads201804Foundry-and-Forging-Laboratory -
Manualpdf
2 httpwwwiitkacinmmetestTA201pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 58
ENGINEERING EXPLORATION PROJECT (Common to all branches)
Course Objectives
bull Build mindsets amp foundations essential for designers
bull Learn about the Human-Centered Design methodology and understand
their real-world applications
bull Use Design Thinking for problem solving methodology for investigating
illdefined problems
bull Undergo several design challenges and work towards the final design
challenge
Apply Design Thinking on the following Streams to
bull Project Stream 1 Electronics Robotics IOT and Sensors
bull Project Stream 2 Computer Science and IT Applications
bull Project Stream 3 Mechanical and Electrical tools
bull Project Stream4 Eco-friendly solutions for waste management
infrastructure safety alternative energy sources Agriculture
Environmental science and other fields of engineering
HOW TO PURSUE THE PROJECT WORK
bull The first part will be learning-based-masking students to embrace the
methodology by exploring all the phases of design thinking through the
wallet bag challenge and podcasts
bull The second part will be more discussion-based and will focus on building
some necessary skills as designers and learning about complementary
material for human- centered design
bull The class will then divide into teams and they will be working with one
another for about 2 ndash 3 weeks These teams and design challenges will be
the basis for the final project and final presentation to be presented
bull The teams start with Design Challenge and go through all the phases more
in depth from coming up with the right question to empathizing to ideating
to prototyping and to testing
bull Outside of class students will also be gathering the requirements identifying the challenges usability importance etc
bull At the end Students are required to submit the final reports and will be
evaluated by the faculty
TASKS TO BE DONE
Task 1 Everyone is a Designer
bull Understand class objectives amp harness the designer mindset
II Semester L T P C
Course Code 191PR2P01 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 59
Task 2 The WalletBag Challenge and Podcast
bull Gain a quick introduction to the design thinking methodology
bull Go through all stages of the methodology through a simple design challenge
bull Podcast Observe Listen and Engage with the surrounding
environment and identify a design challenge
Task 3 Teams amp Problems
bull Start Design Challenge and learn about teams amp problems through this
bull Foster team collaboration find inspiration from the environment and
learn how to identify problems
Task 4 Empathizing
bull Continue Design Challenge and learn empathy
bull Learn techniques on how to empathize with users
bull Go to the field and interview people in their environments
bull Submit Activity Card
Task 5 Ideating
bull Continue Design Challenge and learn how to brainstorm effectively
bull Encourage exploration and foster spaces for brainstorming
bull Submit Activity Card
Task 6 Prototyping
bull Continue Design Challenge and learn how to create effective prototypes
bull Build tangible models and use them as communication tools
bull Start giving constructive feedback to classmates and teammates
bull Submit Activity Card
Task 7 Testing
bull Finish Design Challenge and iterate prototypes and ideas through user
feedback
bull Evolve ideas and prototypes through user feedback and constructive
criticism
bull Get peer feedback on individual and group performance
bull Submit Activity Card
Task 8
bull Final Report Submission and Presentation
AR19 Mechanical Engineering
Aditya Engineering College (A) 60
Note The colleges may arrange for Guest Speakers from Various Design Fields
Graphic Design Industrial Design Architecture Product Design Organizational
Design etc to enrich the students with Design Thinking Concept
References
1 Tom Kelly The Art of Innovation Lessons in Creativity From IDEO
Americarsquos Leading Design Firm (Profile Books 2002)
2 Tim Brown Change by Design How Design Thinking Transforms
Organizations and Inspires Innovation (Harper Business 2009)
3 Jeanne Liedtka Randy Salzman and Daisy Azer Design Thinking for the
Greater Good Innovation in the Social Sector (Columbia Business School
Publishing 2017)
Web Links
bull Human-Centered Design Toolkit (IDEO)
httpswwwideocompostdesign-kit
bull Design Thinking Boot Camp Bootleg
(Stanford D-School)
httpsdschoolstanfordeduresource
sthe-bootcamp-bootleg bull Collective Action Toolkit (frogdesign)
httpswwwfrogdesigncomwpcontent
o uploads201603CAT_20_Englishpdf
bull Design Thinking for Educators (IDEO) httpsdesignthinkingforeducatorscom
AR19 Mechanical Engineering
Aditya Engineering College (A) 61
INTEGRAL TRANSFORMS AND APPLICATIONS OF PARTIAL
DIFFERENTIAL EQUATIONS (Common to CE ME Ag E)
III Semester L T P C
Course Code 191BS3T11 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
that are essential for an engineering course
COB 2 To help the students acquire problem analysis and problem solving skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compute the Fourier series of a function
CO 2 Compute the Fourier transform of a function
CO 3 Compute Laplace transform of a function
CO 4 Apply Laplace transform to solve initial value problems
CO 5 Solve one dimensional heat equation wave equation and two dimensional
Laplace equation
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO1 PSO2 PSO3 PSO4
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Fourier series
Fourier series of periodic function Dirichletrsquos conditions for Fourier expansion
Functions having points of discontinuities Change of interval Even and odd functions
Half-range series
UNIT-II
Fourier Transforms
Fourier integral theorem (without proof) Fourier sine and cosine integrals Fourier
Transforms Fourier sine and cosine transforms properties inverse transforms Finite
Fourier transforms
UNIT-III
Laplace Transforms
Laplace transforms of standard functions First Shifting theorem Change of scale
AR19 Mechanical Engineering
Aditya Engineering College (A) 62
Multiplication with t Division by t Transforms of derivatives and integrals Unit step
function Dirac delta function Periodic function Evaluating improper integrals by
using Laplace Transform
UNIT-IV
Inverse Laplace Transforms
Inverse Laplace transforms Convolution theorem (without proof) Second shifting
theorem
Solving differential equations and integro-differential equations using Laplace
transforms
(MATLAB Exercise Computing Laplace transform of f(t) using symbolic toolbox
Solving initial value problems)
UNIT-V
Application of PDE Classification of Higher order PDE - Method of separation of Variables- Solution of One dimensional Wave equation Heat equation and two-dimensional Laplace equation
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyengar 4th Edition Alpha
Science Publications
2 Advanced Engineering Mathematics Erwin Kreyszig 10th Edition Wiley-
3 Higher Engineering Mathematics BSGrewal 43rd Edition Khanna Publishers
Reference Books
1 Advanced engineering mathematics with MATLAB Dean G Duffy CRC Press
2 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited
2006
Web Links
1 httpsnptelacincourses111105123
2 httpsnptelacincourses111105093
3 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 63
FLUID MECHANICS AND HYDRAULIC MACHINERY
III Semester L T P C
Course Code 191ME3T01 3 0 0 3
Course Objectives
COB 1 Explain the properties of fluids and its applications
COB 2 Understand the principle of buoyancy stability of a floating body
COB 3 Analyze the losses in various flow systems
COB 4 Estimate the impact of jets on various vane geometries
COB 5 Understand the concepts of hydraulic machines and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Fluid Statics Kinematics and Dynamics
CO 2 Calculate the meta centric height of a submerged body
CO 3 Analyze the concepts of Boundary Layer Theory and its applications
CO 4 Model the derived Quantities with Dimensional Analysis
CO 5 Solve the hydrodynamic force of jet on various vanes
CO 6 Compare different types of Turbines and Pumps characteristics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 1 - - - - - - - - -
CO2 (K3) 3 3 1 - - - - - - - - -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 2 2 1 - - - - - - - - -
CO6 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K4) PSO 2(K4) PSO 3(K6)
CO1 (K2) - 3 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - 3 -
CO5 (K3) - - -
UNIT-I
Fluid Statics Dimensions and units Physical properties of fluidsndashMass Density
Specific weight Specific volume Specific gravity Viscosity Surface tension Vapor
pressure and their influence on fluid motion Atmospheric pressure Gauge pressure and
vacuum pressure Measurement of pressure Piezometers U-tube and differential
manometers
Buoyancy and Flotation Meta center Stability of floating body Submerged bodies
Calculation of metacentric height Stability analysis and applications
UNIT-II
Fluid Kinematics Streamline Path line and streak lines and stream tubes
Classification of flows ideal fluid and real fluidndashsteady and unsteady flows Uniform
and non-uniform flows Laminar and turbulent flows Rotational and irrotational flows
Equation of continuity for one-dimensional flows
AR19 Mechanical Engineering
Aditya Engineering College (A) 64
Fluid Dynamics Various forces acting on a fluid element- Eulerrsquos and Bernoullirsquos
equation for flow along a stream line Momentum equation and its applications for pipe
bend problem
UNIT-III
Closed Conduit Flow Reynolds number Reynolds experimentndashDarcyndashWeisbach
equationndashMinor losses in pipes Pipes in series and pipes in parallel Total energy line
Hydraulic gradient line
Boundary Layer Theory Introduction Momentum Integral equation Displacement
Momentum and energy thickness and Introduction to Aerodynamic forces like Drag
and Lift
UNIT-IV
Impact of Jet on Vanes Hydrodynamic force on jets on stationary and moving flat
Inclined and curved vanes Jet striking centrally and at tip Velocity diagrams Work
done and efficiency Flow over radial vanes
Introduction to Hydraulic Machinery
Hydraulic Turbines Classification of turbinesndashImpulse and reaction turbines Pelton
wheel Working principle
UNIT-V
Francis turbine and Kaplan turbinendashWorking principles Draft tube theory Functions
Introduction to Performance of turbines
Centrifugal and Reciprocating Pumps Classification Working of centrifugal pump
Working of Reciprocating pumps Discharge through Centrifugal Pumps Comparison
between Centrifugal and Reciprocating pumps Introduction to Performance of pumps
Text Books
1 Fluid Mechanics and Hydraulic Machines RKBansal Laxmi Publications (P)
Ltd 9th Edition
2 Fluid Mechanics Frank MWhite Mcgraw-Hill series 7th edition
Reference Books
1 Hydraulics and Fluid mechanics including Hydraulics machines by PNModi amp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
2 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
3 Fluid Mechanics and Fluid Power Engineering DS Kumar Kotaria amp Sons
Revised Edition
4 Fluid Mechanics and Machinery D Rama Durgaiah New Age International
Revised Edition
Web Links
1 httpnptelacincourses1121051711
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 65
COMPUTER AIDED ENGINEERING DRAWING PRACTICE (Common to ME amp Min E)
III Semester L T P C
Course Code 191ME3T02 2 0 2 3
Course Educational Objectives
COB 1 To train the students to improve the graphical skills in design of mechanical
components
COB 2 To impart the knowledge of drawing machine components in
AUTOCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Draw the sectional view of the solids
CO 2 Develop the surfaces of solids like prism pyramid cone and cylinder
CO 3 Sketch the intersection of solids and Isometric Views
CO 4 Draw the isometric and orthographic projections of the machine parts
through AutoCAD
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - 3 - -
CO2 (K3) 3 - - - - - - - - 3 - -
CO3 (K3) 3 - - - 3 - - - - 3 - 3
CO4 (K3) 3 - - - 3 - - - - 3 - 3
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) - - 1
CO4 (K3) - - 1
UNIT-I
Sections of Solids Cylinder Cone Prism and Pyramid
Development of Surfaces Cylinder Cone Prism and Pyramid
UNIT-II
Intersection of Solids Cylinder Cone Prism and Pyramid
UNIT-III
Isometric Projections Conversion of orthographic views to isometric views
UNIT-IV
Computer Aided Drafting 2D wire frame modelling 3D wire frame modelling View
point coordinates and view(s) displayed Examples to exercise different options like
save Restore Delete Joint Single option
UNIT-V
Computer Aided Solid Modeling Isometric projections Orthographic projections
of isometric projections
AR19 Mechanical Engineering
Aditya Engineering College (A) 66
Modeling of simple solids Modeling of Machines amp Machine Parts
Text Books
1 Engineering Drawing ND Bhatt Charotar Publications 53rd Edition
2 Text book of Engineering Drawing with Auto-CAD K Venkata Reddy BS
Publications 4th Edition
Reference Books
1 Mastering Auto CAD 2013 and Auto CAD LT 2013 ndash George Omura Sybex
Publication
2 Auto CAD 2013 fundamentals- Elisemoss SDC Publication
3 Engineering Drawing and Graphics using AutoCAD T Jeyapoovan Vikas
Publication
4 Engineering Drawing Auto CAD K Venugopal V Prabhu Raja New Age
Publication
Web Links
1 httpnptelacincourses11210301935
2 httpnptelacincourses11210301933
3 httpwwwengineeringdrawingorgcategoryprojection_of_solids
4 httpwwwengineeringdrawingorgcategorysection_of_solids
AR19 Mechanical Engineering
Aditya Engineering College (A) 67
MECHANICS OF SOLIDS
III Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make the student calculate the various types of stresses and strains in a
body for various loading conditions
COB 2 To make the student draw the shear force and bending moment diagrams for
beams of various loading conditions
COB 3 To train the students calculate the bending and shear stresses across the
beams of various cross-sections
COB 4 To enable the student determine the slope and deflection of beam under
various loads
COB 5 To make the student solve the shear stress due to twisting and buckling load
in columns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the stresses and strains in bodies of varying cross-section
Composite bars
CO 2 Sketch the shear force and bending moment diagrams for beams of various
supports and loads
CO 3 Analyze the variation of bending and shear stresses across a beam cross-
section
CO 4 Calculate the slope and deflection for beams of various load and support
arrangements
CO 5 Compute the shear stresses due to application of twisting moment
CO 6 Evaluate the buckling loads for various columns
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 2 2 - - 1 - - 1 - 1
CO2 (K3) 3 2 1 - - - 1 - - 1 - 1
CO3 (K4) 3 3 2 2 - - 1 - - 1 - 1
CO4 (K3) 3 2 1 2 - - 1 - - 1 - 1
CO5 (K3) 3 2 1 2 - - 1 - - 1 - 1
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 1 -
CO2 (K3) 1 1 -
CO3 (K4) 1 1 -
CO4 (K3) 1 1 -
CO5 (K3) 1 1 -
UNIT-I
Simple Stresses amp Strains Elasticity and plasticity ndash Types of stresses amp strainsndash
Hookersquos law ndash stress ndash strain diagram for mild steel ndash Working stress ndash Factor of safety
ndash Lateral strain Poissonrsquos ratio amp Volumetric strain ndash Bars of varying section ndash
Composite bars ndash Temperature stresses- Relation between elastic constants- Strain
energy ndash Resilience ndash Gradual Sudden Impact and Shock loadings
AR19 Mechanical Engineering
Aditya Engineering College (A) 68
UNIT-II
Shear Force and Bending Moment Definition of beam ndash Types of beams ndash Concept
of shear force and Bending moment ndash SF and BM diagrams for Cantilever Simply
supported and Overhanging beams subjected to point loads Uniformly distributing
loads Uniformly varying loads Simple couples Eccentric loads and combination of
these loads ndash Point of contra flexure ndash Relation between SF BM and rate of loading
at a section of a beam
UNIT-III
Flexural Stresses Theory of simple bending ndash Assumptions ndash Bending equation-
Neutral axis ndash Bending stresses ndash Section modulus of rectangular and circular sections
(Solid and Hollow)-I-section T-section Angle and Channel section ndash Design of simple
beam sections
Shear Stresses Shear stress distribution across various beams sections-Rectangular
Circular Triangular I-section T-section Angle section
UNIT-IV
Deflection of Beams Bending into a circular arc ndash Slope Deflection and Radius of
curvature ndash Differential equation for the elastic line of a beam ndash Double integration and
Macaulayrsquos methods ndash Determination of slope and deflection for cantilever and simply
supported beams subjected to point loads ndash Uniformly distributing loads ndash Uniformly
varying loadndash Moment area method ndash Mohrrsquos theorems -Application to simple cases
including overhanging beams
UNIT-V
Torsion Introduction ndash Derivation ndash Torsion of Circular shafts ndash Pure Shear ndash
Transmission of power by circular shafts Shafts in series Shafts in parallel
Columns Buckling and Stability Columns with Pinned ends Columns with other
support conditions Limitations of Eulerrsquos Formula Rankinersquos Formula
Text Books
1 Mechanics of Materials B C Punmia Laxmi Publications
2 Strength of Materials GH Ryder 3rd Edition
Reference Books
1 Mechanics of Materials James M Gere Nelson Thornes Publication 6th
Edition
2 Mechanics of Materials E Russell Johnston and John T Dewolf Mc Graw Hills
3rd Edition
3 Strength of Materials Part-1 STimshenko CBS Publication 3rd Edition
4 Strength of Materials S Ramamrutham Dhanapat Rai Publications 16th Edition
Web Links
1 httpnptelacincourses112107147
2 httpwwwnptelacincoursesWebcoursecontentsIITROORKEEstrength20of
20materialshomepagehtm
3 httpswwwaccessengineeringlibrarycommapsstrength-of-materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 69
THERMODYNAMICS
III Semester L T P C
Course Code 191ME3T04 3 0 0 3
Course Objectives
COB 1 To impart the knowledge of basic concepts of thermodynamics
COB 2 To illustrate the concept of first law of thermodynamics and applications
COB 3 To illustrate the concept of second law of thermodynamics
COB 4 To facilitate the students to know the concepts of pure substance and their
properties
COB 5 To help the students learn the properties of gas mixtures and power cycles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain basic concepts properties of substances and Laws of
thermodynamics
CO 2 Analyze thermodynamic processes using laws of thermodynamics
CO 3 Analyze thermodynamic processes to calculate heat and work transfer
CO 4 Suggest solutions for thermodynamic cycles application
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 - - - - - - - - - -
CO2 (K4) 3 3 - - - - - - - - - 1
CO3 (K4) 3 2 1 1 - - - - - - - 1
CO4 (K4) 3 3 1 1 - - - - - - - 1
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K4) 1 2 -
CO3 (K4) 1 2 -
CO4 (K4) 1 2 -
UNIT-I
Basic Concepts of Thermodynamics Introduction system boundary surrounding
control volume universe types of system Macroscopic and Microscopic View Point
concept of Continuum control volume control space Thermodynamic Equilibrium
State property process cycle Reversibility Quasi static process irreversible process
causes of irreversibility energy in state and energy in transition types of work and heat
point and path function Zeroth law of Thermodynamics- Concept of temperature
principles of thermometry reference points constant volume gas thermometer Scales
of temperature ideal gas scale
First Law of Thermodynamics Joulersquos Experiment- First law of thermodynamics
PMM-I Corollaries- First law applied to a Process applied to a system Steady Flow
Energy Equation throttling and free expansion processes Energy Balance deviations
from perfect gas model Vander walls equation of state compressibility charts variable
specific heats gas tables
AR19 Mechanical Engineering
Aditya Engineering College (A) 70
UNIT-II
Second Law of Thermodynamics Limitations of first law of thermodynamics
thermal reservoir heat engine heat pump parameters of performance second law of
thermodynamics Kelvin Planck and Clausius statements and their equivalence
collieries PMM-II Carnot Principle Carnot cycle and its specialities Thermodynamic
scale of temperature Clausius inequality Entropy principle of entropy increase
energy equation availability and irreversibility thermodynamic potentials Gibbs and
Helmholtz functions Maxwell relations elementary treatment of the third law of
thermodynamics
UNIT-III
Properties of Pure Substances Pure substance P-V-T surfaces T-S amp h-s diagrams
Mollier chart phase transformations triple point at critical state properties during the
change of phase dryness fraction Clausius Clapeyron equation property tables
Various thermodynamic processes energy transfer steam calorimetry
UNIT-IV
Properties of Gas Mixtures Mixture of perfect gases mole fraction mass fraction
gravimetric amp volumetric analysis Daltonrsquos law of partial pressure Avogadrorsquos law of
additive volumes equivalent gas constant molecular internal energy enthalpy of
specific heats and entropy of mixture of perfect gasses vapour and atmospheric air
UNIT-V
Thermodynamic Cycles
Air Standard Cycles Carnot Cycle Otto Cycle Diesel amp Dual Cycle
Gas Power Cycles Sterling Cycle Atkinson Cycle Ericson Cycle Lenoir Cycle
Refrigeration Cycles Carnot cycle Bell Coleman cycle Vapor Refrigeration cycles-
Description and representation on PndashV and T-S diagram Thermal Efficiency Mean
Effective pressures on Air standard basis ndash Comparison of Cycles
Text Books
1 Engineering Thermodynamics PK Nag Tata McGraw Hill Publishers 5th
Edition
2 Heat Engineering VPVasandhani amp DS Kumar Metropolitan Book Depot
2011 Edition
Reference Books
1 Thermodynamics An Engineering Approach YA Cengel and MA Boles Tata
Mc-Graw Hill Publishers 7th Edition
2 Engineering Thermodynamics Mayhew and Rogers Longman Green amp Co Ltd
London ELBS 8th Edition
3 Fundamentals of Classical Thermodynamics (SI Version) Van Wylen GJ and
Sonntag RE 2nd Edition
Web Links
1 httpswwwnptelacincourses1121051231
2 httpswww3ndedu~powersame20231planckdoverpdf
3 httpswwweduinformercomengineering-thermodyna
AR19 Mechanical Engineering
Aditya Engineering College (A) 71
METALLURGY AND MATERIALS SCIENCE
III Semester L T P C
Course Code 191ME3T05 3 0 0 3
Course Objectives
COB 1 To make the students familiarize with the concepts of structure of metals and
mechanical behaviour of materials
COB 2 To make the students understand the basic knowledge in the constitution of
alloys and in different types of alloy systems
COB 3 To teach the basic concept of iron-iron carbide equilibrium diagram and heat
treatment of alloys
COB 4 To make the students comprehend the areas of non-ferrous metals and alloys
COB 5 To make the students understand the basic concepts in the area of ceramic
and composite materials
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concepts of structure of metals and mechanical behavior under
different loading conditions
CO 2 Apply the concepts of equilibrium diagrams to make use of various alloys in
various industrial applications
CO 3 Discuss the concept of solidification of alloys and the analyze phases of iron-
iron carbide equilibrium diagram
CO 4 Apply the processes of heat treatment on different types of Cast irons and
Steels
CO 5 Use the concepts of non-ferrous metals and alloys in industrial applications
CO 6 Summarize the properties and applications of ceramic and composite
materials
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 - - - - - - - - - - -
CO2 (K3) 2 - - - - 1 1 - - - - -
CO3 (K3) 2 - - - - - - - - - - -
CO4 (K3) 2 - - - - 2 2 - - - - -
CO5 (K3) 2 - - - - 1 1 - - - - -
CO6 (K3) 2 - - - - 1 1 - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
CO6(K3) 1 - -
UNIT-I
Structure of Metals Bonds in solids-metallic bond-crystal structure - BCC FCC HCP
Unit cells Packing factor Crystallization of metals Grains and grain boundaries Effect of
grain boundaries on properties of metals Crystal imperfections
Mechanical Behavior of Materials Elastic deformation Plastic deformation - Twinning
AR19 Mechanical Engineering
Aditya Engineering College (A) 72
Fracture
Constitution of alloys Necessity of alloying Types of solid solutions Hume Rothery
rules Intermediate alloy phases and Electron compounds
UNIT-II
Equilibrium Diagrams Phase rule Experimental method of construction of equilibrium
diagrams Isomorphous alloy systems Equilibrium cooling and heating of alloys Lever rule
Coring miscibility gaps Eutectic systems Congruent melting intermediate phases Peritectic
reaction Transformations in solid state ndash allotropy Eutectoid Peritectoid reactions
Relationship between equilibrium diagrams and properties of alloys Study of important
binary phase diagrams of Cu-Ni Al-Cu Bi-Cd Cu-An Cus-Sn and Fe-Fe3C
UNIT-III
Metallurgy of Iron and Steels Fe-Fe3C equilibrium diagram Micro constituents in steels
Classification of steels Structure and properties of plain carbon steels Heat treatment of
steels- Annealing Normalizing Hardening TTT diagrams Tempering Hardenability
Surface hardening methods Age hardening treatment Cryogenic treatment of alloys Effect
of alloying elements on Fe-Fe3C system Low alloy steels Stainless steels Hadfield
manganese steels Tool steels and Die steels Structure and properties of White cast iron
Malleable cast iron Grey cast iron and Spheroidal grey cast iron
UNIT-IV
Non-Ferrous Metals and Alloys
Structure and properties of Copper and its alloys Aluminum and its alloys and Titanium and its alloys
UNIT-V
Ceramic Materials Crystalline ceramics Glasses Cermets Abrasive materials Nano
materials - Definition Properties and Applications
Composite Materials Classification of Composites Particle reinforced materials Fiber
reinforced materials Metal ceramic mixtures Metal-matrix composite and C-C composites
Introduction to Powder metallurgy Preparation methods and Applications of Powder
metallurgy- Selection of materials for various industrial applications
Text Books
1 Introduction to Physical Metallurgy Sidney H Avner TMH Publications 2nd Edition
2 Materials Science and Metallurgy VD Kodgire Everest Publishing House 39th
Edition
Reference Books
1 Materials Science and Engineering An Introduction William DCallister Wiley
Publications 9th Edition
2 Elements of Materials Science VRaghavan Pearson Education 6th Edition
3 Engineering Materials amp Metallurgy RK Rajput S Chand Publications 2nd Edition
4 Essentials of Material Science Donald Askeland SI Edition 3rd Edition
Web Links
1 httpnptelacincourses113105021
2 wwwthemetalcastingcom
3 httpswwwtuenl
4 httpswwweurothermcommetallic-alloys
AR19 Mechanical Engineering
Aditya Engineering College (A) 73
FLUID MECHANICS AND HYDRAULIC MACHINERY LAB
III Semester L T P C
Course Code 191ME3L01 0 0 3 15
Course Objectives
COB 1 Apply Bernoullirsquos principle for practical pipe flow applications
COB 2 Distinguish performance of venture meter and orifice meters
COB 3 Choosing the Centrifugal and Reciprocating pumps based on application
COB 4 Understand the impact of water jets on various vane geometries
COB 5 Select the Impulse and Reaction turbines based on application
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the head losses causing decrease in energy of flow experimentally
and by the verification of Bernoullirsquos theorem
CO 2 Compare the flow meters for their better performing characteristics when
used in pipes of turbines etc
CO 3 Calculate the efficiencies of Centrifugal and Reciprocating pumps while
maintaining similar conditions
CO 4 Evaluate performance characteristic curves and efficiencies of different
hydraulic turbines
CO 5 Calculate the work done and efficiency of various vane shapes for turbine
applications
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - 2 - - - - 2 1 - 2
CO2 (K2) 2 2 - 2 - - - - 2 1 - 2
CO3 (K3) 3 2 - 2 - - - - 2 1 - 2
CO4 (K5) 3 2 - 2 - - - - 2 1 - 2
CO5 (K3) 3 2 - 2 - - - - 2 1 - 2
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K2) - 2 -
CO3 (K3) - 2 -
CO4 (K5) - 3 -
CO5 (K3) - 2 -
The following experiments are required to be conducted as compulsory
experiments
1 To determine the of major losses (friction factor) in pipes
2 To determine the minor losses in pipes
3 To determine the of co-efficient of discharge of a Venturi meter
4 To determine the of co-efficient of discharge of an Orifice meter
5 To determine the Discharge and efficiency of a Centrifugal pump
6 To determine the Discharge and efficiency of a Reciprocating pump
7 To determine the Head Discharge and efficiency of a Pelton wheel
8 To determine the Head Discharge and efficiency of a Francis turbine
AR19 Mechanical Engineering
Aditya Engineering College (A) 74
9 To determine the Head Discharge and efficiency of a Kaplan turbine
10 To determine the velocity of flow at any point in a pipe using Pitot tube
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 To verify the Bernoullirsquos theorem using experimental setup
12 To find the Laminar and Turbulent flow types using Reynoldsrsquos Experiment
13 To determine the co-efficient of discharge of a Rotameter
14 To determine the co-efficient of the discharge of a water meter
Reference Books
1 Hydraulic Machines by Banga amp Sharma Khanna Publishers6th Edition
2 Hydraulics and Fluid mechanics including Hydraulics machines by
3 PNModi amp SMSeth Rajsons publications pvt ltd Standard Book House
(2017 edition)
4 Fluid Mechanics and Hydraulic Machines RK Rajput SChand
Web Links
1 httpwwwscience-animationscomfluidmechanicshtml
2 httpsiitbmechdampwordpress
AR19 Mechanical Engineering
Aditya Engineering College (A) 75
MECHANICS OF SOLIDS AND METALLURGY LAB
III Semester L T P C
Course Code 191ME3L02 0 0 3 15
Course Objectives
COB 1 To impart the practical knowledge on testing of material mechanical
behavior under various direct loads
COB 2 To make the students to test the mechanical behavior of spring and cube
under load
COB 3 To impart the practical knowledge on testing of material under various
indirect loads
COB 4 To make the students to study of the Micro Structure of pure metals and
alloys
COB 5 To aware the students to calculate the hardness of various treated and
untreated steels
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the material mechanical behavior under various direct loads
CO 2 Calculate the mechanical strength of spring and cube
CO 3 Demonstrate the materials mechanical behavior under various indirect loads
CO 4 Analyze the Structure of pure metals and alloys
CO 5 Estimate the hardness of various treated and untreated steels
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - 3 - 2 2 - -
CO2(K3) 3 2 - - - - 3 - 2 2 - -
CO3(K2) 2 1 - - - - 3 - 2 2 - -
CO4(K4) 3 3 - - - - 3 - 2 2 - -
CO5(K2) 2 1 - - - - 3 - 2 2 - -
Mapping of course outcomes with program Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1(K2) 1 2 -
CO2(K3) 1 2 -
CO3(K2) 1 2 -
CO4(K4) - 2 1
CO5(K2) - 2 1
The following experiments are required to be conducted as compulsory
experiments
Section A Mechanics of Solids
1 To conduct direct tension test on mild steel bar
2 To conduct bending test on Simply supported beam amp Cantilever beam
3 To determine Modulus of rigidity of given specimen by conducting Torsion
4 To determine hardness value for the given metal specimen using
(a) Brinell hardness tester (b) Rockwell hardness tester
5 To conduct compression and tension test on springs
6 To determine the compression strength on cube by UTM
AR19 Mechanical Engineering
Aditya Engineering College (A) 76
The following experiments are required to be conducted as compulsory
experiments
Section B Metallurgy amp Material Science
7 To Analyze the Micro Structure of pure metals like Iron Cu and Al
8 To Analyze the Microstructure of Mild steels low carbon steels high carbon
steels
9 To Analyze the Micro Structures of Cast Irons
10 To Analyze the Micro Structures of Non-Ferrous alloys
11 To Analyze the Micro structures of Heat treated steels
12 To determine the hardenability of steels by Jominy End Quench Test
List of Augmented Experiments - Mechanics of Solids
(Any one of the following experiments can be performed)
13 To conduct Impact test by (a) Izod test (b) Charpy test
14 To find shear strength on given specimen by Punch shear test
15 To determine the maximum shear stress induced in circular beam
List of Augmented Experiments - Metallurgy amp Material Science
(Any one of the following experiments can be performed)
16 To find out the hardness of various treated and untreated steels
17 To study the microstructure of high speed steels
18 To find the increase in hardness values for the given steel alloys (EN8) specimen
by (oil quenching) medium hardening method
Reference Books
1 A laboratory manual of Metals and Alloys S M Ashram Sharif Ahmed Volume
2 Strength of Materials RKRajput SChand Publications 4th edition
3 Introduction to Physical Metallurgy Sidney H Avener TMH 2nd edition
Web Links
1 httpwwwmlrinstitutionsacinsitesdefaultfileslab1cb1938e0e081ecdd712d1c
8778bd2fc 1- MMS-labpdf
2 httpwwwiitkacinmseoldmse_newfacilitieslaboratoriesMaterial_Testing_
LabMSE313Apdf
3 httpwebmiteduemechdontindex-build
AR19 Mechanical Engineering
Aditya Engineering College (A) 77
EMPLOYABILITY SKILLS-I (Common to all branches)
III Semester L T P C
Course Code 191MC3A03 0 0 2 0
Course Objectives
COB 1 To provide necessary training to impart employability skills
COB 2 To Prepare Students for Campus Placements
COB 3 To Improve Confidence Decision Making in Career planning
COB 4 To Achieve Life Goals with Proper Time Management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the number and letter series techniques in different models
CO 2 Differentiate Career Objectives ampGoals
CO 3 Compare the different types of number and letter analogy models
CO 4 Transfer the different models of coded elements to decoded elements
CO 5 Illustrate Out Of Box thinking in Students
CO 6 Solve LCM amp HCF Simple Equations by using simple logics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
UNIT-I
Aptitude Number series
Soft Skills Attitude SWOT analysis self-confidence self esteem
UNIT-II
Aptitude Number Analogy
Soft Skills Decision Making Situation Reaction Test
UNIT-III
Aptitude Letter series Letter Analogy Coding amp Decoding
Soft Skills Verbal Aptitude-I synonyms Antonyms Spotting of errors
AR19 Mechanical Engineering
Aditya Engineering College (A) 78
UNIT-IV
Aptitude Divisibility Rules LCMampHCF
Soft Skills Creativity Out of box thinking lateral thinking
UNIT-V
Aptitude Simple Equations
Soft Skills Goal setting Smart goals Time Management
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 79
ESSENCE OF INDIAN TRADITIONAL KNOWLEDGE (Common to all branches)
III Semester L T P C
Course Code 191MC3A04 2 0 0 0
Course Objectives
COB 1 To facilitate the students with the concepts of Indian traditional knowledge
and to make them understand the Importance of roots of knowledge system
COB 2 To make the students understand the traditional knowledge and analyse it
and apply it to their day to day life
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the concept of Traditional knowledge and its importance
CO 2 Explain the need and importance of protecting traditional knowledge
CO 3 Illustrate the various enactments related to the protection of traditional
knowledge
CO 4 Interpret the concepts of Intellectual property to protect the traditional
knowledge
CO 5 Explain the importance of Traditional knowledge in Agriculture and
Medicine
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K3) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K3) - - - - - - - - - - - -
CO 5 (K3) - - - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Introduction to traditional knowledge Define traditional knowledge nature and
characteristics scope and importance kinds of traditional knowledge Indigenous
Knowledge (IK) characteristics traditional knowledge vis-agrave-vis indigenous
knowledge traditional knowledge Vs western knowledge traditional knowledge
UNIT-II
Protection of traditional knowledge The need for protecting traditional knowledge
Significance of TK Protection value of TK in global economy Role of Government
to harness TK
AR19 Mechanical Engineering
Aditya Engineering College (A) 80
UNIT-III
Legal framework and TK
The Scheduled Tribes and Other Traditional Forest Dwellers (Recognition of Forest
Rights) Act 2006 Plant Varieties Protection and Farmers Rights Act 2001 (PPVFR
Act) The Biological Diversity Act 2002 and Rules 2004 the protection of traditional
knowledge bill 2016
UNIT-IV
Traditional knowledge and intellectual property Systems of traditional knowledge
protection Legal concepts for the protection of traditional knowledge Patents and
traditional knowledge Strategies to increase protection of traditional knowledge
UNIT-V
Traditional knowledge in different sectors Traditional knowledge and engineering
Traditional medicine system TK in agriculture Traditional societies depend on it for
their food and healthcare needs Importance of conservation and sustainable
development of environment Management of biodiversity Food security of the
country and protection of TK
Text Books
1 Traditional Knowledge System in India by Amit Jha 2009
2 Traditional Knowledge System and Technology in India by Basanta Kumar
Reference Books
1 Traditional Knowledge System in India by Amit Jha Atlantic publishers 2002
2 Knowledge Traditions and Practices of India Kapil Kapoor1 Michel Danino2
Web Links
1 httpswwwyoutubecomwatchv=LZP1StpYEPM
2 httpnptelacincourses121106003
AR19 Mechanical Engineering
Aditya Engineering College (A) 81
NUMERICAL METHODS amp STATISTICAL TECHNIQUES (Common to CE ME amp AgE)
IV Semester L T P C
Course Code 191BS4T16 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
those are essential for an engineering course
COB 2 To familiarize the students with the foundations of probability and statistical
methods and solve application problems in their disciplines
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply numerical methods to solve equations and interpolation of polynomials
CO 2 Apply numerical methods to solve initial value problems and problems
involving integration
CO 3 Apply discrete and continuous probability distributions
CO 4 Compute the components of a classical hypothesis test
CO 5 Apply the statistical inferential methods based on small and large sampling
tests
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Solution of Algebraic and Transcendental Equations
Introduction Bisection method Secant method Method of false position Iteration
method Newton - Raphson method
Interpolation
Introduction to Interpolation Finite differences Forward differences Backward
differences Central difference Relation between operators Newtonrsquos formula for
interpolation Lagrangersquos interpolation Newtonrsquos divided difference interpolation
UNIT-II
Numerical Integration and solution of Ordinary Differential Equations
Trapezoidal rule Simpsonrsquos 13rd and 38th rule Solution of ordinary differential
equations by Taylorrsquos series Picardrsquos method of successive Eulerrsquos method Modified
Eulerrsquos method Runge-Kutta method (fourth order)
AR19 Mechanical Engineering
Aditya Engineering College (A) 82
UNIT-III
Probability and Distributions
Review of probability and Bayersquos theorem ndash Random variables ndash Discrete and
Continuous random variables ndash Distribution function ndash Mathematical Expectation and
Variance ndash Binomial Poisson Uniform and Normal distributions
UNIT - IV
Sampling Theory
Introduction ndash Population and samples ndash Sampling distribution of Means and Variance
(definition only) ndash Central limit theorem (without proof) ndash Introduction to t 2 and F-
distributions ndash Point and Interval estimations ndash Maximum error of estimate
UNIT- V
Tests of Hypothesis
Introduction ndash Hypothesis ndash Null and Alternative Hypothesis ndash Type I and Type II
errors ndash Level of significance ndash One tail and two-tail tests ndash Tests concerning one mean
and two means (Large and Small samples) ndash Tests on proportions
Text Books
1 Advanced Engineering Mathematics R K Jain S R K Iyengar 4th Edition
Alpha Science Publications
2 Miller and Freundrsquos Probability and Statistics for Engineers 7e Pearson 2008
3 Higher Engineering Mathematics B S Grewal 43rdEdition Khanna Publishers
Reference Books
1 M K Jain S R K Iyengar and R K Jain Numerical Methods for Scientific
and engineering Computations New age International Publication (P) Ltd
2 S C Gupta and V K Kapoor Fundamentals of Mathematical Statistics 11e
Sultan Chandamp Sons Publications 2012
3 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
4 Sheldon M Ross Introduction to probability and statistics Engineers and the
Scientists 4th Edition Academic Foundation 2011
Web Links
1 httpsnptelacincourses111107111107105
2 httpsnptelacincourses111105111105041
3 httpsnptelacincourses111105111105090
4 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 83
MANAGERIAL ECONOMICS AND FINANCIAL ANALYSIS (Common To CE EEE ME ECE CSE IT AgE amp PT)
IV Semester L T P C
Course Code 191HS4T04 3 0 0 3
Course Objectives
COB 1 To equip the students with the basic inputs of managerial economics and
demand concepts
COB 2 To understand the nature of markets Methods of Pricing in the different
market structures and to know the different forms of Business organization
and the concept of Business Cycles
COB 3 To impart the knowledge on production theories its factors and cost
analysis
COB 4 To make the students take optimal decisions and acquiring the knowledge
on financial accounting and its analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Managerial Economic concepts for decision making and forward
planning
CO 2 Illustrate the law of demand and its exceptions by using different forecasting
methods
CO 3 Identify the cost behavior for managerial decision making and Break Even
Point (BEP) of an enterprise
CO 4 Classify the different types of business organizations along with basic
knowledge on business cycle
CO 5 Make use of the process amp principles of accounting for the preparation of
final accounts
CO 6 Utilize various techniques on investment project proposals with the help of
capital budgeting techniques for decision making
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) - - - - - - - - - - - -
CO 2(K2) 1 1 - - - - - - - 1 - -
CO 3(K3) - - - - - - - - - - 1 -
CO 4(K2) 1 1 - - - - - - - - 1 -
CO 5(K3) 1 1 - - - - - 2 - 1 - -
CO 6(K3) 1 1 - - - - - - - - 1 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K2) - - -
CO 2(K2) - - -
CO 3(K3) - - -
CO 4(K2) - - -
CO 5(K3) - - -
CO 6(K3) - - -
UNIT-I
Introduction to Managerial Economics and demand Analysis
Definition of Managerial Economics ndashScope of Managerial Economics and its
relationship with other subjects ndashConcept of Demand Types of Demand Determinants
of Demand- Demand schedule Demand curve Law of Demand and its limitations-
AR19 Mechanical Engineering
Aditya Engineering College (A) 84
Elasticity of Demand Types and Measurement-Demand forecasting and its Methods
UNIT-II
Production and Cost Analyses
Concept of Production function- Cobb-Douglas Production function ndash Law of Variable
proportions-Isoquants and Isocosts and choice of least cost factor combination-Concepts
of Returns to scale and Economies of scale-Different cost concepts opportunity costs
explicit and implicit costs- Fixed costs Variable Costs and Total costs ndash Cost ndashVolume-
Profit analysis-Determination of Breakeven point(simple problems)- Managerial
significance and limitations of Breakeven point
UNIT-III
Introduction to Markets Pricing Policies amp Types of Business Organization and
Business Cycles
Market Structures Perfect Competition Monopoly Monopolistic competition and
Oligopoly ndash Features ndash Price and Output Determination ndash Methods of Pricing Average
cost pricing Limit Pricing Market Skimming Pricing and Internet Pricing Flat Rate
Pricing Usage sensitive pricing and Priority Pricing Features and Evaluation of Sole
Trader Partnership Joint Stock Company ndash Business Cycles Phases of Business Cycles
UNIT-IV
Introduction to Accounting amp Financing Analysis
Introduction to Double Entry Systems ndash Journal entries ndash Ledger ndash Trail Balance ndash
Trading and Profit and Loss Account - Preparation of Financial Statements - Introduction
to Ratio Analysis
UNIT-V
Capital and Capital Budgeting Capital Budgeting Meaning of Capital- Capitalization-
Meaning of Capital Budgeting-Time value of money- Methods of appraising Project
profitability Traditional Methods(pay back period accounting rate of return) and modern
methods(Discounted cash flow method Net Present Value method Internal Rate of
Return Method and Profitability Index)
Text Books
1 Dr A R Aryasri ndash Managerial Economics and Financial Analysis TMH 2011
2 Dr N Appa Rao Dr P Vijay Kumar lsquoManagerial Economics and Financial
Analysisrsquo Cengage Publications New Delhi ndash 2011
3 Prof JVPrabhakara rao Prof P Venkatarao lsquoManagerial Economics and Financial
Analysisrsquo Ravindra Publication
Reference Books
1 V Maheswari Managerial Economics Sultan Chand
2 Suma Damodaran Managerial Economics Oxford 2011
3 Dr B Kuberudu and Dr T V Ramana Managerial Economics amp Financial
Analysis Himalaya Publishing House 2011
4 Vanitha Agarwal Managerial Economics Pearson Publications 2011
5 Sanjay Dhameja Financial Accounting for Managers Pearson
6 Maheswari Financial Accounting Vikas Publications
7 S A Siddiqui amp A S Siddiqui Managerial Economics and Financial Analysis
New Age International Publishers 2012
Web Links
1 wwwmanagementstudyguidecom
2 wwwtutorialspointcom
AR19 Mechanical Engineering
Aditya Engineering College (A) 85
INTERNET OF THINGS
IV Semester L T P C
Course Code 191ES4T15 3 0 0 3
Course Objectives
COB 1 To present interconnection and integration of the physical world and the cyber
space
COB 2 To demonstrate applications of Internet of Things
COB 3 To educate building blocks and characteristics of Internet of Things
COB 4 To introduce communication protocols used in Internet of Things
COB 5 To impart knowledge on design amp develop IoT devices
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the application areas of IoT
CO 2 Illustrate revolution of Internet in Mobile Devices Cloud amp Sensor Networks
CO 3 Explain communication protocols used in IoT
CO 4 Make use of Raspberry PI programming to implement Internet of Things
through Arduino
CO 5 Apply the principles of IoT in real world scenario
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 3 - - - - - - - - - -
CO2 (K3) 2 2 2 - - - - - - - - -
CO3 (K4) 3 2 2 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K3) 3 1 3 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to IoT
Internet of Things - Physical Design- Logical Design- IoT Enabling Technologies - IoT
Levels amp Deployment Templates - Domain Specific IoTs - IoT and M2M - IoT System
Management with NETCONF-YANG- IoT Platforms Design Methodology
UNIT-II
IoT Architecture
M2M high-level ETSI architecture - IETF architecture for IoT - OGC architecture - IoT
reference model - Domain model - information model - functional model - communication
model - IoT reference architecture
AR19 Mechanical Engineering
Aditya Engineering College (A) 86
UNIT-III
IoT Protocols
Protocol Standardization for IoT ndash Efforts ndash M2M and WSN Protocols ndash SCADA and RFID
Protocols ndash Unified Data Standards ndash Protocols ndash IEEE 802154 ndash BACNet Protocol ndash
Modbusndash Zigbee Architecture ndash Network layer ndash 6LowPAN - CoAP ndash Security
UNIT-IV
Building IoT with Raspberry PI amp Arduino
Building IOT with RASPERRY PI- IoT Systems - Logical Design using Python ndash IoT
Physical Devices amp Endpoints - IoT Device -Building blocks -Raspberry Pi -Board - Linux
on Raspberry Pi - Raspberry Pi Interfaces -Programming Raspberry Pi with Python - Other
IoT Platforms - Arduino
UNIT-V
Case Studies And Real-World Applications
Biometric Car Door opening system Accident monitoring system Engine oil and Coolant
level monitoring system Fleet and Driver Management system Smart road communication
system Road Vehicle communication at hilly areas real time car telematics tracking system
Text Books
1 Rajesh Singh Anita Gehlot etal - Internet of Things in Automotive Industries and
Road Safety Electronic Circuits program Coding and Cloud Servers River
publishers ISBN- 978-87-7022-010-1
2 Arshdeep Bahga Vijay Madisetti ―Internet of Things ndash A hands-on approach
Universities Press 2015
Reference Books
1 Dieter Uckelmann Mark Harrison Michahelles Florian (Eds) ―Architecting the
Internet of Things Springer 2011
2 Honbo Zhou ―The Internet of Things in the Cloud A Middleware Perspective
CRC Press 2012
3 Olivier Hersent David Boswarthick Omar Elloumi ―The Internet of Things ndash Key
applications and Protocols Wiley 2012
Web Links
1 httpsonlinecoursesnptelacinnoc18_cs46preview
2 httpsswayamgovincoursespublickeyword=Introduction20to20internet20
of20things
3 httpsswayamgovincoursespublickeyword=Design20for20internet20of
20things
4 httpswwwcourseraorgspecializationsiot
AR19 Mechanical Engineering
Aditya Engineering College (A) 87
PRODUCTION TECHNOLOGY
IV Semester L T P C
Course Code 191ME4T06 3 0 0 3
Course Objectives
COB 1 To make the students to understand the fundamentals of casting and their
application
COB 2 To impart the knowledge of special types of casting processes solidification of
metals and different casting defects
COB 3 To perceive the students various types of welding processes and welding defects
COB 4 To introduce the fundamentals of various sheet metal forming techniques and
plastic processing techniques
COB 5 To enable the students to acquire the types of bulk forming processes rolling and
various extrusion methods
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basics of casting and its applications
CO 2 Demonstrate various special casting processes
CO 3 Distinguish between the different joining techniques
CO 4 Explain the basics of sheet metal forming and plastics processing techniques
CO 5 Summarize the bulk metal deforming process
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 - - - - - - - 2 2 - -
CO2 (K3) 2 - - - - - - - 2 - - -
CO3 (K4) 2 - - - - - - - - - - -
CO4 (K3) - - - - - - - - - - - -
CO5 (K3) 1 - - - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 3 - -
CO3 (K4) 3 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction
Engineering materials and its properties and classification of various manufacturing
processes
Casting Introduction to casting Requirements of casting Steps involved in making a
casting Advantage of casting and its applications
Patterns Types of patterns Materials used for patterns
Allowances All Pattern allowances and their construction
Gating Principles of Gating Gating ratio and design of gating systems
Runner amp Risers Types function and design of riser Cleaning of castings
AR19 Mechanical Engineering
Aditya Engineering College (A) 88
UNIT-II
Special Casting Techniques
Molding sand Preparation and Composition Sand property test Casting shakeout Core
Types of core Core print Chaplets Chills and Exothermic materials applications in sand
casting Metal fluidity
Furnace Crucible furnace Cupola Induction furnace Reverberatory furnace Open
hearth Arc furnace
Casting design considerations
Solidification of casting Concept of Solidification of metal and Alloys Problems on
solidification time
Special casting processes Centrifugal casting Die casting and Investment casting Shell
molding
Casting defects Causes and remedies
UNIT-III
Metal Joining Methods
Introduction to welding process Classification of welding processes Types of welded
joints and their characteristics
Gas welding Different types of flames Oxy-acetylene welding and Cutting
Arc welding Basic principles of Arc welding V-I Characteristic curves of power source
Problems on V-I Characteristic Duty cycle MMAW SAW TIG MIG
Solid state welding processes Friction welding Friction stir welding Forge welding
Explosive welding Thermit welding PAW Laser beam welding EBW Soldering amp
Brazing Resistance welding and its types Heat affected zone (HAZ)
Welding defects ndash Causes and Remedies
Testing Destructive and Non-destructive of welds
UNIT-IV
Sheet Metal Forming amp Plastic Processing Techniques
Introduction Role of sheet components Shearing mechanism Various press working
operations Presses for sheet metal working and press tools Die and Punch Different type
of dies Blanking and Piercing Forces and Load estimation in forming Deep drawing
Stretch forming Bending Coining Spinning Spring back and its remedies
High energy rate forming process Principles of explosive forming Electromagnetic
forming Electro hydraulic forming and Rubber pad forming Advantage and Limitations
Plastic Processing Types of Plastics Properties Applications and their processing
methods Blow molding and Injection molding
UNIT-V
Bulk Metal Deforming Processes
Introduction to bulk deforming process Plastic deformation Yield and flow criteria
Machine and equipmentrsquos for the metal deforming processes Parameters and force
calculations for different processes
Classification of metal deforming processes Swaging Forging and itrsquos all types
Forging defects
Rolling Fundamentals and Types of rolling mills and Products
Extrusion Basics and its characteristics Types of extrusion Impact extrusion
Hydrostatic extrusion Wire drawing and Tube drawing
AR19 Mechanical Engineering
Aditya Engineering College (A) 89
Text Books
1 Manufacturing Technology Volume I PN Rao TMH Publications 6th Edition
2 Hajra Choudhry Elements of Workshop Technology Vol ndash II Media Promoters amp
Publishers 1994
Reference Books
1 Manufacturing Processes for Engineering Materials Kalpakjian S amp Steven R
Schmid Pearson Publication 5th Edition
2 Manufacturing Science AGhosh amp AK Mallik East West Press Pvt Ltd
Publication 3rd Edition
3 Process and materials of manufacture Lindberg PHI Publications 4th Edition
4 Advance Welding Processes RSParmar Khanna Publishers
Web Links
1 httpnptelacincourses112107144
2 httpstudycomarticlesOnline_Welding_Classes_and_Training_Programs
3 httpnptelacincourses112107089
4 httpnptelacincoursephp
AR19 Mechanical Engineering
Aditya Engineering College (A) 90
KINEMATICS OF MACHINERY
IV Semester L T P C
Course Code 191ME4T07 3 0 0 3
Course Objectives
COB 1 To understand the kinematics and rigid-body dynamics of kinematically
driven machine components
COB 2 To understand the motion of linked mechanisms in terms of the displacement
velocity and acceleration at any point in a rigid link
COB 3 To be able to design some linkage mechanisms and cam systems to generate
specified output motion
COB 4 To understand the kinematics of gear trains
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the inversions and applications of a kinematic chain
CO 2 Construct the velocity and acceleration diagrams using Relative velocity
method and Instantaneous centre method
CO 3 Construct displacement diagram and profile of Cam with different types of
follower motions
CO 4 Calculate the velocities of different components of a gear train
CO 5 Explain how real time machines work and operate
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 1 1 - - - - - - - -
CO2 (K3) 2 2 1 1 - - - - - - - 1
CO3 (K4) 2 2 2 1 - - 1 - - - - 1
CO4 (K3) 3 2 2 1 - - 1 - - - - 1
CO5 (K3) 2 2 2 1 - - 1 - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Classification of mechanisms- Basic kinematic concepts and definitions- Degree of
freedom mobility- Grashofrsquos law Kinematic inversions of four bar chain and slider
crank chains-Limit positions- Mechanical advantage- Transmission angle- Description
of some common mechanisms- Quick return mechanism straight line generators-
Universal Joint- Rocker mechanisms
UNIT-II
Kinematics Plane motion of body Instantaneous centre of rotation centrode and axode
- relative motion between two bodies ndash Kennedyrsquos three centres in line theorem ndash
Graphical determination of instantaneous centre for simple bar four bar and single slider
AR19 Mechanical Engineering
Aditya Engineering College (A) 91
crank chain mechanisms and determination of angular velocity of points and links
Motion of a link in machine - Determination of Displacement velocity and acceleration
for a Simple Four Bar Mechanism Single slider crank chain mechanism Double slider
crank chain mechanism (Whitworth Quick Return Motion mechanisms)
UNIT-III
CAMS Definition and classification of cams and followers - their uses - Terminology
- Types of follower motion Uniform velocity Simple harmonic motion and uniform
acceleration and retardation Cycloidal motion for Knife edge Flat face and Roller
follower and offset follower
UNIT-IV
Power Transmission Introduction ndashModes of power transmission applications
Gears and Gear trains Classification Terminology Law of Gearing path of contact
arc of contact Interferences methods of avoiding interferences Simple gear train
compound gear train reverted gear train epicyclical gear train and Differential
UNIT-V
Practical Applications Design and fabrication of any one of the following
mechanisms Whitworth Quick Return Mechanism Oscillating Cylinder Mechanism
Elliptical Trammel ManualMotorized Scotch Yoke Mechanism Piston Bench Tapping
Machine Mini Conveyor using Geneva Mechanism Mini Hacksaw Powered by Beam
Engine
Text Books
1 Theory of Machines Thomas Bevan 3rd edition CBS Publishers amp Distributors
2005
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East-
West Press
Reference Books
1 Cleghorn WL Mechanisms of Machines Oxford University Press 2005
2 Robert L Norton Kinematics and Dynamics of Machinery Tata McGrawHill
2009
3 Ghosh A and Mallick AK Theory of Mechanisms and Machines Affiliated East
West Pvt Ltd New Delhi 1988
4 Kinematics of Machinery through Hyper Works JS Rao Springer Publ
5 Theory of Machines by Jagadishlal-Metropolitan Book Co
6 Theory of Machines by RS Khurmi and J K Gupta ndash S Chand Publishers
AR19 Mechanical Engineering
Aditya Engineering College (A) 92
THERMAL ENGINEERING-I
IV Semester L T P C
Course Code 191ME4T08 3 0 0 3
Course Objectives
COB 1 To impart the knowledge and providing holistic view on IC Engines and its
developments
COB 2 To enable the students to calculate the performance and testing of IC engines
COB 3 To fetch with SI amp CI fueling system and combustion behaviour and its
advancements to meet the stringent emission norms
COB 4 Understanding the formation and control strategies of SI and CI Engine
emissions
Course Outcomes
At the end of the Course Student will be able to
CO 1 Differentiate the ideal air standard cycles and actual thermodynamic cycles
CO 2 Evaluate the Engine performance based on the experimental data
CO 3 Analyze the fueling system and combustion behaviour of SI engine
CO 4 Analyze the fueling system and combustion behaviour of CI engine
CO 5 Explain the formation of emissions and its control strategies of bot SI amp CI
Engines
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K4) 3 3 2 2 3 3 - - - 3 3 -
CO3 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO4 (K2) 2 1 - - 2 2 - - - 3 2 -
CO5 (K3) 3 2 1 1 3 3 - - - 3 3 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) - - -
CO3 (K3) 3 - -
CO4 (K2) 2 - -
CO5 (K3) - - -
UNIT-I
Actual Cycles and Engine Construction Introduction Comparison of Air Standard
and Actual Cycles Time Loss Factor Heat Loss Factor Exhaust Blow down-Loss due
to Gas exchange process Volumetric Efficiency Loss due to Rubbing Friction Actual
and Fuel-Air Cycles of CI Engines Constructional Details of Four Stroke SI and CI
Engines Working Principle Actual Indicator Diagram Two Stroke Engine
Construction and Operation Comparison of Four Stroke and Two Stroke Engine
Operation Firing Order and Its Significance UNIT-II
ENGINE TESTING amp PERFORMANCE
Engine Performance Testing amp Numerical- methods and Performance
Characteristics
AR19 Mechanical Engineering
Aditya Engineering College (A) 93
Testing and measurement equipment- dynamometers Air amp Fuel consumption
temperature etc Variables Affecting Engine Performance Performance Maps
Lubrication and Cooling systems Introduction to Supercharging and Turbocharging
UNIT-III
SI ENGINE FUELING amp COMBUSTION
Carburetor Working Principle Requirements of an Automotive Carburetor and types
Fuel Injection Systems Pre-mixed charge combustion SI Engine Combustion
Conceptual models Thermodynamic Analysis of Combustion Cycle-to-Cycle
Combustion variations and Knocking Combustion
UNIT-IV
CI ENGINE FUELING amp COMBUSTION
Fuel Injection and Spray Structure Fuel Atomization and Droplet size distribution Sauter
Mean Diameter Spray Penetration CI Engine Combustion Conceptual Models
Conventional and Decrsquos Combustion Models Diesel Combustion Process
Characterization Ignition Delay Effect of Engine and Operational Parameters on Delay
Pre-mixed Combustion Mixing Controlled Combustion Thermodynamic Analysis
Multi Pulse Injections Introduction to Low Temperature Combustion Like
Homogeneous Charge Compression Ignition(HCCI) Fuel Stratified Charge combustion
Reactivity Controlled Compression Ignition (RCCI) Technologies Pre-mixed Charge
Compression (PCCI) and Dual fuel technologies
UNIT-V FORMATION OF ENGINE EMISSIONS amp CONTROL TECHNOLOGIES (SI amp CI)
Emission Effects on Health amp Environment Sources of Engine emissions Formation of
CO NO UBHC Soot and Particulate Matter Diesel NOx-Particulate Trade off Effect
of SI Design and operating variables Effect of Diesel Engine Design and operating
Variables SI Engine Emission Control Technology Add-on systems for treatment of
Emissions with in Engine Exhaust After treatment CI Engine Emission Control
Technology Application of EGR Exhaust after treatment and new engine technologies
for emission control
Text Books
1 IC Engines ML Mathur amp RP Sharma Dhanpath Rai amp Sons
2 Engine Emissions Pollutant Formation and Advances in Control Technology BP
Pundir Narosa Publishing House
Reference Books
1 IC Engines Fundamentals John B Heywood Mc Graw Hill Publications
2 Engineering Fundamentals of I C Engines Wiliard WPulkrabek Prentice Hall
Publications
3 Mixture Formation in Internal Combustion Engines Carsten Baumgaten Springer
Pub
4 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
Web Links
1 httpnptelacincourses112105123
2 httpnptelacincourses112108148
3 httpnptelacincourses112104113
4 httpnptelacincourses112104033
AR19 Mechanical Engineering
Aditya Engineering College (A) 94
PRODUCTION TECHNOLOGY LAB
IV Semester L T P C
Course Code 191ME4L03 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To impart knowledge of metal forming processes
COB 4 To develop the knowledge for plastics processing techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate mould making process for casting process and sand preparation
methods
CO 2 Identify basic knowledge of casting defects and their remedies
CO 3 Differentiate between various gas welding arc welding processes and Solid
state welding process
CO 4 Apply the principles of sheet-metal forming process for making a
component
CO 5 Produce the plastic object through different plastic processing techniques
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - 3 - -
CO2 (K3) 2 1 - - - 2 - - - - - -
CO3 (K4) 2 1 - - - - - - 3 3 2 -
CO4 (K5) 3 2 - - - - - - - 3 3 -
CO5 (K3) 3 2 - - - - - - - 3 3 -
Mapping of course outcomes with program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 2 1 -
CO3 (K4) 2 1 2
CO4 (K5) 3 2 -
CO5 (K3) 3 - 3
The following experiments are required to be conducted as compulsory experiments
Casting
1 To design and manufacture a Wooden Pattern for a given Casting
2 To prepare a Casting for the given Solid Pattern using Green Sand Molding
Processes
3 To Prepare a Aluminium Casting for the given Split Pattern using Green Sand
Molding Processes
Welding
4 To prepare a V Butt amp Lap Joint using Arc Welding Process
5 To prepare a lap Joint on the given work pieces using spot welding equipment
6 To prepare a V Butt Joint Using TIG Welding
7 To prepare a corner Joint amp T Joint using Arc Welding Process
AR19 Mechanical Engineering
Aditya Engineering College (A) 95
Sheet metal experiment
8 To perform the punching and blanking operation
9 To prepare a work piece using Compound die
Bulk deformation
10 To perform Bending Operation on a given pipe
Plastic Processing technique
11 To make an Air Tight Bottle Cap amp Screw type Bottle Cap by Using Injection
Moulding
12 To prepare a plastic bottle by using Blow Moulding
LIST OF AUGMENTED EXPERIMENTS
13 to 17 (Any two of the following experiments can be performed)
13 To determine the Grain size Permeability and Compressive Strength of the
Molding Sand
14 To prepare a Single Strap Butt Joint on the given work pieces using spot welding
equipment
15 To prepare a Lap Joint Using TIG welding and MIG welding
16 To study the progressive tool and perform blanking and piercing operations
17 To determine the punching force and blanking force theoretically and compare
obtained readings
Reference Books
1 Aditya Engineering College Laboratory Manual
2 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II 4th
Edition
3 Elements of Manufacturing Technology Vol II Hajra ChoudharySK amp Hajra
Web Links
1 httpwwwsmeorgfmp
2 httpscosmolearningorgcoursesmanufacturing-processes-i-538video-lectures
AR19 Mechanical Engineering
Aditya Engineering College (A) 96
COMPUTER AIDED MACHINE DRAWING
IV Semester L T P C
Course Code 191ME4L04 0 0 3 15
Course Objectives
COB 1 To impart the fundamental knowledge of machine drawing by elaborating
on how to concretize the idea of new structure such as a machine element
COB 2 To study the conventions and rules to be followed by engineers for making
accurate drawings
COB 3 To understand the basic dimensioning practices that has to be followed in
the preparation of drawings
COB 4 To inculcate the reading of the drawings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Discuss the conventional representation of materials and machine
components
CO 2 Apply the principles of engineering drawing in machine drawing
CO 3 Construct various types of temporary fasteners
CO 4 Sketch various types of permanent fasteners
CO 5 Practice assembly drawings from the given part drawings for
manufacturing
CO 6 Construct part drawings from the given assembly drawing
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - 3 - -
CO2 (K3) 3 - 1 - - - - - - 3 - -
CO3 (K3) 3 - 1 - - - - - - 3 - -
CO4 (K3) 3 - 1 - - - - - - 3 - -
CO5 (K3) 3 - 1 - - - - - - 3 - -
CO6 (K3) 3 - 1 - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - 2
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CO6 (K3) 3 - 3
UNIT-I
Machine Drawing Conventions
Need for drawing conventions ndash introduction to standard conventions
A) Conventional representation of materials common machine elements and parts such
as screws nuts bolts keys gears webs ribs
B) Types of sections ndash selection of section planes and drawing of sections and auxiliary
sectional views Parts not usually sectioned
C) Drawing of machine elements and simple parts Selection of views additional views
for the following machine elements and parts with easy drawing proportions
AR19 Mechanical Engineering
Aditya Engineering College (A) 97
i) Standard forms of screw threads bolts nuts stud bolts tap bolts set screws
ii) Keys cotter joint and knuckle joint
iii) Riveted joints for plates
iv) Shaft coupling spigot and socket pipe joint
v) Journal bearing and foot step bearing
UNIT-II
Assembly Drawings
Drawings of assembled views for the part drawings of the following using conventions
and easy drawing proportions
A) Engine parts ndash eccentric petrol engine connecting rod piston assembly
B) Other machine parts - screw jack machine vice Plummer block lathe tailstock
C) Valves- steam stop valve non-return valve and feed check valve
Production Drawing (only for Practice not for Examination)
Introduction to Limits Fitsamp Tolerances Types of Assembly systems Importance of
BOM Part drawing procedure construction of part drawings from the given assembly
drawings using conventions and easy drawing proportions Part drawings of Eccentric
Single tool post Plummer block Screw Jack
Note Sheets under unit I need to be practiced with any one basic 2D drafting software
Sheets under assembly drawing need to be practiced with any one solid modelling
software Sheets under production drawing need to be practiced with Drafting and solid
modelling software
Note for question paper Students should answer 2 questions from unit I and 1 question
from unit II Each question will have internal choice Unit I carries 20 Marks and Unit
II carries 40 Marks
Text Books
1 Machine Drawing NSiddeswarPKannaiahVVSSastry Mcgraw hill education
2
3
Machine Drawing GRNagpal Khanna publications
Machine Drawing NDBhatt
Reference Books
1 Ajeet Singh Machine Drawing includes AutoCAD McGraw Hill 2nd Edition
2 Machine drawing PSGill SKKataria amp Sons 3rd Edition
3 Goutam Pohit Goutam Ghosh Machine Drawing with AutoCAD Pearson
Education 1st Edition
Web Links
1 nptelacinsyllabus112106075
2 wwwmachinedesignonlinecom
AR19 Mechanical Engineering
Aditya Engineering College (A) 98
EMPLOYABILITY SKILLS-II (Common to all branches)
Course Objectives
COB 1 To Teach Empathy For Solving Complex Problems
COB 2 To Inculcate Reading Skills
COB 3 To Teach Competitive Written English
COB 4 To Teach Team Building ampLeadership Skills
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
UNIT-I
Aptitude Symbols ampNotations Direction test
Soft Skills Team work leadership skills
UNIT-II
Aptitude Venn Diagrams Blood Relations
Soft Skills Negotiation skills persuasionamp Negotiation stages of Negotiation
UNIT-III
Aptitude Problems on Numbers
Soft Skills Listening skills types of listening Active listening
IV Semester L T P C
Course Code 191MC4A05 0 0 2 0
CO 1 Examine the symbols notations and Venn -diagrams
CO 2 Explain Empathy to Create Positive
CO 3 Observe Different Types Of Number Systems
CO 4 Deduct the logics in the puzzles and arrangements
CO 5 Solve Ratio ampProportion Ages and Averages By Using Simple Logics
CO 6 Correlate Teambuilding ampLeadership Skills
AR19 Mechanical Engineering
Aditya Engineering College (A) 99
UNIT-IV
Aptitude Ratio ampproportion
Soft Skills Verbal Aptitude -II Idioms amp phrases
UNIT-V
Aptitude Average and Ages
Soft Skills Verbal Aptitude -III sentence Anagram Reading Comprehension
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 100
BIOLOGY FOR ENGINEERS (Common to all branches)
Course Objectives
COB 1 To introduce students to modern biology with an emphasis on evolution of
biology as a multi-disciplinary field
COB 2 To make them aware of application of engineering principles in biology
and engineering robust solutions inspired by biological examples
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K2) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K2) - - - - - - - - - - - -
CO 5 (K2) - - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K2) - - -
CO 3 (K3) - - -
CO 4 (K2) - - -
CO 5 (K2) - - -
UNIT-I
Introduction to life
Characteristics of living organisms-Basic classification-cell theory-structure of
prokaryotic and eukaryotic cell-Introduction to biomolecules definition-general
classification and important functions of carbohydrates-lipids-proteins-nucleic acids
vitamins and enzymes-genes and chromosome
UNIT-II
Biodiversity
Plant System basic concepts of plant growth-nutrition-photosynthesis and nitrogen
IV Semester L T P C
Course Code 191MC4A06 2 0 0 0
CO 1
Apply biological engineering principles procedures needed to solve real-
world problems
CO 2 Demonstrate the fundamentals of living things their classification cell
structure and biochemical constituents
CO 3 Apply the concept of plant animal and microbial systems and growth in real
life situations
CO 4 Explain genetics and the immune system to know the cause symptoms
diagnosis and treatment of common diseases
CO 5 Demonstrate basic knowledge of the applications of biological systems in
relevant industries
AR19 Mechanical Engineering
Aditya Engineering College (A) 101
fixation-Animal System elementary study of digestive-respiratory-circulatory-excretory
systems and their functions Microbial System history-types of microbes-economic
importance and control of microbes
UNIT-III
Genetics and immune system
Evolution theories of evolution-Mendelrsquos cell divisionndashmitosis and meiosis-evidence of
e laws of inheritance-variation and speciation- nucleic acids as a genetic material-central
dogma immunity antigens-antibody-immune response
UNIT-IV
Human diseases
Definition- causes symptoms diagnosis treatment and prevention of diabetes cancer
hypertension influenza AIDS and Hepatitis
UNIT-V
Biology and its industrial application
Transgenic plants and animals-stem cell and tissue engineering-bioreactors-
biopharming-recombinant vaccines-cloning-drug discovery-biological neural networks-
bioremediation-biofertilizer-biocontrolbiofilters-biosensors-biopolymers-bioenergy-
biomaterials-biochips-basic biomedical instrumentation
Text Books
1 A Text book of Biotechnology RCDubey S Chand Higher Academic
Publications 2013
2 Diseases of the Human Body Carol D Tamparo and Marcia A Lewis FA Davis
Company 2011
3 Biomedical instrumentation Technology and applications R Khandpur McGraw
Hill Professional 2004
Reference Books
1 Biology for Engineers Arthur T Johnson CRC Press Taylor and Francis 2011
2 Cell Biology and Genetics (Biology The unity and diversity of life Volume I) Cecie
Starr Ralph Taggart Christine Evers and Lisa Starr Cengage Learning 2008
3 Biotechnology Expanding horizon BD Singh Kalyani Publishers 2012
Web Links
1 httpswwwbiology-onlineorg
2 httpwwwbiologyreferencecom
3 httpwwwallexpertscombrowsecgicatLvl=2ampcatID=229
4 httpswwwlibraryqmulacuksubject-guidesbiological-sciences
AR19 Mechanical Engineering
Aditya Engineering College (A) 102
DYNAMICS OF MACHINERY
V semester L T P C
Course Code 191ME5T09 3 0 0 3
Course Objectives
COB 1 To equip the student with fundamental knowledge of dynamics of machines so
that student can appreciate problems of dynamic force balance transmissibility
of forces isolation of systems vibrations
COB 2 To develop knowledge of analytical and graphical methods for calculating
balancing of rotary and reciprocating masses
COB 3 To develop understanding of vibrations and its significance on engineering
design
COB 4 To develop understanding of dynamic balancing flywheel analysis gyroscopic
forces and moments
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze stabilization of sea vehicles aircrafts and automobile vehicles
CO 2 Compute frictional losses and torque transmission of mechanical systems
CO 3 Calculate the dynamic forces acting on the flywheels and governors
CO 4 Apply analytical and graphical methods of calculating balancing of rotary and
reciprocating masses
CO 5 Determine the natural frequencies of vibrating system
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - 1
CO2 (K3) 3 2 2 1 - - - - - - - 1
CO3 (K3) 2 2 2 1 - - - - - - - 1
CO4 (K4) 2 2 2 1 - - - - - - - 1
CO5 (K3) 2 2 2 1 - - - - - - - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K4) 1 - -
CO5 (K3) 1 - -
UNIT-I
Precession Gyroscopes effect of precession motion on the stability of moving vehicles
such as motor car motor cycle aero planes and ships (Demonstration of models in video
show)
UNIT-II
Clutches Friction clutches- uniform pressure uniform wear single disc or plate clutch
multiple disc clutch cone clutch centrifugal clutch
Brakes And Dynamometers Simple block brakes internal expanding brake band brake
AR19 Mechanical Engineering
Aditya Engineering College (A) 103
of vehicle General description and operation of dynamometers Prony Rope brake
Epicyclic Bevis Gibson and belt transmission
UNIT-III
Turning Moment Diagrams Dynamic force analysis of slider crank mechanism inertia
torque angular velocity and acceleration of connecting rod crank effort and turning
moment diagrams ndash fluctuation of energy ndash fly wheels and their design
Governers Watt porter and proell governors spring loaded governorsndash Hartnell and
Hartung with auxiliary springs Sensitiveness isochronism and hunting
UNIT-IV
Balancing Balancing of rotating masses single and multiple ndash single and different planes
use analytical and graphical methods Primary secondary and higher balancing of
reciprocating masses Analytical and graphical methods unbalanced forces and couples
locomotive balancing hammer blow swaying couple variation of tractive effort
UNIT-V
Vibrations Free and forced vibration of single degree of freedom systems effect of
damping vibration isolation and transmissibility resonance critical speeds of shafts
Text Books
1 Theory of machines- Thomas Bevan
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of machines and mechanisms ndash PLBallaney-Khanna publications
Reference Books
1 Theory of Machines ndash Sadhu Singh Pearsons Edn
2 Mechanical Vibrations ndash G K Grover
3 Mechanism and Machine Theory - JSRao RV Dukkipati New Age
4
5
Mechanism and Machine Theory ndash Ashok G Ambekar PHI Publication
Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East- West
Press
Web Links
1 httpswwwslidesharenethareeshangunit-7-gyroscope
2 httpwwwsvecweduinDocs5CMEDMLNotes2013pdf
3 httpswwwvidyarthipluscomvpattachmentphp
4 httpnptelacindownloads112101096
AR19 Mechanical Engineering
Aditya Engineering College (A) 104
DESIGN OF MACHINE MEMBERS-I
V Semester L T P C
Course Code 191ME5T10 3 0 0 3
Course Objectives
COB 1 To illustrate the design function in mechanical engineering the steps involved
in designing and the relation of design activity with manufacturing activity
COB 2 To enable the student select proper materials for different machine elements
based on their mechanical properties
COB 3 To impart knowledge about various theories of failure to design a machine
component
COB 4 To teach the student to estimate the strength of machine elements
COB 5 To make the student learn the design procedure for the different machine
elements such as fasteners shafts couplings keys axially loaded joints etc
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the design procedure to engineering problems including the consideration
of technical and manufacturing constraints
CO 2 Evaluate the strength stiffness and fatigue of machine elements
CO 3 Analyze various types of stresses on mechanical components subjected to both
static and dynamic loads
CO 4 Explain the design of fasteners subjected to eccentric amp fluctuating loads
CO 5 Calculate the design parameters of various components like springs and pressure
vessels
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 3 - 3 - - 3 -
CO2 (K5) 2 2 3 3 - - - - - - - -
CO3 (K4) 2 3 2 2 - - - - - - - -
CO4 (K4) 2 2 2 2 - - - - - - - -
CO5 (K3) 3 2 1 1 3 3 - 3 - - 3 -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K5) 3 - -
CO3 (K4) 3 - -
CO4 (K4) 3 - -
CO5 (K3) - 2 -
UNIT-I
Introduction to Machine Design
Introduction to machine design- Engineering Materials and their properties ndash selection
ndashManufacturing considerations in design- Preferred numbers- BIS Codes ndash Combined
Stresses - Complex Stresses - Stresses on an inclined plane under different uniaxial and
biaxial stress conditions - Principal planes and principal stresses - Mohrrsquos circle -
various theories of failure
AR19 Mechanical Engineering
Aditya Engineering College (A) 105
UNIT-II
Design Under Fluctuating Stresses
Stress concentration ndashTheoretical Stress Concentration Factor ndash Fatigue Stress
Concentration Factor - Notch Sensitivity ndash Design for fluctuating stresses ndash Endurance
limit ndashEstimation of endurance strength ndash Goodmanrsquos line ndash Soderbergrsquos line ndash Modified
Goodmanrsquos line
Design of Shafts
Design of solid and hollow shafts for strength and rigidity ndash Design of shafts for
combined bending and axial loads ndash shaft sizes - Design of shafts for gear and belt
drives
UNIT-III
Design of Keys and Couplings
Design of keys-stresses in keys- Rigid couplings ndash Muff Split muff and Flange
couplings-Flexible couplings ndash Flange coupling (Modified)
Cotter amp Knuckle Joints
Spigot and socket Sleeve and cotter Jib and cotter joints- Knuckle joints
UNIT-IV
Design of Fasteners
Riveted and welded joints ndash Design of joints with initial stresses ndash Eccentric loading
Bolted joints ndash Design of bolts with pre-stresses ndash Design of joints under eccentric
loading ndash Locking devices ndash Bolts of uniform strength Different seals
UNIT-V
Springs
Stresses and deflections of helical springs ndash Extension -Compression springs ndash Springs
for fatigue loading Energy storage capacity ndash Helical torsion springs ndash Co-axial springs
Leaf springs
Pressure Vessels
Thin seamless cylindrical shells ndash Derivation of formula for longitudinal and
circumferential stresses ndash Hoop Longitudinal and Volumetric strains ndash Changes in
diameter and volume of thin cylinders ndash Riveted boiler shells ndash Thin spherical shells -
Thick Cylinders- Lamersquos equation ndash Cylinders subjected to inside amp outside pressures
ndashCompound cylinders
Note Design data books are not allowed for End Semester Examinations
Text Books
1 Design of Machine Elements VBBhandari TMH Publishers 4th Edition
2 Machine Design Pandya amp Shah Charothar Publishers 17th Edition
Reference Books
1 Mechanical Engineering Design JEShigley amp CRMischkie Tata McGraw Hill
3rd Edition
2 Machine Design Sundararajamoorthy TVamp ShanmugamN Anuradha
Publications
3 Design of Machine Elements MFSpotts Pearson Education 8th Edition
4 Design Data PSG College of Technology Kalaikathir Achchagam Publishers 2nd
Edition
5 Design Data Hand Book SMdJalaludeen Anuradha Publications
AR19 Mechanical Engineering
Aditya Engineering College (A) 106
Web Links
1 httpnptelacincoursesWebcourse contents IIT 20Kharagpur Machine20
design1 New_index1html
2 httpwwwnptelacindownloads112105125
3 httpwwwalljntuworldindownloaddesign-machine-members-1-dmm-1-
materials- notes
4 wwwjntumaterialscoin201504jntujntuk-design-of-machine-members-ihtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 107
THERMAL ENGINEERING - II
V Semester L T P C
Course Code 191ME5T11 3 0 0 3
Course Objectives
COB 1 To develop basic knowledge of students on Rankine cycles
COB 2 To provide sufficient knowledge on Boilers and chimneys to the students
COB 3 To enable studentsrsquo knowledge on steam nozzles and steam turbines
COB 4 To improve the knowledge of students on steam formation process
COB 5 To provide sufficient knowledge to the students on gas turbines and its
application
Course Outcomes At the end of the Course Student will be able to
CO 1 Apply different methods used to improve the efficiency of Rankine Cycle
CO 2 Solve problems related to boiler efficiency and chimney
CO 3 Analyze the performance of Steam nozzles and steam turbines
CO 4 Distinguish different types of condenser used in a steam power plant
CO 5 Explain the methods to increase the performance of Gas Turbine and its
applications
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - 1
CO3 (K4) 3 3 - - - - - - - - - 1
CO4 (K4) 3 3 - - - - - - - - - -
CO5 (K4) 3 3 - - - - - - - - - 2
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 2 - -
CO3 (K4) 2 - -
CO4 (K4) 2 - -
CO5 (K4) 2 - -
UNIT-I
Introduction to Steam Power Cycles
Rankine cycle Schematic layout Thermodynamic analysis Methods to improve cycle
performance ndash Regeneration amp reheating
Combustion Fuels and combustion Concepts of heat of reaction Adiabatic flame
temperature Stoichiometry and flue gas analysis
UNIT-II
Boilers amp Draught
Classification Working principles of LP amp HP boilers with sketches mountings and
accessories Working principles Boiler horse power Equivalent evaporation Efficiency
and heat balance
Draught Classification height of chimney for given draught and discharge Condition
for maximum discharge Efficiency of chimney Artificial draught Induced and Forced
draught
AR19 Mechanical Engineering
Aditya Engineering College (A) 108
UNIT-III
Steam Nozzles
Function of a nozzle applications types Flow through nozzles and thermodynamic
analysis assumptions velocity of fluid at nozzle exit - Ideal and actual expansion in a
nozzle Velocity coefficient and condition for maximum discharge Critical pressure
ratio Super saturated flow and its effects Degree of super saturation and Degree of under
cooling Wilson line
Steam Turbines
Classification Impulse turbine-Mechanical details velocity diagram effect of friction
power developed Axial thrust Blade or diagram efficiency condition for maximum
efficiency De-Laval turbine methods to reduce rotor speed-Velocity compounding
Pressure compounding and velocity amp pressure compounding Velocity and pressure
variation along the flow combined velocity diagram for a velocity compounded impulse
turbine Condition for maximum efficiency
UNIT-IV
Reaction Turbine
Mechanical details principle of operation Thermodynamic analysis of a stage Degree
of reaction velocity diagram Parsonrsquos reaction turbine Condition for maximum
efficiency Calculation of blade height
Steam Condensers
Requirements of steam condensing plant Classification of condensers working principle
of different types vacuum efficiency and condenser efficiency air leakage Sources and
its affects Air pump cooling water requirement
UNIT-V
Gas Turbines
Simple gas turbine plant Ideal cycle Essential components parameters of performance
Actual cycle Regeneration Inter cooling and reheating Closed and semi-closed cycles
Merits and demerits Types of combustion chambers
Jet Propulsion
Principle of operation Classification of jet propulsive engines Working principles with
schematic diagrams and representation on T-S diagram thrust thrust power and
propulsion efficiency turbo jet engines - schematic diagram Thermodynamic cycle
Performance evaluation Thrust augmentation methods ndash Simple Problems
Rockets
Application working principle Classification propellant type thrust Propulsive
efficiency specific impulse Solid and Liquid propellant rocket engines
Text Books
1 Thermodynamics and Heat Engines Volume- II RYadav Central publishing house
6th Edition
2 Heat Engineering VP Vasandani and DS Kumar Metropolitan Book Company 6th
Edition
Reference Books 1 Thermal Engineering PLBallaney Khanna publishers25th Edition
2 Thermal Engineering MLMathur amp Mehta Jain bros 6th Edition
3 Gas Turbines V Ganesan Tata McGraw-Hill Education 3th Edition
4 Thermal Engineering RK Rajput Laxmi Publications 10th Edition
AR19 Mechanical Engineering
Aditya Engineering College (A) 109
Web Links 1 httpsnptelacincourses112103112103277
2 httpnptelacincourses112106166
3 httphomeiitkacin~sullerlectureslec29htm
AR19 Mechanical Engineering
Aditya Engineering College (A) 110
AUTOMOBILE ENGINEERING (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E01 3 0 0 3
Course Objectives
COB 1 To equip the students with fundamental working principles and technologies
in automotive engineering
COB 2 To introduce basic and entry level theories and terminology
COB 3 To make aware of the importance of transmission system
COB 4 To impart the principles of automobile systems sub systems and provides
the salient features of safety of automobiles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Summarize the Vehicle Chassis Layouts of 4-wheelers and Motor Vehicle
Act
CO 2 Identify the different constructional features and working principles of Un-
Sprung components of the given vehicle
CO 3 Identify the different constructional features and working principles Sprung
components of the given vehicle
CO 4 Summarize the functionalities of various Electrical systems of typical
Automobile
CO 5 Explain the different Active and Passive Vehicle Safety Systems
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
CO 1(K2) 2 1 - - - - 3 - 3 3
CO 2(K3) 2 1 - - - - 3 - - 3
CO 3(K3) 2 1 - - - - - - - 3
CO 4(K2) 2 1 - - - - - - 3 3
CO 5(K3) 3 2 - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 K2) 3 - -
CO 2(K3) 2 - -
CO 3(K3) 2 - -
CO 4(K2) 2 - -
CO 5(K3) 3 - 3
UNIT-I
Introduction
Components of four wheeler automobile ndash chassis and body ndashChassis Layout - power
transmission ndash rear wheel drive front wheel drive 4 wheel drive and Motor Vehicle Act
1988 ndash Legal AspectsCompliance of Automotive
Vehicles Introduction to Motor Vehicle Act Registration of Vehicles Inspection and
Fitness of vehicles and Homologation of Vehicles
UNIT ndash II
Transmission System
Clutches principle types gear boxes types Propeller shaft ndashHotch ndash Kiss drive
AR19 Mechanical Engineering
Aditya Engineering College (A) 111
Torque tube drive universal joint differential rear axlesndash types
Steering System
Steering geometry ndash camber castor king pin rake combined angle toe-in toe-out
center point steering Types of steering mechanism ndashAckerman steering mechanism
Davis steering mechanism steering linkages
UNIT ndash III
Suspension System
Objects of suspension systems ndash rigid axle suspension system torsion bar shock
absorber Independent suspension system Air Suspension Rubber Suspension
Hydrolastic suspension system Hydragas suspension system
Braking System
Mechanical braking system hydraulic braking system requirement of brake fluid
pneumatic and vacuum brakes Parking Braking system
UNIT ndash IV
Wheels And Tyres
Basic Requirements of Wheels and Tyres Construction of Wheel Assembly Tyre
Construction Types Tyre Sizes and Designation Aspect Ratio Tyre Tread Pattern
Selection of Tyre under Different Applications
UNIT ndash V
Electrical System
Charging circuit generator starting system lighting horn wiper fuel gauge oil
pressure gauge engine temperature indicator
Safety Systems
Introduction safety systems - seat belt air bags bumper anti-lock brake system (ABS)
Electronic Brake force Distribution (EBD) mirrors central locking speed control
Retractable Steering system Head restraints seats with anti-submarine effects and fuel
cut off switch
Text Books
1 Automobile Engineering Vol 1 Dr Kirpal Singh Standard Publishers13th
Edition
2 Automotive Mechanics William H Crouse TMH Distributors10th Edition
Reference Books
1 Advanced vehicle Technology by Heinz Heisher 2nd BH Pub
2 Automotive Chassis by Jonsen Reimpell BH Pub
3 Automobile Electrical amp Electronics by Tom Denton 3rd Elsevier Pub
4 The Motor Vehicle Act 1988 Bare Act with Amendments Law Literature
Publication
5 The Central Motor Vehicle Rules 1989 Bare Act with short notes Lexis Nexis
Publications
Web Links
1 httpsnptelacincourses125106002
2 httpswwwautomotive-onlinecom
3 https sciencelinksjpj-eastarticle
4 https wwwsciencedirectcomsciencebook9780750650540
AR19 Mechanical Engineering
Aditya Engineering College (A) 112
COMPOSITE MATERIALS
(Professional Elective-I)
V Semester L T P C
Course Code 191ME5E02 3 0 0 3
Course Objectives
COB 1 To make the student aware about the composite materials Matrix fibers etc
COB 2 To make the student classify the composites based on the matrix material
COB 3 To make the student classify the composites based on the reinforcements
COB 4 To enable the student determine the strength of an orthotropic laminate
COB 5 To make the student determine stiffness and strength of unidirectional
composites
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain about the composite materials matrix fibers etc
CO 2 Select the composites based on the matrix materials
CO 3 Select the composites based on the reinforcements
CO 4 Calculate the stress and strain of various types of laminates
CO 5 Evaluate stiffness and strength of unidirectional composites
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 1 - - - - - - - - 1 - 1
CO2 (K4) 3 - - - - - - - - 1 - 1
CO3 (K4) 3 - - - - - - - - 1 - 1
CO4 (K3) 3 2 2 2 - - - - - 1 - 1
CO5 (K5) 3 3 3 3 - - - - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 1 - -
CO2 (K4) 3 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 - -
UNIT-I
Introduction Definitions Composites Reinforcements and matrices Types of
reinforcements Matrix materials Functions of a Matrix Desired Properties of a
Matrix Types of composites Carbon Fibre composites Properties of composites in comparison with standard materials Applications of metal ceramic and polymer
matrix composites Role and Selection or reinforcement materials Types of fibres
Glass fibers Carbon fibers Aramid fibers Metal fibers Alumina fibers Boron Fibers
Silicon carbide fibers Quartz and Silica fibers Multiphase fibers Whiskers Flakes
etc Mechanical properties of fibres Advantages and limitations of composite
materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 113
UNIT-II
Classification based on Matrix Material
Organic Matrix composites Polymer matrix composites (PMC) Carbon matrix
Composites or Carbon-Carbon Composites Metal matrix composites (MMC) Ceramic
matrix composites (CMC)
Classification based on reinforcements Fiber Reinforced Composites Fiber
Reinforced Polymer (FRP) Composites Laminar Composites Particulate Composites
Comparison with Metals Advantages amp limitations of Fiber Reinforced Composites
UNIT-III Fabrication methods of composites
UNIT-IV
Laminates Plate Stiffness and Compliance Assumptions Strains Stress Resultants
Plate Stiffness and Compliance Computation of Stresses Types of Laminates -
Symmetric Laminates Anti-symmetric Laminate Balanced Laminate Quasi-isotropic
Laminates Cross-ply Laminate Angle-ply Laminate Strength of an orthotropic
Laminate Laminate Moduli Hygro thermal Stresses
UNIT-V
Mechanical Properties -Stiffness and Strength Geometrical aspects ndash volume and
weight fraction Unidirectional continuous fibre discontinuous fibers Short fiber
systems woven reinforcements ndashMechanical Testing Determination of stiffness and
strengths of unidirectional composites tension compression flexure and shear
Text Books
1 Composite materials Production properties testing and applications
K Srinivasan Alpha science international ltd
2 Mechanics of composite materials Robert M Jones CRC Press 2nd Edition
Reference Books
1 Composite materials Engineering and Science FL Matthews and R D
Rawlings Woodhead publishing
2 Composite materials Design and applications Daniel Gay CRC Press 3rd
Edition
3 Composite materials Krishan K Chawla Springer Publication 3rd Edition
4 Laminar composites George H Staab Elsevier Science amp Technology
Web Links
1 httpsnptelacincourses112104112104229
2 httpsnptelacincontentstorage2courses105108124pdfLecture_NotesLN
m1pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 114
FLUID ENGINEERING (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E03 3 0 0 3
Course Objectives
COB 1 To make students learn about different types of compressors and to calculate
power and efficiency
COB 2 Understand the concepts of hydraulic machines and their applications
COB 3 Understand the working principle of centrifugal pump and its characteristics
COB 4 Understand the principle of reciprocating pump
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the working of various types of reciprocating compressor
CO 2 Evaluate efficiency of various types of rotary compressors
CO 3 Compare different types of Turbines and its characteristics
CO 4 Explain the working principle of Centrifugal Pump
CO 5 Explain the working principle Reciprocating Pump
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - 3 -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT ndashI
Compressors Classification Positive displacement and roto dynamic machinery
Power producing and power absorbing machines Fan Blower and Compressor
Positive displacement and dynamic types Reciprocating and rotary types
Reciprocating Compressor Principle of operation Work required Isothermal
efficiency Volumetric efficiency and effect of clearance Multi stage compression
Under cooling Saving of work Minimum work condition for two stage compression
UNIT-II
Rotary Compressor (Positive Displacement Type) Roots Blower Vane sealed
compressor Lysholm compressor Mechanical details and Principle of working
Efficiency considerations
Centrifugal Compressors Mechanical details and principle of operation Velocity and
AR19 Mechanical Engineering
Aditya Engineering College (A) 115
pressure variation Energy transfer-Impeller blade shape-losses Slip factor Power
input factor Pressure coefficient and adiabatic coefficient Velocity diagrams Power
Axial Flow Compressors Mechanical details and principle of operation Velocity
triangles and energy transfer per stage degree of reaction Work done factor - Isentropic
efficiency- Pressure rise calculations Polytropic efficiency
UNIT-III
Hydraulic Machines Turbines
Velocity Triangles and Work done for a Pelton Wheel Design of Pelton Wheel Radial
Flow reaction Turbines- Inward amp Outward Degree of reaction Francis Turbine Axial
Flow Reaction Turbines Draft Tube Specific Speed Unit Quantities Characteristic
curves of Hydraulic turbines and governing of turbines
UNIT-IV
Centrifugal Pumps
Work done by the Centrifugal Pump Heads and efficiencies Minimum speed to start
Multistage Specific speed Model testing Priming Characteristic curves Cavitation
Maximum suction Lift Net positive Suction Head
UNIT-V
Reciprocating Pumps
Discharge Work done and power required calculations Slip Variation of velocity and
acceleration in suction and delivery pipes Effect of variation of velocity on friction in
the suction and delivery pipes Indicator diagram Air vessels and Comparison of
Centrifugal and Reciprocating Pumps
Text Books
1 Heat EnginesVP Vasandani amp DS Kumar Metropolitan Book Co Pvt Ltd
4th Edition
2 Fluid Mechanics and Hydraulic Machines RK Bansal Laxmi Publications (P)
Ltd 9th Edition
Reference Books
1 Thermal Engineering RK Rajput Lakshmi Publications 10th Edition
2 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
3 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
4 Hydraulics and Fluid mechanics including Hydraulics machines by PNModiamp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
5 Mechanics of fluids by Bernard Massey 9th Edition CRC Press 2019
Web Links
1 httpnptelacincourses112104033
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 116
MECHANICAL VIBRATIONS (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E04 3 0 0 3
Course Objectives
COB 1 To analyze the various 1-D periodic and periodic responses of a vibrating
system with and without damping
COB 2 To derive the equations of motion and solution for Two and multi degree
freedom systems by the application of analytical methods
COB 3 To understand the numerical methods for quick estimation of 1st natural
frequency of multi degree freedom systems
COB 4 Have the knowledge of the various physical vibration measuring
instruments
COB 5 To solve vibrations problems of continuous systems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the various 1-D periodic and periodic responses of an vibrating
system with and without damping and damping mechanisms
CO 2 Find solutions for two degree freedom systems with and without damping
for free and forced vibrations
CO 3 Derive solutions for Multi-degree freedom systems emphasing on modal
analysis techniques
CO 4 Estimate 1st natural frequency of multi degree freedom systems
CO 5 Apply the knowledge of the various physical vibration measuring
instruments and their applications in real life vibration data acquisition
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - -
CO2 (K3) 3 2 2 1 - - - - - - - -
CO3 (K3) 2 2 2 1 - - - - - - - -
CO4 (K3) 2 2 2 1 - - - - - - - -
CO5 (K3) 2 2 2 1 - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Single degree of Freedom systems Undamped and damped free vibrations forced
vibrations coulomb damping Response to harmonic excitation rotating unbalance and
AR19 Mechanical Engineering
Aditya Engineering College (A) 117
support excitation Vibration isolation and transmissibility
UNIT-II
Vibration Measurement Vibrometers velocity meters amp accelerometers
Two degree of freedom systems Principal modes ndash undamped and damped free and forced
vibrations undamped vibration absorbers
UNIT-III
Multi degree of freedom systems Matrix formulation stiffness and flexibility influence
coefficients Eigen value problem normal modes and their properties Free and forced
vibration by Modal analysis Method of matrix inversion Torsional vibrations of multi ndash
rotor systems and geared systems Discrete Time systems
UNIT-IV
Numerical Methods Rayleighrsquos stodolarsquos Matrix iteration Rayleigh-Ritz Method and
Holzerrsquos methods
UNIT-V
Application of concepts Free vibration of strings ndash longitudinal oscillations of bars-
transverse vibrations of beams- Torsional vibrations of shafts Critical speeds without and
with damping secondary critical speed
Text Books
1 Theory of Vibrations with Applications 5th Edition William T Thomson Marie
Dillon Dahleh Chandramouli Padmanabhan John Vlissides
2 Mechanical Vibrations 8th Edition ndash GK Grover
Reference Books
1 Vibration problems in Engineering by SP Timoshenko
2 Mechanical Vibrations ndash Schaum series
3 Mechanical Vibrations 4th Edition Singiresu S Rao
4 Vibration and Acoustics 1st Edition C Sujatha
5 Elements of Vibration Analysis by Meirovitch
AR19 Mechanical Engineering
Aditya Engineering College (A) 118
METROLOGY amp INSTRUMENTATION (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E05 3 0 0 3
Course Objectives
COB 1 To make the students understand the working of linear and angular measuring
instruments
COB 2 To familiarize with the working of optical measuring instruments and
fundamentals of limits and limit gauges
COB 3 To teach the basic idea about various methods for measurement of screw
thread and surface finish parameters
COB 4 To provide students an overview of mechanical measurements systems and
principle of instrument for motion and dimension measurement
COB 5 To provide basic idea about working principle and applications of devices
for measurement of temperature pressure flow level stress and strain
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concept of systems of limits and fits and theory of linear and
angular measurement
CO 2 Explain the surface roughness measurement screw thread measurement and
gear measurement
CO 3 Explain the concepts of machine tool alignments
CO 4 Select appropriate elements of a measurement system and select instruments
for displacement measurement
CO 5 Select instruments for temperature pressure and flow measurement
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - 1 - - - - - - 2 -
CO2 (K2) 2 1 - 1 - - - - - - 2 -
CO3 (K3) 3 2 - 1 - - - - - - 3 -
CO4 (K4) 2 3 - 2 - - - - - - 3 -
CO5 (K4) 2 3 - 2 - - - - - - 2 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K5) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 1 -
CO2 (K2) - 1 -
CO3 (K3) - 2 -
CO4 (K4) - 3 -
CO5 (K4) - 3 -
UNIT- I
Linear and Angular Measurements Limits and Fits
ISO system Fits and Types of interchangeability Taylorrsquos Principle or plain limit
gauges Use of Plug Ring and Snap gauges Indicating type limit gauges Introduction-
Linear and Angular measurements - Slip gauges and End bars - Gauge material and
manufacturing methods Different types of Micrometers Height gauges Tomlinson
AR19 Mechanical Engineering
Aditya Engineering College (A) 119
gauges Precision polygon Sine bar Auto collimator
UNIT- II
Optical Measurement and Comparators
Dial indicator Sigma and Mechanical comparator Free flow and Back pressure type
Pneumatic comparator Application of set jet gauge heads Optical projector Chart
screen gauges and measuring methods Micro gauge bridge lines Tool makerrsquos
Microscope applications Measurement of Straightness and- Flatness Roundness
measurement with bench centers and talyround Coordinate Measuring Machine in
components geometries
UNIT- III
Surface Roughness Measurements and Gear tooth measurement
Parameters as per ISO indices Profilometer Taylor Hobson Talysurf Application of Thread metrology - 2 wire and 3 Wire methods Gear measurement - Gear tooth
thickness Parkinson gear tester General geometric tests for testing machine tools-Lathe drill mill
UNIT- IV
Displacement and Strain Measurement
Elements of instrumentation system Static and Dynamic characteristics Types of errors
Displacement transducers LVDT Strain measurement - Wire and foil type resistance strain gauges Rosette Gauges Bonding procedure Lead resistance compensation
Adjacent arm and self compensating gauges Proving ring Strain gauge load cells measurement of axial load and torsion by strain gauges Piezo electric load cell
UNIT- V
Temperature Pressure and Flow Measurement
Introduction to Seismic Transducers - displacement and acceleration measurement
Pressure measurement - Bourdon pressure gauge bulk modulus gauge pirani gauge
Temperature measurement by thermo couples Laws of thermo electricity Types of
materials used in thermocouples Rotameter magnetic ultrasonic turbine flow meter
hot ndash wire anemometer laser Doppler anemometer (LDA) dynamometers
Text Books
1 Dimensional MetrologyConnie Dotson Cengage Learning2016
2 Measurement System Applications and Design DSKumar Metropolitian book Co
pvtlmtd 1st edition
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers 2008
2 Engineering Metrology ICGupta Dhanpat Rai Publishers 2018
3 Mechanical and Industrial Measurements RK Jain Khanna Publishers 2008
4 Instrumentation measurement amp analysis BCNakra amp KKChoudhary TMH
2008
Web Links
1 httpsnptelacincourses112106179
2 httpswwwslidesharenetengrnoumanmetrology-measurement
3 httpwwwmetrologypggdapl
4 httpsindiaoupcomproductengineering-metrology
AR19 Mechanical Engineering
Aditya Engineering College (A) 120
ORGANIZATIONAL BEHAVIOUR
(Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E06 3 0 0 3
Course Objectives
COB 1 To make the students understand the factors affecting the individual behavior
and its impact on organizational behavior
COB 2 To impart the knowledge on management and the way it is performed in the
organizations
COB 3 To familiarize the students with the basic concepts of stress and emotions
the contributions of various managerial issues in the organization
COB 4 To obtain students of frameworks and tools to effectively analyze and
approach various organizational situations
COB 5 To intended to help the students to gain a solid understanding of human
behavior in the workplace from an individual group and organizational
perspective
Course Outcomes
At the end of the Course Student will be able to
CO 1
Explain the OB a range of organizational behavior models key elements and
roles of OB
CO 2 Analyze the behavior of individuals and groups in organizations in terms of
organizational behavior interpersonal behavior and personality traits
concepts
CO 3 Utilize various stress and emotional organizational behavior concepts
models and theories to real life management situations through case analysis
CO 4 Make use of organizational communication and organization culture to
understanding of organizational communication and culture to cope up with
the organization better way
CO 5 Classify the different groups and teams in the organization and its features
for dealing these groups in a good way for better result and motivate them
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 1 - 1 -
CO2 (K3) - - - - - - - - - 1 - 1
CO3 (K4) - - - - - - - - 1 - - -
CO4 (K3) - - - - - - - - - 1 1 -
CO5 (K3) - - - - - - - - - 1 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 121
UNIT-I
Organizational Behavior Concept of Organizational Behavior (OB)-
Importance of Organizational Behaviour- Key Elements of Organizational
Behavior Role of Managers in OB- Interpersonal Roles-Informational Roles-
Decisional Roles Foundations or Approaches to Organizational Behavior
Challenges and Opportunities for OB
UNIT-II
Interpersonal Behavior Nature and meaning of Interpersonal Behavior
Concept of Self Transaction Analysis (TA) Benefits and uses of Transactional
Analysis Johari Window Model
Personality Definition and Meaning of Personality - Importance of Personality
Determinants of Personality Theories of Personality Personality Traits
Influencing OB
UNIT-III
Emotions Nature and Meaning of Emotions - Characteristics of Emotions
Theories of Emotions Emotions in the Context of OB
Organizational Stress Definition and Meaning Sources of Stress Types of
Stress Impact of Stress on Organizations Stress Management Techniques
UNIT-IV
Organizational Communication Meaning and Importance of Communication
FunctionsprocesstypesInterpersonalCommunicationOrganizational
Communication Tips for Effective Communication
Organization Culture Meaning and Nature of Organization Culture - Origin of
Organization Culture Functions of Organization Culture Types of Culture
Creating and Maintaining Organization Culture Managing Cultural Diversity
UNIT-V
Groups and Teams Meaning and Importance of Groups Reasons for Group
Formation Types of Groups Stages of Group Development Meaning and
Importance of Teams Types of Teams Creating an Effective Team
Text Books
1 K Ashwathappa Organizational Behavior Himalaya Publishing House 2005
2 DrPSubba Rao and Prof NSambasiva RaordquoManagement and Organizational
Behaviour - (Text and Cases)rdquo Himalaya Publishing House Mumbai
Reference Books
1 Udai Pareek Understanding Organisational Behaviour 2nd Edition Oxford
Higher Education 2004
2 Mc Shane amp Von Glinov Organisational Behaviour 4th Edition Tata Mc Graw
Hill 2007
3 Anjali Ghanekar Organizational Behavior Everest Publications 2001
4 PareekUdai ldquoUnderstanding Organizational Behaviorrdquo Oxford University Press
New Delhi 2007
Web Links
1 httpswwwyoutubecomwatchv=JIa7vP3gyL4
2 httpswwwyoutubecomwatchv=-sLHfYnxh8samplist =PLbMVog Vj5Njqyx
oO3foSZ6CrU7aCCwTsb
3 httpswwwyoutubecomwatchv=YIyjkkUk80w
AR19 Mechanical Engineering
Aditya Engineering College (A) 122
BASIC CONCRETE TECHNOLOGY (Open Elective ndashI)
V Semester L T P C
Course Code 191CE5O01 3 0 0 3
Course Objectives
COB 1 To teach the students about the properties of ingredients in concrete
COB 2 To enable the student understand different types and properties of aggregate
COB 3 To make the students to study the behaviour of concrete as its fresh and
hardened state
COB 4 To impart the students with the knowledge on quality control of concrete
COB 5 To illustrate the concept of special concrete and their use
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the basic concepts of concrete
CO 2 Explain the properties of ingredients of concrete
CO 3 Select the suitability of different types of aggregate for their use
CO 4 Explain about fresh Concrete hardened concrete
CO 5 Illustrate the concept of special concrete and their use
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K2) 2 1 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Cement amp Admixtures
Portland cement ndash Chemical composition ndashHydration Setting of cement Fineness of
cementndash Test for physical properties ndash Different grades of cements ndashAdmixtures ndash
Mineral and chemical admixtures ndash accelerators retarders air entrainers plasticizers
super plasticizers fly ash and silica fume
UNIT-II
Aggregates
Classification of aggregate ndash Particle shape amp texture ndash Bond strength amp other
mechanical properties of aggregates ndash Specific gravity Bulk density porosity adsorption
amp moisture content of aggregate ndash Bulking of sand ndashDeleterious substance in aggregate ndash
Soundness of aggregatendash Thermal properties ndash Sieve analysis ndash Fineness modulus ndash
Grading curves ndash Grading of fine amp coarse Aggregates ndash Gap graded and well graded
AR19 Mechanical Engineering
Aditya Engineering College (A) 123
aggregate as per relevant IS code ndash Maximum aggregate size Quality of mixing water
UNIT-III
Fresh Concrete
Steps in Manufacture of Concretendashproportion mixing placing compaction finishing
curing ndash including various types in each stage Properties of fresh concrete-Workability ndash
Factors affecting workability ndash Measurement of workability by different tests Effect of
time and temperature on workability ndash Segregation amp bleeding
UNIT-IV
Hardened Concrete
Nature of strength of concretendash Factors affecting strength ndash Relation between compression
amp tensile strength ndashTesting of Hardened Concrete Compression tests ndash Tension tests ndash
Flexure tests ndashSplitting tests ndash Non-destructive testing methods
UNIT-V
Special Concretes
Light weight aggregate concrete Cellular concrete No-fines concrete High density
concrete Fiber reinforced concrete Different types of fibers Factors affecting properties
of FRC Polymer concrete Types of Polymer concrete Properties of polymer concrete
High performance concrete ndash Self consolidating concrete SIFCON self healing concrete
Recycled concrete Shotcrete
Text Books
1 Concrete Technology MSShetty Chand Publication 6th Edition 2010
2 Concrete Technology Theory and Practice ML Gambhir McGraw Hill 4th Edition
2009
3 Concrete Microstructure Properties and Materials Kumar Mehta and Paulo JM
Monteiro McGraw Hill 3rd Edition 2006
Reference Books
1 Properties of Concrete AM Neville Pearson 2004
2 Concrete Technology AM Neville and JJ Brooks Pearson 2004
3 Concrete S Mindess and JF Young Prentice-Hall 1981
4 Concrete Technology AR Santhakumar Oxford 2007
Web Links
1 httpsnptelacincourses105102012
2 wwwbrighthubengineeringcom rsaquo Concrete Technology
3 httpswwwmaterialsworldmodulesorgindexphpweb-links-sumitted-by-
members
4 httpswwwfhwadotgovresourcecenterteamsconstructionlinkscfm
5 wwwalmahrooscomindexphpfrcomponenttagstag17-concrete-technology
AR19 Mechanical Engineering
Aditya Engineering College (A) 124
ELECTRICAL SAFETY (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O01 3 0 0 3
Course Objectives
COB 1 To help the students to know about electrical hazards
COB 2 To help the students to know about various grounding techniques
COB 3 To help the students to know about safety procedures
COB 4 To help the students to know about various electrical maintenance techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe electrical hazards and safety equipment
CO 2 Analyze and apply various grounding and bonding techniques
CO 3 Select appropriate safety method for low medium and high voltage equipment
CO 4 Participate in a safety team
CO 5 Carry out proper maintenance of electrical equipment by understanding
various Standards
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 3 1 3 1 - - - - - - - -
CO2 (K4) 3 3 3 - - - - - - - - -
CO3 (K3) 3 2 3 1 - - - - - - - -
CO4 (K3) - - 3 - - - - - - - - -
CO5 (K2) 3 1 3 1 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Hazards of Electricity and Electrical Safety Equipment
Primary and secondary hazards- arc blast shocks-causes and effects-safety equipment-
flash and thermal protection head and eye protection-rubber insulating equipment hot
sticks insulated tools barriers and signs safety tags locking devices- voltage measuring
instruments- proximity and contact testers-safety electrical one line diagram- electricianrsquos
safety kit
UNIT-II
Grounding of Electrical Systems and Equipment
General requirements for grounding and bonding- definitions- grounding of electrical
equipment-bonding of electrically conducting materials and other equipment-connection
of grounding and bonding equipment- system grounding- purpose of system grounding-
grounding electrode system- grounding conductor connection to electrodes-use of
grounded circuit conductor for grounding equipment- grounding of low voltage and high
AR19 Mechanical Engineering
Aditya Engineering College (A) 125
voltage systems
UNIT-III
Safety Procedures and Methods
The six step safety methods- pre job briefings - hot-work decision tree-safe switching of
power system- lockout-tag out- flash hazard calculation and approach distances-
calculating the required level of arc protection-safety equipment procedure for low
medium and high voltage systems- the one minute safety audit
UNIT-IV
Safety Management and Organizing Structure
Electrical safety program structure development- company safety team- safety policy
program implementation- employee electrical safety teams- safety meetings- safety audit
accident prevention- first aid- rescue techniques-accident investigation
UNIT-V
Electrical Maintenance and Legal Safety Requirements and Standards
Safety related case for electrical maintenance- reliability centered maintenance (RCM) -
eight step maintenance program- frequency of maintenance- maintenance requirement for
specific equipment and location- regulatory bodies- national electrical safety code-
standard for electrical safety in work place- occupational safety and health administration
standards Indian Electricity Acts related to Electrical Safety
Text Books
1 Electrical Safety Handbook by John Cadick Mary Capelli-Schellpfeffer Dennis
Neitzel Al Winfieldrsquo McGraw-Hill Education 4 th Edition
Reference Books
1 lsquoElectrical Safety- a guide to the causes and prevention of electric hazards by
Maxwell AdamsJrsquo The Institution of Electric Engineers IET
2 Electrical Safety in the Workplace by Ray A Jones Jane G Jones Jones amp Bartlett
Learning
Web Links
1 httpnptelacincourses1031060715 2 httpswwwelectricalsafetyfirstorguk
2 httpsnptelacincourses1131071131070
3 httpsnptelacincourses1221021221020
AR19 Mechanical Engineering
Aditya Engineering College (A) 126
ELECTRICAL MATERIALS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O02 3 0 0 3
Course Objectives
COB 1 To enable the students study various types of dielectric materials their
properties in various conditions
COB 2 To assist the students to Know the magnetic materials and their behaviour
COB 3 To assist the students to Know the semiconductor materials and technologies
COB 4 To help the students acquire the Knowledge on Materials used in electrical
engineering and applications
COB 5 To help the students acquire the Knowledge on special purpose Materials used
in electrical engineering
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify various types of dielectric materials their properties in various
conditions
CO 2 Analyze magnetic materials and their behaviour
CO 3 Evaluate semiconductor materials and technologies
CO 4 Develop Knowledge on Materials used in electrical engineering and
applications
CO 5 Acquire Knowledge on special purpose Materials used in electrical engineering
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2
CO2 (K4) 3 3
CO3 (K5) 3 3
CO4 (K3) 3 2
CO5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Dielectric Materials
Dielectric as Electric Field Medium leakage currents dielectric loss dielectric strength
breakdown voltage breakdown in solid dielectrics flashover liquid dielectrics electric
conductivity in solid liquid and gaseous dielectrics Ferromagnetic materials properties
of ferromagnetic materials in static fields spontaneous polarization curie point anti-
ferromagnetic materials piezoelectric materials pyroelectric materials
UNIT-II
Magnetic Materials
Classification of magnetic materials spontaneous magnetization in ferromagnetic
AR19 Mechanical Engineering
Aditya Engineering College (A) 127
materials magnetic Anisotropy Magnetostriction diamagnetism magnetically soft and
hard materials special purpose materials feebly magnetic materials Ferrites cast and
cermet permanent magnets ageing of magnets Factors effecting permeability and
hysteresis
UNIT-III
Semiconductor Materials
Properties of semiconductors Silicon wafers integration techniques Large and very large
scale integration techniques (VLSI)
UNIT-IV
Materials for Electrical Applications
Materials used for Resistors rheostats heaters transmission line structures stranded
conductors bimetals fuses soft and hard solders electric contact materials electric
carbon materials thermocouple materials Solid Liquid and Gaseous insulating materials
Effect of moisture on insulation
UNIT-V
Special Purpose Materials
Refractory Materials Structural Materials Radioactive Materials Galvanization and
Impregnation of materials Processing of electronic materials Insulating varnishes and
coolants Properties and applications of mineral oils Testing of Transformer oil as per
ISI
Text Books
1 A course in Electrical Engineering Materials by R K Rajput Laxmi Publications
2 A course in Electrical Engineering Materials by T K Basak New Age Science
Publications
Reference Books
1 Electrical Engineering Materials by TTTI Madras McGraw Hill Education
2 Electrical Engineering Materials by Adrianus J Dekker PHI Publication
3 A course in Electrical Engineering Materials by S P Seth P V Gupta Dhanpat
Rai amp Sons
Web Links
1 httpsnptelacincourses113102113102080
2 httpsnptelacincourses113107113107078
3 httpsnptelacincourses122102122102008
AR19 Mechanical Engineering
Aditya Engineering College (A) 128
BASIC ELECTRICAL MEASURMENTS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 3 0 0 3
Course Objectives
COB 1 To equip the student with the knowledge of different types of instruments
COB 2 To equip the student with the knowledge of different types of instruments for
measurements of voltage current power ampenergy
COB 3 To make the student understand various types of bridges for measurement of
parameters-resistance inductance capacitance and frequency
COB 4 To help the students learn the knowledge of the Transducers and Sensors
COB 5 To help student acquire knowledge on applications of CRO for measurement
of frequency phase difference and hysteresis loop using Lissajous patterns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the behaviour of different types of torques in instruments
CO 2 Apply the right type of instrument for measurement of voltage current power
ampenergy
CO 3 Develop the suitable bridge for the measurement of electrical parameters
CO 4 Analyze the behaviour of different types of Transducers and Sensors
CO 5 Explain frequency and phase difference between signals using CRO
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) 1
CO2 (K5) 1
CO3 (K4) 1
CO4 (K4) 1
CO5 (K5) 1
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Basics of Measuring instruments
List of important electrical quantities to be measured their units and the names of the
instruments to measure them- Classification of instruments - different types of torques
(Deflection Controlling and Damping torques) in the indicating instruments-definitions
of accuracy precision error resolution and sensitivity-types of error
UNIT-II
Electromechanical Measuring Instruments
MC and MI types of Ammeters and Voltmeters - their Construction and working- shunts
and multipliers for MC instruments - Dynamometer type Ammeter Voltmeter and
Wattmeterndashconstruction working errors- Measurement of energy ndashsingle phase
AR19 Mechanical Engineering
Aditya Engineering College (A) 129
Induction type energy meter- Construction and working
UNIT-III
Measurements of Parameters
Classification of resistance- List of methods of measurement of resistance-Wheat stonersquos
bridgendash Kelvinrsquos double bridge for measuring low resistance- Loss of charge method for
measurement of inductance ndashQuality Factor ndashMaxwellrsquos bridge-Hayrsquos bridge-
Measurement of capacitance and loss angle ndash Desauty Bridge ndash Schering
Bridge(elementary treatment only)
UNIT-IV
Transducers
Definition of transducer-need of transducer-Classification of Transducers ndash Factor
influencing while its selection -Applications of Transducers ndashThermocouple- Thermister-
working principle and use of Strain Gauge- construction working and use of LVDT Basic
Concept of Sensors and its applications
UNIT-V
Electronic amp Digital Instruments
Digital voltmeter ndash Successive approximation ndash Frequency ndash Hysteresis loop using
lissajious patterns in CRO ndash Ramp and integrating type ndashDigital multimeter ndashDigital
Tachometer
Text Books
1 A course in Electrical Measurements Electronic Measurements Instrumentation A K
Sawhney 11th Edition DhanpatRai and Sons
2 A course in Electrical and Electronic Measurements and Instrumentation J B Gupta
13th EditionSK Kataria and Sons
Reference Books
1 Electrical Measurements ndash by Buckingham and Price Prentice ndash Hall Electrical
Measurements by Forest K Harris John Wiley and Sons
2 Electrical Measurements Fundamentals Concepts Applications ndash by Reissland
MU New Age International (P) Limited Publishers
3 Electrical and Electronic Measurements ndashby GKBanerjee PHI Learning Private
Ltd New Delhi
Web Links
1 httpnptelacincourses10810505342
2 httpnptelacinsyllabus108106070
3 httpnptelacincourses108106070
AR19 Mechanical Engineering
Aditya Engineering College (A) 130
ENTREPRENEURSHIP DEVELOPMENT AND INCUBATION (Open Elective-I)
V Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make aware of the various concepts of entrepreneurship
COB 2 To help in understanding and apply the business plan of entrepreneurship
development
COB 3 To help in analyzing and apply the Institutions that are supporting to
Entrepreneurship Development
COB 4 To helps in understanding of entrepreneurship opportunities internationally
COB 5 To understand and apply the studentrsquos capital investments in association
with business incubations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe the meaning and concepts of entrepreneurship development
CO 2 Apply the business plan for preparation and evaluation of project
CO 3 Research on Institutional Support to Entrepreneur and MSMEs
CO 4 Apply the Opportunities of Entrepreneurship Internationally
CO 5 Research on Venture capital amp Risk for entrepreneurship socially
incubations
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - 1 2 - - 2 -
CO2 (K3) - - - - - 1 2 - - 2 -
CO3 (K4) - - - - - 3 3 - - 3 2
CO4 (K3) - - - - - 3 3 - - 3 2
CO5 (K3) - - - - - 1 2 - - 2 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - - CO2 (K3) - - - CO3 (K4) - - - CO4 (K3) - - - CO5 (K3) - - -
UNIT-I
Entrepreneur ampEntrepreneurship Meaning of entrepreneur - Evolution of the
concept - Functions of an Entrepreneur - Types of Entrepreneur - Intrapreneur- an
emerging class - Concept of Entrepreneurship - Evolution of Entrepreneurship -
Development of Entrepreneurship - Entrepreneurial Culture - Stages in entrepreneurial
process
UNIT-II
Business Planning Process Meaning of business plan - Business plan process -
Advantages of business planning - Marketing plan - Productionoperations plan -
Organization plan - Financial plan - Final Project Report with Feasibility Study -
AR19 Mechanical Engineering
Aditya Engineering College (A) 131
preparing a model project report for starting a new venture
UNIT-III
Institutions supporting Entrepreneurs Small industry financing developing countries
- A brief overview of financial institutions in India - Central level and state level
institutions - SIDBI - NABARD - IDBI - SIDCO - Indian Institute of Entrepreneurship
- DIC - Single Window - Latest Industrial Policy of Government of India
UNIT-IV
International Entrepreneurship Opportunities The nature of international
entrepreneurship - Importance of international business to the firm - International versus
domestic entrepreneurship - Stages of economic development - Entrepreneurship entry
into international business - exporting - Direct foreign investment - barriers to
international trade
UNIT-V
Informal Risk Capital and Venture Capital Informal risk capital market - venture
capital - nature and overview - venture capital process - locating venture capitalists -
approaching venture capitalists Social Entrepreneurship Social enterprise-need - types
- characteristics and benefits of social enterprises-Social entrepreneurship - Rural
entrepreneurship MSME Policies Make-In India Start-Up India Stand-Up India
Text Books
1 Arya Kumar ldquoEntrepreneurshiprdquo Pearson Publishing House New Delhi 2012
2 VSP Rao Kuratko ldquoEntrepreneurshiprsquo Cengage Learning New Delhi2011
3 KRamachandran ldquoEntrepreneurship Developmentrdquo TMH New Delhi 2012
Reference Books
1 BJanakiram M Rizwana ldquoEntrepreneurship Developmentrdquo Excel Books New
Delhi 2011
2 Rajeev Roy ldquoEntrepreneurshiprdquo Oxford University Press New Delhi2012
3 PCShejwalkar ldquoEntrepreneurship Developmentrdquo Everest Publishing House
New Delhi 2011
4 RH Hisrich MP Peters and DA Shepherd ldquoEntrepreneurshiprdquo Mc Graw
Hill Irwin 8th Edition 2010
5 Ryszard Praszkieramp Andrzej Nowak ldquoSocial Entrepreneurship Theory and
Practice Paperback ndash Illustratedrdquo Cambridge University Press New York-
February 2 2012
Reference Books
1 httpnptelacincourses
2 httpswwwtutorialspointcom
3 httpswwwediindiaorg
4 httpwwwquickmbacomentre
5 httpswwwscribdcomdocument150087992Entrepreneurship-Chapter-12-
Informal-Risk-Capital
AR19 Mechanical Engineering
Aditya Engineering College (A) 132
SIGNALS AND SYSTEMS
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O01 3 0 0 3
Course Objectives
COB 1 To introduce the concepts associated with signals and systems
COB 2 To familiarize the concepts of transform based continuous time and discrete
time analysis of signals and systems
COB 3 To prepare the students to analyze the characteristics of LTI systems using
different mathematical tools
COB 4 To create awareness on frequency transformation techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Categorize signals and systems based on their characteristics
CO 2 Demonstrate the spectral characteristics of signals using Fourier series
CO 3 Demonstrate the spectral characteristics of signals using Fourier Transform
CO 4 Identify system characteristics in time domain and frequency domain
CO 5 Apply Laplace transform techniques for the analysis of continuous time
signals and Systems
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 3 1 - - - - - - - - - -
CO 2(K2) 2 1 - - - - - - - - - -
CO 3(K3) 3 2 1 1 - - - - - - - -
CO 4(K3) 3 2 1 1 - - - - - - - -
CO 5(K4) 3 3 2 2 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Signals Classification of Signals Different deterministic signals
impulse step ramp gate signum sinc sinusoidal exponential complex exponential
Basic Operations on signals
UNIT-II
Fourier Series Representation of Fourier series for continuous time periodic signals
Trigonometric Fourier series and Exponential Fourier series Dirichletrsquos conditions
properties of Fourier series Complex Fourier spectrum Applications of Fourier series
UNIT-III
Fourier Transform Deriving Fourier Transform (FT) from Fourier series Fourier
transform of arbitrary signal Fourier transform of standard signals Fourier transform of
AR19 Mechanical Engineering
Aditya Engineering College (A) 133
periodic signals properties of Fourier transforms Fourier transforms involving impulse
function and Signum function Applications of Fourier Transforms Convolution and itrsquos
properties
UNIT-IV
Signal Transmission Through LTI Systems Classification of Systems Impulse
response and step response of LTI systems Transfer function of an LTI system Filter
characteristics of LTI systems Distortion less transmission through a system Ideal LPF
HPF and BPF characteristics Causality and Paley-Wiener criterion for physical
realization Signal bandwidth system bandwidth relationship between bandwidth and
rise time
UNIT-V
Laplace Transforms Review of Laplace transform (LT) Existence of Laplace
transform Concept of region of convergence (ROC) for Laplace transforms constraints
on ROC for various classes of signals Properties of Laplace transforms relation between
LTs and FT of a signal Inverse Laplace transform applications of Z Transform
Text Books
1 Signals and Systems - AV Oppenheim AS Willsky and SH Nawab PHI
2nd Edition 2016
2 Signals Systems amp Communications - BP Lathi BS Publications 2003
3 Signals and Systems ndash A Anand Kumar PHI 4th Edition 2017
Reference Books
1 Signals amp Systems - Simon Haykin and Van Veen Wiley 2nd Edition
2 Fundamentals of Signals and Systems- Michel J Robert MGH Int Edition 2008
3 Signals and Systems K Raja Rajeswari B Visweswara Rao PHI 2009
Web Links
1 httpsfreevideolecturescomcourse3540signals-and-systems-i
2 httpnptelacincourses117104074
3 httpnptelacincourses117101055
4 httpswwwtutorialspointcomsignals_and_systemsindexhtm
5 httpsocwmiteduresourcesres-6-007-signals-and-systems-spring-2011
AR19 Mechanical Engineering
Aditya Engineering College (A) 134
DIGITAL ELECTRONICS AND LOGIC DESIGN (Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O02 3 0 0 3
Course Objectives
COB 1 To make the students understand different number representations
COB 2 To make the students study the minimization techniques for logic optimization
COB 3 To equip the students design combinational logic circuits
COB 4 To make the students design Programmable Logic Device(PLD)
COB 5 To impart the knowledge on sequential circuits
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret numeric information in different code formats
CO 2 Develop optimized logic by using various optimization algorithms
CO 3 Construct various combinational logic circuits for required specifications
CO 4 Build different Programmable Logic Device for required specifications
CO 5 Build different sequential logic circuits for required specifications
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 3 3 - - - - - - - - -
CO4 (K4) 3 3 3 - - - - - - - - -
CO5 (K4) 3 3 3 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Digital Electronics amp its Usage
Number Systems Representation of numbers of different radix conversation from one
radix to another radix r-1rsquoscompliments and rrsquos compliments of signed numbers
problem solving
Binary Codes 4bit codes BCD Excess-3 2421 84-2-1 9rsquos compliment code etc error
detection amp correction codes Gray code error detection error correction codes (parity
checking even parity odd parity Hamming code)
UNIT-II
Boolean Algebra ampMinimization Techniques Basic logic operations NOTOR AND
Universal building blocks EX- OR EX-NOR Gates NAND-NAND and NOR-NOR
realizations Boolean theorems principle of complementation amp duality De-Morgan
theorems minimization of logic functions using Boolean theorems minimization of
switching functions using K-Map up to 6 variables tabular minimization
AR19 Mechanical Engineering
Aditya Engineering College (A) 135
UNIT-III
Combinational Logic Circuits Design of Half adder full adder half Sub-tractor full
sub-tractor applications of full adders 4-bit binary sub-tractor adder-sub-tractor circuit
BCD adder circuit Excess 3 adder circuit look-a-head adder circuit Design of decoder
demultiplexer7segment decoder higher order de-multiplexing encoder multiplexer
higher order multiplexing priority encoder 4-bit digital comparator
UNIT-IV
Programmable Logic Devices amp Sequential Circuits
Introduction to PLDrsquos PROM PAL PLA-Basics structures realization of Boolean
function with PLDs programming tables of PLDs merits amp demerits of PROM PAL
PLA comparison realization of Boolean functions using PROM PAL PLA
programming tables of PROM PAL PLA
UNIT-V
Sequential Circuits Classification of sequential circuitsbasic flip-flops truth tables and
excitation tables (NAND RS latch NOR RS latch RS flip-flop JK flip-flop T-flip-flop
D-flip-flop with reset and clear terminals) Conversion from one flip-flop to another flip-
flop Design of synchronous counters Johnson counter ring counter Design of registers
- Buffer register control buffer register shift register bi-directional shift register
universal shift register
Text Books
1 Switching Theory and Logic Design A Anand Kumar Pearson 3rd Edition 2013
2 Digital Design Morris Mano Pearson 3rd Edition 2002
Reference Books
1 Modern Digital Electronics RP Jain Tata Mc Graw Hill 4th Edition 2010
2 Introduction to Switching Theory and Logic Design Fredriac J Hill Gerald R
Peterson 3rd Edition John Wiley amp Sons Inc 1982
3 Fundamentals of Logic Design Charles H Roth Jr Jaico Publishers 2004
Web Links
1 httpswwwnptelacincourses1171060861Kuruvilla VargheseDESEInstitute of
Science
2 wwwnptelvideosin201212digital-circuits-and-systemshtmlProf S Srinivasan
Department of Electrical Engineering IIT Madras
AR19 Mechanical Engineering
Aditya Engineering College (A) 136
SEMICONDUCTOR DEVICES
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O03 2 1 0 3
Course Objectives
COB 1 To make the students understand the physical phenomenon such as
construction transport mechanism and characteristics of diodes
COB 2 To familiarize the students with the operation and characteristics of
Transistor
COB 3 To make the students understand the construction and operation of FET and
MOSFET
COB 4 To impart knowledge on basics of special semiconductor devices
COB 5 To make the students understand physical and technical base of sensors
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret the characteristics of semiconductor diodes
CO 2 Apply the knowledge of semiconductors to illustrate the functioning of BJT
CO 3 Demonstrate the switching and amplification Application of FET
CO 4 Classify the semiconductor devices for special Applications
CO 5 Identify the sensor types used in various applications and explain their
principle of operation
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 2 1 - - - - - - - - - -
CO 2(K3) 3 2 1 - - - - - - - - -
CO 3(K2) 2 1 - - - - - - - - - -
CO 4(K2) 2 1 - - - - - - - - - -
CO 5(K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
PN junction Diode Theory and Operation of PN junction diode V-I characteristics
Application of diode as Rectifier Clipper and Clamper
Zener diode Principle V-I characteristics Zener breakdown and Avalanche breakdown
Zener diode as a voltage regulator
UNIT-II
BJT Construction and operation of a transistor characteristics of transistor in Common
Base Common Emitter and Common Collector configurations transistor as a switch
transistor as an amplifier
AR19 Mechanical Engineering
Aditya Engineering College (A) 137
UNIT-III
FET Construction and operation of FET Characteristic of FET low frequency model of
FET FET as a switch and an amplifier MOSFET Characteristics (enhancement and
depletion mode)
UNIT-IV
Special Semiconductor Devices LED LCD Photo transistor Tunnel diode Varactor
diode Opto coupler solar cell Charged Coupled Device
UNIT-V
bull Sensors Temperature Sensor Proximity Sensor Sensistor Thermistor LDR Flame
Sensor Humidity sensor NEMSMEMS
Text Books
1 DNeamen and DBiswa ldquoSemiconductor physics and devicesrdquo McGraw Hill
Education2017
2 J Millman C Halkias Electronic Devices and Circuits Tata Mc-Graw Hill 2nd
Edition 2007
3 Clarence W de Silva ldquoSensors and Actuators Engineering System Instrumentationrdquo
CRC press second edition 2015
Reference Books
1 Umesh Mishra and Jasprit Singh ldquoSemiconductor Device Physics and Designrdquo
Springer2008
2 A A Balandin and K L Wang Handbook of Semiconductor Nanostructures and
Nanodevices Grainger 2006
3 WRFahrner ldquoNanotechnology and Nanoelectronics ndash Materials Devices
andMeasurement Techniquesrdquo Springer 2006
Web Links
1 httpsfreevideolecturescomcourse4277nptel-fundamentals-semiconductor-
devices58
2 httpswwwcourseraorgspecializationssemiconductor-devices
3 httpsnptelacincourses108108108108112 Prof Sanjiv Sambandan
AR19 Mechanical Engineering
Aditya Engineering College (A) 138
DATA STRUCTURES (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To make the students learn the basic Concepts of Data Structures and
algorithms
COB 2 To enable the students to analyze the various Searching and Sorting
techniques
COB 3 To provide knowledge on Stacks and Queues
COB 4 To impart knowledge on list and its applications
COB 5 To discuss the various operations of Trees
COB 6 To demonstrate the Graph Traversal Techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate time and space complexities of an algorithm
CO 2 Apply various searching and sorting techniques to solve computing
problems
CO 3 Make use of linear data structures to solve real time problems
CO 4 Develop applications using Tree Data Structures
CO 5 Solve problems using Graph Algorithms
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 - - - - - - -
CO2 (K3) 3 2 - - 3 - - - - - - -
CO3 (K3) 3 2 - - 3 - - - - - - -
CO4 (K3) 3 2 - - 3 - - - - - - -
CO5 (K3) 3 2 - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Basic Concepts Pseudo code Algorithm analysis Time and Space
Complexity
Introduction to Data Structures Definition Classification and Operations on Data
Structures
Searching Linear search Binary search
Sorting Bubble Sort Insertion Sort Selection Sort Quick Sort Merge Sort Radix
Sort
AR19 Mechanical Engineering
Aditya Engineering College (A) 139
UNIT-II
Stacks Introduction Array Representation of Stacks Operations and Implementation
Applications of Stacks-Reversing list Infix to Postfix Conversion Evaluating Postfix
Expressions
Queues Introduction Array Representation of Queues Operations and
Implementation Types of Queues Circular Queues and Dequeues Application of
Queues
UNIT-III
Linked Lists Introduction Singly linked list Operations on Singly Linked list -
Insertion Deletion Doubly linked list - Insertion Deletion Circular linked list-
Insertion Deletion Linked Representation of Stacks and Queues Applications of
Linked lists-Addition of Polynomials Sparse Matrix Representation using Linked List
UNIT-IV
Trees Basic Terminology in Trees Representation of Binary Trees using Arrays and
Linked lists Traversing a Binary Tree(In-Order Pre-Order Post-Order)Expression
Trees
Binary Search Trees Definition Operations Searching Insertion Deletion
UNIT-V
Graphs Introduction Graph Terminology Representation of Graphs-Adjacency
Matrix and using Linked list Graph Traversals Minimum Spanning Tree Using Prims
amp Kruskals Algorithm Dijkstrarsquos Shortest Path Warshallrsquos Algorithm Transitive
Closure (Algorithmic Concepts Only No Programs required)
Text Books
1 Data Structures Using CReema Thareja Oxford University Press
2 Data Structures and Algorithm Analysis In C Mark Allen Weiss2nd Edition
Reference Books
1 Fundamentals of Data Structure in C Horowitz Sahni Anderson Freed 2nd
Edition University Press2008
2 Data Structures Richard F Gilberg Forouzan 2E Cengage Learning
3 Data Structures and Algorithms G AVPai TMH2008
Web Links
1 httpnptelacincourses106102064
2 httpalgs4csprincetoneduhome
3 httpsfacultywashingtonedujstraubdsaMaster_2_7apdf
4 httpwwwudacitycom
5 httpwwwcourseeracom
AR19 Mechanical Engineering
Aditya Engineering College (A) 140
OBJECT ORIENTED PROGRAMMING THROUGH C++ (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To enable the students to learn the common concepts of Camp C++
COB 2 To illustrate the object oriented principles and their implementation in C++
COB 3 To impart the knowledge on classes objects member functions constructors
destructors and how to overload functions and operators in C++
COB 4 To make the students learn applications of inheritance
COB 5 To facilitate the students to write various programs using virtual functions
and Polymorphism
COB 6 To demonstrate Generic Programming with Templates
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare and contrast object oriented programming and procedural oriented
programming
CO 2 Summarize the OOPS concepts
CO 3 Make use of constructor and destructor to initialize and destroy class objects
CO 4 Develop programs using virtual functions and Polymorphism
CO 5 Apply inheritance to build real time applications
CO 6 Apply Exception handling mechanism to handle runtime errors
CO 7 Develop C++ classes with templates and STL
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - 3 - - 1 - - - - - - -
CO2 (K2) 2 1 - - 2 - - - - - - -
CO3 (K3) 3 - 1 - - - - - - - - -
CO4 (K3) 3 2 1 1 3 - - - - - - -
CO5 (K5) 3 3 3 3 3 3 - - - - - -
CO6 (K3) 3 2 1 1 - - - - - - - -
CO7 (K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
An Overview of C++ Difference between C and C++ The Origins of C++ Key
Concepts of Object Oriented Programming A Sample C++ Program Old Style vs
Modern C++ Namespaces
Classes and Objects Classes Declaring Objects Access Specifiers and their Scope
Defining Member Function Friend functions Inline Functions Static Member Variable
Static Member Function Constructors and Destructors Scope Resolution Operator
Nested class
AR19 Mechanical Engineering
Aditya Engineering College (A) 141
UNIT-II
Function Overloading Copy Constructor and Default Arguments Function
Overloading Constructor Overloading Constructor with Arguments Copy Constructor
Default Function Arguments Anonymous Objects Array of Objects
Operator Overloading Creating a Member Operator Function Operator Overloading
using Friend function Overloading Special Operators
UNIT-III
Inheritance Base Class Access Control Inheritance and protected Members Types of
Inheritance Pointer to Class Pointer Object The this Pointer Pointer to Derived Classes
and Base Class Virtual Base Classes Object as a Class Member Advantages and
Disadvantages of Inheritance
Virtual Functions and Polymorphisms Virtual Functions Rules for Virtual Function
Pure Virtual Functions Using Virtual Functions Virtual Destructor Early Vs Late
Binding
UNIT-IV
Templates Generic Functions Applying Generic Functions Generic Classes Power
of Templates Difference between Templates and Macros
Exception Handling Exception Handling Fundamentals Handling Derived Class
Exceptions Exception Handling Options Applying Exception Handling
UNIT-V
Introducing the Standard Template Library An Overview of STL Container
Classes Sequence Containers Associative Containers Vectors Lists Maps
Algorithms
Text Books
1 The Complete Reference C++ Herbert Schildt Fourth Edition TMH 2003
2 The C++ Programming Language Bjarne Stroustrup Fourth Edition Pearson
2014
Reference Books
1 A First Book Of C++ Gary Bronson Fourth Edition Cengage Learning 2012
2 C++ Primer Plus By Stephen Prata Sixth Edition Pearson 2011
3 Object Oriented Programming In C++ By E Balagurusamy Sixth Edition Tata
Mcgraw Hill 2013
4 Object Oriented Programming Using C++ Joyce Farrell Fourth Edition
CengageLearning 2008
5 C++ ProgrammingFrom Problem Analysis To Program Design Ds Malik
Eighth Edition Cengage Learning 2017
Web Links
1 httpsinudacitycomcoursec-for-programrs--ud210
2 httpswwwcourseraorgcoursesquery=c2B2B
3 httpnptelacincourses106105151
4 httpswwwjavatpointcomcpp-oops-concepts
5 httpswwwtutorialspointcomcplusplus
AR19 Mechanical Engineering
Aditya Engineering College (A) 142
JAVA PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O03 2 1 0 3
Course Objectives
COB 1 To make students understand object oriented programming concepts and
apply them in solving problems
COB 2 To provide knowledge on classes inheritance interfaces and packages
COB 3 To facilitate students in handling exceptions and multithreading
COB 4 To impart the knowledge on Input Output concepts and applets
COB 5 To enable the students develop standalone applications using AWT and
Swings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply object oriented programming features and concepts for solving given
problem
CO 2 Solve real time problems using the concepts of class inheritance interface and
packages
CO 3 Test for runtime exceptions arise in java applications
CO 4 Develop real time applications using multithreading and IO streams
CO 5 Develop GUI applications using event handlers adapter classes AWT and
Swing components
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 2 2 - 1 - - - - - - -
CO2 (K3) 2 2 3 - 2 - - - - - - -
CO3 (K4) 2 2 3 - 3 - - - - - - -
CO4 (K3) 2 2 3 2 3 - - - - - - -
CO5 (K3) 2 2 3 2 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Java History of Java Java features JVM architecture Classes and objects Program structure methods Passing arguments through command line Building Blocks of Java Variables primitive data types identifiers literals Operators
expressions primitive type conversion and casting flow of control
UNIT-II
Introduction to Classes Class declaration creating objects constructors Method
Overloading constructor overloading garbage collector importance of static keyword
and examples this keyword Arrays Strings nested classes
AR19 Mechanical Engineering
Aditya Engineering College (A) 143
Inheritance amp Interfaces Inheritance- types of inheritance super keyword final keyword overriding Interfaces- Defining an interface Implementing interfaces through classes Multiple inheritance through interfaces abstract class Packages Creating the packages using packages importance of CLASSPATH Access
Specifiers javalang package
UNIT-III
Exception Handling Exception handling importance of try catch throw throws and
finally block user defined exceptions Multithreading Introduction thread life cycle
creation of threads thread priorities thread synchronization communication between
threads
UNIT-IV
Input Output Byte Streams and Character Streams Predefined Streams Reading Console inputs- Reading characters Reading Strings Reading and writing Files Event Handling Event delegation model sources of event Event Listeners adapter
classes inner classes
UNIT-V
AWT Introduction components and containers Button Label Checkbox Radio Buttons List Boxes Choice Boxes Container class Layouts Menu and Scrollbar Swing Introduction Swing Components- JFrame JPanel Layout Managers JList
JTable JTree Dialog Box
Text Books
1 The Complete Reference Java Herbert Schildt Ninth Edition TMH 2014
2 Introduction to java programming by Y Daniel Liang Seventh Edition Pearson
2017
3 Java one step ahead Anita seth BLJuneja First Edition Oxford 2017
Reference Books
1 Core Java An Integrated Approach RNageswaraRao Dreamtechpress 2008
2 Thinking in Java ndash Bruce Eckel Fourth Edition Prentice Hall 2002
3 Beginning Programming with Java for Dummies Barry Burd John Wiley amp Sons
Inc 2014
Web Links
1 httpmathhwsedujavanotes
2 httpjavasuncomdocsbookstutorial
3 httpwwwtutorialspointcomjava
4 httpwwwjavatpointcom
5 httpwwww3schoolscomjava
AR19 Mechanical Engineering
Aditya Engineering College (A) 144
R PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O04 2 1 0 3
Course Objectives
COB 1 To impart the knowledge on the R basic concepts
COB 2 To enable the student learn R program structure
COB 3 To inculcate the knowledge on mathematical functions
COB 4 To illustrate the concept of graph functions
COB 5 To make the students understand the concepts of distribution functions and
regressions models
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the basic concepts and advanced data structures of R programming
CO 2 Understand control statements and operators in R
CO 3 Implement simulation Probability and linear algebra operations
CO 4 Make use of graph functions
CO 5 Develop programs for distribution functions and regression models
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - -
CO2(K2) 2 1 - - 1 - - - - - - -
CO3(K3) 3 2 1 1 3 - - - - - - -
CO4(K3) 3 2 1 1 3 - - - - - - -
CO5(K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction How to run R R Sessions and Functions Basic Math Variables Data
Types Vectors Conclusion Advanced Data Structures Data Frames Lists Matrices
Arrays Classes
UNIT-II
R Programming Structures Control Statements Loops - Looping Over Nonvector
Sets If-Else Arithmetic and Boolean Operators and values Default Values for
Argument Return Values Deciding Whether to explicitly call return- Returning
Complex Objects Functions are Objective No Pointers in R Recursion A Quicksort
Implementation-Extended Extended Example A Binary Search Tree
UNIT-III
Simulation in R Math Function Extended Example Calculating Probability-
AR19 Mechanical Engineering
Aditya Engineering College (A) 145
Cumulative Sums and Products-Minima and Maxima- Calculus Functions Fir Statistical
Distribution Sorting Linear Algebra Operation on Vectors and Matrices Extended
Example Vector cross Product- Extended Example Finding Stationary Distribution of
Markov Chains Set Operation Input output Accessing the Keyboard and Monitor
Reading and writer Files
UNIT-IV
Graphics Creating Graphs The Workhorse of R Base Graphics the plot() Function ndash Customizing Graphs Saving Graphs to Files
UNIT-V
Probability Distributions Normal Distribution- Binomial Distribution- Poisson Distributions Other Distribution Basic Statistics Correlation and Covariance T-Tests-
ANOVA Linear Models Simple Linear Regression -Multiple Regression Generalized Linear Models Logistic Regression
Text Books
1 The Art of R Programming Norman Matloff 1st Edition Cengage Learning2011
2 R for Everyone Lander 2nd
EditionPearson 2018
Reference Books
1 R Cookbook JDLongamp PaulTeetor 2nd EditionOreilly 2019
2 R in ActionRob Kabacoff2nd Edition Manning 2015
Web Links
1 httpsonlinecoursesnptelacinnoc19_ma33preview
2 httpswwwcourseraorgprojectsgetting-started-with-r
3 httpswwwgeeksforgeeksorgintroduction-to-r-programming-language
4 httpswwwudacitycomcoursedata-analysis-with-r--ud651
AR19 Mechanical Engineering
Aditya Engineering College (A) 146
DATABASE MANAGEMENT SYSTEMS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O01 2 1 0 3
Course Objectives
COB 1 To discuss the basic concepts of database systems and its architectures
COB 2 To enable the students learn various data models
COB 3 To illustrate the mechanisms involved in normalization of relational databases
COB 4 To make use of SQL statements for performing operations on databases
COB 5 To impart knowledge on transaction management and concurrency controls
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the database characteristics and various database architectures
CO 2 Interpret relational database using SQL
CO 3 Examine issues in data storage and query processing for appropriate solutions
CO 4 Make use of normalization techniques to build database system for real world
problems
CO 5 Illustrate the mechanisms of transaction management
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 - 3 - - - - -
CO 2 (K2) 2 1 - - - - 3 - - - - -
CO 3 (K3) 3 2 1 1 3 - 3 - - - - -
CO 4 (K3) 3 2 1 1 3 - 3 - - - - -
CO 5 (K2) 2 1 - - 2 - 3 - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Databases Characteristics of database approach advantages of using
the DBMS approach
Overview of Database Languages and Architectures Data models schemas and
instances three schema architecture and data independence database system
environment centralized and clientserver architectures for DBMSs classification of
database management system
SQL Data Definition Constraints and Basic Queries and Updates SQL data
definition ndash DDL commands and data types specifying constraints in SQL INSERT
DELETE and UPDATE statements in SQL basic retrieval queries in SQL
UNIT-II
Introduction to Database Design Database Design and ER Diagrams Entities
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
Introduction to Database Design Database Design and ER Diagrams Entities
AR19 Mechanical Engineering
Aditya Engineering College (A) 147
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
The Relational Model Introduction to the relational model Integrity constraints over
relations enforcing integrity constraints querying relational data Nested Queries
Correlated Queries logical database design-ER to Relational
UNIT-III
Relational Algebra and Calculus Preliminaries relational algebra relational calculus
expressive power of algebra and calculus
Schema Refinement and Normal Forms Introduction to schema refinement functional
dependencies reasoning about FDs Normal forms (1NF 2NF 3NF and BCNF)
properties of decompositions normalization (decomposition into BCNF and 3NF)
schema refinement in database design other kinds of dependencies
UNIT-IV
Overview of Transaction Management amp Concurrency Control
Transaction Management
The ACID properties transactions and schedules concurrent execution of transactions
lock based concurrency control performance of locking and transaction support in SQL
introduction to crash recovery
Concurrency Control
2PLserializability and recoverability introduction to lock management lock conversions
dealing with deadlocks specialized locking techniques concurrency control without
locking
UNIT-V
Storage Overview of Storages and Indexing Data on External Storage- File Organization
and Indexing ndashClustered Indexing ndash Primary and Secondary Indexes Index Data
Structures Hash-Based Indexing ndash Tree-Based Indexing Comparison of File
Organization
Text Books
1 Database Management Systems Raghu Ramakrishnan Johannes Gehrke 3e
TMH
Reference Books
1 Introduction to Database Systems CJ Date Eighth Edition Pearson Education
2004
2 Database Systems - The Complete Book H G Molina J D Ullman J Widom Second
Edition Pearson Education 2009
3 Database Systems design Implementation and Management Peter Rob amp Carlos
Coronel Seventh Edition Cengage 2006
4 Fundamentals of Database Systems ElmasriNavathe Pearson Education 2015
5 Database System Concepts Silberschatz Korth Fifth Edition TMH 2006
Web Links
1 httpwwwnptelvideosin201211database-management-systemhtml
2 httpwwwgeeksforgeeksorgdbms
3 httpwwworaclecomtechnetworkdatabasefeaturesplsqlindexhtml
4 httpwwwcswiscedu~ dbbook
5 httpsbeginnersbookcom201505normalization-in-dbms
AR19 Mechanical Engineering
Aditya Engineering College (A) 148
COMPUTER GRAPHICS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O02 3 0 0 3
Course Objectives
COB 1 To discuss the basic principles of computer graphics primitives
COB 2 To demonstrate transformation clipping and viewing in 2D graphics
COB 3 To make the students learn projections transformations and visible surface
detections in 3D graphics
COB 4 To introduce the concepts of 3D primitives using OpenGL (Open Graphics
Library)
COB 5 To outline the Fractal geometry and Texturing in computer Graphics
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the applications of computer graphics and Video Display devices for
implementing Graphical user interface
CO 2 Analyze output primitives and filled area primitives in implementing various
algorithms
CO 3 Make use of Geometric Transformations Viewing and Clipping in 2D amp 3D
Graphics
CO 4 Illustrate various Visual Surface detection Methods in 3D Graphics
CO 5 Apply OpenGL for General Computer Animations
CO 6 Explain different object color modeling techniques Fractals and Ray tracing
concepts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K4) 3 3 2 2 3 - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - 2 - - - - - - -
CO5 (K3) 3 2 1 1 3 -
CO6 (K2) 2 1 - - 2 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Applications of Computer Graphics Video Display Devices-CRT
Raster-Scan and Random-Scan systems graphics monitors and work stations and input
devices
Output Primitives Line Drawing Algorithms- Bresenhamrsquos and DDA Line Drawing
Algorithms Mid-point circle and Ellipse algorithms
Filled Area Primitives Scan Line Polygon fill algorithm Boundary fill and Flood fill
algorithms
AR19 Mechanical Engineering
Aditya Engineering College (A) 149
UNIT-II
2-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations
2-D viewing The viewing pipeline Window to viewport coordinate transformation
2-D Clipping Cohen-Sutherland line clipping algorithm Sutherland-Hodgeman
polygon clipping algorithm and other clipping models Text amp Curve clipping models
UNIT-III
3-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations 3-D Viewing pipeline
Concepts Parallel and perspective projections and visible surface detection methods
UNIT-IV
Animations General computer animation Raster Key-frame Color models RGB
YIQ CMY HSV Graphics programming using OPENGL basic graphics primitives-
Generating three dimensional objects
UNIT-V
Fractals Fractals and self similarity Mandelbrot sets- Julia sets ndash Random Fractals
Overview of Ray Tracing Intersecting rays with other primitives-Adding surface
texture-Reflections and transparency-Boolean operations on objects
Text Books
1 Computer Graphics C Version Donald D Hearn M Pauline Baker 2nd Edition
Pearson
2 Computer Graphics using OPENGL Stephen M Kelley Francis S Hill 2nd
Edition Pearson
Reference Books
1 Computer Graphics- Principles and practices in C James D Foley Andries Van
Dam Steven K Feiner John F Hughes 2nd Edition Pearson Education 2007
2 Computer Graphics Samit Bhattacharya OXFORD Higher Education
3 Computer Graphics Peter Shirley CENGAGE
4 Principles of Interactive Computer Graphics Neuman Sproul TMH
5 The Computer Graphics manual Vol 2 David Soloman Springer
Web Links
1 httpsocwmiteducourseselectrical-engineering-and-computer-science6-837
computer-graphics-fall-2012
2 httpnptelacincourses106106090
3 httpsinudacitycomcourseinteractive-3d-graphics--s291
4 httpwwwcseiitmacin~vplabcomputer_graphicshtml
5 httpwwwgraphicscornelleduonlinelinkshtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 150
OVERVIEW OF MINING (Open Elective ndashI)
V Semester L T P C
Course Code 191MI5O01 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the mine lifecycle
COB 2 To make the students understand the factors responsible for location shape and
size of the shaft
COB 3 To demonstrate the students the system of ventilation Lighting and Permanent
lining need for drift
COB 4 To explain the special methods and Modern techniques of Shaft sinking
COB 5 To make the students understand the classification of explosives detonators and
detonating fuses and nonel detonators
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze different stages in the life of a mine
CO 2 Choose a suitable location for opening to a deposit
CO 3 Organize for building appropriate permanent lining drift with proper
ventilation and lighting arrangements
CO 4 Analyze the special methods need to be adopted for a particular situation
CO 5 Distinguish the uses of explosives
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - - - - - - 3 - - - - -
CO2 (K3) - - - 3 3 3 - - - - - -
CO3 (K3) - - - - - - - - 3 3 - -
CO4(K4) - 3 - 2 3 - - - - - - -
CO5 (K4) - 3 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Mineral distribution in India and World Contribution of mining to civilization Stages in
the life of a mine
UNIT-II
Overview of surface mining surface mining methods Unit operations Mechanization of
surface mines
UNIT-III
Overview of Underground Mines Methods of Underground mining Mechanization of
underground mines
AR19 Mechanical Engineering
Aditya Engineering College (A) 151
UNIT-IV
Safety practices in opencast and underground Mines
UNIT-V
Impacts of Mining on environment
Text Books
1 DJDeshmukh Elements of Mining Technology Denettamp Co Nagpur Vol I 1998
2 DrTNSingh Surface Mining Lovely Prakashan Dhanbad 2nd edition 2002
3 BVGokhale Blasthole drilling Technology multifields Bombay 1st edition 2001
Reference Books
1 Indian Bureau of Mines Minerals Year Book amp other publications Latest Edition
2 DrCMKole Khuli Khan KaAyojan (Hindi) CMPDIL Ranchi 1st edition 1996
3 Dr Calvin Konya ldquoRock Blasting and Overbreak Controlrdquo Precision Blasting
Services Montville Ohio 2nd edition 2004
Web Links
1 httpwwwminingglobalcomoperationsgifs-5-stages-mining-life-cycle
2 httpswwwslidesharenetumer_1stages-in-life-of-mine
3 httpswwwminecationstandardsorgfileadminMASdocumentsnmas-national
4 stabdardsafghanistanAMAS_0704_Storage_Transportation_Handling_of_Explosi
vespdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 152
PROCESS INTENSIFICATION IN PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O01 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in process intensification methodologies
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquos various principles associated to various unit operations
and unit processes
COB 5 To impart knowledge on available in petrochemical fine chemical
pharmaceutical carbon capture and bioprocess engineering to understand the
role of process intensification to improve process performance
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for process
intensification
CO 2 Analyze various modifications to process equipment and designs with which
process intensification becomes a reality in unit operations and unit processes
CO 3 Analyze various case studies available in petrochemical fine chemical bioprocesses
and carbon capture
CO 4 Correlate textbook reported methodologies with Computational Fluid
Dynamics and experimental process intensification
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K3)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
History of Process Intensification Rotating boilers ndash Rotating non-pipe ndash Separators ndash
Rotating heat transfer devices
Overview of Process Intensification Definition of Process Intensification (PI) ndash
Advantages of PI ndash Obstacles to PI
AR19 Mechanical Engineering
Aditya Engineering College (A) 153
UNIT-II
Mechanisms Involved in Process Intensification Mechanisms involved in heat transfer
intensification ndashElectrically enhanced process intensification ndash Microfluidics ndash Pressure
Compact and Micro-heat exchangers amp Process Intensification Plate Printed-circuit
Chart-flow Polymer film Foam and mesh heat exchangers ndash Micro-heat exchangers ndash
Small channels ndash Nano fluids
UNIT-III
Downhole Separation Technology
Overview- Potential Downhole Separation Technology-Present Status- Advantages-
Challenges-Downhole oil- water separation (DOWS) - hydrocyclone separator Different
configurations -Working Principle-Performance factors- Selection Criteria-Scale up-
Experiences with problems-Reinjection systems- Downhole completion designs for
DOWS - Downhole gas-water Separations-Application of electrical submersible pumps-
Working principle-Modified plunger pumps Three-phase Separation Technology- Case
studies on DOWS and DGWS
UNIT-IV
Application of Solar Energy in Oil and Gas Operations
Solar Energy-PV Cells-Concentration of Solar Power-Energy use in offshore rigs and
FPSO- Energy and Cost Analysis-Solar panels required to replace fossil fuels-
Comparison of Diesel Power with Solar Power Costs-Ability of Solar Energy Use on
Offshore Rigs-Solar Energy Enhanced Oil Recovery
UNIT-V
Application of Divided Wall Distillation technology in separation of NGL
Working principle of Divided wall distillation column-Advantages-Various
configurations-Separation of NGL
Text Books
1 Process Intensification Engineering for Efficiency Sustainability and Flexibility
D Reay C Ramshaw and A Harvey Butterworth-Heinemann 1st Edition
Burlington 2008
Reference Books
1 Re-Engineering the Chemical Processing Plant Process Intensification A
Stankiewicz and JA Moulijn (Editors) Marcel Dekker New York 2004
Web Links
1 httpswwwsciencedirectcombook9780750689410process-intensification
2 httpswwwsciencedirectcomsciencearticlepiiB9780750689410000043
3 httpwwwyourarticlelibrarycomenergysolar-energy-10-major-application-of-
solar-energy-explained28197
4 httpsenwikipediaorgwikiDigital_divide
AR19 Mechanical Engineering
Aditya Engineering College (A) 154
FUNDAMENTALS OF PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O02 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in petroleum industry
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquosvarious principles associated to various treating
operations and unit processes
COB 5 To impart knowledge on available in petroleum well servicing unit
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for petroleum
industry
CO 2 Analyze various modifications to equipment and designs with which evaluate
the lithological characteristics and behavior of reservoir
CO 3 Analyze various case studies available in petrochemical chemical bioprocesses for
treatment of wastage
CO 4 Analyze various modification to well for better production rate
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4 )
PO 3
(K5 )
PO 4
(K 3)
PO 5
(K3 )
PO 6
(K3)
PO 7
(K2 )
PO 8
(K3)
PO 9
(K2)
PO 10
(K2 )
PO11
(K3 )
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
The history of production Oil beginning- A case for casing- More fireworks-
Underground mysteries- Breathing of the earth- Crisis and reservoirengineering-
Horizontal drilling- The great offshore-Indian scenario
UNIT-II
The reservoir Origin- Transformation- Characterization- Discovery
Whatrsquos in the container The prize Determinants- The contents- Thechemistry-
Composition- Properties- Impurities- Fingerprints- The origin ofhydrocarbons
Drilling The spring pole- Cable tool drilling and operations- Rotarydrilling- Rig
components- Drilling mud- Blowout preventers- Drillingoffshore- Top drives and
AR19 Mechanical Engineering
Aditya Engineering College (A) 155
automation- The course- Location
UNIT-III
Logging testing and completing Logging- Correlation logs- Real time-Directional and
horizontal wells- Original hydrocarbons in place- Openhole testing- Completions- Cased
hole logging and measuring devices
Hydrocarbon activity in the reservoir Phases- Phases diagrams- Reservoirfluid
categories- Using phase diagrams- Gas wells Vs oil wells- Shrinkagendash Solution gas- oil
ratio- Relative permeability
Production The motivating force- Drive mechanisms- Producing phases-Primary
production- Secondary recovery- Pressure maintenance andwaterflooding- Tertiary
recovery
UNIT-IV
Making it marketable Field processing Gas treating- Oil treating- Waterdisposal-
Testing- Measurement and metering- Storage
UNIT-V
Remedial operations and workovers Decision making- Workover rigs-Coiled tubing-
Subsea completions- Well problems and stimulation-Changing production intervals
Text Books
1 Oil and Gas Production in Nontechnical Language Martin S Raymondamp William
L Leffler Penn Well Corporation 2006
Reference Books
1 Introduction to Oil and Gas Production American Petroleum Institute5th Edition
1996
2 Oil and Gas Production Hand Book An Introduction Oil and GasProduction
HavardDevold ABB ATPA Oil and Gas 2006
Web Links
1 httpsenwikipediaorgwikiPetroleum_industry
2 httpwwwoil-gasportalcomdrillingtechnologies
3 httpswwwibeforgindustryoil-gas-indiaaspx
4 httpswwwapiorgoil-and-natural-gaswells-to-consumertransporting
5 httpswwwsciencedirectcomtopicsengineeringpetroleum-refining
AR19 Mechanical Engineering
Aditya Engineering College (A) 156
BASIC CROP PRODUCTION PRACTICES (Open Elective ndashI)
V Semester L T P C
Course Code 191AG5O01 2 1 0 3
Course Objectives
COB 1 To enable the students to study principles of agricultural and horticultural crop
production and to introduce the production practices of crops
COB 2 To make the students to acquire knowledge for delineate the role of
agricultural and irrigation engineers in relation to various crop production
practices
COB 3 To make the students to acquire knowledge on crop selection crop production
and crop management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain factors affecting on crop growth and production
CO 2 Explain crop selection and establishment of an adequate crop stand and
ground cover
CO 3 Explain crop water management
CO 4 Apply agriculture crops production practices in field
CO 5 Apply the horticulture crops production practices in field
Mapping of Course Outcomes with Program Outcomes
COsPOrsquos PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - 1 - - 2 - - - - 3 - 3
CO2 (K2) - 1 - - 2 - - - - 3 - -
CO3 (K2) - 1 - - 2 - - - - 3 - 3
CO4 (K3) - 2 1 1 3 - - - - 3 - 3
CO5 (K3) - 2 1 1 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Agriculture and Crop Production Introduction to agriculture and its crop production sub-
sectors ndash field crop production and horticulture Factors affecting crop growth and
production genetic (internal) and environmental (external) factors Crop management
through environmental modification and adaptation of crops to the existing environment
through crop cultural practices
UNIT-II
Crop Selection and Establishment Regional and seasonal selection of crops Systems of
crop production Competition among crop plants Spacing and arrangement of crop plants
Field preparation for crops including systems of tillage Establishment of an adequate crop
stand and ground cover including selection and treatment of seed and nursery growing
AR19 Mechanical Engineering
Aditya Engineering College (A) 157
UNIT-III
Crop Management Crop water Management a Crop nutrition management ndash need for
supplementation to soil supplied nutrients sources generalized recommendations
methods and timing of application of supplemental nutrients including fertigation
scheduling Crop protection including management of weeds pests and pathogens
Integrated methods of managing water nutrients and plant protection Types and methods
of harvest
UNIT-IV
Production Practices of Agricultural Crops Generalized management and cultivation
practices for important groups of field crops in Andhra Pradesh cereal crops grain
legumes oil seed crops sugarcane and fiber crops and special purpose crops such as
those grown for green manure and fodder
UNIT-V
Production Practices of Horticultural Crops Important basic groups of horticultural crops
in AP such as vegetable crops fruit crops flower crops Cultivation practices of major
fruits major vegetables and major flowers of each group Special features of production
of horticultural crops ndash greenhouse cultivation Organic farming Zero budget farming
Vertical gardening and Kitchen farming
Text Books
1 Rajendra Prasad Text Book of Field Crop Production Directorate of Information and
Publication Krishi Anusandhan Bhavan Pusa New Delhi 2015
2 Reddy T Sankara GH Yellamanda Reddi Principles of Agronomy Kalyani
Publishers New Delhi 2005
3 Handbook of Agriculture ICAR Publications New Delhi 2011
Reference Books
1 Bose T K and LPYadav Commercial Flowers Naya Prakash Calcutta1989
2 Crop Production Guide Tamil Nadu Agricultural University Publication
Coimbatore 2005
3 Kumar N Abdul Khader M Rangaswami P and Irulappan I Introduction to
spices plantation crops medicinal and aromatic plants Rajalakshmi Publications
Nagercoil 1993
4 Kumar NrdquoIntroduction to Horticulturerdquo Rajalakshmi Publications Nagercoil 7th
edition 2015
5 Shanmugavel KG Production Technology of Vegetable Crops Oxford India
Publications New Delhi 1989
Web Links
1 httpswwwcareerlaunchercomcbse-ncertclass-8ScienceCBSE-Crop Production
andManagement-Notes html~text= E280A220Basic20 Practices20
of20Cropis20called20ploughing20or20tilling
2 httpswwwedubeanscomClass_VIII_Science_Crop-Production-and-Manage ment
php
3 httpsbyjuscombiologybasic-practices-of-crop-production
4 httpwwwapagrisnetgovinpdffarmerbookpdf
5 httpcbseacademicnicinweb_materialCurriculumVocational2018Basic20Ag
riculture20X20(408)pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 158
METROLOGYamp ICS LAB
V semester L T P C
Course Code 191ME5L05 0 0 3 15
Course Objectives
COB 1 To make the students measure bores by internal micrometers and dial bore
indicators
COB 2 To impart the knowledge of measurement of the angle and taper by bevel
protractor sine bars etc
COB 3 To induce the knowledge of principles involved in calibration
COB 4 To induce the knowledge about temperature sensors thermocouples RTD
thermisters)
Course Outcomes
At the end of the Course Student will be able to
CO 1 Measure the bores by internal micrometers and dial bore indicators
CO 2 Measure the angle and taper using bevel protractor and sine bar
CO 3 Measure screw thread parameters
CO 4 Find the errors and calibrate photo and magnetic pickups
CO 5 Find the errors and calibrate the pressure gauge temperature detectors and
LVDT
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
List of Experiments
Section A Metrology Lab
1 Measurement of lengths heights diameters by vernier calipers micrometers
2 Angle and taper measurements with bevel protractor Sine bar rollers and balls
3 Measurement of bores by internal micrometers and dial bore indicators
4 Straightness measuring using autocollimator
5 Gear tooth thickness measurement using gear tooth vernier calipers
Section B Instrumentation Lab
6 Calibration of pressure gauge
7 Study and calibration of LVDT transducer for displacement measurement
8 Calibration of thermocouple
AR19 Mechanical Engineering
Aditya Engineering College (A) 159
9 Study and calibration of photo and magnetic speed pickups
10 Calibration of resistance temperature detector
List of Augmented Experiments
Metrology Lab
(Any one of the following experiments can be performed)
11 Flatness measurement using optical flat
12 Machine tool alignment test on lathe using various metrology instruments
Instrumentation Lab
(Any one of the following experiments can be performed)
13 Calibration of Force measuring setup
14 Study and calibration of a Rotameter for flow measurement
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers
2 Measurement Systems Applications amp design DS Kumar Metropolitian Book
Co pvt ltd
Web Links
1 httpwwwatrieduinimagespdfdepartmentsINSTRUMENTATION20L
AB20 manual
2 httpwwwbitswglacinMEMetrology-Lab-Manual20320year 201 sem
3 httpslideplayercomslide7020420
4 httpgps-mechblogspotin201201lab-manual-for-measurement-andhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 160
THEORY OF MACHINES LAB
V semester L T P C
Course Code 191ME5L06 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge on governors and flywheels
COB 2 To provide practical exposure to students on gyroscopic forces and moments
COB 3 To impart knowledge of finding natural frequency of different types of
vibrations
COB 4 To develop knowledge on balancing of the machine parts statically and
dynamically
COB 5 To impart practical knowledge on analysis of mechanisms for a specified type
of motion in a machine
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the critical speed of whirling of shaft
CO 2 Determine the position of sleeve against the controlling force and speed in
governors
CO 3 Analyze the motion of motorized gyroscopic couple
CO 4 Measure the frequency of damped and un-damped vibrations of a spring mass
system
CO 5 Apply the principles of balancing of masses to various links mechanisms and
engines
CO 6 Analyze the displacement velocity and acceleration against crank rotation in
slider crank mechanism
CO 7 Calculate the moment of inertia of flywheel
CO 8 Analyze cam profile for various cam follower systems
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
LIST OF EXPERIMENTS
1 Determine whirling speed of shaft theoretically and experimentally
2 Plot follower displacement vs cam rotation for various Cam Follower systems
3 Determine the position of sleeve against controlling force and speed of a Hartnell
governor and plot the characteristic curve of radius of rotation
AR19 Mechanical Engineering
Aditya Engineering College (A) 161
4 Analyze the motion of a motorized gyroscope when the couple is applied along its
spin axis
5 Determine the frequency of un-damped free vibration of an equivalent spring mass
system
6 Determine the frequency of damped force vibration of a spring mass system
7 Study the static and dynamic balancing using rigid blocks
8 Find the moment of inertia of a flywheel
9 Plot slider displacement velocity and acceleration against crank rotation for single
slider crank mechanismFour bar mechanism
10 Find coefficient of friction between belt and pulley
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
11 Study simple and compound screw jack and determine the mechanical advantage
velocity ratio and efficiency
12 Study various types of gears- Spur Helical Worm and Bevel Gears
13 To determine the position of sleeve against controlling force and speed of a porter
governor and to plot the characteristic curve of radius of rotation
Reference Books
1 Theory of machines lab manual ndash Aditya Engineering College
2 Theory of machines by RSKhurmi JKGupta
AR19 Mechanical Engineering
Aditya Engineering College (A) 162
THERMAL ENGINEERING LAB
V semester L T P C
Course Code 191ME5L07 0 0 3 15
Course Objectives
COB 1 To provide the knowledge to the student about working of IC Engines
COB 2 To train the student to conduct performance and heat balance test on IC
Engines
COB 3 To practice the student to calculate the frictional losses in an IC Engine
COB 4 To impart practical exposure on performance of Reciprocating air Compressor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the various parts of an IC Engine
CO 2 Sketch the Valve and Port Timing diagrams for IC Engines
CO 3 Determine the performance of various types of IC Engines
CO 4 Prepare the heat balance sheet for various types of IC Engines
CO 5 Calculate the frictional power in various types of IC Engines
CO 6 Analyze the performance of reciprocating air compressor
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - 3 - -
CO2(K3) 3 2 - - - - - - - 3 - -
CO3(K3) 3 2 - 1 - - 3 - - 3 - 3
CO4(K3) 3 2 - - - - - - - 3 - -
CO5(K3) 3 2 - 1 - - 3 - - 3 - 3
CO6(K4) 3 3 - 2 - - 3 - - 3 - 3
CO7(K2) 2 1 - - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 2 -
CO2 (K3) - 2 -
CO3 (K3) 3 2 -
CO4 (K3) - 2 -
CO5 (K3) 3 2 -
CO6 (K4) 3 2 -
CO7 (K2) - 2 -
List of Experiments
1 (A)Draw amp Study The Valve Timing Diagrams For Four Stroke Diesel Engine
(Cut Section Model)
(B) Draw amp Study The Port Timing Diagrams For Two Stroke Petrol Engine (Cut
Section Model)
2 (A) Evaluate The Performance of 4 -Stroke Diesel Engine
(B) Draw The Heat Balance Sheet For 4-Stroke Single Cylinder Diesel Engine
(C) Determination of frictional power by retardation test on a 4-Stroke petrol
engine
3 (A) Evaluate The Performance of 4 -Stroke multi cylinder petrol Engine
AR19 Mechanical Engineering
Aditya Engineering College (A) 163
(B) Draw The Heat Balance Sheet For 4-Stroke multi cylinder petrol Engine
(C) Evaluation of frictional power by conducting morse test on 4-stroke multi
cylinder petrol engine
4 (A)Evaluate The Performance of 4 ndashStroke Petrol Engine Test Rig With Dc
Generator
(B)To Measure The Frictional Power of The Given Four Stroke Single Cylinder
Petrol Engine By Conducting Motoring Test
5 (A)Evaluate The performance of variable compression ratio engine
(B)Draw The Heat Balance Sheet For variable compression ratio engine
6 Performance test on reciprocating air compressor unit
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
7 (A) Determine the flash and fire point of given oil sample
(B) Determination of Viscosity using Red Wood Viscometer
(C) Determination of viscosity using Saybolt Viscometer
(D) Determination of calorific value of fuels by using Bomb Calorimeter
(E) ECONOMICAL SPEED TEST on IC Engines
Reference Books
1 Internal Combustion Engines V Ganesan TMH Publication 4th Edition
2 Internal Combustion Engines Fundamentals John B Heywood MGH
3 Thermal Engineering lab Manual Aditya Engineering College
Web Links
1 httpswwwscribdcomdoc38559760Thermal-Lab-Manual
2 httpwwwksrctacinpagethermal-engineering-labhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 164
EMPLOYABILITY SKILLS-III (Common to all branches)
Course Objectives
COB 1 To provide basic communication to ensure employability skills
COB 2 To meet the changing global needs and demands
COB 3 To orient students towards career and profession
COB 4 To equip students with fundamental and advanced inputs as various techniques
of strengthening their professional abilities
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the clock and calendar problems by simple methods
CO 2 Discuss about different types of puzzles
CO 3 Breakdown the typical write-up skills
CO 4 Apply different types of models on percentages profit and loss simple interest
and compound interest
CO 5 Demonstrate the tools of the soft skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
UNIT-I
Aptitude puzzle test group reasoning
Soft Skills Group discussion
UNIT-II
Aptitude clock calendar
Soft Skills Resume writing Personalized Resume preparation Compose and Prepare a
cover letter
UNIT-III
Aptitude cubes ampdice partnership
Soft Skills E-mail -Writing ampEtiquette Business Etiquette
UNIT-IV
Aptitude percentage profit and loss
Soft Skills Interviewing skills-1Dorsquosamp donrsquots in an interview Interview Demonstration
V Semester L T P C
Course Code 191HS5T06 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 165
Videos Interview Preparation
UNIT-V
Aptitude simple interest compound interest
Soft Skills Stress Management Personal priorities effect on career decisions Personal
priorities to professional priorities
Text Books
1 Quantitative Aptitude - Dr RS Aggarwal S CHAND
2 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
2 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
3 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 6
III SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS3T11 Integral Transforms And
Applications Of Partial
Differential Equations
(CE ME AgE)
BSC 3 0 0 3 3
191ME3T01 Fluid Mechanics and Hydraulic
Machinery
PCC 3 0 0 3 3
191ME3T02 Computer Aided Engineering
Drawing Practice
PCC 2 0 2 4 3
191ME3T03 Mechanics of Solids PCC 3 0 0 3 3
191ME3T04 Thermodynamics PCC 3 0 0 3 3
191ME3T05 Metallurgy amp Material Science PCC 3 0 0 3 3
191ME3L01 Fluid Mechanics amp Hydraulic
Machines Lab
PCC 0 0 3 3 15
191ME3L02 Mechanics of Solids amp Metallurgy
Lab
PCC 0 0 3 3 15
191MC3A03 Employability Skills ndash I MC 0 0 2 2 0
191MC3A04 Essence of Indian Traditional
Knowledge
MC 2 0 0 2 0
TOTAL 19 0 10 29 21
IV SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191BS4T16 Numerical methods amp Statistical
Techniques (CE ME Ag E)
BSC 3 0 0 3 3
191HS4T04 Managerial Economics amp
Financial Analysis
HSMC 3 0 0 3 3
191ES4T15 Internet of Things ESC 3 0 0 3 3
191ME4T06 Production Technology PCC 3 0 0 3 3
191ME4T07 Kinematics of Machinery PCC 3 0 0 3 3
191ME4T08 Thermal Engineering-I PCC 3 0 0 3 3
191ME4L03 Production Technology Lab PCC 0 0 3 3 15
191ME4L04 Computer Aided Machine
Drawing
PCC 0 0 3 3 15
191MC4A05 Employability Skills ndash II MC 0 0 2 2 0
191MC4A06 Biology for Engineers MC 2 0 0 2 0 TOTAL 20 0 8 28 21
AR19 Mechanical Engineering
Aditya Engineering College (A) 7
V SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME5T09 Dynamics of Machinery PCC 3 0 0 3 3
191ME5T10 Design of Machine Members-I PCC 3 0 0 3 3
191ME5T11 Thermal Engineering-II PCC 3 0 0 3 3
---- PE-I PEC 3 0 0 3 3
---- OE-I OEC 3 0 0 3 3
191ME5L05 Metrology ICS lab PCC 0 0 3 3 15
191ME5L06 Theory of Machines Lab PCC 0 0 3 3 15
191ME5L07 Thermal Engineering Lab PCC 0 0 3 3 15
191HS5T06 Employability Skills ndash III HSMC 0 0 2 2 1
191PR5P02 Socially Relevant Project PROJ 0 0 0 0 1
TOTAL 15 0 11 26 215
VI SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME6T12 Heat Transfer PCC 3 0 0 3 3
191ME6T13 Design of Machine Members-II PCC 3 0 0 3 3
191ME6T14 Metal cutting and Machine Tools PCC 3 0 0 3 3
---- PE-II PEC 3 0 0 3 3
---- PE-III PEC 3 0 0 3 3
---- OE-II OEC 3 0 0 3 3
191ME6L08 Metal Cutting and Machine Tools
Lab
PCC 0 0 3 3 15
191ME6L09 Heat Transfer Lab PCC 0 0 3 3 15
191HS6T07 Employability Skills ndash IV HSMC 0 0 2 2 1
TOTAL 18 0 8 26 22
VII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
191ME7T15 Operations Research PCC 3 0 0 3 3
191ME7T16 Finite Element Methods PCC 3 0 0 3 3
---- PE-IV PEC 3 0 0 3 3
---- PE-V PEC 3 0 0 3 3
---- OE-III OEC 3 0 0 3 3
191ME7P03 Internship PROJ 0 0 0 0 2
191ME7L10 CAM Mechatronics Lab PCC 0 0 3 3 15
191ME7L11 CAD CFD lab PCC 0 0 4 4 2
191ME7P04 Project Part 1 PROJ 0 0 0 0 2
TOTAL 15 0 7 22 225
AR19 Mechanical Engineering
Aditya Engineering College (A) 8
VIII SEMESTER
Course
Code Name of the Course
Course
Component
PeriodsWeek Credits
(C) Lecture
(L)
Tutorial
(T)
Practice
(P)
Total
Hours
---- PE-VI (MOOCs) PEC 3 0 0 3 3
---- OE-IV (MOOCs) OEC 3 0 0 3 3
191ME8P05 Project Part 2 PROJ 0 0 0 0 7
TOTAL 6 0 0 6 13
BSC Basic Sciences Courses HSMC Humanities and Social Sciences including Management
Courses ESC Engineering Sciences Courses PCC Professional Core Courses PEC
Professional Elective Courses OEC Open Elective Courses SSC Self Study Course MC
Mandatory Courses PROJ Project
PROFESSIONAL ELECTIVES
Professional Elective ndash I Professional Elective ndash II
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME5E01 Automobile Engineering 1 191ME6E07 Industrial Engineering amp
Management
2 191ME5E02 Composite Materials 2 191ME6E08 Mechatronics
3 191ME5E03 Fluid Engineering 3 191ME6E09 Non Destructive Evaluation
4 191ME5E04 Mechanical Vibrations 4 191ME6E10 Refrigeration and Air
Conditioning
5 191ME5E05 Metrology amp Instrumentation 5 191ME6E11 Robotics
6 191ME5E06 Organizational Behavior
Professional Elective ndash III Professional Elective ndash IV
SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME6E12 Additive Manufacturing 1 191ME7E17 Advanced Automobile
Engineering
2 191ME6E13 Alternative Fuels 2 191ME7E18 Advanced Fluid Mechanics
3 191ME6E14 Design for Manufacturing 3 191ME7E19 Computational Fluid Dynamics
4 191ME6E15 Green Engineering Systems 4 191ME7E20 Nano materials amp Technology
5 191ME6E16 Lean Manufacturing 5 191ME7E21 Power Plant Engineering
Professional Elective ndash V Professional Elective ndash VI SNo Course Code Name of the Course SNo Course Code Name of the Course
1 191ME7E22 CAD CAM 1 191ME8E27 Advanced Materials
2 191ME7E23 Condition Monitoring 2 191ME8E28 Manufacturing Methods in
Precision Engineering
3 191ME7E24 Design of Transmission
Systems
3 191ME8E29 Production Planning and
Control
4 191ME7E25 Flexible Manufacturing
Systems
4 191ME8E30 Thermal Equipment Design
5 191ME7E26 Gas Dynamics 5 191ME8E31 Total Quality Management
AR19 Mechanical Engineering
Aditya Engineering College (A) 9
OPEN ELECTIVE - I (V Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE5O01 Basic Concrete Technology CE EEE CE
2 191EE5O01 Electrical Safety EEE EEE
3 191EE5O02 Electrical Materials EEE EEE
4 191EE5O03 Basic Electrical Measurements EEE ECE EEE
5 191ME5O01 Renewable Energy Sources CE EEE ME Ag E ME
6 191ME5O02 Fundamentals of Mechanical
Engineering
ME ME
7 191ME5O03 Supply Chain Management ME ME
8 191ME5O04 3D Printing ME ME
9 191ME5O05 Entrepreneurship Development and
Incubation
ME
10 191EC5O01 Signals amp Systems EEE ECE ECE
11 191EC5O02 Digital Electronics and Logic
Design
EEE ECE CSE IT ECE
12 191EC5O03 Semi conductor devices EEE ECE ECE
13 191CS5O01 Data Structures EEE ECE CSE IT CSE
14 191CS5O02 Object Oriented Programming
through C++
CSE IT CSE
15 191CS5O03 Java Programming CSE IT CSE
16 191CS5O04 R Programming CSE
17 191IT5O01 Database Management Systems CSE IT IT
18 191IT5O02 Computer Graphics CSE IT IT
19 191MI5O01 Overview of Mining MinE MinE
20 191PT5O01 Process Intensification in Petroleum
Industry
PT PT
21 191PT5O02 Fundamentals of Petroleum
Industry
PT PT
22 191AG5O01 Basic Crop Production Practices AgE AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 10
OPEN ELECTIVE - II (VI Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE6O02 Disaster Management CE
2 191EE6O04 Energy Audit and Conservation
Management
EEE EEE
3 191EE6O05 Non Conventional Energy
resources
EEE EEE
4 191EE6O06 Instrumentation EEE ECE Ag E EEE
5 191ME6O06 Solar Energy Utilisation ME Ag E ME
6 191ME6O07 Basic Thermodynamics and
Heat Transfer
EEE ME PT AgE
MinE
ME
7 191ME6O08 Introduction to Hydraulics and
Pneumatics
CE ME PT ME
8 191ME6O09 3D Printing ME ME
9 191ME6O06 Robotics ME ME
10 191ME6O09 Management Science CE CSE IT PT Min
E
ME
11 191ME6O12 Entrepreneurship Development
and Incubation
ME
12 191ME6O07 Biomedical Instrumentation ECE
13 191ME6O08 ECAD Tools ECE ECE
14 191CS6O05 Python Programming EEE CSE IT CSE
15 191CS6O06 Operating Systems CSE IT CSE
16 191CS6O07 Web Technologies CSE IT CSE
17 191CS6O08 Cyber Security CSE IT CSE
18 191CS6O09 AR VR CSE
19 191IT6O03 Computer Organization CSE IT IT
20 191IT6O04 AI Tools amp Techniques CSE IT IT
21 191IT6O05 Robotic Process Automation
IT
22 191MI6O02 Industrial Safety Practices AgE MinE
23 191MI6O03 Electrical Equipmentrsquos in Mines MinE
24 191PT6O03 Unconventional Hydrocarbon
Resources
PT PT
25 191PT6O04 Asset Management PT
26 191AG6O02 Weather forecast in Agriculture AgE
27 191AG6O03 Bio-energy systems design and
applications
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 11
OPEN ELECTIVE - III (VII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE7O03 Waste Water Management CE CE
2 191EE7O07 Electrical and Hybrid Vehicles EEE EEE
3 191EE7O08 Special Electrical Machines EEE EEE
4 191EE7O09 Industrial Electrical Systems EEE EEE
5 191ME7O13 Optimization techniques
ME
6 191ME7O14 Energy Conservation
ME
7 191ME7O15 Introduction to Material Handling
Systems
ME
8 191ME7O16 Robotics ME ME
9 191ME7O17 Entrepreneurship Development and
Incubation
ME
10 191EC7O06 Overview of Digital Signal Processing EEE ECE ECE
11 191EC7O07 Basics of VLSI Design ECE ECE
12 191EC7O08 Micro Electro Mechanical Systems
ECE
13 191EC7O09 Image Processing ECE CSE IT ECE
14 191CS7O10 Big Data Analytics CSE IT CSE
15 191CS7O11 Mobile Application Development CSE IT CSE
16 191CS7O12 Data Science CSE IT CSE
17 191IT7O06 Machine Learning CSE IT IT
18 191IT7O07 Quantum Computing
IT
19 191IT7O08 Block Chain Technologies CSE IT IT
20 191MI7O04 Communication System in Mines
MinE
21 191MI7O05 Drilling amp Blasting MinE MinE
22 191PT7O05 Introduction to Earth Sciences CE PT Min E PT
23 191PT7O06 Basic Concepts in Petroleum Drilling and
Completions
PT PT
24 191AG7O04 Greenhouse Technology AgE AgE
25 191AG7O05 Reusability of Municipal Effluent in
Agriculture
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 12
OPEN ELECTIVE ndash IV (VIII Semester)
S
No
Course
Code Course Name
Not Offered to
Branches
Offered By
Department
1 191CE8O04 Integrated Waste Management for a
Smart City
CE
2 191EE8O10 Fundamentals of Electrical Engineering EEE ECE EEE
3 191EE8O11 Basic Electrical Circuits EEE ECE EEE
4 191EE8O12 Electrical Machines EEE EEE
5 191EE8O13 Power Electronics EEE EEE
6 191EE8O14 Non-Conventional Energy Sources CE EEE ME EEE
7 191ME8O18 Fabrication processes ME ME
8 191ME8O19 Smart Materials ME
9 191EC8O10 Micro Electro Mechanical Systems ECE
10 191EC8O11 Basic Electronic Circuits EEE amp ECE ECE
11 191EC8O12 Principles of Communications ECE ECE
12 191EC8O13 Electronic Instrumentation EEE amp ECE ECE
13 191EC8O14 Digital Image Processing ECE CSE IT ECE
14 191CS8O13 Cyber Security CSE IT CSE
15 191CS8O14 Data Science CSE IT CSE
16 191CS8O15 Game Theory CSE IT CSE
17 191CS8O16 AR VR CSE
18 191IT8O09 Deep learning CSE IT IT
19 191IT8O10 Block Chain Technologies CSE IT IT
20 191PT8O07 Chemical Process Safety PT
21 191PT8O08 Mechanical Unit Operations PT
22 191AG8O06 GIS essentials in Agriculture and its
application
CE AgE
23 191AG8O07 Organic Farming for Sustainable
Agricultural Production
AgE
AR19 Mechanical Engineering
Aditya Engineering College (A) 13
COMMUNICATIVE ENGLISH (Common to all branches)
I Semester L T P C
Course Code 191HS1T01 3 0 0 3
Introduction
In view of the growing importance of English as a tool for global communication and the
consequent emphasis on training the students to acquire communicative competence the
syllabus has been designed to develop linguistic and communicative competence of the
students of Engineering
As far as the detailed textbooks are concerned the focus should be on the skills of
listening speaking reading and writing The non-detailed textbooks are meant for
extensive reading for pleasure and profit
Thus the stress in the syllabus is primarily on the development of communicative skills
and fostering of ideas
Course Objectives
COB 1 To improve the language proficiency of the students in English with emphasis on
LSRW skills
COB 2 To enable the students to study and comprehend the prescribed lessons and
subjects more effectively relating to their theoretical and practical components
COB 3 To develop the communication skills of the students in both formal and informal
situations
COB 4 To develop the ways to overcome fear and use of words for irony
COB 5 To make the learners understand the development conditions and the core
Competences of the state to prioritize education system
COB 6 To discuss that water is the worlds most precious natural resources
COB 7 To discuss how human sensitivity changes in accordance to times and situations
in life
COB 8 To inform the learner that all men can come together to abolish the war
LISTENING SKILLS
Objectives
1 To enable the students to appreciate the role of listening skill and improve their
pronunciation
2 To enable the students to comprehend the speech of people belonging to different
backgrounds and regions
3 To enable the students to listen for general content to fill up information and for
specific information
SPEAKING SKILLS
Objectives
1 To make the students aware of the importance of speaking for their personal and
professional communication
2 To enable the students to express themselves fluently and accurately in social and
professional success
AR19 Mechanical Engineering
Aditya Engineering College (A) 14
3 To help the students describe objects situations and people
4 To make the students participate in group activities like role-plays discussions and
debates
5 To make the students participate in just a minute talks
READING SKILLS
Objectives
1 To enable the students to comprehend a text through silent reading
2 To enable the students to guess the meanings of words messages and inferences of
texts in given contexts
3 To enable the students to skim and scan a text
4 To enable the students to identify the topic sentence
5 To enable the students to identify discourse features
6 To enable the students to make intensive and extensive reading
WRITING SKILLS
Objectives
1 To make the students understand that writing is an exact formal skills
2 To enable the students to write sentences paragraphs e-mails and essays
3 To make the students identify and use appropriate vocabulary
4 To enable the students to narrate and describe
5 To enable the students to write coherently and cohesively
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the ways to overcome fear and use of words for irony
CO 2 Interpret the development conditions and the core competences of the state to
prioritize education system
CO 3 Explain water as the worlds most precious natural resources
CO 4 Illustrate human sensitivity to the changing times and situations in life
CO 5 Identify that all men can come together to abolish the war
CO 6 Rephrase coherent writing in social political and religious background
CO 7 Demonstrate writing and concepts of grammar skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - - 2 - -
CO2 (K2) - - - - - - - - - 3 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K2) - - - - - - - - - 3 - -
CO5 (K3) - - - - - - - - - 2 - -
CO6 (K2) - - - - - - - - - 3 - -
CO7 (K2) - - - - - - - - - 3 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
CO6 (K2) - - -
CO7 (K2) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 15
Methodology
1 The class is to be learner-centred where the learners are to read the texts to get a
comprehensive idea of those texts on their own with the help of the peer group and
the teacher
2 Integrated skill development methodology has to be adopted with focus on
individual language skills as per the tasksexercise
3 The tasksexercises at the end of each unit should be completed by the learners only
and the teacher intervention is permitted as per the complexity of the taskexercise
4 The teacher is expected to use supplementary material wherever necessary and also
generate activitiestasks as per the requirement
5 The teacher is permitted to use lecture method when a completely new concept is
introduced in the class
Recommended Topics
UNIT-I
1 An Astrologersrsquos Day - RK Narayan (Detailed)
2 Bade Bhai Saab - Munshi Premchand (Non-Detail)
UNIT-II
1 Building A New State - A P J Abdul Kalam (Detailed)
2 Morning Bells- Jayashree Mohan Raj (Non-Detail)
UNIT-III
1 WaterThe Elixer Of Life- C V Raman (Detailed)
2 The Power Of Plate Of Rice- Ifeoma Okoye (Non-Detail)
UNIT-IV
1 The Woodrose-Abburi Chaya Devi (Detailed)
2 The Cop And The Anthem- O Henry (Non-Detail)
UNIT-V
1 Progress- St John Ervine (Detailed)
2 Dial 000- Barry Rosenberg (Non-Detail)
Textbooks
Detailed Text Book lsquoUsing Englishrsquo by Orient Black Swan
Non Detailed Text Book lsquoLife language and Culture -Explorationsrsquo by Cengage
Reference Books
1 Objective English Pearson Publications
2 Effective English Communication Tata Mc Graw-Hill Publishing
3 Effective Technical English Scitech
Web Links
1 httpsittingbeecoman-astrologers-day-r-k-narayan
2 httpbbrenglishforallblogspotcom201401building-new-state-study-materialhtml
3 httpswwwliteraturewormscom201210water-elixir-of-life-by-sircvramanhtml
4 httpmaconholeswoodrose-abburi-chaya-devipdf
5 httpsardhendudeblogspotcom201307analysis-of-progress-by-st-john-ervinehtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 16
DIFFERENTIAL EQUATIONS AND LINEAR ALGEBRA (Common to all branches)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that
are essential for an engineering course
COB 2 To help the students form a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the concepts of Mean Value theorem Partial Differentiation and identify
the maxima and minima of a given function
CO 2 Solve the linear differential equations and model various situations involving
differential equations of first order
CO 3 Solve linear differential equations of higher order and model various situations
involving second order differential equations
CO 4 Calculate Rank of a matrix and solve the system of Linear equations and find the
Eigen values and Eigen vectors
CO 5 Compute various powers of a matrix and identify the nature of the quadratic form
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
UNIT I
Differential Calculus
Rollersquos theorem Lagrangersquos theorem Cauchy Mean Value theorem Taylorrsquos and Maclaurinrsquos
theorems (All theorems Without Proof)
Partial Differentiation Eulerrsquos theorem (without proof) Total derivative Chain rule Taylorrsquos
and Maclaurinrsquos series expansion of functions of two variables Jacobian Functional
dependence
Applications
Maxima and Minima of functions of several variables without constraints and with constraints
(Lagrangersquos method)
(SCILAB Exercise Plot graphs of various single and multivariable functions)
I Semester L T P C
Course Code 191BS1T01 3 0 0 3
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K3) 3 - -
CO 3 (K3) 3 - -
CO 4 (K3) - - -
CO 5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 17
UNIT II
Differential equations of first order
Introduction to differential equations linear differential equation of first order - Bernoulli
differential equation - Exact differential equations- Equations reducible to exact
Applications
Orthogonal trajectories Newtonrsquos Law of cooling RL circuit
UNIT III
Linear differential equations of second and higher order
Linear differential equations of higher order with constant coefficients Complementary function
and Particular integral with RHS term of the type polynomials in x eax sin ax
cos ax eax V(x) xV(x)- Method of Variation of parameters Equations reducible to constant
coefficients ndashCauchy-Euler equation Legendrersquos equation
Application LCR Circuit
(SCILAB Exercise Introduction to SCILAB commands and Solution of Initial Value
Problems)
UNIT IV
System of linear equations Eigen values and Eigen vectors
Definition of a Vector space Linear dependence and independence of vectors Rank of a matrix
Echelon form and Normal form solving system of Homogenous and Non homogenous linear
equations- Gauss Jordon elimination method Eigen values Eigen vectors Properties of eigen
values and eigen vectors (without proof )
Applications
Free vibrations of a two mass system
UNIT V
Quadratic forms
Cayley -Hamilton theorem (without proof ) Inverse and powers of a matrix by using Cayley -
Hamilton theorem Diagonalization of a matrix Quadratic forms Reduction of quadratic form to
canonical form using orthogonal transformation Nature of the quadratic form
(SCILAB Exercise Basic Operations on matrices computation of rank computation of eigen
values and eigen vectors)
Not to be examined
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley-India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson Publications
Reference Books
1 DGZill MICHAIL R CULTER Advanced Engineering Mathematics 3rd Edition Norosa
Publications 2009
2 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
3 Peter Orsquoneil Advanced Engineering Mathematics Cengage Learning
4 Glyn James Advanced modern engineering mathematics Pearson education
AR19 Mechanical Engineering
Aditya Engineering College (A) 18
Web Links
1 httpsnptelacincourses111106100
2 httpsnptelacincourses12210703714
3 httpsnptelacincourses111106051
4 httpmathworldwolframcom
5 httpswwwkhanacademyorg
6 httpsspoken-tutorialorgtutorial-
searchsearch_foss=Scilabampsearch_language=English
AR19 Mechanical Engineering
Aditya Engineering College (A) 19
ENGINEERING PHYSICS (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To identify different types of crystals analyze acoustic properties of for concert
halls NDT using ultrasonics
COB 2 To study different types of moduli and their relation applications of LASER light
in various Industries study different types of sensors
COB 3 To impart the knowledge of magnetic and dielectric materials and their
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basic concepts of crystal structure and X-ray diffraction Techniques
CO 2 Apply the knowledge of acoustics to improve acoustic quality of concert halls and
understand the concepts of flaw detection techniques using ultrasonics
CO 3 Apply the structure- property relationship exhibited by solid materials within the
elastic limit
CO 4 Explain the basic concepts of LASERs along with its Engineering applications and
familiarize with types of sensors for various engineering applications
CO 5 Explain about magnetic and dielectric properties of different materials
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K2) 2 - -
CO5 (K2) - - 2
UNIT-I
Crystal Structure Basis and lattice ndash Crystal Systems ndash Bravais Lattice - Symmetry
elements- Unit cell-packing fraction ndash coordination number- Miller indices ndash Separation
between successive (h k l) planes ndash Braggrsquos law-Braggrsquos x-ray spectrometer
Crystal Defects (qualitative description only) Point defects-Schottky Frenkel defects Line
defects-Edge screw dislocations
UNIT-II
Acoustics Introduction ndash Reverberation - Reverberation time - Sabinersquos formula (Derivation)ndash
I Semester L T P C
Course Code 191BS1T02 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 20
absorption coefficient and its determination- factors affecting acoustics of buildings and their
remedies
Ultrasonics Production of ultrasonics by Magnetostriction and piezoelectric methods ndash
Detection of ultrasonics - acoustic grating - Non-Destructive Testing- pulse echo system
through transmission and reflection modes - Applications
UNIT-III
Elasticity Stress strain Hookersquos law stress-strain curve generalized Hookersquos law with and
without thermal strains for isotropic materials different types of moduli and their relations
bending of beams ndash Bending moment of a beam ndash Depression of cantilever
UNIT-IV
Laser Introduction to wave optics amp Interferometer-CharacteristicsndashSpontaneous and
Stimulated emission of radiation ndash population inversion - Einsteinrsquos coefficients amp Relation
between them and their significance - Pumping Mechanisms - Ruby laser ndash Helium Neon laser
ndash CO2 laser-Applications
Sensors (qualitative description only) Different types of sensors and applications Strain and
Pressure sensors- Piezoelectric magnetostrictive sensors Temperature sensor - bimetallic
strip pyroelectric detectors
UNIT-V
Magnetism Introduction ndash Magnetic dipole moment ndash Magnetization-Magnetic susceptibility
and permeability ndash Origin of permanent magnetic moment ndash Bohr Magneton - Classification
of magnetic materials (Dia Para and Ferro) ndash Domain concept of Ferromagnetism - Hysteresis
ndash soft and hard magnetic materials ndash Applications of Ferromagnetic materials
Dielectrics Introduction - Dielectric polarization ndash Dielectric polarizability Susceptibility and
Dielectric constant-types of polarizations Electronic and Ionic (Quantitative) Orientational
polarizations (qualitative)-Lorentz internal field ndash Claussius_Mossoti equation- Frequency
dependence of polarization - Applications of dielectrics
Text Books
1 ldquoText book of Engineering Physicsrdquo by P G Kshirsagar amp M N Avadhanulu S Chand amp
Company Ltd
2 ldquoEngineering Physicsrdquo by R K Gaur and S L Gupta Dhanpat Rai Publications
3 ldquoSensor and Transducersrdquo by Ian R Sinclair Elsevier (Newnes) 3rd Eds
Reference Books
1 ldquoEngineering Physicsrdquo by M R Srinivasan New Age International Publishers
2 ldquoLectures on Physicsrdquo by Richard P Feynman Pearson Publishers New Millennium Eds
3 ldquoLasers and Non-linear Opticsrdquo by B B Laud New Age International Publishers (3rd
Eds)
Web Links
1 httpnptelacincourses12210703511
2 httpnptelacincourses115102023
3 httpsphetcoloradoeduensimulationscategoryphysics
4 httpphysicsgecgblogspotinpreading-materialshtml
5 httpssitesgooglecomsitephysicsbysureshsagantihome
AR19 Mechanical Engineering
Aditya Engineering College (A) 21
PROGRAMMING FOR PROBLEM SOLVING USING C (Common to all branches)
Course Objectives
COB 1 To impart adequate knowledge on the need of programming languages and problem
solving techniques and develop programming skills
COB 2 To enable effective usage of control structures and implement different operations on
arrays
COB 3 To demonstrate the use of strings and functions
COB 4 To impart the knowledge of pointers and understand the principles of dynamic
memory allocation
COB 5 To make the students understand the concepts of structures unions files and their
operations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the fundamental concepts of computers and basics of computer
programming
CO 2 Make use of control structures and arrays in solving complex problems
CO 3 Develop modular program aspects and strings fundamentals
CO 4 Demonstrate the ideas of pointers usage
CO 5 Solve real world problems using the concept of structures unions and File operations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K2) 2 1 - - 2 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 2
CO2 (K3) 3 2 3
CO3 (K3) 3 2 3
CO4 (K2) - - -
CO5 (K3) 3 2 3
UNIT-I
Computer History Hardware Software Programming Languages and Algorithms
Components and functions of a Computer System Concept of Hardware and Software
Programming Languages Low-level and High-level Languages Program Design Tools
Algorithm Flowchart Pseudo code
Introduction to C Programming Introduction Structure of a C Program Comments
Keywords Identifiers Data Types Variables Constants InputOutput Statements Operators
Type Conversion
I Semester L T P C
Course Code 191ES1T01 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 22
UNIT -II
Control Flow Relational Expressions amp Arrays Conditional Branching Statements if if-
else if-elsendashif switch Basic Loop Structures while do-while loops for loop nested loops
The Break and Continue Statements goto statement
Arrays Introduction Operations on Arrays One dimensional Array Two dimensional Array
Multi dimensional arrays
UNIT-III
Strings String Fundamentals String Processing with and without Library Functions
Functions Introduction Function Declaration Function Definition Function call Categories
of Functions passing parameters to Functions Arrays as Function Arguments Scope of
Variables Variable Storage Classes Recursion
UNIT-IV
Pointers Concept of a Pointer Declaring and Initializing Pointer Variables Pointer
Expressions and Address Arithmetic Null Pointers Generic Pointers Pointers as Function
arguments Pointers and Arrays Pointers and Strings Pointer to Pointer Dynamic Memory
Allocation Dangling Pointer Command line Arguments
UNIT-V
Structures Unions Bit Fields Introduction Nested Structures Arrays of Structures
Structures and Functions Self-Referential Structures Unions Enumerated Data Type ndashenum
variables Using Typedef keyword Bit Fields
Data Files Introduction to Files Using Files in C Reading from Text Files Writing to Text
Files Random File Access
Text Books
1 Computer Programming Reema Thareja Oxford University Press
2 Byron Gottfried Schaums Outline of Programming with C McGraw-Hill
3 Programming In C A-Practial Approach Ajay Mittal Pearson
Reference Books
1 C Programming ndash A Problem Solving Approach Forouzan Gilberg Cengage
2 The C Programming Language Dennis Richie And Brian Kernighan Pearson
Education
3 Programming In C Ashok Kamthane Second Edition Pearson Publication
Web Links
1 httpwwwc4learncom
2 httpwwwgeeksforgeeksorgc
3 httpnptelacincourses122104019
4 httpwwwlearn-corg
5 httpswwwtutorialspointcomcprogramming
AR19 Mechanical Engineering
Aditya Engineering College (A) 23
COMMUNICATIVE ENGLISH LAB ndashI (Common to all branches)
Course Objectives
COB 1 To facilitate computer-aided multi-media instruction enabling
Individualized and independent language learning
COB 2 To sensitize the students to the nuances of English speech sounds word
accent and intonation
COB 3 To bring about a consistent accent and intelligibility in their pronunciation
of English by providing an opportunity for practice in speaking
COB 4 To improve the fluency in spoken English and neutralize mother tongue
influence
COB 5 To train students to use language appropriately
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
A Greeting Introducing and taking leave
B Pure Vowel
PRACTICE 2
A Giving Information and Asking for Information B Diphthongs
I Semester L T P C
Course Code 191HS1L01 0 0 3 15
CO 1 Demonstrate nuances of language through audio-visual experience and
group activities
CO 2 Identify accent for intelligibility
CO 3 Demonstrate in conversation jams and public speaking
CO 4 Make use of the concepts to communicate confidently and competently in
English Language in all spheres
AR19 Mechanical Engineering
Aditya Engineering College (A) 24
PRACTICE 3
A Inviting Accepting and Declining Invitations
B Consonants
PRACTICE 4
A Commands Instructions and Requests
B Accent and Rhythm
PRACTICE 5
A Suggestions and Opinions
B Intonation
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra
JRaju and DrGSuvarna Lakshmi Maruthi Publications
2 English for Professionals by Prof Eliah BS Publications Hyderabad
3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata McGraw ndash Hill
Publishing Company
5 Word power made handy Dr Shalini verma S Chand Company
6 Let us hear them speak Jayashree Mohanraj Sage texts
AR19 Mechanical Engineering
Aditya Engineering College (A) 25
ENGINEERING PHYSICS LAB (Common to CE ME MinE PT AgE)
Course Objectives COB 1 To make the students gain practical knowledge to co- relate with the
theoretical studies
COB 2 To impart skills in measurements
COB 3 To plan the experimental procedure and to record and process the results
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the rigidity and youngrsquos modulus to understand material properties
CO 2 Determine Acceleration due to Gravity and Radius of Gyration and spring constant
by oscillatory mechanics
CO 3 Find the strength of the magnetic field
CO 4 Determine wave length of unknown source particle size using lasers
CO 5 Determination of velocity of sound moment of inertia
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - - -
CO3 (K2) - - -
CO4 (K3) - - -
CO 5 (K3) 3 - -
LIST OF EXPERIMENTS
(Any 10 of the following listed experiments)
1 Determination of Rigidity modulus of a material- Torsional Pendulum
2 Determination of Youngrsquos modulus by method of single cantilever oscillations
3 Determination of Acceleration due to Gravity and Radius of Gyration - Compound
Pendulum
4 Verification of laws of vibrations in stretched strings ndash Sonometer
5 Determination of spring constant of springs using coupled oscillators
6 Magnetic field along the axis of a current carrying coil ndash Stewart and Geersquos apparatus
7 Study the variation of B versus H by magnetizing the magnetic material (B-H curve)
I Semester L T P C
Course Code 191BS1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 26
8 Measurement of magnetic susceptibility by Gouyrsquos method
9 Determination of ultrasonic velocity in liquid (Acoustic Grating)
10 Determination of dielectric constant by charging and discharging method
11 Determination of wavelength of Laser by diffraction grating
12 Determination of particle size using Laser
13 Determeination of Pressure variation using strain Gauge sensor
14 Determination of Moment of Inertia of a Fly Wheel
15 Determination of Velocity of sound ndashVolume Resoantor
LIST OF AUGMENTED EXPERIMENTS
16 to 19 (Any two of the following experiments can be performed)
16 Determine the Youngs Modulus of the material of the bar subjected to uniform bending
17 Determine the Youngs Modulus of the material of the bar subjected to non-
uniform bending
18 V-I characteristics of P-N junction Diode
19 V-I characteristics and Breakdown voltage of Zener Diode
Reference Books
1 Engineering Physics Lab Manual by DrCVMadhusudhana Rao VVasanth Kumar
Scitech Publications
2 Laboratory Manual Cum Record for Engineering Physics I amp II by DrYAparna
DrKVenkateswara Rao VGS Technoseries
ENGINEERING PHYSICS - VIRTUAL LAB ndash ASSIGNMENTS
LIST OF EXPERIMENTS
1 Hall Effect
2 Crystal Structure
3 Brewsterrsquos angle
4 Numerical Aperture of Optical fiber
5 Photoelectric Effect
6 LASER ndash Beam Divergence and Spot size
7 Michelsonrsquos interferometer
8 Black body radiation
9 Flywheel ndash moment of inertia
10 AC Sonometer
11 Resistivity by four probe method
12 Newtonrsquos rings ndashRefractive index of liquid
Web Link
URL wwwvlabcoin
AR19 Mechanical Engineering
Aditya Engineering College (A) 27
PROGRAMMING FOR PROBLEM SOLVING USING C LAB (Common to all branches)
Course Objectives
COB 1 To impart knowledge on basic Linux commands various Editors Raptor
COB 2 To make the students understand the concepts of C programming
COB 3 To nurture the students on Control Structures and develop different operations on
arrays
COB 4 To enable the students to learn string fundamentals and modular programming
constructs
COB 5 To impart knowledge on dynamic memory allocation
COB 6 To explain the concepts of Structure Unions and files for solving various
problems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Develop the basic programs in C and draw the flowcharts using Raptor
CO 2 Make use of conditional and iterative statements to solve real time scenarios in C
CO 3 Apply the concept of arrays modularity and strings to handle complex problems
CO 4 Apply the dynamic memory allocation functions using pointers
CO 5 Develop programs using structures and Files
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - 3
CO2(K3) 3 2 1 1 3 - - - - - - 3
CO3(K3) 3 2 1 1 3 - - - - - - 3
CO4(K3) 2 1 - - 3 - - - - - - 3
CO5(K3) 3 2 1 1 3 - - - - - - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1(K2) 2 1 2
CO2(K3) 3 2 3
CO3(K3) 3 2 3
CO4(K3) - - -
CO5(K3) 3 2 3
1 Introduction to C Programming
11) Basic Linux Commands
12) Exposure to Turbo C Vi Emacs Code Blocks IDE Dev C++
13) Writing simple programs using printf() scanf()
2 Raptor
21) Installation and Introduction to Raptor
22) Draw a flow chart to find the Sum of 2 numbers
23) Draw a flow chart to find Simple interest
I Semester L T P C
Course Code 191ES1L01 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 28
For the following experiments develop flow charts using Raptor and implement C
programs to
3 Basic Math
31) Convert Celsius to Fahrenheit and vice versa
32) Find largest of three numbers using ternary operator
33) Calculate area of a Triangle using Herons formula
4 Control Flow- I
41) Find Whether the Given Year is a Leap Year or not
42) Find the roots of a Quadratic Equation
43) Make a simple Calculator to Add Subtract Multiply or Divide Using switchhellipcase
5 Control Flow- II
51) Find Whether the Given Number is Prime number or not
52) Find Whether the Given Number is Armstrong Number or not
53) Print Floyd Triangle
6 Control Flow- III
61) Find the sum of individual digits of a positive integer
62) Check whether given number is palindrome or not
63) Read two numbers x and n and then compute the sum of the geometric progression
1+x+x2 +x3 +helliphelliphelliphellip+xn
7 Arrays
71) Search an element in the given array (Linear Search)
72) Perform matrix addition
73) Perform matrix multiplication
8 Strings
81) Implementation of string manipulation operations with library function
a) copy
b) concatenate
c) length
d) compare
82) Implementation of string manipulation operations without library function
a) copy
b) concatenate
c) length
d) compare
83) Verify whether the given string is a palindrome or not
9 Functions Array amp Pointers
91) Demonstrate parameter passing in Functions
92) Find Fibonacci Factorial of a number with Recursion and without Recursion
93) Find the sum of given numbers with arrays and pointers
10 Pointers
101) Perform Addition Subtraction Multiplication and Division of two numbers using
Command line arguments
102) Find sum of n elements entered by user To perform this program allocate memory
dynamically using malloc () function
AR19 Mechanical Engineering
Aditya Engineering College (A) 29
103) Find sum of n elements entered by user To perform this program allocate memory
dynamically using calloc () function
11 Structures
111) Store Information of a book Using Structure
112) Add Two Complex Numbers by Passing Structure to a Function
12 Files
121) Open a file and to print the contents of the file on screen
122) Copy content of one file to another file
123) Merge two files and store content in another file
LIST OF AUGMENTED EXPERIMENTS
13 to 16 (Any 2 of the following experiments can be performed)
13 Atm Pin Generation
Aditya purchased a credit card He has to generate a PIN number to access the ATM and Net
banking for which OTP was sent to his registered mobile number Using this OTP number he
has to generate ATM PIN number After generating PIN number he can use it for further
transactions Maximum login he can make is 3 times
Sample Input
OTP 6732
If valid
Enter PIN 8858
Confirm your PIN 8858
Sample output
validInvalid
PIN generated successfully
Note OTP is hard coded
14 Reset Password
Aditya was using Syndicate Bankrsquos Online Account She wanted to pay her bills through
Online But she forgets her password Now she has to reset the password For resetting the
password she has to select reset option from the Menu
NOTE using switch case
Sample input
Fast withdrawal
Mini Statement
Balance Enquiry
Reset Password Enter your choice 4
Sample Output
Reset password New password Confirm password
15 Student Attendance Report Generation
Some of the school staff had failed to maintain the attendance of the students causing lack of
essential records related to students attendance that should be submitted in a parents meet The
school management has decided to automate the process in order to maintain the attendance of
every student effectively You are asked to write a program to the above scenario and display
whether the student is allowed to write the Exam or not
AR19 Mechanical Engineering
Aditya Engineering College (A) 30
Percentagelt65 Detained
gt=65 and lt75 should pay condonation to appear for
Exams
gt=75 Allowed for exams
Sample Input
Enter no of students 5
Enter Students Details
Rno1 NameKalyan Attendance() 67 Should pay
condonation to appear for exams
Rno2 Name Laxman Attendance() 56 Rno3 NameYamini Attendance() 79 Rno4 Name Aryan Attendance() 60 Rno5 Name Raghav Attendance() 88
Sample output Rno Name Attendance () Remarks
1 Kalyan 67 67 should pay condonation to
appear for Exams 2 Laxman 56 detained 3 Yamini 79 allowed for Exams 4 Aryan 60 detained 5 Raghav 88 allowed for Exams
16 Library Management
Shilpa is a student of PGEC got the Library Card She wants to lend the books from the Library
The college gave two cards to each and every student The students can lend only two books at
a time and it has to be returned back after 15 days If the books are not returned late fee will be
collected for no of days the books were returned after the due date Late fee per day is Rs50-
Sample output
Enter the name of student nalini
Enter the Roll No555
Enter the branch cse
Enter the section A
Enter the year 3
Enter the Date of Lend (dd mm yyyy ) 08 08 2017
Enter the Date of return (dd mm yyyy ) 09 10 2017
The no of days book used by the student = 62
Extra days used by the student = 47
Late return fine fee = 2350
Reference Books
1 Let Us C Yashwanth Kanetkar Eighth edition BPB Publications
2 Programming in C A-Practial Approach Ajay Mittal Pearson Education
3 The C programming Language Dennis Richie and Brian Kernighan Pearson
Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 31
Web Links
1 httpswwwhackerrankcom
2 httpswwwcodechefcom
3 httpswwwtopcodercom
4 httpscode-crackergithubio
5 httpsraptormartincarlislecom
6 httpsnptelacincourses1061050852
AR19 Mechanical Engineering
Aditya Engineering College (A) 32
BASIC ENGINEERING WORKSHOP (Common to all branches)
I Semester L T P C
Course Code 191ES1L02 0 0 3 15
Course Objectives
COB 1 To make the students practice basic engineering trades and skills
COB 2 To nurture the students build various joints used in different trades for several
applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct the various wooden joints
CO 2 Develop various fitting joints
CO 3 Develop components for making the various sheet metal models
CO 4 Experiment with the various house wiring connections
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 - 3 - - - - - - -
CO2 (K3) 3 2 1 - 3 - - - - - - -
CO3 (K3) 3 2 1 - 3 - - - - - - -
CO4 (K3) 3 2 1 - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) - - -
List of Experiments
Carpentry
1 Cross Lap Joint
2 Dovetail Joint
3 T - Joint
Fitting
4 Vee Fit
5 Square Fit
House Wiring
6 Parallel Connection of three bulbs
7 Series Connection of three bulbs
Tin Smithy
8 Taper Tray
9 Funnel
10 Plain Pipe
AR19 Mechanical Engineering
Aditya Engineering College (A) 33
List of Augmented Experiments
(Student can perform any one of the following experiments)
1 Stair Case wiring
2 Florescent Lamp Fitting
Reference Books
1 Engineering Workshop by Dr A B Srinivasa Rao AMIGO Books
2 Manual on Workshop practice by Dr PKannaiah amp Dr KLNarayana Scitech
publications
Web Links
1 httptiteacinindexphpdepartmentsmechanical-engineeringworkshop
2 httpswwwgopracticalscombasic-engineeringworkshop
AR19 Mechanical Engineering
Aditya Engineering College (A) 34
ENVIRONMENTAL SCIENCE (Common to all branches)
I Semester L T P C
Course Code 191MC1A01 2 0 0 0
Course Objectives
COB 1 To define the various ecosystems and its diversity
COB 2 To summarize the overall natural resources
COB 3 To classify environmental impacts of developmental activities
COB 4 To discuss social issues environmental legislation and global t treaties
COB 5 To educate human population and environment
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the need for protecting the producers and consumers in various ecosystems
and their role in the food web
CO 2 Outline the natural resources and their importance for the sustenance of the life
CO 3 List out the biodiversity of India threats and its conservation methods
CO 4 Illustrate various attributes of the pollution impacts and measures to control the
pollution along with waste management practices
CO 5 Describe social issues both rural and urban environment to combat the
challenges
CO 6 Summarize the legislations of India in environmental protection
CO 7 Explains the population growth and its implications
CO 8 Transforms existing campus into self sustaining green campus with environment
Friendly aspects of ndash Energy Water and waste water reuse plantation rain water
Harvesting and Parking Curriculum
Mapping of Course Outcomes with Program Outcomes
COPO PO 1 (K3)
PO 2 (K4)
PO 3 (K5)
PO 4 (K5)
PO 5 (K3)
PO 6 (K3)
PO 7 (K2)
PO 8 (K3)
PO 9 (K2)
PO 10 (K2)
PO11 (K3)
PO12 (K1)
CO1 (K1) 1 - - - - 1 2 1 - - - -
CO2 (K2) 1 - - - - 1 2 1 - - - -
CO3 (K1) 1 - - - - 1 2 1 - - - -
CO4 (K2) 1 - - 1 - 1 2 1 - - - -
CO5 (K2) 1 - - - - 1 2 1 - 3 - -
CO6 (K2) 1 - - - - 1 2 1 - - - -
CO7 (K4) 1 - - - - 1 2 1 - - - -
CO8 (K2) 2 1 2 1 - 2 3 2 3 3 2 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K1) - - -
CO2 (K2) - - 2
CO3 (K1) - - -
CO4 (K2) 2 - -
CO5 (K2) - - -
CO6 (K2) - - -
CO7 (K4) - - -
CO8 (K2) 2 1 2
AR19 Mechanical Engineering
Aditya Engineering College (A) 35
UNIT- I
Multidisciplinary Nature Of Environmental Studies
Definition Scope and Importance Need for Public Awareness
Natural Resources Renewable and non-renewable resources ndash Natural resources and
associated problems
UNIT - II
Ecosystem Biodiversity And Its Conservation
Ecosystems Concept of an ecosystem ndash Structure and function of an ecosystem ndash Producers
consumers and decomposers Food chains food webs and ecological pyramids
Biodiversity And Its Conservation Definition genetic species and ecosystem diversity ndash Bio-
geographical classification of India ndash Values of biodiversity Hot-spots of biodiversity ndash
Threats to biodiversity Conservation of biodiversity In-situ and Ex-situ conservation of
biodiversity
UNIT - III
Environmental Pollution And Solid Waste Management
Environmental Pollution Definition Cause effects and control
measures of
a Air Pollution
b Water pollution
c Soil pollution
d Marine pollution
e Noise pollution
Solid Waste Management Causes effects and control measures of urban and industrial
wastes ndash Role of an individual in prevention of pollution
UNIT - IV
Social Issues And The Environment
Social Issues and the Environment From Unsustainable to Sustainable development ndash
Urban problems related to Energy ampWater Resettlement and rehabilitation of people
Environmental ethics Climate change global warming acid rain ozone layer depletion
nuclear accidents and holocaust Environment Protection Act ndash Air (Prevention and Control
of Pollution) Act ndash Water (Prevention and control of Pollution) Act-Wildlife Protection Act
ndash Forest Conservation Act ndash Issues involved in enforcement of environmental legislation ndash
Public awareness
UNIT - V
Human Population And The Environment
Human population and the environment Population growth variation among nations
Environment and human health Human Rights Value Education Role of Information
Technology in Environment and human health
AR19 Mechanical Engineering
Aditya Engineering College (A) 36
Text Books
1 Text book of Environmental Studies for Undergraduate Courses by Erach Bharucha
for University Grants Commission Universities Press
2 Environmental Studies by Palaniswamy ndash Pearson education
3 Environmental Studies by DrSAzeem Unnisa Academic Publishing Company
Reference Books
1 Textbook of Environmental Science by Deeksha Dave and ESai Baba Reddy Cengage
Publications
2 Text book of Environmental Sciences and Technology by MAnji Reddy BS
Publication
3 Comprehensive Environmental studies by JPSharma Laxmi publications
4 Environmental sciences and engineering ndash J Glynn Henry and Gary W Heinke ndash
Prentice hall of India Private limited
5 A Text Book of Environmental Studies by GRChatwal Himalaya Publishing House
6 Introduction to Environmental engineering and science by Gilbert M Masters and
Wendell P Ela - Prentice hall of India Private limited
Web Links
1 httpswwwyoutubecomwatchv=mOwyPENHhbc
2 httpswwwyoutubecomwatchv=_mgvsPnCYj4
3 httpswwwyoutubecomwatchv=L5B-JMnBIyQ
4 httpswwwyoutubecomwatchv=3RDGV5i82_Q
AR19 Mechanical Engineering
Aditya Engineering College (A) 37
CONSTITUTION OF INDIA (Common to all branches)
I Semester L T P C
Course Code 191MC1A02 2 0 0 0
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain historical background of the constitution making and its importance for
building a democratic India
CO 2 Compare the functioning of three wings of the government ie executive
legislative and judiciary
CO 3 Interpret the value of the fundamental rights and duties for becoming good citizen
of India
CO 4 Compare the decentralization of power between central state and local self-
government
CO 5 Extend the knowledge in strengthening of the constitutional institutions like CAG
Election Commission and UPSC for sustaining democracy
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 2 - - -
CO2 (K2) - - - - - - - - 3 - - -
CO3 (K2) - - - - - - - - 3 - - -
CO4 (K2) - - - - - - - - 3 - - -
CO5 (K3) - - - - - - - - 2 - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - - -
CO2 (K2) - - -
CO3 (K2) - - -
CO4 (K2) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Indian Constitution Constitutionrsquo meaning of the term Indian Constitution -
Sources and constitutional history Features - Citizenship Preamble Fundamental Rights and
Duties Directive Principles of State Policy
COB 1 To enable the student to interpret the importance of constitution
COB 2 To facilitate the students to illustrate the structure of executive legislature and
judiciary
COB 3 To allow the students to classify philosophy of fundamental rights and duties
COB 4 To facilitate the students to outline the autonomous nature of constitutional bodies
like Supreme Court High Court Comptroller and Auditor General of India and
Election Commission of India
COB 5 To enable the student to interpret the central and state relations of finance and
administration
AR19 Mechanical Engineering
Aditya Engineering College (A) 38
UNIT-II
Union Government and its Administration Structure of the Indian Union Federalism Centre-
State relationship President Role power and position PM and Council of ministers Cabinet
and Central Secretariat Lok Sabha Rajya Sabha The Supreme Court and High Court Powers
and Functions
UNIT-III
State Government and its Administration Governor - Role and Position - CM and Council of
ministers State Secretariat Organisation Structure and Functions
UNIT-IV
A Local Administration - Districtrsquos Administration Head - Role and Importance
Municipalities - Mayor and role of Elected Representative - CEO of Municipal Corporation
PachayatiRaj Functions PRI Zila Panchayat Elected officials and their roles CEO Zila
Panchayat Block level Organizational Hierarchy - (Different departments) Village level -
Role of Elected and Appointed officials - Importance of grass root democracy
UNIT-V
Election Commission Election Commission- Role of Chief Election Commissioner and
Election Commissionerate State Election Commission Functions of Commissions for the
welfare of SCSTOBC and women
Text Books
1 Durga Das Basu Introduction to the Constitution of India Prentice ndash Hall of India Pvt
Ltd New Delhi
2 Subash Kashyap Indian Constitution National Book Trust
Reference Books
1 JA Siwach Dynamics of Indian Government amp Politics
2 DC Gupta Indian Government and Politics
3 HMSreevai Constitutional Law of India 4th edition in 3 volumes (Universal Law
Publication)
4 JC Johari Indian Government and Politics Hans
Web Links
1 nptelacincourses1091040748
2 nptelacincourses109104045
3 nptelacincourses101104065
4 wwwhssiitbacinenlecture-details
5 wwwiitbacinenevent2nd-lecture-institute-lecture-series-indian-constitution
AR19 Mechanical Engineering
Aditya Engineering College (A) 39
PARTIAL DIFFERENTIAL EQUATIONS AND VECTOR CALCULUS (Common to CE EEE ME MinE PT AgE)
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques that are
essential for an engineering course
COB 2 To help the students acquire a necessary base to develop analytical and design skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Solve improper integrals using beta and gamma functions
CO 2 Solve partial differential equations of first order
CO 3 Compute the double integral over a region and triple integral over a volume
CO 4 Calculate the gradient of a scalar function divergence and curl of a vector function
CO 5 Apply line surface and volume integrals
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of Course outcomes with program specific outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 3 - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT - I
Special Functions
Beta and Gamma functions Properties Relation between Beta and Gamma functions
Evaluation of improper integrals
UNIT II
Partial Differential Equations
Formation of partial differential equations by elimination of arbitrary constants and arbitrary
functions Solutions of first order linear partial differential equations nonlinear partial
differential equations (standard types) Homogeneous linear partial differential equations with
constant coefficients
UNIT III
Multiple Integrals
Double integrals Change of order of integration Change of variables Double integral in polar
coordinates Triple integrals Finding Area and Volume as a double integral
II Semester L T P C
Course Code 191BS2T05 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 40
UNIT IV
Vector Differentiation
Introduction Gradient of a scalar field Directional Derivative Divergence of a vector field
Curl of a vector field Solenoidal and irrotational fields Conservative force field Scalar
potential Laplace operator Vector identities
UNIT V
Vector Integration
Introduction Line integral Work done Surface and volume integrals Greenrsquos theorem Stokes theorem and Gauss Divergence theorem (All theorems without proof) and related problems
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyenkar Alpha Science
Publications
2 Erwin Kreyszig Advanced Engineering Mathematics 10th Edition Wiley- India
3 BSGrewal Higher Engineering Mathematics 43rd Edition Khanna Publishers
4 PSivaramakrishna Das CVijayakumari Engineering Mathematics Pearson
Publications
Reference Books
1 Dean G Duffy Advanced engineering mathematics with MATLAB CRC Press
2 Dass HK Rajnish Verma Er Higher Engineering Mathematics S Chand Co Pvt
Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited 2006
Web Links
4 httpsnptelacincourses11110710825
5 httpsnptelacincourses111103021
6 httpsnptelacincourses111105122
7 httpmathworldwolframcom
8 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 41
CHEMISTRY OF MATERIALS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191BS2T06 3 0 0 3
Course Objectives
COB 1 To acquaint the students with soft and hard water types and softening methods
COB 2 To impart the knowledge on the basic concepts of electrochemical cells and battery
technology
COB 3 To impart knowledge about engineering materials their properties and
applications
COB 4 To impart knowledge on corrosion and its significance
COB 5 To explain Nano and smart materials and their uses
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare the quality of drinking water and problems associated with hard water
CO 2 Outline the difference between primary and secondary cells
CO 3 Explain about polymers and engineering materials
CO 4 Explain corrosion and their control methods
CO 5 Summarize the importance of Nano materials Semi conductors and Super
conductors
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - - - - -
CO2 (K2) 2 - - - - - - - - - - -
CO3 (K2) 2 - - - - - - - - - - -
CO4 (K2) 2 - - - - - - - - - - -
CO5 (K2) 2 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 1 -
CO2 (K2) 2 - -
CO3 (K2) 2 - -
CO4 (K2) - - -
CO5 (K2) - 1 -
UNIT- I
Water Technology
Introduction ndash Soft Water and hardness of water types of hardness of water degree of hardness
of water Units of hardness of water problems on hardness Boiler troubles - scale and sludge
Boier corrosion Industrial water treatment- zeolite and ion-exchange processes
Specifications for drinking water Bureau of Indian Standards (BIS) and World health
organization (WHO) standards - desalination of brackish water reverse osmosis (RO) and
electrodialysis
AR19 Mechanical Engineering
Aditya Engineering College (A) 42
UNIT - II
Electrochemical Energy Systems
Introduction- Electrochemical Cell (Galvanic cell) Electrochemical series Applications
single electrode potential Hydrogen and Calomel electrode Nernst Equation for a single
electrode Concentration Cells (Electrode amp Electrolyte) Construction of glass electrode
Batteries ndash Classical batteries-dryLeclanche cell Modern batteries-zinc air lithium cells-Li
MnO2 cell- challenges of battery technology Fuel cells- Introduction - classification of fuel
cells ndash hydrogen and oxygen fuel cell propane and oxygen fuel cell- Merits of fuel cell
UNIT - III
Polymers and Building Materials
Introduction to polymers functionality of monomers chain growth and step growth
polymerization coordination polymerization copolymerization (stereospecific
polymerization) with specific examples and mechanisms of polymer formation (Free radical
mechanism for addition ploymerization)
Plastics - Thermoplastics and Thermo settings Preparation properties and applications of ndash
PVC Bakelite
Steel ndash Types of Steel chemical composition ndash applications of alloy steels
Cement Portland cement constituents Manufacture of Portland Cement chemistry of setting
and hardening of cement
UNIT - IV
Corrosion Engineering
Corrosion Definition ndash theories of corrosion dry corrosion and electro chemical corrosion ndash
factors affecting corrosion nature of the metal and nature of the environment
Corrosion controlling methods Sacrificial and Impressed current cathodic protection
Metallic coatings anodic coatings cathodic coating galvanizing and tinning metal cladding
Electroplating ndashorganic coatings paints (constituents and their functions)
UNIT - V
Material Science and Engineering
Nano Materials Introduction to Nano materials chemical synthesis of nanomaterials Sol-
gel method characterization of nanomateirals by TEM (includes basic principle of TEM)
Applications of nanomaterials in waste water treatment lubricants and engines
Nano Tubes Carbon nano tubes- Types of CNTrsquos-preparation methodsndashArc vapourisation
Laser abiliation and chemical vapour deposition ndashproperties and applications
Band Theory of Solids Introduction ndashExplanation of conductors semi conductors Insulators
by Band Theory- Super conductors-Types-Preparation-Properties and Applications
Appendix Introduction to Smart Materials
Text Books
1 PC Jain and M Jain Engineering Chemistry 16e Dhanapat Rai amp Sons (2014)
2 BK Sharma Engineering Chemistry Krishna Prakasham (2014)
3 Engineering Chemistry by Shikha Agarwal Cambridge University Press 2015
edition
Reference Books
1 Sashi Chawla A Textbook of Engineering Chemistry Dhanapath Rai and sons (2003)
2 BS Murthy and P Shankar A Text Book of Nano Science and Nano Technology
University Press (2013)
AR19 Mechanical Engineering
Aditya Engineering College (A) 43
3 SS Dara A Textbook of Engineering Chemistry SChand amp Co (2010)
Web Links 1 httpwwwnptelvideosin201211chemistry-of-materials
2 httpwwwnptelvideoscomlecturephpid=2946
3 httpwwwnptelvideoscomlecturephpid=2922
4 httpwwwnptelvideoscomlecturephpid=2954
AR19 Mechanical Engineering
Aditya Engineering College (A) 44
ENGINEERING GRAPHICS AND DESIGN (Common to CE ME ECE CSE IT MinE PT amp AgE)
II Semester L T P C
Course Code 191ES2T02 1 0 3 25
Course Objectives
COB 1 To teach the practices for accuracy and clarity in presenting the technical
information used in industry
COB 2 To train the students with graphical skills in design of mechanical engineering
components
COB 3 To impart the knowledge of drawing machine components using AutoCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Make use of fundamentals of Engineering Drawing to sketch basic curves conic
sections cycloid epicycloid hypocycloid and involute
CO 2 Apply the principles of orthographic projections for points lines and planes
CO 3 Apply the principles of orthographic projections for solids
CO 4 Apply the AutoCAD software for the orthographic projection of the machine parts
CO 5 Apply the AutoCAD software for the isometric projection of the machine parts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K3) 3 - - - - - - - - 3 - -
CO2(K3) 3 - - - - - - - - 3 - -
CO3(K3) 3 - - - - - - - - 3 - -
CO4(K3) 3 - - - 3 - - - - 3 - 3
CO5(K3) 3 - - - 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 3 - 3
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CONVENTIONAL DRAFTING
Unit-I
Introduction to Engineering graphics Principles of Engineering Graphics and their
significance- conventions in drawing- lettering ndash BIS Conventions- - Conic sections -Cycloid
epicycloids and hypocycloid-Involutes
UNIT-II
Projection of points lines and planes Projection of points in any quadrant lines inclined to
one or both planes finding true lengths angle made by line Projections of regular plane
surfaces
UNIT-III
Projections of solids Projections of regular solids inclined to one or both planes by rotational
AR19 Mechanical Engineering
Aditya Engineering College (A) 45
or auxiliary views method COMPUTER AIDED DRAFTING
UNIT-IV
Introduction to Computer Aided Drafting Basic drawing and editing commands-
Dimensioning principles and conventional representations Systems of projections
Conventions and application to orthographic projections
UNIT-V
Isometric Projections Principles of isometric projection- Isometric scale Isometric views
lines planes figures simple and compound solids
Text Books
1 NDBhatt Engineering Drawing 53rd Edition Charotar Publishers 2016
2 KLNarayana amp PKannaiah Engineering Drawing 3rd Edition Scitech Publishers
Chennai 2012
Reference Books
1 Dhanajay A Jolhe Engineering Drawing Tata McGraw-Hill Copy Right 2009
2 Shah and Rana Engineering Drawing 2e Pearson Education 2009
3 Venugopal Engineering Drawing and Graphics 3e New Age Publishers 2000
4 KCJohn Engineering Graphics 2e PHI 2013
5 Basant Agarwal amp CMAgarwal Engineering Drawing Tata McGraw-Hill Copy
Right 2008
Note
1 Manual and Computer Aided Drafting classes can be held in alternative weeks for
optimal utilization of computer facilities
2 External examinations to be conducted both manual and computer mode with equal
weightage of marks
Web Links
1 httpswwwwiziqcomtutorialsengineering-drawing
2 wwwmeumneducourses
3 Youtube http-seworCarletoncagkardos88403drawingshtml conic sections-online
red woodsedu
AR19 Mechanical Engineering
Aditya Engineering College (A) 46
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING (Common to CE ME CSE IT MinE PT AgE)
Course Objectives
COB 1 To impart the principles of basic lawrsquos for electrical networks
COB 2 To explain the concepts of electrical machines and their characteristics
COB 3 To expose the principle of operation construction details and testing methods of
transformer
COB 4 To impart the adequate knowledge about the operation of AC rotating machines
COB 5 To describe the characteristics of diodes transistors and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Construct simple electrical circuits using basic laws
CO 2 Explain the constructional features of DC Machines and working
CO 3 Examine the performance of single phase transformer
CO 4 Illustrate the principle of AC rotating machines
CO 5 Analyze the device structure operation and application of diode and BJT
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - - - -
CO2 (K2) 3 3 2 - - - - - - - - -
CO3 (K4) 2 1 - - - - - - - - - -
CO4 (K3) 2 1 - - - - - - - - - -
CO 5 (K4) 3 - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K2) 2 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO 5 (K4) - - -
UNIT- I
Basic laws and Theorems Electrical circuit elements (R-L and C) ac and dc independent
sources and their V-I relationship Ohms law Kirchoffs Laws mesh analysis series and
parallel circuits delta-star and delta-star conversion Network Theorems (with DC Excitation)
superposition theorem Thevenins and Nortons theorem maximum power transfer theorem
with simple examples
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- II
DC Machines Constructional features Principle of operation of DC generator EMF equation
types of dc generators OCC characteristics of dc shunt generator Principle of operation of dc
II Semester L T P C
Course Code 191ES2T03 3 0 0 3
AR19 Mechanical Engineering
Aditya Engineering College (A) 47
motor torque expressions 3-point starter losses and efficiency Swinburnersquos test efficiency
by direct loading Speed control methods of dc motor
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- III
Transformers Principle of operation and construction of single phase transformer EMF
equation voltage regulation losses and efficiency openshort- circuit tests and determination
of efficiency
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- IV
AC Rotating Machines Principle of operation of alternators Types of alternators Principle
of operation of synchronous motor Principle of operation of 3-Phase induction motor Slip-
torque characteristics Efficiency calculations from direct loading
Learning Outcomes
Upon successful completion of the UNIT- the student will be able to
UNIT- V
Semiconductor Devices p-n Junction diode principle V-I characteristics rectifier circuits
(half-wave full-wave Descriptive treatment only) Zener diode as Voltage Regulator
Construction and working P-N-P and N-P-N Junction transistor Transistor as an CE amplifier
Text Books
1 Electrical Technology by Surinder Pal Bali Pearson Publications Vol I and Vol II
2 Electronic Devices and Circuits R L Boylestad and Louis Nashelsky 9th edition
PEIPHI 2006
Reference Books
1 Basic Electrical Engineering by M S Naidu and S Kamakshiah TMH Publications
2 DP Kothari IJ Nagrath Basic Electrical and Electronics Engineering 1st edition
McGraw Hill Education (India) Private Limited 2017
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 RK Rajput Basic Electrical and Electronics Engineering University Science Press
New Delhi 2012
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 wwwfalstadcomcircuits
AR19 Mechanical Engineering
Aditya Engineering College (A) 48
ENGINEERING MECHANICS (Common to CE ME MinE PT AgE)
II Semester L T P C
Course Code 191ES2T04 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the concept of forces and their resolution in different planes
resultant of force system forces acting on a body their free body diagrams using
graphical methods and to know the concept of friction
COB 2 To make the students calculate the centre of gravity and moment of inertia of solids
and surfaces
COB 3 To educate the students about kinematics kinetics work - energy and impulse -
momentum principles
Course Outcomes
At the end of the Course Students will be able to
CO 1 Determine the resultant force and moment for a given force system
CO 2 Solve the member forces in trusses
CO 3 Apply concept of Virtual work to find the work done by force and couple
CO 4 Solve the centre of gravity and moment of inertia for various geometric shapes
CO 5 Determine the displacement velocity and acceleration relations in dynamic systems
CO 6 Apply the concepts of kinematics kinetics work - energy and impulse - momentum
methods to particle motion
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 3 - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 2 1 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K5) 3 3 3 - - - - - - - - -
CO6 (K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K5) 3 - -
CO2 (K3) 3 - -
CO3 (K3) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 3 -
CO6 (K3) 3 - -
UNIT I
Introduction to Engineering Mechanics Composition and resolution of forces
parallelogram law principle of transmissibility types of force systems - concurrent and
concurrent coplanar forces resultant of coplanar force systems couple moment of a force
Varignons theorem concept of free body diagrams concept of equilibrium of coplanar force
systems
AR19 Mechanical Engineering
Aditya Engineering College (A) 49
UNIT II
Analysis of Structures Introduction to plane trusses analysis of plane trusses by method of
joints and method of sections
Virtual Work Equilibrium of ideal systems work done by a force work done by a couple
principle of virtual work
UNIT III
Properties of Surfaces and Volumes Centroid and center of gravity derivation of centroids
from first moment of area centroids of composite sections center of gravity of common
volumes - cylinder cone sphere theorem of Pappus
Moment of Inertia Area moment of inertia of plane and composite shapes parallel axis
theorem perpendicular axis theorem polar moment of inertia mass moment of inertia of
common volumes -thin plates thin rod cylinder cone sphere rectangular prism radius of
gyration
UNIT IV
Kinematics Fundamentals of kinematics of motion- Rotation of a rigid body about a fixed
axis introduction to plane motion
Kinetics Principles of dynamics - Newtons Laws of motion DAlemberts principle in
rectilinear translation Concepts of Friction
UNIT V
Applications Principle of work and energy- Principle of conservation of energy Concept of
power Conservation of linear and angular momentum Principle of momentum and impulse
Types of impact
Text Books
1 Engineering Mechanics- Statics and Dynamics- ANelson Mc Graw Hill publishers
2 STimoshenko DH Young JV Rao Sukumar Pati Engineering Mechanics (in SI
units) 5e McGraw Hill 2013
3 N H Dubey Engineering Mechanics Statics and Dynamics McGraw Hill 2014
Reference Books
1 Basudeb Bhattacharya Engineering Mechanics 2e Oxford University Press (India)
2015
2 Irving Shames G K M Rao Engineering Mechanics Statics and Dynam-ics 4e
Pearson 2009
3 K L Kumar Veenu Kumar Engineering Mechanics 4e Tata McGraw Hill 2010
4 S S Bhavikatti Engineering Mechanics 4e New Age International 2008
Web Links
1 httpswwwiitgacinrkbcme101PresentationL01-03pdf
2 httpswwwhzgdeimperiamdcontenthzginstitut_fuer_werkstoffforschungwmsen
g_mech_2006pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 50
COMMUNICATIVE ENGLISH LAB ndashII (Common to all branches)
II Semester L T P C
Course Code 191HS2L02 0 0 2 1
Course Objectives
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate interpersonal skills using language confidently and effectively for
personal and profession growth
CO 2 Make use of effective delivery strategies to select compile and synthesize
information for an oral presentation
CO 3 Demonstrate in mock interviews mock group discussion and public speaking
CO 4 Identify communicative competency to respond to others in different
situations
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - - - - - - - - - 3 - -
CO2 (K3) - - - - - - - - - 2 - -
CO3 (K2) - - - - - - - - - 3 - -
CO4 (K3) - - - - - - - - - 2 - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - - -
CO2 (K3) - - -
CO3 (K2) 2 1 -
CO4 (K3) - - -
PRACTICE 1
Body Language
PRACTICE 2
Dialogues
PRACTICE 3
Presentation Skills
COB 1 To facilitate computer-aided multi-media instruction enabling individualized
and independent language learning
COB 2 To improve the fluency in spoken English and neutralize mother tongue
Influence
COB 3 To train students to use language appropriately
AR19 Mechanical Engineering
Aditya Engineering College (A) 51
PRACTICE 4
Group Discussion
PRACTICE 5
Interviews and Telephonic Interviews
PRACTICE 6
Debates
Reference Books
1 Strengthen your Communication Skills by DrMHari Prasad DrSalivendra JRaju
and DrGSuvarna Lakshmi Maruthi Publications 2 English for Professionals by Prof Eliah BS Publications Hyderabad 3 A Handbook of English for Professionals by Prof Eliah BS Publications
4 Effective Technical Communication by M Ashraf Rizvi Tata Mcraw ndash Hill
Publishing Company 5 Cornerstone Developing soft skills Pearson Education
AR19 Mechanical Engineering
Aditya Engineering College (A) 52
ENGINEERING CHEMISTRY LAB (Common to CE ME ECE CSE MinE PT AgE)
II Semester L T P C
Course Code 191BS2L04 0 0 3 15
Course Objectives
COB 1 To acquaint the students with the basic concepts of Engineering Chemistry lab
COB 2 To demonstrate the digital instrument methods of analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the hardness of water
CO 2 Calculate the strength of acids amp bases by instrumental analysis
CO 3 Prepare advanced polymer materials
CO 4 Prepare alternative fuel like Bio-Diesel
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - 3 - - - - - - -
CO2 (K3) 3 - - - 3 - - - - - - -
CO3 (K3) 3 - - - 3 - - - - - - -
CO4 (K3) 3 - - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) - 2 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - - -
Introduction to Chemistry laboratory ndash Molarity Normality Primary secondary
standard solutions Volumetric titrations Quantitative analysis Qualitative analysis etc
Exercise 1 Determination of Total Hardness of a water sample
Exercise 2
Determination of Dissolved Oxygen in Water Sample
Exercise 3
Determination of Zinc by Complexometric method
Exercise 4
PH metric titration of (i) strong acid vs strong base
Exercise 5
Determination of Fe (II) in Mohrrsquos salt by potentiometric method
Exercise 6 Potentiometry ndash Titration between strong acid ndash strong base
Exercise 7
AR19 Mechanical Engineering
Aditya Engineering College (A) 53
Conductometric titrations(Strong acid vs Strong base)
Exercise 8
Preparation of Phenol- Formaldehyde resin
Exercise 9
Preparation of Urea-Formaldehyde resin
Exercise 10
Preparation of bio diesel
Exercise 11
Determination of Vitamin ndash C
LIST OF AUGMENTED EXPERIMENTS
12 to 15 (Any two of the following experiments can be performed)
Exercise 12
Determination of percentage Moisture content in a coal sample
Exercise 13
Determination of acid value and saponification value of a given lubricant
Exercise 14
Determination of viscosity of a liquid
Exercise 15 Estimation of Calcium in port land Cement
Reference Books
1 A Textbook of Quantitative Analysis Arthur J Vogel
2 DrJyotsna Cherukuris (2012) Laboratory Manual of engineering chemistry - II
VGS Techno Series
3 Chemistry Practical Manual Lorven Publications K Mukkanti (2009) Practical
Engineering Chemistry BSPublication
AR19 Mechanical Engineering
Aditya Engineering College (A) 54
ESSENTIAL ELECTRICAL AND ELECTRONICS ENGINEERING
LAB (Common to CE ME MinE PT AgE)
Course Objectives
COB 1 To enable the students learn various network reduction techniques
COB 2 To impart the knowledge of efficiency of machines with direct and indirect
loading
COB 3 To make the students understand the performance of single phase transformer
COB 4 To enable the students learn the characteristics of diode and its applications
COB 5 To make the students learn the simulation of diode and transistor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the electrical networks using network theorems
CO 2 Analyze the performance of AC and DC Machines
CO 3 Estimate the performance of 1-phase transformer
CO 4 Explain diode characteristics and its applications
CO 5 Explain the simulation of diode and transistor
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 - - - - - - - -
CO2 (K4) 3 3 2 - - - - - - - - -
CO3 (K3) 3 2 1 1 - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K4) 3 - -
CO3 (K3) 3 - -
CO4 (K2) - - -
CO5 (K2) - - -
All the 10 experiments need to perform from
1 Verification of Kirchhoffrsquos Laws KVL and KCL
2 Verification of Superposition Theorem
3 Verification of Thevenins Theorem and Nortons Theorem
4 Speed control of DC shunt motor
5 OCC characteristics of DC shunt generators
6 Swinburnes test on a DC shunts machine
7 Brake Test on DC shunt motor
8 OC and SC Tests on single phase transformer
9 Current Voltage Characteristics of a p-n Junction Diode
10 Characteristics of single phase full wave bridge rectifier
II Semester L T P C
Course Code 191ES2L03 0 0 3 15
AR19 Mechanical Engineering
Aditya Engineering College (A) 55
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 Voltage Regulation with Zener Diodes
12 Brake test on three phase induction motor
13 Regulation of Alternator by synchronous impedance method
14 Simulation of Diode and Transistor Circuit Analysis using PSPICE
Reference Books
1 Electrical Technology M S Naidu and S Kamakshiah TMH Publications 2006
2 Fundamentals of Electrical Engineering Rajendra Prasad PHI Publications 2nd
Edition
3 Basic Electrical Engineering by Sukhija and Nagsarkar Oxford Publications 2nd
edition
4 Electrical Circuit Theory and Technology by John Bird Routledge Taylor amp
Francis Group
Web Links
1 httpwwwnptelvideosin201211electrical-machines-ihtml
2 httpnptelacincourses117106101
3 httpnptelacincourses122106025
AR19 Mechanical Engineering
Aditya Engineering College (A) 56
MECHANICAL ENGINEERING WORKSHOP II Semester L T P C
Course Code 191ES2L07 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To develop the knowledge for plastics processing techniques
COB 4 To impart the concept of assembling and disassembling of machine parts
COB 5 To provide basic knowledge about machine tools and power tools
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate pattern making process mould making process by using greens
and and casting process
CO 2 Distinguish among various metal fabrication processes such as Arc welding
Gas Welding Resistance spot welding process and Soldering amp Brazing
CO 3 Create the plastic object through different plastic processing techniques
CO 4 Experiment with assembling and disassembling of machine parts
CO 5 Make use of the basic machine tools and power tools used in manufacturing
Mapping of Course Outcomes with Program Outcomes
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) 3 3 -
CO3 (K6) 3 3 -
CO4 (K3) 3 2 -
CO5 (K3) 3 - -
List of Experiments
I Foundry Technology
1 Pattern Design and making - for casting drawing
2 Determination of average grain size for sand sample using sieve shaker
3 Mould preparation by Using Green Sand
4 Metal Melting and Casting of molten metal
II Metal Fabrication Techniques
5 Lap amp Butt Joint by Gas welding
6 Lap amp Butt Joint Double V butt Joint on thick plate by Arc welding
III Plastic Processing Techniques
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - - - -
CO2(K4) 3 3 - - - - - 3 - - - -
CO3(K6) 3 3 - - - - - - - - - -
CO4(K3) 3 2 - - - - - 3 - - - -
CO5(K3) 3 2 - - - - - 2 - - 3 -
AR19 Mechanical Engineering
Aditya Engineering College (A) 57
7 Injection Moulding (Jewelry Box and Bottle cap)
8 Blow Moulding (Water Bottle with cap)
IV AssemblingDisassembling Practice
9 Clutch and carburettor
10 Two-wheeler engine parts
V Basic Manufacturing Machine Tools And Power Tools
11 Drilling Boring Dieing and Tapping
12 Basic knowledge of Power Tools
List of Augmented Experiments
(Any one of the following experiments can be performed)
1 Lap amp Butt strap Joint by Resistance Spot Welding
2 Brazing and soldering
Reference Books
1 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II fourth
edition
2 Elements of Manufacturing Technology Vol II Hajra ChoudharySK and Hajra
Choudhary AK Media Publishers 2007 Edition
Web Links
1 httpssjceacinwp-contentuploads201804Foundry-and-Forging-Laboratory -
Manualpdf
2 httpwwwiitkacinmmetestTA201pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 58
ENGINEERING EXPLORATION PROJECT (Common to all branches)
Course Objectives
bull Build mindsets amp foundations essential for designers
bull Learn about the Human-Centered Design methodology and understand
their real-world applications
bull Use Design Thinking for problem solving methodology for investigating
illdefined problems
bull Undergo several design challenges and work towards the final design
challenge
Apply Design Thinking on the following Streams to
bull Project Stream 1 Electronics Robotics IOT and Sensors
bull Project Stream 2 Computer Science and IT Applications
bull Project Stream 3 Mechanical and Electrical tools
bull Project Stream4 Eco-friendly solutions for waste management
infrastructure safety alternative energy sources Agriculture
Environmental science and other fields of engineering
HOW TO PURSUE THE PROJECT WORK
bull The first part will be learning-based-masking students to embrace the
methodology by exploring all the phases of design thinking through the
wallet bag challenge and podcasts
bull The second part will be more discussion-based and will focus on building
some necessary skills as designers and learning about complementary
material for human- centered design
bull The class will then divide into teams and they will be working with one
another for about 2 ndash 3 weeks These teams and design challenges will be
the basis for the final project and final presentation to be presented
bull The teams start with Design Challenge and go through all the phases more
in depth from coming up with the right question to empathizing to ideating
to prototyping and to testing
bull Outside of class students will also be gathering the requirements identifying the challenges usability importance etc
bull At the end Students are required to submit the final reports and will be
evaluated by the faculty
TASKS TO BE DONE
Task 1 Everyone is a Designer
bull Understand class objectives amp harness the designer mindset
II Semester L T P C
Course Code 191PR2P01 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 59
Task 2 The WalletBag Challenge and Podcast
bull Gain a quick introduction to the design thinking methodology
bull Go through all stages of the methodology through a simple design challenge
bull Podcast Observe Listen and Engage with the surrounding
environment and identify a design challenge
Task 3 Teams amp Problems
bull Start Design Challenge and learn about teams amp problems through this
bull Foster team collaboration find inspiration from the environment and
learn how to identify problems
Task 4 Empathizing
bull Continue Design Challenge and learn empathy
bull Learn techniques on how to empathize with users
bull Go to the field and interview people in their environments
bull Submit Activity Card
Task 5 Ideating
bull Continue Design Challenge and learn how to brainstorm effectively
bull Encourage exploration and foster spaces for brainstorming
bull Submit Activity Card
Task 6 Prototyping
bull Continue Design Challenge and learn how to create effective prototypes
bull Build tangible models and use them as communication tools
bull Start giving constructive feedback to classmates and teammates
bull Submit Activity Card
Task 7 Testing
bull Finish Design Challenge and iterate prototypes and ideas through user
feedback
bull Evolve ideas and prototypes through user feedback and constructive
criticism
bull Get peer feedback on individual and group performance
bull Submit Activity Card
Task 8
bull Final Report Submission and Presentation
AR19 Mechanical Engineering
Aditya Engineering College (A) 60
Note The colleges may arrange for Guest Speakers from Various Design Fields
Graphic Design Industrial Design Architecture Product Design Organizational
Design etc to enrich the students with Design Thinking Concept
References
1 Tom Kelly The Art of Innovation Lessons in Creativity From IDEO
Americarsquos Leading Design Firm (Profile Books 2002)
2 Tim Brown Change by Design How Design Thinking Transforms
Organizations and Inspires Innovation (Harper Business 2009)
3 Jeanne Liedtka Randy Salzman and Daisy Azer Design Thinking for the
Greater Good Innovation in the Social Sector (Columbia Business School
Publishing 2017)
Web Links
bull Human-Centered Design Toolkit (IDEO)
httpswwwideocompostdesign-kit
bull Design Thinking Boot Camp Bootleg
(Stanford D-School)
httpsdschoolstanfordeduresource
sthe-bootcamp-bootleg bull Collective Action Toolkit (frogdesign)
httpswwwfrogdesigncomwpcontent
o uploads201603CAT_20_Englishpdf
bull Design Thinking for Educators (IDEO) httpsdesignthinkingforeducatorscom
AR19 Mechanical Engineering
Aditya Engineering College (A) 61
INTEGRAL TRANSFORMS AND APPLICATIONS OF PARTIAL
DIFFERENTIAL EQUATIONS (Common to CE ME Ag E)
III Semester L T P C
Course Code 191BS3T11 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
that are essential for an engineering course
COB 2 To help the students acquire problem analysis and problem solving skills
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compute the Fourier series of a function
CO 2 Compute the Fourier transform of a function
CO 3 Compute Laplace transform of a function
CO 4 Apply Laplace transform to solve initial value problems
CO 5 Solve one dimensional heat equation wave equation and two dimensional
Laplace equation
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) 3 2 - - - - - - - - - -
CO 2 (K3) 3 2 - - - - - - - - - -
CO 3 (K3) 3 2 - - - - - - - - - -
CO 4 (K3) 3 2 - - - - - - - - - -
CO 5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO1 PSO2 PSO3 PSO4
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Fourier series
Fourier series of periodic function Dirichletrsquos conditions for Fourier expansion
Functions having points of discontinuities Change of interval Even and odd functions
Half-range series
UNIT-II
Fourier Transforms
Fourier integral theorem (without proof) Fourier sine and cosine integrals Fourier
Transforms Fourier sine and cosine transforms properties inverse transforms Finite
Fourier transforms
UNIT-III
Laplace Transforms
Laplace transforms of standard functions First Shifting theorem Change of scale
AR19 Mechanical Engineering
Aditya Engineering College (A) 62
Multiplication with t Division by t Transforms of derivatives and integrals Unit step
function Dirac delta function Periodic function Evaluating improper integrals by
using Laplace Transform
UNIT-IV
Inverse Laplace Transforms
Inverse Laplace transforms Convolution theorem (without proof) Second shifting
theorem
Solving differential equations and integro-differential equations using Laplace
transforms
(MATLAB Exercise Computing Laplace transform of f(t) using symbolic toolbox
Solving initial value problems)
UNIT-V
Application of PDE Classification of Higher order PDE - Method of separation of Variables- Solution of One dimensional Wave equation Heat equation and two-dimensional Laplace equation
Text Books
1 Advanced Engineering Mathematics RKJain SRKIyengar 4th Edition Alpha
Science Publications
2 Advanced Engineering Mathematics Erwin Kreyszig 10th Edition Wiley-
3 Higher Engineering Mathematics BSGrewal 43rd Edition Khanna Publishers
Reference Books
1 Advanced engineering mathematics with MATLAB Dean G Duffy CRC Press
2 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
3 Higher engineering mathematics by John Bird 5th edition Elsevier Limited
2006
Web Links
1 httpsnptelacincourses111105123
2 httpsnptelacincourses111105093
3 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 63
FLUID MECHANICS AND HYDRAULIC MACHINERY
III Semester L T P C
Course Code 191ME3T01 3 0 0 3
Course Objectives
COB 1 Explain the properties of fluids and its applications
COB 2 Understand the principle of buoyancy stability of a floating body
COB 3 Analyze the losses in various flow systems
COB 4 Estimate the impact of jets on various vane geometries
COB 5 Understand the concepts of hydraulic machines and their applications
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Fluid Statics Kinematics and Dynamics
CO 2 Calculate the meta centric height of a submerged body
CO 3 Analyze the concepts of Boundary Layer Theory and its applications
CO 4 Model the derived Quantities with Dimensional Analysis
CO 5 Solve the hydrodynamic force of jet on various vanes
CO 6 Compare different types of Turbines and Pumps characteristics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 1 - - - - - - - - -
CO2 (K3) 3 3 1 - - - - - - - - -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 2 2 1 - - - - - - - - -
CO6 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K4) PSO 2(K4) PSO 3(K6)
CO1 (K2) - 3 -
CO2 (K3) - 2 -
CO3 (K3) - - -
CO4 (K3) - 3 -
CO5 (K3) - - -
UNIT-I
Fluid Statics Dimensions and units Physical properties of fluidsndashMass Density
Specific weight Specific volume Specific gravity Viscosity Surface tension Vapor
pressure and their influence on fluid motion Atmospheric pressure Gauge pressure and
vacuum pressure Measurement of pressure Piezometers U-tube and differential
manometers
Buoyancy and Flotation Meta center Stability of floating body Submerged bodies
Calculation of metacentric height Stability analysis and applications
UNIT-II
Fluid Kinematics Streamline Path line and streak lines and stream tubes
Classification of flows ideal fluid and real fluidndashsteady and unsteady flows Uniform
and non-uniform flows Laminar and turbulent flows Rotational and irrotational flows
Equation of continuity for one-dimensional flows
AR19 Mechanical Engineering
Aditya Engineering College (A) 64
Fluid Dynamics Various forces acting on a fluid element- Eulerrsquos and Bernoullirsquos
equation for flow along a stream line Momentum equation and its applications for pipe
bend problem
UNIT-III
Closed Conduit Flow Reynolds number Reynolds experimentndashDarcyndashWeisbach
equationndashMinor losses in pipes Pipes in series and pipes in parallel Total energy line
Hydraulic gradient line
Boundary Layer Theory Introduction Momentum Integral equation Displacement
Momentum and energy thickness and Introduction to Aerodynamic forces like Drag
and Lift
UNIT-IV
Impact of Jet on Vanes Hydrodynamic force on jets on stationary and moving flat
Inclined and curved vanes Jet striking centrally and at tip Velocity diagrams Work
done and efficiency Flow over radial vanes
Introduction to Hydraulic Machinery
Hydraulic Turbines Classification of turbinesndashImpulse and reaction turbines Pelton
wheel Working principle
UNIT-V
Francis turbine and Kaplan turbinendashWorking principles Draft tube theory Functions
Introduction to Performance of turbines
Centrifugal and Reciprocating Pumps Classification Working of centrifugal pump
Working of Reciprocating pumps Discharge through Centrifugal Pumps Comparison
between Centrifugal and Reciprocating pumps Introduction to Performance of pumps
Text Books
1 Fluid Mechanics and Hydraulic Machines RKBansal Laxmi Publications (P)
Ltd 9th Edition
2 Fluid Mechanics Frank MWhite Mcgraw-Hill series 7th edition
Reference Books
1 Hydraulics and Fluid mechanics including Hydraulics machines by PNModi amp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
2 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
3 Fluid Mechanics and Fluid Power Engineering DS Kumar Kotaria amp Sons
Revised Edition
4 Fluid Mechanics and Machinery D Rama Durgaiah New Age International
Revised Edition
Web Links
1 httpnptelacincourses1121051711
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 65
COMPUTER AIDED ENGINEERING DRAWING PRACTICE (Common to ME amp Min E)
III Semester L T P C
Course Code 191ME3T02 2 0 2 3
Course Educational Objectives
COB 1 To train the students to improve the graphical skills in design of mechanical
components
COB 2 To impart the knowledge of drawing machine components in
AUTOCAD
Course Outcomes
At the end of the Course Student will be able to
CO 1 Draw the sectional view of the solids
CO 2 Develop the surfaces of solids like prism pyramid cone and cylinder
CO 3 Sketch the intersection of solids and Isometric Views
CO 4 Draw the isometric and orthographic projections of the machine parts
through AutoCAD
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 - - - - - - - - 3 - -
CO2 (K3) 3 - - - - - - - - 3 - -
CO3 (K3) 3 - - - 3 - - - - 3 - 3
CO4 (K3) 3 - - - 3 - - - - 3 - 3
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) - - 1
CO4 (K3) - - 1
UNIT-I
Sections of Solids Cylinder Cone Prism and Pyramid
Development of Surfaces Cylinder Cone Prism and Pyramid
UNIT-II
Intersection of Solids Cylinder Cone Prism and Pyramid
UNIT-III
Isometric Projections Conversion of orthographic views to isometric views
UNIT-IV
Computer Aided Drafting 2D wire frame modelling 3D wire frame modelling View
point coordinates and view(s) displayed Examples to exercise different options like
save Restore Delete Joint Single option
UNIT-V
Computer Aided Solid Modeling Isometric projections Orthographic projections
of isometric projections
AR19 Mechanical Engineering
Aditya Engineering College (A) 66
Modeling of simple solids Modeling of Machines amp Machine Parts
Text Books
1 Engineering Drawing ND Bhatt Charotar Publications 53rd Edition
2 Text book of Engineering Drawing with Auto-CAD K Venkata Reddy BS
Publications 4th Edition
Reference Books
1 Mastering Auto CAD 2013 and Auto CAD LT 2013 ndash George Omura Sybex
Publication
2 Auto CAD 2013 fundamentals- Elisemoss SDC Publication
3 Engineering Drawing and Graphics using AutoCAD T Jeyapoovan Vikas
Publication
4 Engineering Drawing Auto CAD K Venugopal V Prabhu Raja New Age
Publication
Web Links
1 httpnptelacincourses11210301935
2 httpnptelacincourses11210301933
3 httpwwwengineeringdrawingorgcategoryprojection_of_solids
4 httpwwwengineeringdrawingorgcategorysection_of_solids
AR19 Mechanical Engineering
Aditya Engineering College (A) 67
MECHANICS OF SOLIDS
III Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make the student calculate the various types of stresses and strains in a
body for various loading conditions
COB 2 To make the student draw the shear force and bending moment diagrams for
beams of various loading conditions
COB 3 To train the students calculate the bending and shear stresses across the
beams of various cross-sections
COB 4 To enable the student determine the slope and deflection of beam under
various loads
COB 5 To make the student solve the shear stress due to twisting and buckling load
in columns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the stresses and strains in bodies of varying cross-section
Composite bars
CO 2 Sketch the shear force and bending moment diagrams for beams of various
supports and loads
CO 3 Analyze the variation of bending and shear stresses across a beam cross-
section
CO 4 Calculate the slope and deflection for beams of various load and support
arrangements
CO 5 Compute the shear stresses due to application of twisting moment
CO 6 Evaluate the buckling loads for various columns
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 2 2 - - 1 - - 1 - 1
CO2 (K3) 3 2 1 - - - 1 - - 1 - 1
CO3 (K4) 3 3 2 2 - - 1 - - 1 - 1
CO4 (K3) 3 2 1 2 - - 1 - - 1 - 1
CO5 (K3) 3 2 1 2 - - 1 - - 1 - 1
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 1 -
CO2 (K3) 1 1 -
CO3 (K4) 1 1 -
CO4 (K3) 1 1 -
CO5 (K3) 1 1 -
UNIT-I
Simple Stresses amp Strains Elasticity and plasticity ndash Types of stresses amp strainsndash
Hookersquos law ndash stress ndash strain diagram for mild steel ndash Working stress ndash Factor of safety
ndash Lateral strain Poissonrsquos ratio amp Volumetric strain ndash Bars of varying section ndash
Composite bars ndash Temperature stresses- Relation between elastic constants- Strain
energy ndash Resilience ndash Gradual Sudden Impact and Shock loadings
AR19 Mechanical Engineering
Aditya Engineering College (A) 68
UNIT-II
Shear Force and Bending Moment Definition of beam ndash Types of beams ndash Concept
of shear force and Bending moment ndash SF and BM diagrams for Cantilever Simply
supported and Overhanging beams subjected to point loads Uniformly distributing
loads Uniformly varying loads Simple couples Eccentric loads and combination of
these loads ndash Point of contra flexure ndash Relation between SF BM and rate of loading
at a section of a beam
UNIT-III
Flexural Stresses Theory of simple bending ndash Assumptions ndash Bending equation-
Neutral axis ndash Bending stresses ndash Section modulus of rectangular and circular sections
(Solid and Hollow)-I-section T-section Angle and Channel section ndash Design of simple
beam sections
Shear Stresses Shear stress distribution across various beams sections-Rectangular
Circular Triangular I-section T-section Angle section
UNIT-IV
Deflection of Beams Bending into a circular arc ndash Slope Deflection and Radius of
curvature ndash Differential equation for the elastic line of a beam ndash Double integration and
Macaulayrsquos methods ndash Determination of slope and deflection for cantilever and simply
supported beams subjected to point loads ndash Uniformly distributing loads ndash Uniformly
varying loadndash Moment area method ndash Mohrrsquos theorems -Application to simple cases
including overhanging beams
UNIT-V
Torsion Introduction ndash Derivation ndash Torsion of Circular shafts ndash Pure Shear ndash
Transmission of power by circular shafts Shafts in series Shafts in parallel
Columns Buckling and Stability Columns with Pinned ends Columns with other
support conditions Limitations of Eulerrsquos Formula Rankinersquos Formula
Text Books
1 Mechanics of Materials B C Punmia Laxmi Publications
2 Strength of Materials GH Ryder 3rd Edition
Reference Books
1 Mechanics of Materials James M Gere Nelson Thornes Publication 6th
Edition
2 Mechanics of Materials E Russell Johnston and John T Dewolf Mc Graw Hills
3rd Edition
3 Strength of Materials Part-1 STimshenko CBS Publication 3rd Edition
4 Strength of Materials S Ramamrutham Dhanapat Rai Publications 16th Edition
Web Links
1 httpnptelacincourses112107147
2 httpwwwnptelacincoursesWebcoursecontentsIITROORKEEstrength20of
20materialshomepagehtm
3 httpswwwaccessengineeringlibrarycommapsstrength-of-materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 69
THERMODYNAMICS
III Semester L T P C
Course Code 191ME3T04 3 0 0 3
Course Objectives
COB 1 To impart the knowledge of basic concepts of thermodynamics
COB 2 To illustrate the concept of first law of thermodynamics and applications
COB 3 To illustrate the concept of second law of thermodynamics
COB 4 To facilitate the students to know the concepts of pure substance and their
properties
COB 5 To help the students learn the properties of gas mixtures and power cycles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain basic concepts properties of substances and Laws of
thermodynamics
CO 2 Analyze thermodynamic processes using laws of thermodynamics
CO 3 Analyze thermodynamic processes to calculate heat and work transfer
CO 4 Suggest solutions for thermodynamic cycles application
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 - - - - - - - - - -
CO2 (K4) 3 3 - - - - - - - - - 1
CO3 (K4) 3 2 1 1 - - - - - - - 1
CO4 (K4) 3 3 1 1 - - - - - - - 1
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K4) 1 2 -
CO3 (K4) 1 2 -
CO4 (K4) 1 2 -
UNIT-I
Basic Concepts of Thermodynamics Introduction system boundary surrounding
control volume universe types of system Macroscopic and Microscopic View Point
concept of Continuum control volume control space Thermodynamic Equilibrium
State property process cycle Reversibility Quasi static process irreversible process
causes of irreversibility energy in state and energy in transition types of work and heat
point and path function Zeroth law of Thermodynamics- Concept of temperature
principles of thermometry reference points constant volume gas thermometer Scales
of temperature ideal gas scale
First Law of Thermodynamics Joulersquos Experiment- First law of thermodynamics
PMM-I Corollaries- First law applied to a Process applied to a system Steady Flow
Energy Equation throttling and free expansion processes Energy Balance deviations
from perfect gas model Vander walls equation of state compressibility charts variable
specific heats gas tables
AR19 Mechanical Engineering
Aditya Engineering College (A) 70
UNIT-II
Second Law of Thermodynamics Limitations of first law of thermodynamics
thermal reservoir heat engine heat pump parameters of performance second law of
thermodynamics Kelvin Planck and Clausius statements and their equivalence
collieries PMM-II Carnot Principle Carnot cycle and its specialities Thermodynamic
scale of temperature Clausius inequality Entropy principle of entropy increase
energy equation availability and irreversibility thermodynamic potentials Gibbs and
Helmholtz functions Maxwell relations elementary treatment of the third law of
thermodynamics
UNIT-III
Properties of Pure Substances Pure substance P-V-T surfaces T-S amp h-s diagrams
Mollier chart phase transformations triple point at critical state properties during the
change of phase dryness fraction Clausius Clapeyron equation property tables
Various thermodynamic processes energy transfer steam calorimetry
UNIT-IV
Properties of Gas Mixtures Mixture of perfect gases mole fraction mass fraction
gravimetric amp volumetric analysis Daltonrsquos law of partial pressure Avogadrorsquos law of
additive volumes equivalent gas constant molecular internal energy enthalpy of
specific heats and entropy of mixture of perfect gasses vapour and atmospheric air
UNIT-V
Thermodynamic Cycles
Air Standard Cycles Carnot Cycle Otto Cycle Diesel amp Dual Cycle
Gas Power Cycles Sterling Cycle Atkinson Cycle Ericson Cycle Lenoir Cycle
Refrigeration Cycles Carnot cycle Bell Coleman cycle Vapor Refrigeration cycles-
Description and representation on PndashV and T-S diagram Thermal Efficiency Mean
Effective pressures on Air standard basis ndash Comparison of Cycles
Text Books
1 Engineering Thermodynamics PK Nag Tata McGraw Hill Publishers 5th
Edition
2 Heat Engineering VPVasandhani amp DS Kumar Metropolitan Book Depot
2011 Edition
Reference Books
1 Thermodynamics An Engineering Approach YA Cengel and MA Boles Tata
Mc-Graw Hill Publishers 7th Edition
2 Engineering Thermodynamics Mayhew and Rogers Longman Green amp Co Ltd
London ELBS 8th Edition
3 Fundamentals of Classical Thermodynamics (SI Version) Van Wylen GJ and
Sonntag RE 2nd Edition
Web Links
1 httpswwwnptelacincourses1121051231
2 httpswww3ndedu~powersame20231planckdoverpdf
3 httpswwweduinformercomengineering-thermodyna
AR19 Mechanical Engineering
Aditya Engineering College (A) 71
METALLURGY AND MATERIALS SCIENCE
III Semester L T P C
Course Code 191ME3T05 3 0 0 3
Course Objectives
COB 1 To make the students familiarize with the concepts of structure of metals and
mechanical behaviour of materials
COB 2 To make the students understand the basic knowledge in the constitution of
alloys and in different types of alloy systems
COB 3 To teach the basic concept of iron-iron carbide equilibrium diagram and heat
treatment of alloys
COB 4 To make the students comprehend the areas of non-ferrous metals and alloys
COB 5 To make the students understand the basic concepts in the area of ceramic
and composite materials
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concepts of structure of metals and mechanical behavior under
different loading conditions
CO 2 Apply the concepts of equilibrium diagrams to make use of various alloys in
various industrial applications
CO 3 Discuss the concept of solidification of alloys and the analyze phases of iron-
iron carbide equilibrium diagram
CO 4 Apply the processes of heat treatment on different types of Cast irons and
Steels
CO 5 Use the concepts of non-ferrous metals and alloys in industrial applications
CO 6 Summarize the properties and applications of ceramic and composite
materials
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 - - - - - - - - - - -
CO2 (K3) 2 - - - - 1 1 - - - - -
CO3 (K3) 2 - - - - - - - - - - -
CO4 (K3) 2 - - - - 2 2 - - - - -
CO5 (K3) 2 - - - - 1 1 - - - - -
CO6 (K3) 2 - - - - 1 1 - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
CO6(K3) 1 - -
UNIT-I
Structure of Metals Bonds in solids-metallic bond-crystal structure - BCC FCC HCP
Unit cells Packing factor Crystallization of metals Grains and grain boundaries Effect of
grain boundaries on properties of metals Crystal imperfections
Mechanical Behavior of Materials Elastic deformation Plastic deformation - Twinning
AR19 Mechanical Engineering
Aditya Engineering College (A) 72
Fracture
Constitution of alloys Necessity of alloying Types of solid solutions Hume Rothery
rules Intermediate alloy phases and Electron compounds
UNIT-II
Equilibrium Diagrams Phase rule Experimental method of construction of equilibrium
diagrams Isomorphous alloy systems Equilibrium cooling and heating of alloys Lever rule
Coring miscibility gaps Eutectic systems Congruent melting intermediate phases Peritectic
reaction Transformations in solid state ndash allotropy Eutectoid Peritectoid reactions
Relationship between equilibrium diagrams and properties of alloys Study of important
binary phase diagrams of Cu-Ni Al-Cu Bi-Cd Cu-An Cus-Sn and Fe-Fe3C
UNIT-III
Metallurgy of Iron and Steels Fe-Fe3C equilibrium diagram Micro constituents in steels
Classification of steels Structure and properties of plain carbon steels Heat treatment of
steels- Annealing Normalizing Hardening TTT diagrams Tempering Hardenability
Surface hardening methods Age hardening treatment Cryogenic treatment of alloys Effect
of alloying elements on Fe-Fe3C system Low alloy steels Stainless steels Hadfield
manganese steels Tool steels and Die steels Structure and properties of White cast iron
Malleable cast iron Grey cast iron and Spheroidal grey cast iron
UNIT-IV
Non-Ferrous Metals and Alloys
Structure and properties of Copper and its alloys Aluminum and its alloys and Titanium and its alloys
UNIT-V
Ceramic Materials Crystalline ceramics Glasses Cermets Abrasive materials Nano
materials - Definition Properties and Applications
Composite Materials Classification of Composites Particle reinforced materials Fiber
reinforced materials Metal ceramic mixtures Metal-matrix composite and C-C composites
Introduction to Powder metallurgy Preparation methods and Applications of Powder
metallurgy- Selection of materials for various industrial applications
Text Books
1 Introduction to Physical Metallurgy Sidney H Avner TMH Publications 2nd Edition
2 Materials Science and Metallurgy VD Kodgire Everest Publishing House 39th
Edition
Reference Books
1 Materials Science and Engineering An Introduction William DCallister Wiley
Publications 9th Edition
2 Elements of Materials Science VRaghavan Pearson Education 6th Edition
3 Engineering Materials amp Metallurgy RK Rajput S Chand Publications 2nd Edition
4 Essentials of Material Science Donald Askeland SI Edition 3rd Edition
Web Links
1 httpnptelacincourses113105021
2 wwwthemetalcastingcom
3 httpswwwtuenl
4 httpswwweurothermcommetallic-alloys
AR19 Mechanical Engineering
Aditya Engineering College (A) 73
FLUID MECHANICS AND HYDRAULIC MACHINERY LAB
III Semester L T P C
Course Code 191ME3L01 0 0 3 15
Course Objectives
COB 1 Apply Bernoullirsquos principle for practical pipe flow applications
COB 2 Distinguish performance of venture meter and orifice meters
COB 3 Choosing the Centrifugal and Reciprocating pumps based on application
COB 4 Understand the impact of water jets on various vane geometries
COB 5 Select the Impulse and Reaction turbines based on application
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the head losses causing decrease in energy of flow experimentally
and by the verification of Bernoullirsquos theorem
CO 2 Compare the flow meters for their better performing characteristics when
used in pipes of turbines etc
CO 3 Calculate the efficiencies of Centrifugal and Reciprocating pumps while
maintaining similar conditions
CO 4 Evaluate performance characteristic curves and efficiencies of different
hydraulic turbines
CO 5 Calculate the work done and efficiency of various vane shapes for turbine
applications
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - 2 - - - - 2 1 - 2
CO2 (K2) 2 2 - 2 - - - - 2 1 - 2
CO3 (K3) 3 2 - 2 - - - - 2 1 - 2
CO4 (K5) 3 2 - 2 - - - - 2 1 - 2
CO5 (K3) 3 2 - 2 - - - - 2 1 - 2
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 2 -
CO2 (K2) - 2 -
CO3 (K3) - 2 -
CO4 (K5) - 3 -
CO5 (K3) - 2 -
The following experiments are required to be conducted as compulsory
experiments
1 To determine the of major losses (friction factor) in pipes
2 To determine the minor losses in pipes
3 To determine the of co-efficient of discharge of a Venturi meter
4 To determine the of co-efficient of discharge of an Orifice meter
5 To determine the Discharge and efficiency of a Centrifugal pump
6 To determine the Discharge and efficiency of a Reciprocating pump
7 To determine the Head Discharge and efficiency of a Pelton wheel
8 To determine the Head Discharge and efficiency of a Francis turbine
AR19 Mechanical Engineering
Aditya Engineering College (A) 74
9 To determine the Head Discharge and efficiency of a Kaplan turbine
10 To determine the velocity of flow at any point in a pipe using Pitot tube
List of Augmented Experiments
(Any two of the following experiments can be performed)
11 To verify the Bernoullirsquos theorem using experimental setup
12 To find the Laminar and Turbulent flow types using Reynoldsrsquos Experiment
13 To determine the co-efficient of discharge of a Rotameter
14 To determine the co-efficient of the discharge of a water meter
Reference Books
1 Hydraulic Machines by Banga amp Sharma Khanna Publishers6th Edition
2 Hydraulics and Fluid mechanics including Hydraulics machines by
3 PNModi amp SMSeth Rajsons publications pvt ltd Standard Book House
(2017 edition)
4 Fluid Mechanics and Hydraulic Machines RK Rajput SChand
Web Links
1 httpwwwscience-animationscomfluidmechanicshtml
2 httpsiitbmechdampwordpress
AR19 Mechanical Engineering
Aditya Engineering College (A) 75
MECHANICS OF SOLIDS AND METALLURGY LAB
III Semester L T P C
Course Code 191ME3L02 0 0 3 15
Course Objectives
COB 1 To impart the practical knowledge on testing of material mechanical
behavior under various direct loads
COB 2 To make the students to test the mechanical behavior of spring and cube
under load
COB 3 To impart the practical knowledge on testing of material under various
indirect loads
COB 4 To make the students to study of the Micro Structure of pure metals and
alloys
COB 5 To aware the students to calculate the hardness of various treated and
untreated steels
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the material mechanical behavior under various direct loads
CO 2 Calculate the mechanical strength of spring and cube
CO 3 Demonstrate the materials mechanical behavior under various indirect loads
CO 4 Analyze the Structure of pure metals and alloys
CO 5 Estimate the hardness of various treated and untreated steels
Mapping of course outcomes with program outcomes
COPO PO1
(K3)
PO2
(K4)
PO3
(K5)
PO4
(K5)
PO5
(K3)
PO6
(K3)
PO7
(K2)
PO8
(K3)
PO9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - 3 - 2 2 - -
CO2(K3) 3 2 - - - - 3 - 2 2 - -
CO3(K2) 2 1 - - - - 3 - 2 2 - -
CO4(K4) 3 3 - - - - 3 - 2 2 - -
CO5(K2) 2 1 - - - - 3 - 2 2 - -
Mapping of course outcomes with program Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1(K2) 1 2 -
CO2(K3) 1 2 -
CO3(K2) 1 2 -
CO4(K4) - 2 1
CO5(K2) - 2 1
The following experiments are required to be conducted as compulsory
experiments
Section A Mechanics of Solids
1 To conduct direct tension test on mild steel bar
2 To conduct bending test on Simply supported beam amp Cantilever beam
3 To determine Modulus of rigidity of given specimen by conducting Torsion
4 To determine hardness value for the given metal specimen using
(a) Brinell hardness tester (b) Rockwell hardness tester
5 To conduct compression and tension test on springs
6 To determine the compression strength on cube by UTM
AR19 Mechanical Engineering
Aditya Engineering College (A) 76
The following experiments are required to be conducted as compulsory
experiments
Section B Metallurgy amp Material Science
7 To Analyze the Micro Structure of pure metals like Iron Cu and Al
8 To Analyze the Microstructure of Mild steels low carbon steels high carbon
steels
9 To Analyze the Micro Structures of Cast Irons
10 To Analyze the Micro Structures of Non-Ferrous alloys
11 To Analyze the Micro structures of Heat treated steels
12 To determine the hardenability of steels by Jominy End Quench Test
List of Augmented Experiments - Mechanics of Solids
(Any one of the following experiments can be performed)
13 To conduct Impact test by (a) Izod test (b) Charpy test
14 To find shear strength on given specimen by Punch shear test
15 To determine the maximum shear stress induced in circular beam
List of Augmented Experiments - Metallurgy amp Material Science
(Any one of the following experiments can be performed)
16 To find out the hardness of various treated and untreated steels
17 To study the microstructure of high speed steels
18 To find the increase in hardness values for the given steel alloys (EN8) specimen
by (oil quenching) medium hardening method
Reference Books
1 A laboratory manual of Metals and Alloys S M Ashram Sharif Ahmed Volume
2 Strength of Materials RKRajput SChand Publications 4th edition
3 Introduction to Physical Metallurgy Sidney H Avener TMH 2nd edition
Web Links
1 httpwwwmlrinstitutionsacinsitesdefaultfileslab1cb1938e0e081ecdd712d1c
8778bd2fc 1- MMS-labpdf
2 httpwwwiitkacinmseoldmse_newfacilitieslaboratoriesMaterial_Testing_
LabMSE313Apdf
3 httpwebmiteduemechdontindex-build
AR19 Mechanical Engineering
Aditya Engineering College (A) 77
EMPLOYABILITY SKILLS-I (Common to all branches)
III Semester L T P C
Course Code 191MC3A03 0 0 2 0
Course Objectives
COB 1 To provide necessary training to impart employability skills
COB 2 To Prepare Students for Campus Placements
COB 3 To Improve Confidence Decision Making in Career planning
COB 4 To Achieve Life Goals with Proper Time Management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the number and letter series techniques in different models
CO 2 Differentiate Career Objectives ampGoals
CO 3 Compare the different types of number and letter analogy models
CO 4 Transfer the different models of coded elements to decoded elements
CO 5 Illustrate Out Of Box thinking in Students
CO 6 Solve LCM amp HCF Simple Equations by using simple logics
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K4)
CO 2(K2)
CO 3(K2)
CO 4(K3)
CO 5(K3)
CO 6(K3)
UNIT-I
Aptitude Number series
Soft Skills Attitude SWOT analysis self-confidence self esteem
UNIT-II
Aptitude Number Analogy
Soft Skills Decision Making Situation Reaction Test
UNIT-III
Aptitude Letter series Letter Analogy Coding amp Decoding
Soft Skills Verbal Aptitude-I synonyms Antonyms Spotting of errors
AR19 Mechanical Engineering
Aditya Engineering College (A) 78
UNIT-IV
Aptitude Divisibility Rules LCMampHCF
Soft Skills Creativity Out of box thinking lateral thinking
UNIT-V
Aptitude Simple Equations
Soft Skills Goal setting Smart goals Time Management
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 79
ESSENCE OF INDIAN TRADITIONAL KNOWLEDGE (Common to all branches)
III Semester L T P C
Course Code 191MC3A04 2 0 0 0
Course Objectives
COB 1 To facilitate the students with the concepts of Indian traditional knowledge
and to make them understand the Importance of roots of knowledge system
COB 2 To make the students understand the traditional knowledge and analyse it
and apply it to their day to day life
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the concept of Traditional knowledge and its importance
CO 2 Explain the need and importance of protecting traditional knowledge
CO 3 Illustrate the various enactments related to the protection of traditional
knowledge
CO 4 Interpret the concepts of Intellectual property to protect the traditional
knowledge
CO 5 Explain the importance of Traditional knowledge in Agriculture and
Medicine
Mapping of course outcomes with program outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K3) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K3) - - - - - - - - - - - -
CO 5 (K3) - - - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1 (K3)
CO 2 (K3)
CO 3 (K3)
CO 4 (K3)
CO 5 (K3)
UNIT-I
Introduction to traditional knowledge Define traditional knowledge nature and
characteristics scope and importance kinds of traditional knowledge Indigenous
Knowledge (IK) characteristics traditional knowledge vis-agrave-vis indigenous
knowledge traditional knowledge Vs western knowledge traditional knowledge
UNIT-II
Protection of traditional knowledge The need for protecting traditional knowledge
Significance of TK Protection value of TK in global economy Role of Government
to harness TK
AR19 Mechanical Engineering
Aditya Engineering College (A) 80
UNIT-III
Legal framework and TK
The Scheduled Tribes and Other Traditional Forest Dwellers (Recognition of Forest
Rights) Act 2006 Plant Varieties Protection and Farmers Rights Act 2001 (PPVFR
Act) The Biological Diversity Act 2002 and Rules 2004 the protection of traditional
knowledge bill 2016
UNIT-IV
Traditional knowledge and intellectual property Systems of traditional knowledge
protection Legal concepts for the protection of traditional knowledge Patents and
traditional knowledge Strategies to increase protection of traditional knowledge
UNIT-V
Traditional knowledge in different sectors Traditional knowledge and engineering
Traditional medicine system TK in agriculture Traditional societies depend on it for
their food and healthcare needs Importance of conservation and sustainable
development of environment Management of biodiversity Food security of the
country and protection of TK
Text Books
1 Traditional Knowledge System in India by Amit Jha 2009
2 Traditional Knowledge System and Technology in India by Basanta Kumar
Reference Books
1 Traditional Knowledge System in India by Amit Jha Atlantic publishers 2002
2 Knowledge Traditions and Practices of India Kapil Kapoor1 Michel Danino2
Web Links
1 httpswwwyoutubecomwatchv=LZP1StpYEPM
2 httpnptelacincourses121106003
AR19 Mechanical Engineering
Aditya Engineering College (A) 81
NUMERICAL METHODS amp STATISTICAL TECHNIQUES (Common to CE ME amp AgE)
IV Semester L T P C
Course Code 191BS4T16 3 0 0 3
Course Objectives
COB 1 To equip the students with the necessary mathematical skills and techniques
those are essential for an engineering course
COB 2 To familiarize the students with the foundations of probability and statistical
methods and solve application problems in their disciplines
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply numerical methods to solve equations and interpolation of polynomials
CO 2 Apply numerical methods to solve initial value problems and problems
involving integration
CO 3 Apply discrete and continuous probability distributions
CO 4 Compute the components of a classical hypothesis test
CO 5 Apply the statistical inferential methods based on small and large sampling
tests
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K3) 3 2 - - - - - - - - - -
CO5 (K3) 3 2 - - - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K3) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Solution of Algebraic and Transcendental Equations
Introduction Bisection method Secant method Method of false position Iteration
method Newton - Raphson method
Interpolation
Introduction to Interpolation Finite differences Forward differences Backward
differences Central difference Relation between operators Newtonrsquos formula for
interpolation Lagrangersquos interpolation Newtonrsquos divided difference interpolation
UNIT-II
Numerical Integration and solution of Ordinary Differential Equations
Trapezoidal rule Simpsonrsquos 13rd and 38th rule Solution of ordinary differential
equations by Taylorrsquos series Picardrsquos method of successive Eulerrsquos method Modified
Eulerrsquos method Runge-Kutta method (fourth order)
AR19 Mechanical Engineering
Aditya Engineering College (A) 82
UNIT-III
Probability and Distributions
Review of probability and Bayersquos theorem ndash Random variables ndash Discrete and
Continuous random variables ndash Distribution function ndash Mathematical Expectation and
Variance ndash Binomial Poisson Uniform and Normal distributions
UNIT - IV
Sampling Theory
Introduction ndash Population and samples ndash Sampling distribution of Means and Variance
(definition only) ndash Central limit theorem (without proof) ndash Introduction to t 2 and F-
distributions ndash Point and Interval estimations ndash Maximum error of estimate
UNIT- V
Tests of Hypothesis
Introduction ndash Hypothesis ndash Null and Alternative Hypothesis ndash Type I and Type II
errors ndash Level of significance ndash One tail and two-tail tests ndash Tests concerning one mean
and two means (Large and Small samples) ndash Tests on proportions
Text Books
1 Advanced Engineering Mathematics R K Jain S R K Iyengar 4th Edition
Alpha Science Publications
2 Miller and Freundrsquos Probability and Statistics for Engineers 7e Pearson 2008
3 Higher Engineering Mathematics B S Grewal 43rdEdition Khanna Publishers
Reference Books
1 M K Jain S R K Iyengar and R K Jain Numerical Methods for Scientific
and engineering Computations New age International Publication (P) Ltd
2 S C Gupta and V K Kapoor Fundamentals of Mathematical Statistics 11e
Sultan Chandamp Sons Publications 2012
3 Higher Engineering Mathematics Dass HK Rajnish Verma Er S Chand Co
Pvt Ltd Delhi
4 Sheldon M Ross Introduction to probability and statistics Engineers and the
Scientists 4th Edition Academic Foundation 2011
Web Links
1 httpsnptelacincourses111107111107105
2 httpsnptelacincourses111105111105041
3 httpsnptelacincourses111105111105090
4 httpswwwkhanacademyorg
AR19 Mechanical Engineering
Aditya Engineering College (A) 83
MANAGERIAL ECONOMICS AND FINANCIAL ANALYSIS (Common To CE EEE ME ECE CSE IT AgE amp PT)
IV Semester L T P C
Course Code 191HS4T04 3 0 0 3
Course Objectives
COB 1 To equip the students with the basic inputs of managerial economics and
demand concepts
COB 2 To understand the nature of markets Methods of Pricing in the different
market structures and to know the different forms of Business organization
and the concept of Business Cycles
COB 3 To impart the knowledge on production theories its factors and cost
analysis
COB 4 To make the students take optimal decisions and acquiring the knowledge
on financial accounting and its analysis
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the Managerial Economic concepts for decision making and forward
planning
CO 2 Illustrate the law of demand and its exceptions by using different forecasting
methods
CO 3 Identify the cost behavior for managerial decision making and Break Even
Point (BEP) of an enterprise
CO 4 Classify the different types of business organizations along with basic
knowledge on business cycle
CO 5 Make use of the process amp principles of accounting for the preparation of
final accounts
CO 6 Utilize various techniques on investment project proposals with the help of
capital budgeting techniques for decision making
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) - - - - - - - - - - - -
CO 2(K2) 1 1 - - - - - - - 1 - -
CO 3(K3) - - - - - - - - - - 1 -
CO 4(K2) 1 1 - - - - - - - - 1 -
CO 5(K3) 1 1 - - - - - 2 - 1 - -
CO 6(K3) 1 1 - - - - - - - - 1 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1(K3) PSO 2(K4) PSO 3(K3)
CO 1(K2) - - -
CO 2(K2) - - -
CO 3(K3) - - -
CO 4(K2) - - -
CO 5(K3) - - -
CO 6(K3) - - -
UNIT-I
Introduction to Managerial Economics and demand Analysis
Definition of Managerial Economics ndashScope of Managerial Economics and its
relationship with other subjects ndashConcept of Demand Types of Demand Determinants
of Demand- Demand schedule Demand curve Law of Demand and its limitations-
AR19 Mechanical Engineering
Aditya Engineering College (A) 84
Elasticity of Demand Types and Measurement-Demand forecasting and its Methods
UNIT-II
Production and Cost Analyses
Concept of Production function- Cobb-Douglas Production function ndash Law of Variable
proportions-Isoquants and Isocosts and choice of least cost factor combination-Concepts
of Returns to scale and Economies of scale-Different cost concepts opportunity costs
explicit and implicit costs- Fixed costs Variable Costs and Total costs ndash Cost ndashVolume-
Profit analysis-Determination of Breakeven point(simple problems)- Managerial
significance and limitations of Breakeven point
UNIT-III
Introduction to Markets Pricing Policies amp Types of Business Organization and
Business Cycles
Market Structures Perfect Competition Monopoly Monopolistic competition and
Oligopoly ndash Features ndash Price and Output Determination ndash Methods of Pricing Average
cost pricing Limit Pricing Market Skimming Pricing and Internet Pricing Flat Rate
Pricing Usage sensitive pricing and Priority Pricing Features and Evaluation of Sole
Trader Partnership Joint Stock Company ndash Business Cycles Phases of Business Cycles
UNIT-IV
Introduction to Accounting amp Financing Analysis
Introduction to Double Entry Systems ndash Journal entries ndash Ledger ndash Trail Balance ndash
Trading and Profit and Loss Account - Preparation of Financial Statements - Introduction
to Ratio Analysis
UNIT-V
Capital and Capital Budgeting Capital Budgeting Meaning of Capital- Capitalization-
Meaning of Capital Budgeting-Time value of money- Methods of appraising Project
profitability Traditional Methods(pay back period accounting rate of return) and modern
methods(Discounted cash flow method Net Present Value method Internal Rate of
Return Method and Profitability Index)
Text Books
1 Dr A R Aryasri ndash Managerial Economics and Financial Analysis TMH 2011
2 Dr N Appa Rao Dr P Vijay Kumar lsquoManagerial Economics and Financial
Analysisrsquo Cengage Publications New Delhi ndash 2011
3 Prof JVPrabhakara rao Prof P Venkatarao lsquoManagerial Economics and Financial
Analysisrsquo Ravindra Publication
Reference Books
1 V Maheswari Managerial Economics Sultan Chand
2 Suma Damodaran Managerial Economics Oxford 2011
3 Dr B Kuberudu and Dr T V Ramana Managerial Economics amp Financial
Analysis Himalaya Publishing House 2011
4 Vanitha Agarwal Managerial Economics Pearson Publications 2011
5 Sanjay Dhameja Financial Accounting for Managers Pearson
6 Maheswari Financial Accounting Vikas Publications
7 S A Siddiqui amp A S Siddiqui Managerial Economics and Financial Analysis
New Age International Publishers 2012
Web Links
1 wwwmanagementstudyguidecom
2 wwwtutorialspointcom
AR19 Mechanical Engineering
Aditya Engineering College (A) 85
INTERNET OF THINGS
IV Semester L T P C
Course Code 191ES4T15 3 0 0 3
Course Objectives
COB 1 To present interconnection and integration of the physical world and the cyber
space
COB 2 To demonstrate applications of Internet of Things
COB 3 To educate building blocks and characteristics of Internet of Things
COB 4 To introduce communication protocols used in Internet of Things
COB 5 To impart knowledge on design amp develop IoT devices
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the application areas of IoT
CO 2 Illustrate revolution of Internet in Mobile Devices Cloud amp Sensor Networks
CO 3 Explain communication protocols used in IoT
CO 4 Make use of Raspberry PI programming to implement Internet of Things
through Arduino
CO 5 Apply the principles of IoT in real world scenario
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 3 - - - - - - - - - -
CO2 (K3) 2 2 2 - - - - - - - - -
CO3 (K4) 3 2 2 - - - - - - - - -
CO4 (K3) 3 2 1 - - - - - - - - -
CO5 (K3) 3 1 3 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to IoT
Internet of Things - Physical Design- Logical Design- IoT Enabling Technologies - IoT
Levels amp Deployment Templates - Domain Specific IoTs - IoT and M2M - IoT System
Management with NETCONF-YANG- IoT Platforms Design Methodology
UNIT-II
IoT Architecture
M2M high-level ETSI architecture - IETF architecture for IoT - OGC architecture - IoT
reference model - Domain model - information model - functional model - communication
model - IoT reference architecture
AR19 Mechanical Engineering
Aditya Engineering College (A) 86
UNIT-III
IoT Protocols
Protocol Standardization for IoT ndash Efforts ndash M2M and WSN Protocols ndash SCADA and RFID
Protocols ndash Unified Data Standards ndash Protocols ndash IEEE 802154 ndash BACNet Protocol ndash
Modbusndash Zigbee Architecture ndash Network layer ndash 6LowPAN - CoAP ndash Security
UNIT-IV
Building IoT with Raspberry PI amp Arduino
Building IOT with RASPERRY PI- IoT Systems - Logical Design using Python ndash IoT
Physical Devices amp Endpoints - IoT Device -Building blocks -Raspberry Pi -Board - Linux
on Raspberry Pi - Raspberry Pi Interfaces -Programming Raspberry Pi with Python - Other
IoT Platforms - Arduino
UNIT-V
Case Studies And Real-World Applications
Biometric Car Door opening system Accident monitoring system Engine oil and Coolant
level monitoring system Fleet and Driver Management system Smart road communication
system Road Vehicle communication at hilly areas real time car telematics tracking system
Text Books
1 Rajesh Singh Anita Gehlot etal - Internet of Things in Automotive Industries and
Road Safety Electronic Circuits program Coding and Cloud Servers River
publishers ISBN- 978-87-7022-010-1
2 Arshdeep Bahga Vijay Madisetti ―Internet of Things ndash A hands-on approach
Universities Press 2015
Reference Books
1 Dieter Uckelmann Mark Harrison Michahelles Florian (Eds) ―Architecting the
Internet of Things Springer 2011
2 Honbo Zhou ―The Internet of Things in the Cloud A Middleware Perspective
CRC Press 2012
3 Olivier Hersent David Boswarthick Omar Elloumi ―The Internet of Things ndash Key
applications and Protocols Wiley 2012
Web Links
1 httpsonlinecoursesnptelacinnoc18_cs46preview
2 httpsswayamgovincoursespublickeyword=Introduction20to20internet20
of20things
3 httpsswayamgovincoursespublickeyword=Design20for20internet20of
20things
4 httpswwwcourseraorgspecializationsiot
AR19 Mechanical Engineering
Aditya Engineering College (A) 87
PRODUCTION TECHNOLOGY
IV Semester L T P C
Course Code 191ME4T06 3 0 0 3
Course Objectives
COB 1 To make the students to understand the fundamentals of casting and their
application
COB 2 To impart the knowledge of special types of casting processes solidification of
metals and different casting defects
COB 3 To perceive the students various types of welding processes and welding defects
COB 4 To introduce the fundamentals of various sheet metal forming techniques and
plastic processing techniques
COB 5 To enable the students to acquire the types of bulk forming processes rolling and
various extrusion methods
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the basics of casting and its applications
CO 2 Demonstrate various special casting processes
CO 3 Distinguish between the different joining techniques
CO 4 Explain the basics of sheet metal forming and plastics processing techniques
CO 5 Summarize the bulk metal deforming process
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 1 - - - - - - - 2 2 - -
CO2 (K3) 2 - - - - - - - 2 - - -
CO3 (K4) 2 - - - - - - - - - - -
CO4 (K3) - - - - - - - - - - - -
CO5 (K3) 1 - - - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 3 - -
CO3 (K4) 3 - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction
Engineering materials and its properties and classification of various manufacturing
processes
Casting Introduction to casting Requirements of casting Steps involved in making a
casting Advantage of casting and its applications
Patterns Types of patterns Materials used for patterns
Allowances All Pattern allowances and their construction
Gating Principles of Gating Gating ratio and design of gating systems
Runner amp Risers Types function and design of riser Cleaning of castings
AR19 Mechanical Engineering
Aditya Engineering College (A) 88
UNIT-II
Special Casting Techniques
Molding sand Preparation and Composition Sand property test Casting shakeout Core
Types of core Core print Chaplets Chills and Exothermic materials applications in sand
casting Metal fluidity
Furnace Crucible furnace Cupola Induction furnace Reverberatory furnace Open
hearth Arc furnace
Casting design considerations
Solidification of casting Concept of Solidification of metal and Alloys Problems on
solidification time
Special casting processes Centrifugal casting Die casting and Investment casting Shell
molding
Casting defects Causes and remedies
UNIT-III
Metal Joining Methods
Introduction to welding process Classification of welding processes Types of welded
joints and their characteristics
Gas welding Different types of flames Oxy-acetylene welding and Cutting
Arc welding Basic principles of Arc welding V-I Characteristic curves of power source
Problems on V-I Characteristic Duty cycle MMAW SAW TIG MIG
Solid state welding processes Friction welding Friction stir welding Forge welding
Explosive welding Thermit welding PAW Laser beam welding EBW Soldering amp
Brazing Resistance welding and its types Heat affected zone (HAZ)
Welding defects ndash Causes and Remedies
Testing Destructive and Non-destructive of welds
UNIT-IV
Sheet Metal Forming amp Plastic Processing Techniques
Introduction Role of sheet components Shearing mechanism Various press working
operations Presses for sheet metal working and press tools Die and Punch Different type
of dies Blanking and Piercing Forces and Load estimation in forming Deep drawing
Stretch forming Bending Coining Spinning Spring back and its remedies
High energy rate forming process Principles of explosive forming Electromagnetic
forming Electro hydraulic forming and Rubber pad forming Advantage and Limitations
Plastic Processing Types of Plastics Properties Applications and their processing
methods Blow molding and Injection molding
UNIT-V
Bulk Metal Deforming Processes
Introduction to bulk deforming process Plastic deformation Yield and flow criteria
Machine and equipmentrsquos for the metal deforming processes Parameters and force
calculations for different processes
Classification of metal deforming processes Swaging Forging and itrsquos all types
Forging defects
Rolling Fundamentals and Types of rolling mills and Products
Extrusion Basics and its characteristics Types of extrusion Impact extrusion
Hydrostatic extrusion Wire drawing and Tube drawing
AR19 Mechanical Engineering
Aditya Engineering College (A) 89
Text Books
1 Manufacturing Technology Volume I PN Rao TMH Publications 6th Edition
2 Hajra Choudhry Elements of Workshop Technology Vol ndash II Media Promoters amp
Publishers 1994
Reference Books
1 Manufacturing Processes for Engineering Materials Kalpakjian S amp Steven R
Schmid Pearson Publication 5th Edition
2 Manufacturing Science AGhosh amp AK Mallik East West Press Pvt Ltd
Publication 3rd Edition
3 Process and materials of manufacture Lindberg PHI Publications 4th Edition
4 Advance Welding Processes RSParmar Khanna Publishers
Web Links
1 httpnptelacincourses112107144
2 httpstudycomarticlesOnline_Welding_Classes_and_Training_Programs
3 httpnptelacincourses112107089
4 httpnptelacincoursephp
AR19 Mechanical Engineering
Aditya Engineering College (A) 90
KINEMATICS OF MACHINERY
IV Semester L T P C
Course Code 191ME4T07 3 0 0 3
Course Objectives
COB 1 To understand the kinematics and rigid-body dynamics of kinematically
driven machine components
COB 2 To understand the motion of linked mechanisms in terms of the displacement
velocity and acceleration at any point in a rigid link
COB 3 To be able to design some linkage mechanisms and cam systems to generate
specified output motion
COB 4 To understand the kinematics of gear trains
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the inversions and applications of a kinematic chain
CO 2 Construct the velocity and acceleration diagrams using Relative velocity
method and Instantaneous centre method
CO 3 Construct displacement diagram and profile of Cam with different types of
follower motions
CO 4 Calculate the velocities of different components of a gear train
CO 5 Explain how real time machines work and operate
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 1 1 1 - - - - - - - -
CO2 (K3) 2 2 1 1 - - - - - - - 1
CO3 (K4) 2 2 2 1 - - 1 - - - - 1
CO4 (K3) 3 2 2 1 - - 1 - - - - 1
CO5 (K3) 2 2 2 1 - - 1 - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Classification of mechanisms- Basic kinematic concepts and definitions- Degree of
freedom mobility- Grashofrsquos law Kinematic inversions of four bar chain and slider
crank chains-Limit positions- Mechanical advantage- Transmission angle- Description
of some common mechanisms- Quick return mechanism straight line generators-
Universal Joint- Rocker mechanisms
UNIT-II
Kinematics Plane motion of body Instantaneous centre of rotation centrode and axode
- relative motion between two bodies ndash Kennedyrsquos three centres in line theorem ndash
Graphical determination of instantaneous centre for simple bar four bar and single slider
AR19 Mechanical Engineering
Aditya Engineering College (A) 91
crank chain mechanisms and determination of angular velocity of points and links
Motion of a link in machine - Determination of Displacement velocity and acceleration
for a Simple Four Bar Mechanism Single slider crank chain mechanism Double slider
crank chain mechanism (Whitworth Quick Return Motion mechanisms)
UNIT-III
CAMS Definition and classification of cams and followers - their uses - Terminology
- Types of follower motion Uniform velocity Simple harmonic motion and uniform
acceleration and retardation Cycloidal motion for Knife edge Flat face and Roller
follower and offset follower
UNIT-IV
Power Transmission Introduction ndashModes of power transmission applications
Gears and Gear trains Classification Terminology Law of Gearing path of contact
arc of contact Interferences methods of avoiding interferences Simple gear train
compound gear train reverted gear train epicyclical gear train and Differential
UNIT-V
Practical Applications Design and fabrication of any one of the following
mechanisms Whitworth Quick Return Mechanism Oscillating Cylinder Mechanism
Elliptical Trammel ManualMotorized Scotch Yoke Mechanism Piston Bench Tapping
Machine Mini Conveyor using Geneva Mechanism Mini Hacksaw Powered by Beam
Engine
Text Books
1 Theory of Machines Thomas Bevan 3rd edition CBS Publishers amp Distributors
2005
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East-
West Press
Reference Books
1 Cleghorn WL Mechanisms of Machines Oxford University Press 2005
2 Robert L Norton Kinematics and Dynamics of Machinery Tata McGrawHill
2009
3 Ghosh A and Mallick AK Theory of Mechanisms and Machines Affiliated East
West Pvt Ltd New Delhi 1988
4 Kinematics of Machinery through Hyper Works JS Rao Springer Publ
5 Theory of Machines by Jagadishlal-Metropolitan Book Co
6 Theory of Machines by RS Khurmi and J K Gupta ndash S Chand Publishers
AR19 Mechanical Engineering
Aditya Engineering College (A) 92
THERMAL ENGINEERING-I
IV Semester L T P C
Course Code 191ME4T08 3 0 0 3
Course Objectives
COB 1 To impart the knowledge and providing holistic view on IC Engines and its
developments
COB 2 To enable the students to calculate the performance and testing of IC engines
COB 3 To fetch with SI amp CI fueling system and combustion behaviour and its
advancements to meet the stringent emission norms
COB 4 Understanding the formation and control strategies of SI and CI Engine
emissions
Course Outcomes
At the end of the Course Student will be able to
CO 1 Differentiate the ideal air standard cycles and actual thermodynamic cycles
CO 2 Evaluate the Engine performance based on the experimental data
CO 3 Analyze the fueling system and combustion behaviour of SI engine
CO 4 Analyze the fueling system and combustion behaviour of CI engine
CO 5 Explain the formation of emissions and its control strategies of bot SI amp CI
Engines
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K4) 3 3 2 2 3 3 - - - 3 3 -
CO3 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO4 (K2) 2 1 - - 2 2 - - - 3 2 -
CO5 (K3) 3 2 1 1 3 3 - - - 3 3 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K4) - - -
CO3 (K3) 3 - -
CO4 (K2) 2 - -
CO5 (K3) - - -
UNIT-I
Actual Cycles and Engine Construction Introduction Comparison of Air Standard
and Actual Cycles Time Loss Factor Heat Loss Factor Exhaust Blow down-Loss due
to Gas exchange process Volumetric Efficiency Loss due to Rubbing Friction Actual
and Fuel-Air Cycles of CI Engines Constructional Details of Four Stroke SI and CI
Engines Working Principle Actual Indicator Diagram Two Stroke Engine
Construction and Operation Comparison of Four Stroke and Two Stroke Engine
Operation Firing Order and Its Significance UNIT-II
ENGINE TESTING amp PERFORMANCE
Engine Performance Testing amp Numerical- methods and Performance
Characteristics
AR19 Mechanical Engineering
Aditya Engineering College (A) 93
Testing and measurement equipment- dynamometers Air amp Fuel consumption
temperature etc Variables Affecting Engine Performance Performance Maps
Lubrication and Cooling systems Introduction to Supercharging and Turbocharging
UNIT-III
SI ENGINE FUELING amp COMBUSTION
Carburetor Working Principle Requirements of an Automotive Carburetor and types
Fuel Injection Systems Pre-mixed charge combustion SI Engine Combustion
Conceptual models Thermodynamic Analysis of Combustion Cycle-to-Cycle
Combustion variations and Knocking Combustion
UNIT-IV
CI ENGINE FUELING amp COMBUSTION
Fuel Injection and Spray Structure Fuel Atomization and Droplet size distribution Sauter
Mean Diameter Spray Penetration CI Engine Combustion Conceptual Models
Conventional and Decrsquos Combustion Models Diesel Combustion Process
Characterization Ignition Delay Effect of Engine and Operational Parameters on Delay
Pre-mixed Combustion Mixing Controlled Combustion Thermodynamic Analysis
Multi Pulse Injections Introduction to Low Temperature Combustion Like
Homogeneous Charge Compression Ignition(HCCI) Fuel Stratified Charge combustion
Reactivity Controlled Compression Ignition (RCCI) Technologies Pre-mixed Charge
Compression (PCCI) and Dual fuel technologies
UNIT-V FORMATION OF ENGINE EMISSIONS amp CONTROL TECHNOLOGIES (SI amp CI)
Emission Effects on Health amp Environment Sources of Engine emissions Formation of
CO NO UBHC Soot and Particulate Matter Diesel NOx-Particulate Trade off Effect
of SI Design and operating variables Effect of Diesel Engine Design and operating
Variables SI Engine Emission Control Technology Add-on systems for treatment of
Emissions with in Engine Exhaust After treatment CI Engine Emission Control
Technology Application of EGR Exhaust after treatment and new engine technologies
for emission control
Text Books
1 IC Engines ML Mathur amp RP Sharma Dhanpath Rai amp Sons
2 Engine Emissions Pollutant Formation and Advances in Control Technology BP
Pundir Narosa Publishing House
Reference Books
1 IC Engines Fundamentals John B Heywood Mc Graw Hill Publications
2 Engineering Fundamentals of I C Engines Wiliard WPulkrabek Prentice Hall
Publications
3 Mixture Formation in Internal Combustion Engines Carsten Baumgaten Springer
Pub
4 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
Web Links
1 httpnptelacincourses112105123
2 httpnptelacincourses112108148
3 httpnptelacincourses112104113
4 httpnptelacincourses112104033
AR19 Mechanical Engineering
Aditya Engineering College (A) 94
PRODUCTION TECHNOLOGY LAB
IV Semester L T P C
Course Code 191ME4L03 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge of Casting Process
COB 2 To provide practical exposure to students to understand various welding
techniques
COB 3 To impart knowledge of metal forming processes
COB 4 To develop the knowledge for plastics processing techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate mould making process for casting process and sand preparation
methods
CO 2 Identify basic knowledge of casting defects and their remedies
CO 3 Differentiate between various gas welding arc welding processes and Solid
state welding process
CO 4 Apply the principles of sheet-metal forming process for making a
component
CO 5 Produce the plastic object through different plastic processing techniques
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - 3 - -
CO2 (K3) 2 1 - - - 2 - - - - - -
CO3 (K4) 2 1 - - - - - - 3 3 2 -
CO4 (K5) 3 2 - - - - - - - 3 3 -
CO5 (K3) 3 2 - - - - - - - 3 3 -
Mapping of course outcomes with program Specific Outcomes
CO PO PSO1 (K3) PSO2 (K4) PSO3 (K3)
CO1 (K3) 3 - -
CO2 (K3) 2 1 -
CO3 (K4) 2 1 2
CO4 (K5) 3 2 -
CO5 (K3) 3 - 3
The following experiments are required to be conducted as compulsory experiments
Casting
1 To design and manufacture a Wooden Pattern for a given Casting
2 To prepare a Casting for the given Solid Pattern using Green Sand Molding
Processes
3 To Prepare a Aluminium Casting for the given Split Pattern using Green Sand
Molding Processes
Welding
4 To prepare a V Butt amp Lap Joint using Arc Welding Process
5 To prepare a lap Joint on the given work pieces using spot welding equipment
6 To prepare a V Butt Joint Using TIG Welding
7 To prepare a corner Joint amp T Joint using Arc Welding Process
AR19 Mechanical Engineering
Aditya Engineering College (A) 95
Sheet metal experiment
8 To perform the punching and blanking operation
9 To prepare a work piece using Compound die
Bulk deformation
10 To perform Bending Operation on a given pipe
Plastic Processing technique
11 To make an Air Tight Bottle Cap amp Screw type Bottle Cap by Using Injection
Moulding
12 To prepare a plastic bottle by using Blow Moulding
LIST OF AUGMENTED EXPERIMENTS
13 to 17 (Any two of the following experiments can be performed)
13 To determine the Grain size Permeability and Compressive Strength of the
Molding Sand
14 To prepare a Single Strap Butt Joint on the given work pieces using spot welding
equipment
15 To prepare a Lap Joint Using TIG welding and MIG welding
16 To study the progressive tool and perform blanking and piercing operations
17 To determine the punching force and blanking force theoretically and compare
obtained readings
Reference Books
1 Aditya Engineering College Laboratory Manual
2 Workshop Technology Chapman WAJ Arnold Publisher Vol I and II 4th
Edition
3 Elements of Manufacturing Technology Vol II Hajra ChoudharySK amp Hajra
Web Links
1 httpwwwsmeorgfmp
2 httpscosmolearningorgcoursesmanufacturing-processes-i-538video-lectures
AR19 Mechanical Engineering
Aditya Engineering College (A) 96
COMPUTER AIDED MACHINE DRAWING
IV Semester L T P C
Course Code 191ME4L04 0 0 3 15
Course Objectives
COB 1 To impart the fundamental knowledge of machine drawing by elaborating
on how to concretize the idea of new structure such as a machine element
COB 2 To study the conventions and rules to be followed by engineers for making
accurate drawings
COB 3 To understand the basic dimensioning practices that has to be followed in
the preparation of drawings
COB 4 To inculcate the reading of the drawings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Discuss the conventional representation of materials and machine
components
CO 2 Apply the principles of engineering drawing in machine drawing
CO 3 Construct various types of temporary fasteners
CO 4 Sketch various types of permanent fasteners
CO 5 Practice assembly drawings from the given part drawings for
manufacturing
CO 6 Construct part drawings from the given assembly drawing
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 - - - - - - - 3 - -
CO2 (K3) 3 - 1 - - - - - - 3 - -
CO3 (K3) 3 - 1 - - - - - - 3 - -
CO4 (K3) 3 - 1 - - - - - - 3 - -
CO5 (K3) 3 - 1 - - - - - - 3 - -
CO6 (K3) 3 - 1 - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - 2
CO2 (K3) 3 - 3
CO3 (K3) 3 - 3
CO4 (K3) 3 - 3
CO5 (K3) 3 - 3
CO6 (K3) 3 - 3
UNIT-I
Machine Drawing Conventions
Need for drawing conventions ndash introduction to standard conventions
A) Conventional representation of materials common machine elements and parts such
as screws nuts bolts keys gears webs ribs
B) Types of sections ndash selection of section planes and drawing of sections and auxiliary
sectional views Parts not usually sectioned
C) Drawing of machine elements and simple parts Selection of views additional views
for the following machine elements and parts with easy drawing proportions
AR19 Mechanical Engineering
Aditya Engineering College (A) 97
i) Standard forms of screw threads bolts nuts stud bolts tap bolts set screws
ii) Keys cotter joint and knuckle joint
iii) Riveted joints for plates
iv) Shaft coupling spigot and socket pipe joint
v) Journal bearing and foot step bearing
UNIT-II
Assembly Drawings
Drawings of assembled views for the part drawings of the following using conventions
and easy drawing proportions
A) Engine parts ndash eccentric petrol engine connecting rod piston assembly
B) Other machine parts - screw jack machine vice Plummer block lathe tailstock
C) Valves- steam stop valve non-return valve and feed check valve
Production Drawing (only for Practice not for Examination)
Introduction to Limits Fitsamp Tolerances Types of Assembly systems Importance of
BOM Part drawing procedure construction of part drawings from the given assembly
drawings using conventions and easy drawing proportions Part drawings of Eccentric
Single tool post Plummer block Screw Jack
Note Sheets under unit I need to be practiced with any one basic 2D drafting software
Sheets under assembly drawing need to be practiced with any one solid modelling
software Sheets under production drawing need to be practiced with Drafting and solid
modelling software
Note for question paper Students should answer 2 questions from unit I and 1 question
from unit II Each question will have internal choice Unit I carries 20 Marks and Unit
II carries 40 Marks
Text Books
1 Machine Drawing NSiddeswarPKannaiahVVSSastry Mcgraw hill education
2
3
Machine Drawing GRNagpal Khanna publications
Machine Drawing NDBhatt
Reference Books
1 Ajeet Singh Machine Drawing includes AutoCAD McGraw Hill 2nd Edition
2 Machine drawing PSGill SKKataria amp Sons 3rd Edition
3 Goutam Pohit Goutam Ghosh Machine Drawing with AutoCAD Pearson
Education 1st Edition
Web Links
1 nptelacinsyllabus112106075
2 wwwmachinedesignonlinecom
AR19 Mechanical Engineering
Aditya Engineering College (A) 98
EMPLOYABILITY SKILLS-II (Common to all branches)
Course Objectives
COB 1 To Teach Empathy For Solving Complex Problems
COB 2 To Inculcate Reading Skills
COB 3 To Teach Competitive Written English
COB 4 To Teach Team Building ampLeadership Skills
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K4)
CO 2(K3)
CO 3(K2)
CO 4(K5)
CO 5(K3)
CO 6(K4)
UNIT-I
Aptitude Symbols ampNotations Direction test
Soft Skills Team work leadership skills
UNIT-II
Aptitude Venn Diagrams Blood Relations
Soft Skills Negotiation skills persuasionamp Negotiation stages of Negotiation
UNIT-III
Aptitude Problems on Numbers
Soft Skills Listening skills types of listening Active listening
IV Semester L T P C
Course Code 191MC4A05 0 0 2 0
CO 1 Examine the symbols notations and Venn -diagrams
CO 2 Explain Empathy to Create Positive
CO 3 Observe Different Types Of Number Systems
CO 4 Deduct the logics in the puzzles and arrangements
CO 5 Solve Ratio ampProportion Ages and Averages By Using Simple Logics
CO 6 Correlate Teambuilding ampLeadership Skills
AR19 Mechanical Engineering
Aditya Engineering College (A) 99
UNIT-IV
Aptitude Ratio ampproportion
Soft Skills Verbal Aptitude -II Idioms amp phrases
UNIT-V
Aptitude Average and Ages
Soft Skills Verbal Aptitude -III sentence Anagram Reading Comprehension
Text Books
1 A Modern Approach to Verbal amp Non-Verbal Reasoning- Dr RS Aggarwal S
CHAND
2 Quantitative Aptitude - Dr RS Aggarwal S CHAND
3 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 General Intelligence and Test of Reasoning- S CHAND
2 Logical Reasoning ndashArun Sharma Mc Graw Hill Publications
3 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
4 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
5 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom
AR19 Mechanical Engineering
Aditya Engineering College (A) 100
BIOLOGY FOR ENGINEERS (Common to all branches)
Course Objectives
COB 1 To introduce students to modern biology with an emphasis on evolution of
biology as a multi-disciplinary field
COB 2 To make them aware of application of engineering principles in biology
and engineering robust solutions inspired by biological examples
Course Outcomes
At the end of the Course Student will be able to
Mapping of Course Outcomes with Program Outcomes
CO PO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1 (K3) - - - - - - - - - - - -
CO 2 (K2) - - - - - - - - - - - -
CO 3 (K3) - - - - - - - - - - - -
CO 4 (K2) - - - - - - - - - - - -
CO 5 (K2) - - - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 (K3) - - -
CO 2 (K2) - - -
CO 3 (K3) - - -
CO 4 (K2) - - -
CO 5 (K2) - - -
UNIT-I
Introduction to life
Characteristics of living organisms-Basic classification-cell theory-structure of
prokaryotic and eukaryotic cell-Introduction to biomolecules definition-general
classification and important functions of carbohydrates-lipids-proteins-nucleic acids
vitamins and enzymes-genes and chromosome
UNIT-II
Biodiversity
Plant System basic concepts of plant growth-nutrition-photosynthesis and nitrogen
IV Semester L T P C
Course Code 191MC4A06 2 0 0 0
CO 1
Apply biological engineering principles procedures needed to solve real-
world problems
CO 2 Demonstrate the fundamentals of living things their classification cell
structure and biochemical constituents
CO 3 Apply the concept of plant animal and microbial systems and growth in real
life situations
CO 4 Explain genetics and the immune system to know the cause symptoms
diagnosis and treatment of common diseases
CO 5 Demonstrate basic knowledge of the applications of biological systems in
relevant industries
AR19 Mechanical Engineering
Aditya Engineering College (A) 101
fixation-Animal System elementary study of digestive-respiratory-circulatory-excretory
systems and their functions Microbial System history-types of microbes-economic
importance and control of microbes
UNIT-III
Genetics and immune system
Evolution theories of evolution-Mendelrsquos cell divisionndashmitosis and meiosis-evidence of
e laws of inheritance-variation and speciation- nucleic acids as a genetic material-central
dogma immunity antigens-antibody-immune response
UNIT-IV
Human diseases
Definition- causes symptoms diagnosis treatment and prevention of diabetes cancer
hypertension influenza AIDS and Hepatitis
UNIT-V
Biology and its industrial application
Transgenic plants and animals-stem cell and tissue engineering-bioreactors-
biopharming-recombinant vaccines-cloning-drug discovery-biological neural networks-
bioremediation-biofertilizer-biocontrolbiofilters-biosensors-biopolymers-bioenergy-
biomaterials-biochips-basic biomedical instrumentation
Text Books
1 A Text book of Biotechnology RCDubey S Chand Higher Academic
Publications 2013
2 Diseases of the Human Body Carol D Tamparo and Marcia A Lewis FA Davis
Company 2011
3 Biomedical instrumentation Technology and applications R Khandpur McGraw
Hill Professional 2004
Reference Books
1 Biology for Engineers Arthur T Johnson CRC Press Taylor and Francis 2011
2 Cell Biology and Genetics (Biology The unity and diversity of life Volume I) Cecie
Starr Ralph Taggart Christine Evers and Lisa Starr Cengage Learning 2008
3 Biotechnology Expanding horizon BD Singh Kalyani Publishers 2012
Web Links
1 httpswwwbiology-onlineorg
2 httpwwwbiologyreferencecom
3 httpwwwallexpertscombrowsecgicatLvl=2ampcatID=229
4 httpswwwlibraryqmulacuksubject-guidesbiological-sciences
AR19 Mechanical Engineering
Aditya Engineering College (A) 102
DYNAMICS OF MACHINERY
V semester L T P C
Course Code 191ME5T09 3 0 0 3
Course Objectives
COB 1 To equip the student with fundamental knowledge of dynamics of machines so
that student can appreciate problems of dynamic force balance transmissibility
of forces isolation of systems vibrations
COB 2 To develop knowledge of analytical and graphical methods for calculating
balancing of rotary and reciprocating masses
COB 3 To develop understanding of vibrations and its significance on engineering
design
COB 4 To develop understanding of dynamic balancing flywheel analysis gyroscopic
forces and moments
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze stabilization of sea vehicles aircrafts and automobile vehicles
CO 2 Compute frictional losses and torque transmission of mechanical systems
CO 3 Calculate the dynamic forces acting on the flywheels and governors
CO 4 Apply analytical and graphical methods of calculating balancing of rotary and
reciprocating masses
CO 5 Determine the natural frequencies of vibrating system
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - 1
CO2 (K3) 3 2 2 1 - - - - - - - 1
CO3 (K3) 2 2 2 1 - - - - - - - 1
CO4 (K4) 2 2 2 1 - - - - - - - 1
CO5 (K3) 2 2 2 1 - - - - - - - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K4) 1 - -
CO5 (K3) 1 - -
UNIT-I
Precession Gyroscopes effect of precession motion on the stability of moving vehicles
such as motor car motor cycle aero planes and ships (Demonstration of models in video
show)
UNIT-II
Clutches Friction clutches- uniform pressure uniform wear single disc or plate clutch
multiple disc clutch cone clutch centrifugal clutch
Brakes And Dynamometers Simple block brakes internal expanding brake band brake
AR19 Mechanical Engineering
Aditya Engineering College (A) 103
of vehicle General description and operation of dynamometers Prony Rope brake
Epicyclic Bevis Gibson and belt transmission
UNIT-III
Turning Moment Diagrams Dynamic force analysis of slider crank mechanism inertia
torque angular velocity and acceleration of connecting rod crank effort and turning
moment diagrams ndash fluctuation of energy ndash fly wheels and their design
Governers Watt porter and proell governors spring loaded governorsndash Hartnell and
Hartung with auxiliary springs Sensitiveness isochronism and hunting
UNIT-IV
Balancing Balancing of rotating masses single and multiple ndash single and different planes
use analytical and graphical methods Primary secondary and higher balancing of
reciprocating masses Analytical and graphical methods unbalanced forces and couples
locomotive balancing hammer blow swaying couple variation of tractive effort
UNIT-V
Vibrations Free and forced vibration of single degree of freedom systems effect of
damping vibration isolation and transmissibility resonance critical speeds of shafts
Text Books
1 Theory of machines- Thomas Bevan
2 Theory of Machines ndash S S Rattan ndash TMH
3 Theory of machines and mechanisms ndash PLBallaney-Khanna publications
Reference Books
1 Theory of Machines ndash Sadhu Singh Pearsons Edn
2 Mechanical Vibrations ndash G K Grover
3 Mechanism and Machine Theory - JSRao RV Dukkipati New Age
4
5
Mechanism and Machine Theory ndash Ashok G Ambekar PHI Publication
Theory of Mechanisms and Machines ndash Amithaba Ghosh and A K Mallik ndash East- West
Press
Web Links
1 httpswwwslidesharenethareeshangunit-7-gyroscope
2 httpwwwsvecweduinDocs5CMEDMLNotes2013pdf
3 httpswwwvidyarthipluscomvpattachmentphp
4 httpnptelacindownloads112101096
AR19 Mechanical Engineering
Aditya Engineering College (A) 104
DESIGN OF MACHINE MEMBERS-I
V Semester L T P C
Course Code 191ME5T10 3 0 0 3
Course Objectives
COB 1 To illustrate the design function in mechanical engineering the steps involved
in designing and the relation of design activity with manufacturing activity
COB 2 To enable the student select proper materials for different machine elements
based on their mechanical properties
COB 3 To impart knowledge about various theories of failure to design a machine
component
COB 4 To teach the student to estimate the strength of machine elements
COB 5 To make the student learn the design procedure for the different machine
elements such as fasteners shafts couplings keys axially loaded joints etc
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the design procedure to engineering problems including the consideration
of technical and manufacturing constraints
CO 2 Evaluate the strength stiffness and fatigue of machine elements
CO 3 Analyze various types of stresses on mechanical components subjected to both
static and dynamic loads
CO 4 Explain the design of fasteners subjected to eccentric amp fluctuating loads
CO 5 Calculate the design parameters of various components like springs and pressure
vessels
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 3 - 3 - - 3 -
CO2 (K5) 2 2 3 3 - - - - - - - -
CO3 (K4) 2 3 2 2 - - - - - - - -
CO4 (K4) 2 2 2 2 - - - - - - - -
CO5 (K3) 3 2 1 1 3 3 - 3 - - 3 -
Mapping of course outcomes with program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 2 -
CO2 (K5) 3 - -
CO3 (K4) 3 - -
CO4 (K4) 3 - -
CO5 (K3) - 2 -
UNIT-I
Introduction to Machine Design
Introduction to machine design- Engineering Materials and their properties ndash selection
ndashManufacturing considerations in design- Preferred numbers- BIS Codes ndash Combined
Stresses - Complex Stresses - Stresses on an inclined plane under different uniaxial and
biaxial stress conditions - Principal planes and principal stresses - Mohrrsquos circle -
various theories of failure
AR19 Mechanical Engineering
Aditya Engineering College (A) 105
UNIT-II
Design Under Fluctuating Stresses
Stress concentration ndashTheoretical Stress Concentration Factor ndash Fatigue Stress
Concentration Factor - Notch Sensitivity ndash Design for fluctuating stresses ndash Endurance
limit ndashEstimation of endurance strength ndash Goodmanrsquos line ndash Soderbergrsquos line ndash Modified
Goodmanrsquos line
Design of Shafts
Design of solid and hollow shafts for strength and rigidity ndash Design of shafts for
combined bending and axial loads ndash shaft sizes - Design of shafts for gear and belt
drives
UNIT-III
Design of Keys and Couplings
Design of keys-stresses in keys- Rigid couplings ndash Muff Split muff and Flange
couplings-Flexible couplings ndash Flange coupling (Modified)
Cotter amp Knuckle Joints
Spigot and socket Sleeve and cotter Jib and cotter joints- Knuckle joints
UNIT-IV
Design of Fasteners
Riveted and welded joints ndash Design of joints with initial stresses ndash Eccentric loading
Bolted joints ndash Design of bolts with pre-stresses ndash Design of joints under eccentric
loading ndash Locking devices ndash Bolts of uniform strength Different seals
UNIT-V
Springs
Stresses and deflections of helical springs ndash Extension -Compression springs ndash Springs
for fatigue loading Energy storage capacity ndash Helical torsion springs ndash Co-axial springs
Leaf springs
Pressure Vessels
Thin seamless cylindrical shells ndash Derivation of formula for longitudinal and
circumferential stresses ndash Hoop Longitudinal and Volumetric strains ndash Changes in
diameter and volume of thin cylinders ndash Riveted boiler shells ndash Thin spherical shells -
Thick Cylinders- Lamersquos equation ndash Cylinders subjected to inside amp outside pressures
ndashCompound cylinders
Note Design data books are not allowed for End Semester Examinations
Text Books
1 Design of Machine Elements VBBhandari TMH Publishers 4th Edition
2 Machine Design Pandya amp Shah Charothar Publishers 17th Edition
Reference Books
1 Mechanical Engineering Design JEShigley amp CRMischkie Tata McGraw Hill
3rd Edition
2 Machine Design Sundararajamoorthy TVamp ShanmugamN Anuradha
Publications
3 Design of Machine Elements MFSpotts Pearson Education 8th Edition
4 Design Data PSG College of Technology Kalaikathir Achchagam Publishers 2nd
Edition
5 Design Data Hand Book SMdJalaludeen Anuradha Publications
AR19 Mechanical Engineering
Aditya Engineering College (A) 106
Web Links
1 httpnptelacincoursesWebcourse contents IIT 20Kharagpur Machine20
design1 New_index1html
2 httpwwwnptelacindownloads112105125
3 httpwwwalljntuworldindownloaddesign-machine-members-1-dmm-1-
materials- notes
4 wwwjntumaterialscoin201504jntujntuk-design-of-machine-members-ihtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 107
THERMAL ENGINEERING - II
V Semester L T P C
Course Code 191ME5T11 3 0 0 3
Course Objectives
COB 1 To develop basic knowledge of students on Rankine cycles
COB 2 To provide sufficient knowledge on Boilers and chimneys to the students
COB 3 To enable studentsrsquo knowledge on steam nozzles and steam turbines
COB 4 To improve the knowledge of students on steam formation process
COB 5 To provide sufficient knowledge to the students on gas turbines and its
application
Course Outcomes At the end of the Course Student will be able to
CO 1 Apply different methods used to improve the efficiency of Rankine Cycle
CO 2 Solve problems related to boiler efficiency and chimney
CO 3 Analyze the performance of Steam nozzles and steam turbines
CO 4 Distinguish different types of condenser used in a steam power plant
CO 5 Explain the methods to increase the performance of Gas Turbine and its
applications
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 3 - - - - - - - - - -
CO2 (K3) 3 2 - - - - - - - - - 1
CO3 (K4) 3 3 - - - - - - - - - 1
CO4 (K4) 3 3 - - - - - - - - - -
CO5 (K4) 3 3 - - - - - - - - - 2
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 2 - -
CO2 (K3) 2 - -
CO3 (K4) 2 - -
CO4 (K4) 2 - -
CO5 (K4) 2 - -
UNIT-I
Introduction to Steam Power Cycles
Rankine cycle Schematic layout Thermodynamic analysis Methods to improve cycle
performance ndash Regeneration amp reheating
Combustion Fuels and combustion Concepts of heat of reaction Adiabatic flame
temperature Stoichiometry and flue gas analysis
UNIT-II
Boilers amp Draught
Classification Working principles of LP amp HP boilers with sketches mountings and
accessories Working principles Boiler horse power Equivalent evaporation Efficiency
and heat balance
Draught Classification height of chimney for given draught and discharge Condition
for maximum discharge Efficiency of chimney Artificial draught Induced and Forced
draught
AR19 Mechanical Engineering
Aditya Engineering College (A) 108
UNIT-III
Steam Nozzles
Function of a nozzle applications types Flow through nozzles and thermodynamic
analysis assumptions velocity of fluid at nozzle exit - Ideal and actual expansion in a
nozzle Velocity coefficient and condition for maximum discharge Critical pressure
ratio Super saturated flow and its effects Degree of super saturation and Degree of under
cooling Wilson line
Steam Turbines
Classification Impulse turbine-Mechanical details velocity diagram effect of friction
power developed Axial thrust Blade or diagram efficiency condition for maximum
efficiency De-Laval turbine methods to reduce rotor speed-Velocity compounding
Pressure compounding and velocity amp pressure compounding Velocity and pressure
variation along the flow combined velocity diagram for a velocity compounded impulse
turbine Condition for maximum efficiency
UNIT-IV
Reaction Turbine
Mechanical details principle of operation Thermodynamic analysis of a stage Degree
of reaction velocity diagram Parsonrsquos reaction turbine Condition for maximum
efficiency Calculation of blade height
Steam Condensers
Requirements of steam condensing plant Classification of condensers working principle
of different types vacuum efficiency and condenser efficiency air leakage Sources and
its affects Air pump cooling water requirement
UNIT-V
Gas Turbines
Simple gas turbine plant Ideal cycle Essential components parameters of performance
Actual cycle Regeneration Inter cooling and reheating Closed and semi-closed cycles
Merits and demerits Types of combustion chambers
Jet Propulsion
Principle of operation Classification of jet propulsive engines Working principles with
schematic diagrams and representation on T-S diagram thrust thrust power and
propulsion efficiency turbo jet engines - schematic diagram Thermodynamic cycle
Performance evaluation Thrust augmentation methods ndash Simple Problems
Rockets
Application working principle Classification propellant type thrust Propulsive
efficiency specific impulse Solid and Liquid propellant rocket engines
Text Books
1 Thermodynamics and Heat Engines Volume- II RYadav Central publishing house
6th Edition
2 Heat Engineering VP Vasandani and DS Kumar Metropolitan Book Company 6th
Edition
Reference Books 1 Thermal Engineering PLBallaney Khanna publishers25th Edition
2 Thermal Engineering MLMathur amp Mehta Jain bros 6th Edition
3 Gas Turbines V Ganesan Tata McGraw-Hill Education 3th Edition
4 Thermal Engineering RK Rajput Laxmi Publications 10th Edition
AR19 Mechanical Engineering
Aditya Engineering College (A) 109
Web Links 1 httpsnptelacincourses112103112103277
2 httpnptelacincourses112106166
3 httphomeiitkacin~sullerlectureslec29htm
AR19 Mechanical Engineering
Aditya Engineering College (A) 110
AUTOMOBILE ENGINEERING (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E01 3 0 0 3
Course Objectives
COB 1 To equip the students with fundamental working principles and technologies
in automotive engineering
COB 2 To introduce basic and entry level theories and terminology
COB 3 To make aware of the importance of transmission system
COB 4 To impart the principles of automobile systems sub systems and provides
the salient features of safety of automobiles
Course Outcomes
At the end of the Course Student will be able to
CO 1 Summarize the Vehicle Chassis Layouts of 4-wheelers and Motor Vehicle
Act
CO 2 Identify the different constructional features and working principles of Un-
Sprung components of the given vehicle
CO 3 Identify the different constructional features and working principles Sprung
components of the given vehicle
CO 4 Summarize the functionalities of various Electrical systems of typical
Automobile
CO 5 Explain the different Active and Passive Vehicle Safety Systems
Mapping of course outcomes with program outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
CO 1(K2) 2 1 - - - - 3 - 3 3
CO 2(K3) 2 1 - - - - 3 - - 3
CO 3(K3) 2 1 - - - - - - - 3
CO 4(K2) 2 1 - - - - - - 3 3
CO 5(K3) 3 2 - - - - - - - -
Mapping of course outcomes with program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1 K2) 3 - -
CO 2(K3) 2 - -
CO 3(K3) 2 - -
CO 4(K2) 2 - -
CO 5(K3) 3 - 3
UNIT-I
Introduction
Components of four wheeler automobile ndash chassis and body ndashChassis Layout - power
transmission ndash rear wheel drive front wheel drive 4 wheel drive and Motor Vehicle Act
1988 ndash Legal AspectsCompliance of Automotive
Vehicles Introduction to Motor Vehicle Act Registration of Vehicles Inspection and
Fitness of vehicles and Homologation of Vehicles
UNIT ndash II
Transmission System
Clutches principle types gear boxes types Propeller shaft ndashHotch ndash Kiss drive
AR19 Mechanical Engineering
Aditya Engineering College (A) 111
Torque tube drive universal joint differential rear axlesndash types
Steering System
Steering geometry ndash camber castor king pin rake combined angle toe-in toe-out
center point steering Types of steering mechanism ndashAckerman steering mechanism
Davis steering mechanism steering linkages
UNIT ndash III
Suspension System
Objects of suspension systems ndash rigid axle suspension system torsion bar shock
absorber Independent suspension system Air Suspension Rubber Suspension
Hydrolastic suspension system Hydragas suspension system
Braking System
Mechanical braking system hydraulic braking system requirement of brake fluid
pneumatic and vacuum brakes Parking Braking system
UNIT ndash IV
Wheels And Tyres
Basic Requirements of Wheels and Tyres Construction of Wheel Assembly Tyre
Construction Types Tyre Sizes and Designation Aspect Ratio Tyre Tread Pattern
Selection of Tyre under Different Applications
UNIT ndash V
Electrical System
Charging circuit generator starting system lighting horn wiper fuel gauge oil
pressure gauge engine temperature indicator
Safety Systems
Introduction safety systems - seat belt air bags bumper anti-lock brake system (ABS)
Electronic Brake force Distribution (EBD) mirrors central locking speed control
Retractable Steering system Head restraints seats with anti-submarine effects and fuel
cut off switch
Text Books
1 Automobile Engineering Vol 1 Dr Kirpal Singh Standard Publishers13th
Edition
2 Automotive Mechanics William H Crouse TMH Distributors10th Edition
Reference Books
1 Advanced vehicle Technology by Heinz Heisher 2nd BH Pub
2 Automotive Chassis by Jonsen Reimpell BH Pub
3 Automobile Electrical amp Electronics by Tom Denton 3rd Elsevier Pub
4 The Motor Vehicle Act 1988 Bare Act with Amendments Law Literature
Publication
5 The Central Motor Vehicle Rules 1989 Bare Act with short notes Lexis Nexis
Publications
Web Links
1 httpsnptelacincourses125106002
2 httpswwwautomotive-onlinecom
3 https sciencelinksjpj-eastarticle
4 https wwwsciencedirectcomsciencebook9780750650540
AR19 Mechanical Engineering
Aditya Engineering College (A) 112
COMPOSITE MATERIALS
(Professional Elective-I)
V Semester L T P C
Course Code 191ME5E02 3 0 0 3
Course Objectives
COB 1 To make the student aware about the composite materials Matrix fibers etc
COB 2 To make the student classify the composites based on the matrix material
COB 3 To make the student classify the composites based on the reinforcements
COB 4 To enable the student determine the strength of an orthotropic laminate
COB 5 To make the student determine stiffness and strength of unidirectional
composites
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain about the composite materials matrix fibers etc
CO 2 Select the composites based on the matrix materials
CO 3 Select the composites based on the reinforcements
CO 4 Calculate the stress and strain of various types of laminates
CO 5 Evaluate stiffness and strength of unidirectional composites
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 1 - - - - - - - - 1 - 1
CO2 (K4) 3 - - - - - - - - 1 - 1
CO3 (K4) 3 - - - - - - - - 1 - 1
CO4 (K3) 3 2 2 2 - - - - - 1 - 1
CO5 (K5) 3 3 3 3 - - - - - 1 - 1
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 1 - -
CO2 (K4) 3 - -
CO3 (K4) 3 - -
CO4 (K3) 3 - -
CO5 (K5) 3 - -
UNIT-I
Introduction Definitions Composites Reinforcements and matrices Types of
reinforcements Matrix materials Functions of a Matrix Desired Properties of a
Matrix Types of composites Carbon Fibre composites Properties of composites in comparison with standard materials Applications of metal ceramic and polymer
matrix composites Role and Selection or reinforcement materials Types of fibres
Glass fibers Carbon fibers Aramid fibers Metal fibers Alumina fibers Boron Fibers
Silicon carbide fibers Quartz and Silica fibers Multiphase fibers Whiskers Flakes
etc Mechanical properties of fibres Advantages and limitations of composite
materials
AR19 Mechanical Engineering
Aditya Engineering College (A) 113
UNIT-II
Classification based on Matrix Material
Organic Matrix composites Polymer matrix composites (PMC) Carbon matrix
Composites or Carbon-Carbon Composites Metal matrix composites (MMC) Ceramic
matrix composites (CMC)
Classification based on reinforcements Fiber Reinforced Composites Fiber
Reinforced Polymer (FRP) Composites Laminar Composites Particulate Composites
Comparison with Metals Advantages amp limitations of Fiber Reinforced Composites
UNIT-III Fabrication methods of composites
UNIT-IV
Laminates Plate Stiffness and Compliance Assumptions Strains Stress Resultants
Plate Stiffness and Compliance Computation of Stresses Types of Laminates -
Symmetric Laminates Anti-symmetric Laminate Balanced Laminate Quasi-isotropic
Laminates Cross-ply Laminate Angle-ply Laminate Strength of an orthotropic
Laminate Laminate Moduli Hygro thermal Stresses
UNIT-V
Mechanical Properties -Stiffness and Strength Geometrical aspects ndash volume and
weight fraction Unidirectional continuous fibre discontinuous fibers Short fiber
systems woven reinforcements ndashMechanical Testing Determination of stiffness and
strengths of unidirectional composites tension compression flexure and shear
Text Books
1 Composite materials Production properties testing and applications
K Srinivasan Alpha science international ltd
2 Mechanics of composite materials Robert M Jones CRC Press 2nd Edition
Reference Books
1 Composite materials Engineering and Science FL Matthews and R D
Rawlings Woodhead publishing
2 Composite materials Design and applications Daniel Gay CRC Press 3rd
Edition
3 Composite materials Krishan K Chawla Springer Publication 3rd Edition
4 Laminar composites George H Staab Elsevier Science amp Technology
Web Links
1 httpsnptelacincourses112104112104229
2 httpsnptelacincontentstorage2courses105108124pdfLecture_NotesLN
m1pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 114
FLUID ENGINEERING (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E03 3 0 0 3
Course Objectives
COB 1 To make students learn about different types of compressors and to calculate
power and efficiency
COB 2 Understand the concepts of hydraulic machines and their applications
COB 3 Understand the working principle of centrifugal pump and its characteristics
COB 4 Understand the principle of reciprocating pump
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the working of various types of reciprocating compressor
CO 2 Evaluate efficiency of various types of rotary compressors
CO 3 Compare different types of Turbines and its characteristics
CO 4 Explain the working principle of Centrifugal Pump
CO 5 Explain the working principle Reciprocating Pump
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 2 - - - 3 2 -
CO2 (K3) 3 2 1 1 3 3 - - - 3 3 -
CO3 (K3) 2 2 1 - - - - - - - - -
CO4 (K3) 3 3 1 - - - - - - - - -
CO5 (K3) 3 3 1 - - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
CO PSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) 2 - -
CO2 (K3) - - -
CO3 (K3) - 3 -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT ndashI
Compressors Classification Positive displacement and roto dynamic machinery
Power producing and power absorbing machines Fan Blower and Compressor
Positive displacement and dynamic types Reciprocating and rotary types
Reciprocating Compressor Principle of operation Work required Isothermal
efficiency Volumetric efficiency and effect of clearance Multi stage compression
Under cooling Saving of work Minimum work condition for two stage compression
UNIT-II
Rotary Compressor (Positive Displacement Type) Roots Blower Vane sealed
compressor Lysholm compressor Mechanical details and Principle of working
Efficiency considerations
Centrifugal Compressors Mechanical details and principle of operation Velocity and
AR19 Mechanical Engineering
Aditya Engineering College (A) 115
pressure variation Energy transfer-Impeller blade shape-losses Slip factor Power
input factor Pressure coefficient and adiabatic coefficient Velocity diagrams Power
Axial Flow Compressors Mechanical details and principle of operation Velocity
triangles and energy transfer per stage degree of reaction Work done factor - Isentropic
efficiency- Pressure rise calculations Polytropic efficiency
UNIT-III
Hydraulic Machines Turbines
Velocity Triangles and Work done for a Pelton Wheel Design of Pelton Wheel Radial
Flow reaction Turbines- Inward amp Outward Degree of reaction Francis Turbine Axial
Flow Reaction Turbines Draft Tube Specific Speed Unit Quantities Characteristic
curves of Hydraulic turbines and governing of turbines
UNIT-IV
Centrifugal Pumps
Work done by the Centrifugal Pump Heads and efficiencies Minimum speed to start
Multistage Specific speed Model testing Priming Characteristic curves Cavitation
Maximum suction Lift Net positive Suction Head
UNIT-V
Reciprocating Pumps
Discharge Work done and power required calculations Slip Variation of velocity and
acceleration in suction and delivery pipes Effect of variation of velocity on friction in
the suction and delivery pipes Indicator diagram Air vessels and Comparison of
Centrifugal and Reciprocating Pumps
Text Books
1 Heat EnginesVP Vasandani amp DS Kumar Metropolitan Book Co Pvt Ltd
4th Edition
2 Fluid Mechanics and Hydraulic Machines RK Bansal Laxmi Publications (P)
Ltd 9th Edition
Reference Books
1 Thermal Engineering RK Rajput Lakshmi Publications 10th Edition
2 Thermal Engineering PL Ballaney Khanna Publishers 25th Edition
3 Fluid Mechanics and Hydraulic Machines KL Kumar SChand publications
2008
4 Hydraulics and Fluid mechanics including Hydraulics machines by PNModiamp
SMSeth Rajsons publications pvt ltd Standard Book House (2017 edition)
5 Mechanics of fluids by Bernard Massey 9th Edition CRC Press 2019
Web Links
1 httpnptelacincourses112104033
2 httpwwwscience-animationscomfluidmechanicshtml
3 httpsiitbmechdampwordpress
4 httpsocwmiteducourses
AR19 Mechanical Engineering
Aditya Engineering College (A) 116
MECHANICAL VIBRATIONS (Professional Elective ndashI)
V semester L T P C
Course Code 191ME5E04 3 0 0 3
Course Objectives
COB 1 To analyze the various 1-D periodic and periodic responses of a vibrating
system with and without damping
COB 2 To derive the equations of motion and solution for Two and multi degree
freedom systems by the application of analytical methods
COB 3 To understand the numerical methods for quick estimation of 1st natural
frequency of multi degree freedom systems
COB 4 Have the knowledge of the various physical vibration measuring
instruments
COB 5 To solve vibrations problems of continuous systems
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the various 1-D periodic and periodic responses of an vibrating
system with and without damping and damping mechanisms
CO 2 Find solutions for two degree freedom systems with and without damping
for free and forced vibrations
CO 3 Derive solutions for Multi-degree freedom systems emphasing on modal
analysis techniques
CO 4 Estimate 1st natural frequency of multi degree freedom systems
CO 5 Apply the knowledge of the various physical vibration measuring
instruments and their applications in real life vibration data acquisition
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 2 1 - - - - - - - -
CO2 (K3) 3 2 2 1 - - - - - - - -
CO3 (K3) 2 2 2 1 - - - - - - - -
CO4 (K3) 2 2 2 1 - - - - - - - -
CO5 (K3) 2 2 2 1 - - - - - - - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) 1 - -
CO2 (K3) 1 - -
CO3 (K3) 1 - -
CO4 (K3) 1 - -
CO5 (K3) 1 - -
UNIT-I
Single degree of Freedom systems Undamped and damped free vibrations forced
vibrations coulomb damping Response to harmonic excitation rotating unbalance and
AR19 Mechanical Engineering
Aditya Engineering College (A) 117
support excitation Vibration isolation and transmissibility
UNIT-II
Vibration Measurement Vibrometers velocity meters amp accelerometers
Two degree of freedom systems Principal modes ndash undamped and damped free and forced
vibrations undamped vibration absorbers
UNIT-III
Multi degree of freedom systems Matrix formulation stiffness and flexibility influence
coefficients Eigen value problem normal modes and their properties Free and forced
vibration by Modal analysis Method of matrix inversion Torsional vibrations of multi ndash
rotor systems and geared systems Discrete Time systems
UNIT-IV
Numerical Methods Rayleighrsquos stodolarsquos Matrix iteration Rayleigh-Ritz Method and
Holzerrsquos methods
UNIT-V
Application of concepts Free vibration of strings ndash longitudinal oscillations of bars-
transverse vibrations of beams- Torsional vibrations of shafts Critical speeds without and
with damping secondary critical speed
Text Books
1 Theory of Vibrations with Applications 5th Edition William T Thomson Marie
Dillon Dahleh Chandramouli Padmanabhan John Vlissides
2 Mechanical Vibrations 8th Edition ndash GK Grover
Reference Books
1 Vibration problems in Engineering by SP Timoshenko
2 Mechanical Vibrations ndash Schaum series
3 Mechanical Vibrations 4th Edition Singiresu S Rao
4 Vibration and Acoustics 1st Edition C Sujatha
5 Elements of Vibration Analysis by Meirovitch
AR19 Mechanical Engineering
Aditya Engineering College (A) 118
METROLOGY amp INSTRUMENTATION (Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E05 3 0 0 3
Course Objectives
COB 1 To make the students understand the working of linear and angular measuring
instruments
COB 2 To familiarize with the working of optical measuring instruments and
fundamentals of limits and limit gauges
COB 3 To teach the basic idea about various methods for measurement of screw
thread and surface finish parameters
COB 4 To provide students an overview of mechanical measurements systems and
principle of instrument for motion and dimension measurement
COB 5 To provide basic idea about working principle and applications of devices
for measurement of temperature pressure flow level stress and strain
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain the concept of systems of limits and fits and theory of linear and
angular measurement
CO 2 Explain the surface roughness measurement screw thread measurement and
gear measurement
CO 3 Explain the concepts of machine tool alignments
CO 4 Select appropriate elements of a measurement system and select instruments
for displacement measurement
CO 5 Select instruments for temperature pressure and flow measurement
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - 1 - - - - - - 2 -
CO2 (K2) 2 1 - 1 - - - - - - 2 -
CO3 (K3) 3 2 - 1 - - - - - - 3 -
CO4 (K4) 2 3 - 2 - - - - - - 3 -
CO5 (K4) 2 3 - 2 - - - - - - 2 -
Mapping of Course Outcomes with Program Specific Outcomes
CO PSO PSO 1 (K5) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 1 -
CO2 (K2) - 1 -
CO3 (K3) - 2 -
CO4 (K4) - 3 -
CO5 (K4) - 3 -
UNIT- I
Linear and Angular Measurements Limits and Fits
ISO system Fits and Types of interchangeability Taylorrsquos Principle or plain limit
gauges Use of Plug Ring and Snap gauges Indicating type limit gauges Introduction-
Linear and Angular measurements - Slip gauges and End bars - Gauge material and
manufacturing methods Different types of Micrometers Height gauges Tomlinson
AR19 Mechanical Engineering
Aditya Engineering College (A) 119
gauges Precision polygon Sine bar Auto collimator
UNIT- II
Optical Measurement and Comparators
Dial indicator Sigma and Mechanical comparator Free flow and Back pressure type
Pneumatic comparator Application of set jet gauge heads Optical projector Chart
screen gauges and measuring methods Micro gauge bridge lines Tool makerrsquos
Microscope applications Measurement of Straightness and- Flatness Roundness
measurement with bench centers and talyround Coordinate Measuring Machine in
components geometries
UNIT- III
Surface Roughness Measurements and Gear tooth measurement
Parameters as per ISO indices Profilometer Taylor Hobson Talysurf Application of Thread metrology - 2 wire and 3 Wire methods Gear measurement - Gear tooth
thickness Parkinson gear tester General geometric tests for testing machine tools-Lathe drill mill
UNIT- IV
Displacement and Strain Measurement
Elements of instrumentation system Static and Dynamic characteristics Types of errors
Displacement transducers LVDT Strain measurement - Wire and foil type resistance strain gauges Rosette Gauges Bonding procedure Lead resistance compensation
Adjacent arm and self compensating gauges Proving ring Strain gauge load cells measurement of axial load and torsion by strain gauges Piezo electric load cell
UNIT- V
Temperature Pressure and Flow Measurement
Introduction to Seismic Transducers - displacement and acceleration measurement
Pressure measurement - Bourdon pressure gauge bulk modulus gauge pirani gauge
Temperature measurement by thermo couples Laws of thermo electricity Types of
materials used in thermocouples Rotameter magnetic ultrasonic turbine flow meter
hot ndash wire anemometer laser Doppler anemometer (LDA) dynamometers
Text Books
1 Dimensional MetrologyConnie Dotson Cengage Learning2016
2 Measurement System Applications and Design DSKumar Metropolitian book Co
pvtlmtd 1st edition
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers 2008
2 Engineering Metrology ICGupta Dhanpat Rai Publishers 2018
3 Mechanical and Industrial Measurements RK Jain Khanna Publishers 2008
4 Instrumentation measurement amp analysis BCNakra amp KKChoudhary TMH
2008
Web Links
1 httpsnptelacincourses112106179
2 httpswwwslidesharenetengrnoumanmetrology-measurement
3 httpwwwmetrologypggdapl
4 httpsindiaoupcomproductengineering-metrology
AR19 Mechanical Engineering
Aditya Engineering College (A) 120
ORGANIZATIONAL BEHAVIOUR
(Professional Elective ndashI)
V Semester L T P C
Course Code 191ME5E06 3 0 0 3
Course Objectives
COB 1 To make the students understand the factors affecting the individual behavior
and its impact on organizational behavior
COB 2 To impart the knowledge on management and the way it is performed in the
organizations
COB 3 To familiarize the students with the basic concepts of stress and emotions
the contributions of various managerial issues in the organization
COB 4 To obtain students of frameworks and tools to effectively analyze and
approach various organizational situations
COB 5 To intended to help the students to gain a solid understanding of human
behavior in the workplace from an individual group and organizational
perspective
Course Outcomes
At the end of the Course Student will be able to
CO 1
Explain the OB a range of organizational behavior models key elements and
roles of OB
CO 2 Analyze the behavior of individuals and groups in organizations in terms of
organizational behavior interpersonal behavior and personality traits
concepts
CO 3 Utilize various stress and emotional organizational behavior concepts
models and theories to real life management situations through case analysis
CO 4 Make use of organizational communication and organization culture to
understanding of organizational communication and culture to cope up with
the organization better way
CO 5 Classify the different groups and teams in the organization and its features
for dealing these groups in a good way for better result and motivate them
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - - - - 1 - 1 -
CO2 (K3) - - - - - - - - - 1 - 1
CO3 (K4) - - - - - - - - 1 - - -
CO4 (K3) - - - - - - - - - 1 1 -
CO5 (K3) - - - - - - - - - 1 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
AR19 Mechanical Engineering
Aditya Engineering College (A) 121
UNIT-I
Organizational Behavior Concept of Organizational Behavior (OB)-
Importance of Organizational Behaviour- Key Elements of Organizational
Behavior Role of Managers in OB- Interpersonal Roles-Informational Roles-
Decisional Roles Foundations or Approaches to Organizational Behavior
Challenges and Opportunities for OB
UNIT-II
Interpersonal Behavior Nature and meaning of Interpersonal Behavior
Concept of Self Transaction Analysis (TA) Benefits and uses of Transactional
Analysis Johari Window Model
Personality Definition and Meaning of Personality - Importance of Personality
Determinants of Personality Theories of Personality Personality Traits
Influencing OB
UNIT-III
Emotions Nature and Meaning of Emotions - Characteristics of Emotions
Theories of Emotions Emotions in the Context of OB
Organizational Stress Definition and Meaning Sources of Stress Types of
Stress Impact of Stress on Organizations Stress Management Techniques
UNIT-IV
Organizational Communication Meaning and Importance of Communication
FunctionsprocesstypesInterpersonalCommunicationOrganizational
Communication Tips for Effective Communication
Organization Culture Meaning and Nature of Organization Culture - Origin of
Organization Culture Functions of Organization Culture Types of Culture
Creating and Maintaining Organization Culture Managing Cultural Diversity
UNIT-V
Groups and Teams Meaning and Importance of Groups Reasons for Group
Formation Types of Groups Stages of Group Development Meaning and
Importance of Teams Types of Teams Creating an Effective Team
Text Books
1 K Ashwathappa Organizational Behavior Himalaya Publishing House 2005
2 DrPSubba Rao and Prof NSambasiva RaordquoManagement and Organizational
Behaviour - (Text and Cases)rdquo Himalaya Publishing House Mumbai
Reference Books
1 Udai Pareek Understanding Organisational Behaviour 2nd Edition Oxford
Higher Education 2004
2 Mc Shane amp Von Glinov Organisational Behaviour 4th Edition Tata Mc Graw
Hill 2007
3 Anjali Ghanekar Organizational Behavior Everest Publications 2001
4 PareekUdai ldquoUnderstanding Organizational Behaviorrdquo Oxford University Press
New Delhi 2007
Web Links
1 httpswwwyoutubecomwatchv=JIa7vP3gyL4
2 httpswwwyoutubecomwatchv=-sLHfYnxh8samplist =PLbMVog Vj5Njqyx
oO3foSZ6CrU7aCCwTsb
3 httpswwwyoutubecomwatchv=YIyjkkUk80w
AR19 Mechanical Engineering
Aditya Engineering College (A) 122
BASIC CONCRETE TECHNOLOGY (Open Elective ndashI)
V Semester L T P C
Course Code 191CE5O01 3 0 0 3
Course Objectives
COB 1 To teach the students about the properties of ingredients in concrete
COB 2 To enable the student understand different types and properties of aggregate
COB 3 To make the students to study the behaviour of concrete as its fresh and
hardened state
COB 4 To impart the students with the knowledge on quality control of concrete
COB 5 To illustrate the concept of special concrete and their use
Course Outcomes
At the end of the Course Student will be able to
CO 1 Demonstrate the basic concepts of concrete
CO 2 Explain the properties of ingredients of concrete
CO 3 Select the suitability of different types of aggregate for their use
CO 4 Explain about fresh Concrete hardened concrete
CO 5 Illustrate the concept of special concrete and their use
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K2) 2 1 - - - - - - - - - -
CO3 (K2) 2 1 - - - - - - - - - -
CO4 (K2) 2 1 - - - - - - - - - -
CO5 (K2) 2 1 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Cement amp Admixtures
Portland cement ndash Chemical composition ndashHydration Setting of cement Fineness of
cementndash Test for physical properties ndash Different grades of cements ndashAdmixtures ndash
Mineral and chemical admixtures ndash accelerators retarders air entrainers plasticizers
super plasticizers fly ash and silica fume
UNIT-II
Aggregates
Classification of aggregate ndash Particle shape amp texture ndash Bond strength amp other
mechanical properties of aggregates ndash Specific gravity Bulk density porosity adsorption
amp moisture content of aggregate ndash Bulking of sand ndashDeleterious substance in aggregate ndash
Soundness of aggregatendash Thermal properties ndash Sieve analysis ndash Fineness modulus ndash
Grading curves ndash Grading of fine amp coarse Aggregates ndash Gap graded and well graded
AR19 Mechanical Engineering
Aditya Engineering College (A) 123
aggregate as per relevant IS code ndash Maximum aggregate size Quality of mixing water
UNIT-III
Fresh Concrete
Steps in Manufacture of Concretendashproportion mixing placing compaction finishing
curing ndash including various types in each stage Properties of fresh concrete-Workability ndash
Factors affecting workability ndash Measurement of workability by different tests Effect of
time and temperature on workability ndash Segregation amp bleeding
UNIT-IV
Hardened Concrete
Nature of strength of concretendash Factors affecting strength ndash Relation between compression
amp tensile strength ndashTesting of Hardened Concrete Compression tests ndash Tension tests ndash
Flexure tests ndashSplitting tests ndash Non-destructive testing methods
UNIT-V
Special Concretes
Light weight aggregate concrete Cellular concrete No-fines concrete High density
concrete Fiber reinforced concrete Different types of fibers Factors affecting properties
of FRC Polymer concrete Types of Polymer concrete Properties of polymer concrete
High performance concrete ndash Self consolidating concrete SIFCON self healing concrete
Recycled concrete Shotcrete
Text Books
1 Concrete Technology MSShetty Chand Publication 6th Edition 2010
2 Concrete Technology Theory and Practice ML Gambhir McGraw Hill 4th Edition
2009
3 Concrete Microstructure Properties and Materials Kumar Mehta and Paulo JM
Monteiro McGraw Hill 3rd Edition 2006
Reference Books
1 Properties of Concrete AM Neville Pearson 2004
2 Concrete Technology AM Neville and JJ Brooks Pearson 2004
3 Concrete S Mindess and JF Young Prentice-Hall 1981
4 Concrete Technology AR Santhakumar Oxford 2007
Web Links
1 httpsnptelacincourses105102012
2 wwwbrighthubengineeringcom rsaquo Concrete Technology
3 httpswwwmaterialsworldmodulesorgindexphpweb-links-sumitted-by-
members
4 httpswwwfhwadotgovresourcecenterteamsconstructionlinkscfm
5 wwwalmahrooscomindexphpfrcomponenttagstag17-concrete-technology
AR19 Mechanical Engineering
Aditya Engineering College (A) 124
ELECTRICAL SAFETY (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O01 3 0 0 3
Course Objectives
COB 1 To help the students to know about electrical hazards
COB 2 To help the students to know about various grounding techniques
COB 3 To help the students to know about safety procedures
COB 4 To help the students to know about various electrical maintenance techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe electrical hazards and safety equipment
CO 2 Analyze and apply various grounding and bonding techniques
CO 3 Select appropriate safety method for low medium and high voltage equipment
CO 4 Participate in a safety team
CO 5 Carry out proper maintenance of electrical equipment by understanding
various Standards
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 3 1 3 1 - - - - - - - -
CO2 (K4) 3 3 3 - - - - - - - - -
CO3 (K3) 3 2 3 1 - - - - - - - -
CO4 (K3) - - 3 - - - - - - - - -
CO5 (K2) 3 1 3 1 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Hazards of Electricity and Electrical Safety Equipment
Primary and secondary hazards- arc blast shocks-causes and effects-safety equipment-
flash and thermal protection head and eye protection-rubber insulating equipment hot
sticks insulated tools barriers and signs safety tags locking devices- voltage measuring
instruments- proximity and contact testers-safety electrical one line diagram- electricianrsquos
safety kit
UNIT-II
Grounding of Electrical Systems and Equipment
General requirements for grounding and bonding- definitions- grounding of electrical
equipment-bonding of electrically conducting materials and other equipment-connection
of grounding and bonding equipment- system grounding- purpose of system grounding-
grounding electrode system- grounding conductor connection to electrodes-use of
grounded circuit conductor for grounding equipment- grounding of low voltage and high
AR19 Mechanical Engineering
Aditya Engineering College (A) 125
voltage systems
UNIT-III
Safety Procedures and Methods
The six step safety methods- pre job briefings - hot-work decision tree-safe switching of
power system- lockout-tag out- flash hazard calculation and approach distances-
calculating the required level of arc protection-safety equipment procedure for low
medium and high voltage systems- the one minute safety audit
UNIT-IV
Safety Management and Organizing Structure
Electrical safety program structure development- company safety team- safety policy
program implementation- employee electrical safety teams- safety meetings- safety audit
accident prevention- first aid- rescue techniques-accident investigation
UNIT-V
Electrical Maintenance and Legal Safety Requirements and Standards
Safety related case for electrical maintenance- reliability centered maintenance (RCM) -
eight step maintenance program- frequency of maintenance- maintenance requirement for
specific equipment and location- regulatory bodies- national electrical safety code-
standard for electrical safety in work place- occupational safety and health administration
standards Indian Electricity Acts related to Electrical Safety
Text Books
1 Electrical Safety Handbook by John Cadick Mary Capelli-Schellpfeffer Dennis
Neitzel Al Winfieldrsquo McGraw-Hill Education 4 th Edition
Reference Books
1 lsquoElectrical Safety- a guide to the causes and prevention of electric hazards by
Maxwell AdamsJrsquo The Institution of Electric Engineers IET
2 Electrical Safety in the Workplace by Ray A Jones Jane G Jones Jones amp Bartlett
Learning
Web Links
1 httpnptelacincourses1031060715 2 httpswwwelectricalsafetyfirstorguk
2 httpsnptelacincourses1131071131070
3 httpsnptelacincourses1221021221020
AR19 Mechanical Engineering
Aditya Engineering College (A) 126
ELECTRICAL MATERIALS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O02 3 0 0 3
Course Objectives
COB 1 To enable the students study various types of dielectric materials their
properties in various conditions
COB 2 To assist the students to Know the magnetic materials and their behaviour
COB 3 To assist the students to Know the semiconductor materials and technologies
COB 4 To help the students acquire the Knowledge on Materials used in electrical
engineering and applications
COB 5 To help the students acquire the Knowledge on special purpose Materials used
in electrical engineering
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify various types of dielectric materials their properties in various
conditions
CO 2 Analyze magnetic materials and their behaviour
CO 3 Evaluate semiconductor materials and technologies
CO 4 Develop Knowledge on Materials used in electrical engineering and
applications
CO 5 Acquire Knowledge on special purpose Materials used in electrical engineering
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2
CO2 (K4) 3 3
CO3 (K5) 3 3
CO4 (K3) 3 2
CO5 (K3) 3 2
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Dielectric Materials
Dielectric as Electric Field Medium leakage currents dielectric loss dielectric strength
breakdown voltage breakdown in solid dielectrics flashover liquid dielectrics electric
conductivity in solid liquid and gaseous dielectrics Ferromagnetic materials properties
of ferromagnetic materials in static fields spontaneous polarization curie point anti-
ferromagnetic materials piezoelectric materials pyroelectric materials
UNIT-II
Magnetic Materials
Classification of magnetic materials spontaneous magnetization in ferromagnetic
AR19 Mechanical Engineering
Aditya Engineering College (A) 127
materials magnetic Anisotropy Magnetostriction diamagnetism magnetically soft and
hard materials special purpose materials feebly magnetic materials Ferrites cast and
cermet permanent magnets ageing of magnets Factors effecting permeability and
hysteresis
UNIT-III
Semiconductor Materials
Properties of semiconductors Silicon wafers integration techniques Large and very large
scale integration techniques (VLSI)
UNIT-IV
Materials for Electrical Applications
Materials used for Resistors rheostats heaters transmission line structures stranded
conductors bimetals fuses soft and hard solders electric contact materials electric
carbon materials thermocouple materials Solid Liquid and Gaseous insulating materials
Effect of moisture on insulation
UNIT-V
Special Purpose Materials
Refractory Materials Structural Materials Radioactive Materials Galvanization and
Impregnation of materials Processing of electronic materials Insulating varnishes and
coolants Properties and applications of mineral oils Testing of Transformer oil as per
ISI
Text Books
1 A course in Electrical Engineering Materials by R K Rajput Laxmi Publications
2 A course in Electrical Engineering Materials by T K Basak New Age Science
Publications
Reference Books
1 Electrical Engineering Materials by TTTI Madras McGraw Hill Education
2 Electrical Engineering Materials by Adrianus J Dekker PHI Publication
3 A course in Electrical Engineering Materials by S P Seth P V Gupta Dhanpat
Rai amp Sons
Web Links
1 httpsnptelacincourses113102113102080
2 httpsnptelacincourses113107113107078
3 httpsnptelacincourses122102122102008
AR19 Mechanical Engineering
Aditya Engineering College (A) 128
BASIC ELECTRICAL MEASURMENTS (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 3 0 0 3
Course Objectives
COB 1 To equip the student with the knowledge of different types of instruments
COB 2 To equip the student with the knowledge of different types of instruments for
measurements of voltage current power ampenergy
COB 3 To make the student understand various types of bridges for measurement of
parameters-resistance inductance capacitance and frequency
COB 4 To help the students learn the knowledge of the Transducers and Sensors
COB 5 To help student acquire knowledge on applications of CRO for measurement
of frequency phase difference and hysteresis loop using Lissajous patterns
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze the behaviour of different types of torques in instruments
CO 2 Apply the right type of instrument for measurement of voltage current power
ampenergy
CO 3 Develop the suitable bridge for the measurement of electrical parameters
CO 4 Analyze the behaviour of different types of Transducers and Sensors
CO 5 Explain frequency and phase difference between signals using CRO
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) 1
CO2 (K5) 1
CO3 (K4) 1
CO4 (K4) 1
CO5 (K5) 1
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Basics of Measuring instruments
List of important electrical quantities to be measured their units and the names of the
instruments to measure them- Classification of instruments - different types of torques
(Deflection Controlling and Damping torques) in the indicating instruments-definitions
of accuracy precision error resolution and sensitivity-types of error
UNIT-II
Electromechanical Measuring Instruments
MC and MI types of Ammeters and Voltmeters - their Construction and working- shunts
and multipliers for MC instruments - Dynamometer type Ammeter Voltmeter and
Wattmeterndashconstruction working errors- Measurement of energy ndashsingle phase
AR19 Mechanical Engineering
Aditya Engineering College (A) 129
Induction type energy meter- Construction and working
UNIT-III
Measurements of Parameters
Classification of resistance- List of methods of measurement of resistance-Wheat stonersquos
bridgendash Kelvinrsquos double bridge for measuring low resistance- Loss of charge method for
measurement of inductance ndashQuality Factor ndashMaxwellrsquos bridge-Hayrsquos bridge-
Measurement of capacitance and loss angle ndash Desauty Bridge ndash Schering
Bridge(elementary treatment only)
UNIT-IV
Transducers
Definition of transducer-need of transducer-Classification of Transducers ndash Factor
influencing while its selection -Applications of Transducers ndashThermocouple- Thermister-
working principle and use of Strain Gauge- construction working and use of LVDT Basic
Concept of Sensors and its applications
UNIT-V
Electronic amp Digital Instruments
Digital voltmeter ndash Successive approximation ndash Frequency ndash Hysteresis loop using
lissajious patterns in CRO ndash Ramp and integrating type ndashDigital multimeter ndashDigital
Tachometer
Text Books
1 A course in Electrical Measurements Electronic Measurements Instrumentation A K
Sawhney 11th Edition DhanpatRai and Sons
2 A course in Electrical and Electronic Measurements and Instrumentation J B Gupta
13th EditionSK Kataria and Sons
Reference Books
1 Electrical Measurements ndash by Buckingham and Price Prentice ndash Hall Electrical
Measurements by Forest K Harris John Wiley and Sons
2 Electrical Measurements Fundamentals Concepts Applications ndash by Reissland
MU New Age International (P) Limited Publishers
3 Electrical and Electronic Measurements ndashby GKBanerjee PHI Learning Private
Ltd New Delhi
Web Links
1 httpnptelacincourses10810505342
2 httpnptelacinsyllabus108106070
3 httpnptelacincourses108106070
AR19 Mechanical Engineering
Aditya Engineering College (A) 130
ENTREPRENEURSHIP DEVELOPMENT AND INCUBATION (Open Elective-I)
V Semester L T P C
Course Code 191ME3T03 3 0 0 3
Course Objectives
COB 1 To make aware of the various concepts of entrepreneurship
COB 2 To help in understanding and apply the business plan of entrepreneurship
development
COB 3 To help in analyzing and apply the Institutions that are supporting to
Entrepreneurship Development
COB 4 To helps in understanding of entrepreneurship opportunities internationally
COB 5 To understand and apply the studentrsquos capital investments in association
with business incubations
Course Outcomes
At the end of the Course Student will be able to
CO 1 Describe the meaning and concepts of entrepreneurship development
CO 2 Apply the business plan for preparation and evaluation of project
CO 3 Research on Institutional Support to Entrepreneur and MSMEs
CO 4 Apply the Opportunities of Entrepreneurship Internationally
CO 5 Research on Venture capital amp Risk for entrepreneurship socially
incubations
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) - - - - - 1 2 - - 2 -
CO2 (K3) - - - - - 1 2 - - 2 -
CO3 (K4) - - - - - 3 3 - - 3 2
CO4 (K3) - - - - - 3 3 - - 3 2
CO5 (K3) - - - - - 1 2 - - 2 -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - - CO2 (K3) - - - CO3 (K4) - - - CO4 (K3) - - - CO5 (K3) - - -
UNIT-I
Entrepreneur ampEntrepreneurship Meaning of entrepreneur - Evolution of the
concept - Functions of an Entrepreneur - Types of Entrepreneur - Intrapreneur- an
emerging class - Concept of Entrepreneurship - Evolution of Entrepreneurship -
Development of Entrepreneurship - Entrepreneurial Culture - Stages in entrepreneurial
process
UNIT-II
Business Planning Process Meaning of business plan - Business plan process -
Advantages of business planning - Marketing plan - Productionoperations plan -
Organization plan - Financial plan - Final Project Report with Feasibility Study -
AR19 Mechanical Engineering
Aditya Engineering College (A) 131
preparing a model project report for starting a new venture
UNIT-III
Institutions supporting Entrepreneurs Small industry financing developing countries
- A brief overview of financial institutions in India - Central level and state level
institutions - SIDBI - NABARD - IDBI - SIDCO - Indian Institute of Entrepreneurship
- DIC - Single Window - Latest Industrial Policy of Government of India
UNIT-IV
International Entrepreneurship Opportunities The nature of international
entrepreneurship - Importance of international business to the firm - International versus
domestic entrepreneurship - Stages of economic development - Entrepreneurship entry
into international business - exporting - Direct foreign investment - barriers to
international trade
UNIT-V
Informal Risk Capital and Venture Capital Informal risk capital market - venture
capital - nature and overview - venture capital process - locating venture capitalists -
approaching venture capitalists Social Entrepreneurship Social enterprise-need - types
- characteristics and benefits of social enterprises-Social entrepreneurship - Rural
entrepreneurship MSME Policies Make-In India Start-Up India Stand-Up India
Text Books
1 Arya Kumar ldquoEntrepreneurshiprdquo Pearson Publishing House New Delhi 2012
2 VSP Rao Kuratko ldquoEntrepreneurshiprsquo Cengage Learning New Delhi2011
3 KRamachandran ldquoEntrepreneurship Developmentrdquo TMH New Delhi 2012
Reference Books
1 BJanakiram M Rizwana ldquoEntrepreneurship Developmentrdquo Excel Books New
Delhi 2011
2 Rajeev Roy ldquoEntrepreneurshiprdquo Oxford University Press New Delhi2012
3 PCShejwalkar ldquoEntrepreneurship Developmentrdquo Everest Publishing House
New Delhi 2011
4 RH Hisrich MP Peters and DA Shepherd ldquoEntrepreneurshiprdquo Mc Graw
Hill Irwin 8th Edition 2010
5 Ryszard Praszkieramp Andrzej Nowak ldquoSocial Entrepreneurship Theory and
Practice Paperback ndash Illustratedrdquo Cambridge University Press New York-
February 2 2012
Reference Books
1 httpnptelacincourses
2 httpswwwtutorialspointcom
3 httpswwwediindiaorg
4 httpwwwquickmbacomentre
5 httpswwwscribdcomdocument150087992Entrepreneurship-Chapter-12-
Informal-Risk-Capital
AR19 Mechanical Engineering
Aditya Engineering College (A) 132
SIGNALS AND SYSTEMS
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O01 3 0 0 3
Course Objectives
COB 1 To introduce the concepts associated with signals and systems
COB 2 To familiarize the concepts of transform based continuous time and discrete
time analysis of signals and systems
COB 3 To prepare the students to analyze the characteristics of LTI systems using
different mathematical tools
COB 4 To create awareness on frequency transformation techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Categorize signals and systems based on their characteristics
CO 2 Demonstrate the spectral characteristics of signals using Fourier series
CO 3 Demonstrate the spectral characteristics of signals using Fourier Transform
CO 4 Identify system characteristics in time domain and frequency domain
CO 5 Apply Laplace transform techniques for the analysis of continuous time
signals and Systems
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 3 1 - - - - - - - - - -
CO 2(K2) 2 1 - - - - - - - - - -
CO 3(K3) 3 2 1 1 - - - - - - - -
CO 4(K3) 3 2 1 1 - - - - - - - -
CO 5(K4) 3 3 2 2 - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Signals Classification of Signals Different deterministic signals
impulse step ramp gate signum sinc sinusoidal exponential complex exponential
Basic Operations on signals
UNIT-II
Fourier Series Representation of Fourier series for continuous time periodic signals
Trigonometric Fourier series and Exponential Fourier series Dirichletrsquos conditions
properties of Fourier series Complex Fourier spectrum Applications of Fourier series
UNIT-III
Fourier Transform Deriving Fourier Transform (FT) from Fourier series Fourier
transform of arbitrary signal Fourier transform of standard signals Fourier transform of
AR19 Mechanical Engineering
Aditya Engineering College (A) 133
periodic signals properties of Fourier transforms Fourier transforms involving impulse
function and Signum function Applications of Fourier Transforms Convolution and itrsquos
properties
UNIT-IV
Signal Transmission Through LTI Systems Classification of Systems Impulse
response and step response of LTI systems Transfer function of an LTI system Filter
characteristics of LTI systems Distortion less transmission through a system Ideal LPF
HPF and BPF characteristics Causality and Paley-Wiener criterion for physical
realization Signal bandwidth system bandwidth relationship between bandwidth and
rise time
UNIT-V
Laplace Transforms Review of Laplace transform (LT) Existence of Laplace
transform Concept of region of convergence (ROC) for Laplace transforms constraints
on ROC for various classes of signals Properties of Laplace transforms relation between
LTs and FT of a signal Inverse Laplace transform applications of Z Transform
Text Books
1 Signals and Systems - AV Oppenheim AS Willsky and SH Nawab PHI
2nd Edition 2016
2 Signals Systems amp Communications - BP Lathi BS Publications 2003
3 Signals and Systems ndash A Anand Kumar PHI 4th Edition 2017
Reference Books
1 Signals amp Systems - Simon Haykin and Van Veen Wiley 2nd Edition
2 Fundamentals of Signals and Systems- Michel J Robert MGH Int Edition 2008
3 Signals and Systems K Raja Rajeswari B Visweswara Rao PHI 2009
Web Links
1 httpsfreevideolecturescomcourse3540signals-and-systems-i
2 httpnptelacincourses117104074
3 httpnptelacincourses117101055
4 httpswwwtutorialspointcomsignals_and_systemsindexhtm
5 httpsocwmiteduresourcesres-6-007-signals-and-systems-spring-2011
AR19 Mechanical Engineering
Aditya Engineering College (A) 134
DIGITAL ELECTRONICS AND LOGIC DESIGN (Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O02 3 0 0 3
Course Objectives
COB 1 To make the students understand different number representations
COB 2 To make the students study the minimization techniques for logic optimization
COB 3 To equip the students design combinational logic circuits
COB 4 To make the students design Programmable Logic Device(PLD)
COB 5 To impart the knowledge on sequential circuits
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret numeric information in different code formats
CO 2 Develop optimized logic by using various optimization algorithms
CO 3 Construct various combinational logic circuits for required specifications
CO 4 Build different Programmable Logic Device for required specifications
CO 5 Build different sequential logic circuits for required specifications
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - - - - - - - - -
CO2 (K3) 3 2 1 - - - - - - - - -
CO3 (K3) 3 3 3 - - - - - - - - -
CO4 (K4) 3 3 3 - - - - - - - - -
CO5 (K4) 3 3 3 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Digital Electronics amp its Usage
Number Systems Representation of numbers of different radix conversation from one
radix to another radix r-1rsquoscompliments and rrsquos compliments of signed numbers
problem solving
Binary Codes 4bit codes BCD Excess-3 2421 84-2-1 9rsquos compliment code etc error
detection amp correction codes Gray code error detection error correction codes (parity
checking even parity odd parity Hamming code)
UNIT-II
Boolean Algebra ampMinimization Techniques Basic logic operations NOTOR AND
Universal building blocks EX- OR EX-NOR Gates NAND-NAND and NOR-NOR
realizations Boolean theorems principle of complementation amp duality De-Morgan
theorems minimization of logic functions using Boolean theorems minimization of
switching functions using K-Map up to 6 variables tabular minimization
AR19 Mechanical Engineering
Aditya Engineering College (A) 135
UNIT-III
Combinational Logic Circuits Design of Half adder full adder half Sub-tractor full
sub-tractor applications of full adders 4-bit binary sub-tractor adder-sub-tractor circuit
BCD adder circuit Excess 3 adder circuit look-a-head adder circuit Design of decoder
demultiplexer7segment decoder higher order de-multiplexing encoder multiplexer
higher order multiplexing priority encoder 4-bit digital comparator
UNIT-IV
Programmable Logic Devices amp Sequential Circuits
Introduction to PLDrsquos PROM PAL PLA-Basics structures realization of Boolean
function with PLDs programming tables of PLDs merits amp demerits of PROM PAL
PLA comparison realization of Boolean functions using PROM PAL PLA
programming tables of PROM PAL PLA
UNIT-V
Sequential Circuits Classification of sequential circuitsbasic flip-flops truth tables and
excitation tables (NAND RS latch NOR RS latch RS flip-flop JK flip-flop T-flip-flop
D-flip-flop with reset and clear terminals) Conversion from one flip-flop to another flip-
flop Design of synchronous counters Johnson counter ring counter Design of registers
- Buffer register control buffer register shift register bi-directional shift register
universal shift register
Text Books
1 Switching Theory and Logic Design A Anand Kumar Pearson 3rd Edition 2013
2 Digital Design Morris Mano Pearson 3rd Edition 2002
Reference Books
1 Modern Digital Electronics RP Jain Tata Mc Graw Hill 4th Edition 2010
2 Introduction to Switching Theory and Logic Design Fredriac J Hill Gerald R
Peterson 3rd Edition John Wiley amp Sons Inc 1982
3 Fundamentals of Logic Design Charles H Roth Jr Jaico Publishers 2004
Web Links
1 httpswwwnptelacincourses1171060861Kuruvilla VargheseDESEInstitute of
Science
2 wwwnptelvideosin201212digital-circuits-and-systemshtmlProf S Srinivasan
Department of Electrical Engineering IIT Madras
AR19 Mechanical Engineering
Aditya Engineering College (A) 136
SEMICONDUCTOR DEVICES
(Open Elective ndashI)
V Semester L T P C
Course Code 191EC5O03 2 1 0 3
Course Objectives
COB 1 To make the students understand the physical phenomenon such as
construction transport mechanism and characteristics of diodes
COB 2 To familiarize the students with the operation and characteristics of
Transistor
COB 3 To make the students understand the construction and operation of FET and
MOSFET
COB 4 To impart knowledge on basics of special semiconductor devices
COB 5 To make the students understand physical and technical base of sensors
Course Outcomes
At the end of the Course Student will be able to
CO 1 Interpret the characteristics of semiconductor diodes
CO 2 Apply the knowledge of semiconductors to illustrate the functioning of BJT
CO 3 Demonstrate the switching and amplification Application of FET
CO 4 Classify the semiconductor devices for special Applications
CO 5 Identify the sensor types used in various applications and explain their
principle of operation
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K2) 2 1 - - - - - - - - - -
CO 2(K3) 3 2 1 - - - - - - - - -
CO 3(K2) 2 1 - - - - - - - - - -
CO 4(K2) 2 1 - - - - - - - - - -
CO 5(K3) 3 2 1 - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
PN junction Diode Theory and Operation of PN junction diode V-I characteristics
Application of diode as Rectifier Clipper and Clamper
Zener diode Principle V-I characteristics Zener breakdown and Avalanche breakdown
Zener diode as a voltage regulator
UNIT-II
BJT Construction and operation of a transistor characteristics of transistor in Common
Base Common Emitter and Common Collector configurations transistor as a switch
transistor as an amplifier
AR19 Mechanical Engineering
Aditya Engineering College (A) 137
UNIT-III
FET Construction and operation of FET Characteristic of FET low frequency model of
FET FET as a switch and an amplifier MOSFET Characteristics (enhancement and
depletion mode)
UNIT-IV
Special Semiconductor Devices LED LCD Photo transistor Tunnel diode Varactor
diode Opto coupler solar cell Charged Coupled Device
UNIT-V
bull Sensors Temperature Sensor Proximity Sensor Sensistor Thermistor LDR Flame
Sensor Humidity sensor NEMSMEMS
Text Books
1 DNeamen and DBiswa ldquoSemiconductor physics and devicesrdquo McGraw Hill
Education2017
2 J Millman C Halkias Electronic Devices and Circuits Tata Mc-Graw Hill 2nd
Edition 2007
3 Clarence W de Silva ldquoSensors and Actuators Engineering System Instrumentationrdquo
CRC press second edition 2015
Reference Books
1 Umesh Mishra and Jasprit Singh ldquoSemiconductor Device Physics and Designrdquo
Springer2008
2 A A Balandin and K L Wang Handbook of Semiconductor Nanostructures and
Nanodevices Grainger 2006
3 WRFahrner ldquoNanotechnology and Nanoelectronics ndash Materials Devices
andMeasurement Techniquesrdquo Springer 2006
Web Links
1 httpsfreevideolecturescomcourse4277nptel-fundamentals-semiconductor-
devices58
2 httpswwwcourseraorgspecializationssemiconductor-devices
3 httpsnptelacincourses108108108108112 Prof Sanjiv Sambandan
AR19 Mechanical Engineering
Aditya Engineering College (A) 138
DATA STRUCTURES (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To make the students learn the basic Concepts of Data Structures and
algorithms
COB 2 To enable the students to analyze the various Searching and Sorting
techniques
COB 3 To provide knowledge on Stacks and Queues
COB 4 To impart knowledge on list and its applications
COB 5 To discuss the various operations of Trees
COB 6 To demonstrate the Graph Traversal Techniques
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate time and space complexities of an algorithm
CO 2 Apply various searching and sorting techniques to solve computing
problems
CO 3 Make use of linear data structures to solve real time problems
CO 4 Develop applications using Tree Data Structures
CO 5 Solve problems using Graph Algorithms
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) 2 1 - - 2 - - - - - - -
CO2 (K3) 3 2 - - 3 - - - - - - -
CO3 (K3) 3 2 - - 3 - - - - - - -
CO4 (K3) 3 2 - - 3 - - - - - - -
CO5 (K3) 3 2 - - 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Basic Concepts Pseudo code Algorithm analysis Time and Space
Complexity
Introduction to Data Structures Definition Classification and Operations on Data
Structures
Searching Linear search Binary search
Sorting Bubble Sort Insertion Sort Selection Sort Quick Sort Merge Sort Radix
Sort
AR19 Mechanical Engineering
Aditya Engineering College (A) 139
UNIT-II
Stacks Introduction Array Representation of Stacks Operations and Implementation
Applications of Stacks-Reversing list Infix to Postfix Conversion Evaluating Postfix
Expressions
Queues Introduction Array Representation of Queues Operations and
Implementation Types of Queues Circular Queues and Dequeues Application of
Queues
UNIT-III
Linked Lists Introduction Singly linked list Operations on Singly Linked list -
Insertion Deletion Doubly linked list - Insertion Deletion Circular linked list-
Insertion Deletion Linked Representation of Stacks and Queues Applications of
Linked lists-Addition of Polynomials Sparse Matrix Representation using Linked List
UNIT-IV
Trees Basic Terminology in Trees Representation of Binary Trees using Arrays and
Linked lists Traversing a Binary Tree(In-Order Pre-Order Post-Order)Expression
Trees
Binary Search Trees Definition Operations Searching Insertion Deletion
UNIT-V
Graphs Introduction Graph Terminology Representation of Graphs-Adjacency
Matrix and using Linked list Graph Traversals Minimum Spanning Tree Using Prims
amp Kruskals Algorithm Dijkstrarsquos Shortest Path Warshallrsquos Algorithm Transitive
Closure (Algorithmic Concepts Only No Programs required)
Text Books
1 Data Structures Using CReema Thareja Oxford University Press
2 Data Structures and Algorithm Analysis In C Mark Allen Weiss2nd Edition
Reference Books
1 Fundamentals of Data Structure in C Horowitz Sahni Anderson Freed 2nd
Edition University Press2008
2 Data Structures Richard F Gilberg Forouzan 2E Cengage Learning
3 Data Structures and Algorithms G AVPai TMH2008
Web Links
1 httpnptelacincourses106102064
2 httpalgs4csprincetoneduhome
3 httpsfacultywashingtonedujstraubdsaMaster_2_7apdf
4 httpwwwudacitycom
5 httpwwwcourseeracom
AR19 Mechanical Engineering
Aditya Engineering College (A) 140
OBJECT ORIENTED PROGRAMMING THROUGH C++ (Open Elective ndashI)
V Semester L T P C
Course Code 191EE5O03 2 1 0 3
Course Objectives
COB 1 To enable the students to learn the common concepts of Camp C++
COB 2 To illustrate the object oriented principles and their implementation in C++
COB 3 To impart the knowledge on classes objects member functions constructors
destructors and how to overload functions and operators in C++
COB 4 To make the students learn applications of inheritance
COB 5 To facilitate the students to write various programs using virtual functions
and Polymorphism
COB 6 To demonstrate Generic Programming with Templates
Course Outcomes
At the end of the Course Student will be able to
CO 1 Compare and contrast object oriented programming and procedural oriented
programming
CO 2 Summarize the OOPS concepts
CO 3 Make use of constructor and destructor to initialize and destroy class objects
CO 4 Develop programs using virtual functions and Polymorphism
CO 5 Apply inheritance to build real time applications
CO 6 Apply Exception handling mechanism to handle runtime errors
CO 7 Develop C++ classes with templates and STL
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - 3 - - 1 - - - - - - -
CO2 (K2) 2 1 - - 2 - - - - - - -
CO3 (K3) 3 - 1 - - - - - - - - -
CO4 (K3) 3 2 1 1 3 - - - - - - -
CO5 (K5) 3 3 3 3 3 3 - - - - - -
CO6 (K3) 3 2 1 1 - - - - - - - -
CO7 (K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
An Overview of C++ Difference between C and C++ The Origins of C++ Key
Concepts of Object Oriented Programming A Sample C++ Program Old Style vs
Modern C++ Namespaces
Classes and Objects Classes Declaring Objects Access Specifiers and their Scope
Defining Member Function Friend functions Inline Functions Static Member Variable
Static Member Function Constructors and Destructors Scope Resolution Operator
Nested class
AR19 Mechanical Engineering
Aditya Engineering College (A) 141
UNIT-II
Function Overloading Copy Constructor and Default Arguments Function
Overloading Constructor Overloading Constructor with Arguments Copy Constructor
Default Function Arguments Anonymous Objects Array of Objects
Operator Overloading Creating a Member Operator Function Operator Overloading
using Friend function Overloading Special Operators
UNIT-III
Inheritance Base Class Access Control Inheritance and protected Members Types of
Inheritance Pointer to Class Pointer Object The this Pointer Pointer to Derived Classes
and Base Class Virtual Base Classes Object as a Class Member Advantages and
Disadvantages of Inheritance
Virtual Functions and Polymorphisms Virtual Functions Rules for Virtual Function
Pure Virtual Functions Using Virtual Functions Virtual Destructor Early Vs Late
Binding
UNIT-IV
Templates Generic Functions Applying Generic Functions Generic Classes Power
of Templates Difference between Templates and Macros
Exception Handling Exception Handling Fundamentals Handling Derived Class
Exceptions Exception Handling Options Applying Exception Handling
UNIT-V
Introducing the Standard Template Library An Overview of STL Container
Classes Sequence Containers Associative Containers Vectors Lists Maps
Algorithms
Text Books
1 The Complete Reference C++ Herbert Schildt Fourth Edition TMH 2003
2 The C++ Programming Language Bjarne Stroustrup Fourth Edition Pearson
2014
Reference Books
1 A First Book Of C++ Gary Bronson Fourth Edition Cengage Learning 2012
2 C++ Primer Plus By Stephen Prata Sixth Edition Pearson 2011
3 Object Oriented Programming In C++ By E Balagurusamy Sixth Edition Tata
Mcgraw Hill 2013
4 Object Oriented Programming Using C++ Joyce Farrell Fourth Edition
CengageLearning 2008
5 C++ ProgrammingFrom Problem Analysis To Program Design Ds Malik
Eighth Edition Cengage Learning 2017
Web Links
1 httpsinudacitycomcoursec-for-programrs--ud210
2 httpswwwcourseraorgcoursesquery=c2B2B
3 httpnptelacincourses106105151
4 httpswwwjavatpointcomcpp-oops-concepts
5 httpswwwtutorialspointcomcplusplus
AR19 Mechanical Engineering
Aditya Engineering College (A) 142
JAVA PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O03 2 1 0 3
Course Objectives
COB 1 To make students understand object oriented programming concepts and
apply them in solving problems
COB 2 To provide knowledge on classes inheritance interfaces and packages
COB 3 To facilitate students in handling exceptions and multithreading
COB 4 To impart the knowledge on Input Output concepts and applets
COB 5 To enable the students develop standalone applications using AWT and
Swings
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply object oriented programming features and concepts for solving given
problem
CO 2 Solve real time problems using the concepts of class inheritance interface and
packages
CO 3 Test for runtime exceptions arise in java applications
CO 4 Develop real time applications using multithreading and IO streams
CO 5 Develop GUI applications using event handlers adapter classes AWT and
Swing components
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 2 2 2 - 1 - - - - - - -
CO2 (K3) 2 2 3 - 2 - - - - - - -
CO3 (K4) 2 2 3 - 3 - - - - - - -
CO4 (K3) 2 2 3 2 3 - - - - - - -
CO5 (K3) 2 2 3 2 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Java History of Java Java features JVM architecture Classes and objects Program structure methods Passing arguments through command line Building Blocks of Java Variables primitive data types identifiers literals Operators
expressions primitive type conversion and casting flow of control
UNIT-II
Introduction to Classes Class declaration creating objects constructors Method
Overloading constructor overloading garbage collector importance of static keyword
and examples this keyword Arrays Strings nested classes
AR19 Mechanical Engineering
Aditya Engineering College (A) 143
Inheritance amp Interfaces Inheritance- types of inheritance super keyword final keyword overriding Interfaces- Defining an interface Implementing interfaces through classes Multiple inheritance through interfaces abstract class Packages Creating the packages using packages importance of CLASSPATH Access
Specifiers javalang package
UNIT-III
Exception Handling Exception handling importance of try catch throw throws and
finally block user defined exceptions Multithreading Introduction thread life cycle
creation of threads thread priorities thread synchronization communication between
threads
UNIT-IV
Input Output Byte Streams and Character Streams Predefined Streams Reading Console inputs- Reading characters Reading Strings Reading and writing Files Event Handling Event delegation model sources of event Event Listeners adapter
classes inner classes
UNIT-V
AWT Introduction components and containers Button Label Checkbox Radio Buttons List Boxes Choice Boxes Container class Layouts Menu and Scrollbar Swing Introduction Swing Components- JFrame JPanel Layout Managers JList
JTable JTree Dialog Box
Text Books
1 The Complete Reference Java Herbert Schildt Ninth Edition TMH 2014
2 Introduction to java programming by Y Daniel Liang Seventh Edition Pearson
2017
3 Java one step ahead Anita seth BLJuneja First Edition Oxford 2017
Reference Books
1 Core Java An Integrated Approach RNageswaraRao Dreamtechpress 2008
2 Thinking in Java ndash Bruce Eckel Fourth Edition Prentice Hall 2002
3 Beginning Programming with Java for Dummies Barry Burd John Wiley amp Sons
Inc 2014
Web Links
1 httpmathhwsedujavanotes
2 httpjavasuncomdocsbookstutorial
3 httpwwwtutorialspointcomjava
4 httpwwwjavatpointcom
5 httpwwww3schoolscomjava
AR19 Mechanical Engineering
Aditya Engineering College (A) 144
R PROGRAMMING (Open Elective ndashI)
V Semester L T P C
Course Code 191CS5O04 2 1 0 3
Course Objectives
COB 1 To impart the knowledge on the R basic concepts
COB 2 To enable the student learn R program structure
COB 3 To inculcate the knowledge on mathematical functions
COB 4 To illustrate the concept of graph functions
COB 5 To make the students understand the concepts of distribution functions and
regressions models
Course Outcomes
At the end of the Course Student will be able to
CO 1 Illustrate the basic concepts and advanced data structures of R programming
CO 2 Understand control statements and operators in R
CO 3 Implement simulation Probability and linear algebra operations
CO 4 Make use of graph functions
CO 5 Develop programs for distribution functions and regression models
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - 1 - - - - - - -
CO2(K2) 2 1 - - 1 - - - - - - -
CO3(K3) 3 2 1 1 3 - - - - - - -
CO4(K3) 3 2 1 1 3 - - - - - - -
CO5(K3) 3 2 1 1 3 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction How to run R R Sessions and Functions Basic Math Variables Data
Types Vectors Conclusion Advanced Data Structures Data Frames Lists Matrices
Arrays Classes
UNIT-II
R Programming Structures Control Statements Loops - Looping Over Nonvector
Sets If-Else Arithmetic and Boolean Operators and values Default Values for
Argument Return Values Deciding Whether to explicitly call return- Returning
Complex Objects Functions are Objective No Pointers in R Recursion A Quicksort
Implementation-Extended Extended Example A Binary Search Tree
UNIT-III
Simulation in R Math Function Extended Example Calculating Probability-
AR19 Mechanical Engineering
Aditya Engineering College (A) 145
Cumulative Sums and Products-Minima and Maxima- Calculus Functions Fir Statistical
Distribution Sorting Linear Algebra Operation on Vectors and Matrices Extended
Example Vector cross Product- Extended Example Finding Stationary Distribution of
Markov Chains Set Operation Input output Accessing the Keyboard and Monitor
Reading and writer Files
UNIT-IV
Graphics Creating Graphs The Workhorse of R Base Graphics the plot() Function ndash Customizing Graphs Saving Graphs to Files
UNIT-V
Probability Distributions Normal Distribution- Binomial Distribution- Poisson Distributions Other Distribution Basic Statistics Correlation and Covariance T-Tests-
ANOVA Linear Models Simple Linear Regression -Multiple Regression Generalized Linear Models Logistic Regression
Text Books
1 The Art of R Programming Norman Matloff 1st Edition Cengage Learning2011
2 R for Everyone Lander 2nd
EditionPearson 2018
Reference Books
1 R Cookbook JDLongamp PaulTeetor 2nd EditionOreilly 2019
2 R in ActionRob Kabacoff2nd Edition Manning 2015
Web Links
1 httpsonlinecoursesnptelacinnoc19_ma33preview
2 httpswwwcourseraorgprojectsgetting-started-with-r
3 httpswwwgeeksforgeeksorgintroduction-to-r-programming-language
4 httpswwwudacitycomcoursedata-analysis-with-r--ud651
AR19 Mechanical Engineering
Aditya Engineering College (A) 146
DATABASE MANAGEMENT SYSTEMS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O01 2 1 0 3
Course Objectives
COB 1 To discuss the basic concepts of database systems and its architectures
COB 2 To enable the students learn various data models
COB 3 To illustrate the mechanisms involved in normalization of relational databases
COB 4 To make use of SQL statements for performing operations on databases
COB 5 To impart knowledge on transaction management and concurrency controls
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the database characteristics and various database architectures
CO 2 Interpret relational database using SQL
CO 3 Examine issues in data storage and query processing for appropriate solutions
CO 4 Make use of normalization techniques to build database system for real world
problems
CO 5 Illustrate the mechanisms of transaction management
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 1 3 - 3 - - - - -
CO 2 (K2) 2 1 - - - - 3 - - - - -
CO 3 (K3) 3 2 1 1 3 - 3 - - - - -
CO 4 (K3) 3 2 1 1 3 - 3 - - - - -
CO 5 (K2) 2 1 - - 2 - 3 - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction to Databases Characteristics of database approach advantages of using
the DBMS approach
Overview of Database Languages and Architectures Data models schemas and
instances three schema architecture and data independence database system
environment centralized and clientserver architectures for DBMSs classification of
database management system
SQL Data Definition Constraints and Basic Queries and Updates SQL data
definition ndash DDL commands and data types specifying constraints in SQL INSERT
DELETE and UPDATE statements in SQL basic retrieval queries in SQL
UNIT-II
Introduction to Database Design Database Design and ER Diagrams Entities
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
Introduction to Database Design Database Design and ER Diagrams Entities
AR19 Mechanical Engineering
Aditya Engineering College (A) 147
Attributes and Entity sets Relationships and Relationship sets Additional features of the
E-R Model Conceptual Design with the ER-Model
The Relational Model Introduction to the relational model Integrity constraints over
relations enforcing integrity constraints querying relational data Nested Queries
Correlated Queries logical database design-ER to Relational
UNIT-III
Relational Algebra and Calculus Preliminaries relational algebra relational calculus
expressive power of algebra and calculus
Schema Refinement and Normal Forms Introduction to schema refinement functional
dependencies reasoning about FDs Normal forms (1NF 2NF 3NF and BCNF)
properties of decompositions normalization (decomposition into BCNF and 3NF)
schema refinement in database design other kinds of dependencies
UNIT-IV
Overview of Transaction Management amp Concurrency Control
Transaction Management
The ACID properties transactions and schedules concurrent execution of transactions
lock based concurrency control performance of locking and transaction support in SQL
introduction to crash recovery
Concurrency Control
2PLserializability and recoverability introduction to lock management lock conversions
dealing with deadlocks specialized locking techniques concurrency control without
locking
UNIT-V
Storage Overview of Storages and Indexing Data on External Storage- File Organization
and Indexing ndashClustered Indexing ndash Primary and Secondary Indexes Index Data
Structures Hash-Based Indexing ndash Tree-Based Indexing Comparison of File
Organization
Text Books
1 Database Management Systems Raghu Ramakrishnan Johannes Gehrke 3e
TMH
Reference Books
1 Introduction to Database Systems CJ Date Eighth Edition Pearson Education
2004
2 Database Systems - The Complete Book H G Molina J D Ullman J Widom Second
Edition Pearson Education 2009
3 Database Systems design Implementation and Management Peter Rob amp Carlos
Coronel Seventh Edition Cengage 2006
4 Fundamentals of Database Systems ElmasriNavathe Pearson Education 2015
5 Database System Concepts Silberschatz Korth Fifth Edition TMH 2006
Web Links
1 httpwwwnptelvideosin201211database-management-systemhtml
2 httpwwwgeeksforgeeksorgdbms
3 httpwwworaclecomtechnetworkdatabasefeaturesplsqlindexhtml
4 httpwwwcswiscedu~ dbbook
5 httpsbeginnersbookcom201505normalization-in-dbms
AR19 Mechanical Engineering
Aditya Engineering College (A) 148
COMPUTER GRAPHICS (Open Elective ndashI)
V Semester L T P C
Course Code 191IT5O02 3 0 0 3
Course Objectives
COB 1 To discuss the basic principles of computer graphics primitives
COB 2 To demonstrate transformation clipping and viewing in 2D graphics
COB 3 To make the students learn projections transformations and visible surface
detections in 3D graphics
COB 4 To introduce the concepts of 3D primitives using OpenGL (Open Graphics
Library)
COB 5 To outline the Fractal geometry and Texturing in computer Graphics
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the applications of computer graphics and Video Display devices for
implementing Graphical user interface
CO 2 Analyze output primitives and filled area primitives in implementing various
algorithms
CO 3 Make use of Geometric Transformations Viewing and Clipping in 2D amp 3D
Graphics
CO 4 Illustrate various Visual Surface detection Methods in 3D Graphics
CO 5 Apply OpenGL for General Computer Animations
CO 6 Explain different object color modeling techniques Fractals and Ray tracing
concepts
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 - - - - - - - - - -
CO2 (K4) 3 3 2 2 3 - - - - - - -
CO3 (K3) 3 2 - - - - - - - - - -
CO4 (K2) 2 1 - - 2 - - - - - - -
CO5 (K3) 3 2 1 1 3 -
CO6 (K2) 2 1 - - 2 - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Introduction Applications of Computer Graphics Video Display Devices-CRT
Raster-Scan and Random-Scan systems graphics monitors and work stations and input
devices
Output Primitives Line Drawing Algorithms- Bresenhamrsquos and DDA Line Drawing
Algorithms Mid-point circle and Ellipse algorithms
Filled Area Primitives Scan Line Polygon fill algorithm Boundary fill and Flood fill
algorithms
AR19 Mechanical Engineering
Aditya Engineering College (A) 149
UNIT-II
2-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations
2-D viewing The viewing pipeline Window to viewport coordinate transformation
2-D Clipping Cohen-Sutherland line clipping algorithm Sutherland-Hodgeman
polygon clipping algorithm and other clipping models Text amp Curve clipping models
UNIT-III
3-D Geometrical Transformations Translation rotation scaling reflection and shear
transformations 3-D Viewing pipeline
Concepts Parallel and perspective projections and visible surface detection methods
UNIT-IV
Animations General computer animation Raster Key-frame Color models RGB
YIQ CMY HSV Graphics programming using OPENGL basic graphics primitives-
Generating three dimensional objects
UNIT-V
Fractals Fractals and self similarity Mandelbrot sets- Julia sets ndash Random Fractals
Overview of Ray Tracing Intersecting rays with other primitives-Adding surface
texture-Reflections and transparency-Boolean operations on objects
Text Books
1 Computer Graphics C Version Donald D Hearn M Pauline Baker 2nd Edition
Pearson
2 Computer Graphics using OPENGL Stephen M Kelley Francis S Hill 2nd
Edition Pearson
Reference Books
1 Computer Graphics- Principles and practices in C James D Foley Andries Van
Dam Steven K Feiner John F Hughes 2nd Edition Pearson Education 2007
2 Computer Graphics Samit Bhattacharya OXFORD Higher Education
3 Computer Graphics Peter Shirley CENGAGE
4 Principles of Interactive Computer Graphics Neuman Sproul TMH
5 The Computer Graphics manual Vol 2 David Soloman Springer
Web Links
1 httpsocwmiteducourseselectrical-engineering-and-computer-science6-837
computer-graphics-fall-2012
2 httpnptelacincourses106106090
3 httpsinudacitycomcourseinteractive-3d-graphics--s291
4 httpwwwcseiitmacin~vplabcomputer_graphicshtml
5 httpwwwgraphicscornelleduonlinelinkshtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 150
OVERVIEW OF MINING (Open Elective ndashI)
V Semester L T P C
Course Code 191MI5O01 3 0 0 3
Course Objectives
COB 1 To impart knowledge on the mine lifecycle
COB 2 To make the students understand the factors responsible for location shape and
size of the shaft
COB 3 To demonstrate the students the system of ventilation Lighting and Permanent
lining need for drift
COB 4 To explain the special methods and Modern techniques of Shaft sinking
COB 5 To make the students understand the classification of explosives detonators and
detonating fuses and nonel detonators
Course Outcomes
At the end of the Course Student will be able to
CO 1 Analyze different stages in the life of a mine
CO 2 Choose a suitable location for opening to a deposit
CO 3 Organize for building appropriate permanent lining drift with proper
ventilation and lighting arrangements
CO 4 Analyze the special methods need to be adopted for a particular situation
CO 5 Distinguish the uses of explosives
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K4) - - - - - - 3 - - - - -
CO2 (K3) - - - 3 3 3 - - - - - -
CO3 (K3) - - - - - - - - 3 3 - -
CO4(K4) - 3 - 2 3 - - - - - - -
CO5 (K4) - 3 - - - - - - - - - -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Mineral distribution in India and World Contribution of mining to civilization Stages in
the life of a mine
UNIT-II
Overview of surface mining surface mining methods Unit operations Mechanization of
surface mines
UNIT-III
Overview of Underground Mines Methods of Underground mining Mechanization of
underground mines
AR19 Mechanical Engineering
Aditya Engineering College (A) 151
UNIT-IV
Safety practices in opencast and underground Mines
UNIT-V
Impacts of Mining on environment
Text Books
1 DJDeshmukh Elements of Mining Technology Denettamp Co Nagpur Vol I 1998
2 DrTNSingh Surface Mining Lovely Prakashan Dhanbad 2nd edition 2002
3 BVGokhale Blasthole drilling Technology multifields Bombay 1st edition 2001
Reference Books
1 Indian Bureau of Mines Minerals Year Book amp other publications Latest Edition
2 DrCMKole Khuli Khan KaAyojan (Hindi) CMPDIL Ranchi 1st edition 1996
3 Dr Calvin Konya ldquoRock Blasting and Overbreak Controlrdquo Precision Blasting
Services Montville Ohio 2nd edition 2004
Web Links
1 httpwwwminingglobalcomoperationsgifs-5-stages-mining-life-cycle
2 httpswwwslidesharenetumer_1stages-in-life-of-mine
3 httpswwwminecationstandardsorgfileadminMASdocumentsnmas-national
4 stabdardsafghanistanAMAS_0704_Storage_Transportation_Handling_of_Explosi
vespdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 152
PROCESS INTENSIFICATION IN PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O01 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in process intensification methodologies
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquos various principles associated to various unit operations
and unit processes
COB 5 To impart knowledge on available in petrochemical fine chemical
pharmaceutical carbon capture and bioprocess engineering to understand the
role of process intensification to improve process performance
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for process
intensification
CO 2 Analyze various modifications to process equipment and designs with which
process intensification becomes a reality in unit operations and unit processes
CO 3 Analyze various case studies available in petrochemical fine chemical bioprocesses
and carbon capture
CO 4 Correlate textbook reported methodologies with Computational Fluid
Dynamics and experimental process intensification
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K3)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
History of Process Intensification Rotating boilers ndash Rotating non-pipe ndash Separators ndash
Rotating heat transfer devices
Overview of Process Intensification Definition of Process Intensification (PI) ndash
Advantages of PI ndash Obstacles to PI
AR19 Mechanical Engineering
Aditya Engineering College (A) 153
UNIT-II
Mechanisms Involved in Process Intensification Mechanisms involved in heat transfer
intensification ndashElectrically enhanced process intensification ndash Microfluidics ndash Pressure
Compact and Micro-heat exchangers amp Process Intensification Plate Printed-circuit
Chart-flow Polymer film Foam and mesh heat exchangers ndash Micro-heat exchangers ndash
Small channels ndash Nano fluids
UNIT-III
Downhole Separation Technology
Overview- Potential Downhole Separation Technology-Present Status- Advantages-
Challenges-Downhole oil- water separation (DOWS) - hydrocyclone separator Different
configurations -Working Principle-Performance factors- Selection Criteria-Scale up-
Experiences with problems-Reinjection systems- Downhole completion designs for
DOWS - Downhole gas-water Separations-Application of electrical submersible pumps-
Working principle-Modified plunger pumps Three-phase Separation Technology- Case
studies on DOWS and DGWS
UNIT-IV
Application of Solar Energy in Oil and Gas Operations
Solar Energy-PV Cells-Concentration of Solar Power-Energy use in offshore rigs and
FPSO- Energy and Cost Analysis-Solar panels required to replace fossil fuels-
Comparison of Diesel Power with Solar Power Costs-Ability of Solar Energy Use on
Offshore Rigs-Solar Energy Enhanced Oil Recovery
UNIT-V
Application of Divided Wall Distillation technology in separation of NGL
Working principle of Divided wall distillation column-Advantages-Various
configurations-Separation of NGL
Text Books
1 Process Intensification Engineering for Efficiency Sustainability and Flexibility
D Reay C Ramshaw and A Harvey Butterworth-Heinemann 1st Edition
Burlington 2008
Reference Books
1 Re-Engineering the Chemical Processing Plant Process Intensification A
Stankiewicz and JA Moulijn (Editors) Marcel Dekker New York 2004
Web Links
1 httpswwwsciencedirectcombook9780750689410process-intensification
2 httpswwwsciencedirectcomsciencearticlepiiB9780750689410000043
3 httpwwwyourarticlelibrarycomenergysolar-energy-10-major-application-of-
solar-energy-explained28197
4 httpsenwikipediaorgwikiDigital_divide
AR19 Mechanical Engineering
Aditya Engineering College (A) 154
FUNDAMENTALS OF PETROLEUM INDUSTRY (Open Elective ndashI)
V Semester L T P C
Course Code 191PT5O02 3 0 0 3
Course Objectives
COB 1 To help the students to understand the basic principles and mechanisms
adopted in petroleum industry
COB 2 To impart theoretical knowledge on various principles associated to various
unit operations and unit processes
COB 3 To teach the students various principles associated to various unit operations
COB 4 To help the studentrsquosvarious principles associated to various treating
operations and unit processes
COB 5 To impart knowledge on available in petroleum well servicing unit
Course Outcomes
At the end of the Course Student will be able to
CO 1 Apply the basic principles and mechanisms that are responsible for petroleum
industry
CO 2 Analyze various modifications to equipment and designs with which evaluate
the lithological characteristics and behavior of reservoir
CO 3 Analyze various case studies available in petrochemical chemical bioprocesses for
treatment of wastage
CO 4 Analyze various modification to well for better production rate
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4 )
PO 3
(K5 )
PO 4
(K 3)
PO 5
(K3 )
PO 6
(K3)
PO 7
(K2 )
PO 8
(K3)
PO 9
(K2)
PO 10
(K2 )
PO11
(K3 )
PO12
(K1)
CO1 (K3) 3 2 1 2 - - - - - - - 1
CO2 (K3) 2 2 1 2 - 1 - - - - - -
CO3 (K3) 3 2 1 2 - - - - - - - -
CO4 (K3) 3 2 - 1 1 - - - - - - 1
CO5 (K3) 2 2 - 2 1 - 1 - - 1 1 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
The history of production Oil beginning- A case for casing- More fireworks-
Underground mysteries- Breathing of the earth- Crisis and reservoirengineering-
Horizontal drilling- The great offshore-Indian scenario
UNIT-II
The reservoir Origin- Transformation- Characterization- Discovery
Whatrsquos in the container The prize Determinants- The contents- Thechemistry-
Composition- Properties- Impurities- Fingerprints- The origin ofhydrocarbons
Drilling The spring pole- Cable tool drilling and operations- Rotarydrilling- Rig
components- Drilling mud- Blowout preventers- Drillingoffshore- Top drives and
AR19 Mechanical Engineering
Aditya Engineering College (A) 155
automation- The course- Location
UNIT-III
Logging testing and completing Logging- Correlation logs- Real time-Directional and
horizontal wells- Original hydrocarbons in place- Openhole testing- Completions- Cased
hole logging and measuring devices
Hydrocarbon activity in the reservoir Phases- Phases diagrams- Reservoirfluid
categories- Using phase diagrams- Gas wells Vs oil wells- Shrinkagendash Solution gas- oil
ratio- Relative permeability
Production The motivating force- Drive mechanisms- Producing phases-Primary
production- Secondary recovery- Pressure maintenance andwaterflooding- Tertiary
recovery
UNIT-IV
Making it marketable Field processing Gas treating- Oil treating- Waterdisposal-
Testing- Measurement and metering- Storage
UNIT-V
Remedial operations and workovers Decision making- Workover rigs-Coiled tubing-
Subsea completions- Well problems and stimulation-Changing production intervals
Text Books
1 Oil and Gas Production in Nontechnical Language Martin S Raymondamp William
L Leffler Penn Well Corporation 2006
Reference Books
1 Introduction to Oil and Gas Production American Petroleum Institute5th Edition
1996
2 Oil and Gas Production Hand Book An Introduction Oil and GasProduction
HavardDevold ABB ATPA Oil and Gas 2006
Web Links
1 httpsenwikipediaorgwikiPetroleum_industry
2 httpwwwoil-gasportalcomdrillingtechnologies
3 httpswwwibeforgindustryoil-gas-indiaaspx
4 httpswwwapiorgoil-and-natural-gaswells-to-consumertransporting
5 httpswwwsciencedirectcomtopicsengineeringpetroleum-refining
AR19 Mechanical Engineering
Aditya Engineering College (A) 156
BASIC CROP PRODUCTION PRACTICES (Open Elective ndashI)
V Semester L T P C
Course Code 191AG5O01 2 1 0 3
Course Objectives
COB 1 To enable the students to study principles of agricultural and horticultural crop
production and to introduce the production practices of crops
COB 2 To make the students to acquire knowledge for delineate the role of
agricultural and irrigation engineers in relation to various crop production
practices
COB 3 To make the students to acquire knowledge on crop selection crop production
and crop management
Course Outcomes
At the end of the Course Student will be able to
CO 1 Explain factors affecting on crop growth and production
CO 2 Explain crop selection and establishment of an adequate crop stand and
ground cover
CO 3 Explain crop water management
CO 4 Apply agriculture crops production practices in field
CO 5 Apply the horticulture crops production practices in field
Mapping of Course Outcomes with Program Outcomes
COsPOrsquos PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K2) - 1 - - 2 - - - - 3 - 3
CO2 (K2) - 1 - - 2 - - - - 3 - -
CO3 (K2) - 1 - - 2 - - - - 3 - 3
CO4 (K3) - 2 1 1 3 - - - - 3 - 3
CO5 (K3) - 2 1 1 3 - - - - 3 - 3
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - - -
CO2 (K3) - - -
CO3 (K4) - - -
CO4 (K3) - - -
CO5 (K3) - - -
UNIT-I
Agriculture and Crop Production Introduction to agriculture and its crop production sub-
sectors ndash field crop production and horticulture Factors affecting crop growth and
production genetic (internal) and environmental (external) factors Crop management
through environmental modification and adaptation of crops to the existing environment
through crop cultural practices
UNIT-II
Crop Selection and Establishment Regional and seasonal selection of crops Systems of
crop production Competition among crop plants Spacing and arrangement of crop plants
Field preparation for crops including systems of tillage Establishment of an adequate crop
stand and ground cover including selection and treatment of seed and nursery growing
AR19 Mechanical Engineering
Aditya Engineering College (A) 157
UNIT-III
Crop Management Crop water Management a Crop nutrition management ndash need for
supplementation to soil supplied nutrients sources generalized recommendations
methods and timing of application of supplemental nutrients including fertigation
scheduling Crop protection including management of weeds pests and pathogens
Integrated methods of managing water nutrients and plant protection Types and methods
of harvest
UNIT-IV
Production Practices of Agricultural Crops Generalized management and cultivation
practices for important groups of field crops in Andhra Pradesh cereal crops grain
legumes oil seed crops sugarcane and fiber crops and special purpose crops such as
those grown for green manure and fodder
UNIT-V
Production Practices of Horticultural Crops Important basic groups of horticultural crops
in AP such as vegetable crops fruit crops flower crops Cultivation practices of major
fruits major vegetables and major flowers of each group Special features of production
of horticultural crops ndash greenhouse cultivation Organic farming Zero budget farming
Vertical gardening and Kitchen farming
Text Books
1 Rajendra Prasad Text Book of Field Crop Production Directorate of Information and
Publication Krishi Anusandhan Bhavan Pusa New Delhi 2015
2 Reddy T Sankara GH Yellamanda Reddi Principles of Agronomy Kalyani
Publishers New Delhi 2005
3 Handbook of Agriculture ICAR Publications New Delhi 2011
Reference Books
1 Bose T K and LPYadav Commercial Flowers Naya Prakash Calcutta1989
2 Crop Production Guide Tamil Nadu Agricultural University Publication
Coimbatore 2005
3 Kumar N Abdul Khader M Rangaswami P and Irulappan I Introduction to
spices plantation crops medicinal and aromatic plants Rajalakshmi Publications
Nagercoil 1993
4 Kumar NrdquoIntroduction to Horticulturerdquo Rajalakshmi Publications Nagercoil 7th
edition 2015
5 Shanmugavel KG Production Technology of Vegetable Crops Oxford India
Publications New Delhi 1989
Web Links
1 httpswwwcareerlaunchercomcbse-ncertclass-8ScienceCBSE-Crop Production
andManagement-Notes html~text= E280A220Basic20 Practices20
of20Cropis20called20ploughing20or20tilling
2 httpswwwedubeanscomClass_VIII_Science_Crop-Production-and-Manage ment
php
3 httpsbyjuscombiologybasic-practices-of-crop-production
4 httpwwwapagrisnetgovinpdffarmerbookpdf
5 httpcbseacademicnicinweb_materialCurriculumVocational2018Basic20Ag
riculture20X20(408)pdf
AR19 Mechanical Engineering
Aditya Engineering College (A) 158
METROLOGYamp ICS LAB
V semester L T P C
Course Code 191ME5L05 0 0 3 15
Course Objectives
COB 1 To make the students measure bores by internal micrometers and dial bore
indicators
COB 2 To impart the knowledge of measurement of the angle and taper by bevel
protractor sine bars etc
COB 3 To induce the knowledge of principles involved in calibration
COB 4 To induce the knowledge about temperature sensors thermocouples RTD
thermisters)
Course Outcomes
At the end of the Course Student will be able to
CO 1 Measure the bores by internal micrometers and dial bore indicators
CO 2 Measure the angle and taper using bevel protractor and sine bar
CO 3 Measure screw thread parameters
CO 4 Find the errors and calibrate photo and magnetic pickups
CO 5 Find the errors and calibrate the pressure gauge temperature detectors and
LVDT
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
List of Experiments
Section A Metrology Lab
1 Measurement of lengths heights diameters by vernier calipers micrometers
2 Angle and taper measurements with bevel protractor Sine bar rollers and balls
3 Measurement of bores by internal micrometers and dial bore indicators
4 Straightness measuring using autocollimator
5 Gear tooth thickness measurement using gear tooth vernier calipers
Section B Instrumentation Lab
6 Calibration of pressure gauge
7 Study and calibration of LVDT transducer for displacement measurement
8 Calibration of thermocouple
AR19 Mechanical Engineering
Aditya Engineering College (A) 159
9 Study and calibration of photo and magnetic speed pickups
10 Calibration of resistance temperature detector
List of Augmented Experiments
Metrology Lab
(Any one of the following experiments can be performed)
11 Flatness measurement using optical flat
12 Machine tool alignment test on lathe using various metrology instruments
Instrumentation Lab
(Any one of the following experiments can be performed)
13 Calibration of Force measuring setup
14 Study and calibration of a Rotameter for flow measurement
Reference Books
1 Engineering Metrology MMahajan Dhanpat Rai Publishers
2 Measurement Systems Applications amp design DS Kumar Metropolitian Book
Co pvt ltd
Web Links
1 httpwwwatrieduinimagespdfdepartmentsINSTRUMENTATION20L
AB20 manual
2 httpwwwbitswglacinMEMetrology-Lab-Manual20320year 201 sem
3 httpslideplayercomslide7020420
4 httpgps-mechblogspotin201201lab-manual-for-measurement-andhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 160
THEORY OF MACHINES LAB
V semester L T P C
Course Code 191ME5L06 0 0 3 15
Course Objectives
COB 1 To equip the students with practical knowledge on governors and flywheels
COB 2 To provide practical exposure to students on gyroscopic forces and moments
COB 3 To impart knowledge of finding natural frequency of different types of
vibrations
COB 4 To develop knowledge on balancing of the machine parts statically and
dynamically
COB 5 To impart practical knowledge on analysis of mechanisms for a specified type
of motion in a machine
Course Outcomes
At the end of the Course Student will be able to
CO 1 Determine the critical speed of whirling of shaft
CO 2 Determine the position of sleeve against the controlling force and speed in
governors
CO 3 Analyze the motion of motorized gyroscopic couple
CO 4 Measure the frequency of damped and un-damped vibrations of a spring mass
system
CO 5 Apply the principles of balancing of masses to various links mechanisms and
engines
CO 6 Analyze the displacement velocity and acceleration against crank rotation in
slider crank mechanism
CO 7 Calculate the moment of inertia of flywheel
CO 8 Analyze cam profile for various cam follower systems
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1 (K5) 3 3 - 3 - - - - - - 3 -
CO2 (K5) 3 3 - 3 - - - - - - 3 -
CO3 (K5) 3 3 - 3 - - - - - - 3 -
CO4 (K5) 3 3 - 3 - - - - - - 3 -
CO5 (K5) 3 3 - 3 - - - - - - 3 -
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K3) - 1 -
CO2 (K3) - 1 -
CO3 (K4) - 1 -
CO4 (K3) - 1 -
CO5 (K3) - 1 -
LIST OF EXPERIMENTS
1 Determine whirling speed of shaft theoretically and experimentally
2 Plot follower displacement vs cam rotation for various Cam Follower systems
3 Determine the position of sleeve against controlling force and speed of a Hartnell
governor and plot the characteristic curve of radius of rotation
AR19 Mechanical Engineering
Aditya Engineering College (A) 161
4 Analyze the motion of a motorized gyroscope when the couple is applied along its
spin axis
5 Determine the frequency of un-damped free vibration of an equivalent spring mass
system
6 Determine the frequency of damped force vibration of a spring mass system
7 Study the static and dynamic balancing using rigid blocks
8 Find the moment of inertia of a flywheel
9 Plot slider displacement velocity and acceleration against crank rotation for single
slider crank mechanismFour bar mechanism
10 Find coefficient of friction between belt and pulley
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
11 Study simple and compound screw jack and determine the mechanical advantage
velocity ratio and efficiency
12 Study various types of gears- Spur Helical Worm and Bevel Gears
13 To determine the position of sleeve against controlling force and speed of a porter
governor and to plot the characteristic curve of radius of rotation
Reference Books
1 Theory of machines lab manual ndash Aditya Engineering College
2 Theory of machines by RSKhurmi JKGupta
AR19 Mechanical Engineering
Aditya Engineering College (A) 162
THERMAL ENGINEERING LAB
V semester L T P C
Course Code 191ME5L07 0 0 3 15
Course Objectives
COB 1 To provide the knowledge to the student about working of IC Engines
COB 2 To train the student to conduct performance and heat balance test on IC
Engines
COB 3 To practice the student to calculate the frictional losses in an IC Engine
COB 4 To impart practical exposure on performance of Reciprocating air Compressor
Course Outcomes
At the end of the Course Student will be able to
CO 1 Identify the various parts of an IC Engine
CO 2 Sketch the Valve and Port Timing diagrams for IC Engines
CO 3 Determine the performance of various types of IC Engines
CO 4 Prepare the heat balance sheet for various types of IC Engines
CO 5 Calculate the frictional power in various types of IC Engines
CO 6 Analyze the performance of reciprocating air compressor
Mapping of course outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO1(K2) 2 1 - - - - - - - 3 - -
CO2(K3) 3 2 - - - - - - - 3 - -
CO3(K3) 3 2 - 1 - - 3 - - 3 - 3
CO4(K3) 3 2 - - - - - - - 3 - -
CO5(K3) 3 2 - 1 - - 3 - - 3 - 3
CO6(K4) 3 3 - 2 - - 3 - - 3 - 3
CO7(K2) 2 1 - - - - - - - 3 - -
Mapping of course outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO1 (K2) - 2 -
CO2 (K3) - 2 -
CO3 (K3) 3 2 -
CO4 (K3) - 2 -
CO5 (K3) 3 2 -
CO6 (K4) 3 2 -
CO7 (K2) - 2 -
List of Experiments
1 (A)Draw amp Study The Valve Timing Diagrams For Four Stroke Diesel Engine
(Cut Section Model)
(B) Draw amp Study The Port Timing Diagrams For Two Stroke Petrol Engine (Cut
Section Model)
2 (A) Evaluate The Performance of 4 -Stroke Diesel Engine
(B) Draw The Heat Balance Sheet For 4-Stroke Single Cylinder Diesel Engine
(C) Determination of frictional power by retardation test on a 4-Stroke petrol
engine
3 (A) Evaluate The Performance of 4 -Stroke multi cylinder petrol Engine
AR19 Mechanical Engineering
Aditya Engineering College (A) 163
(B) Draw The Heat Balance Sheet For 4-Stroke multi cylinder petrol Engine
(C) Evaluation of frictional power by conducting morse test on 4-stroke multi
cylinder petrol engine
4 (A)Evaluate The Performance of 4 ndashStroke Petrol Engine Test Rig With Dc
Generator
(B)To Measure The Frictional Power of The Given Four Stroke Single Cylinder
Petrol Engine By Conducting Motoring Test
5 (A)Evaluate The performance of variable compression ratio engine
(B)Draw The Heat Balance Sheet For variable compression ratio engine
6 Performance test on reciprocating air compressor unit
LIST OF AUGMENTED EXPERIMENTS
(Any two of the following experiments can be performed)
7 (A) Determine the flash and fire point of given oil sample
(B) Determination of Viscosity using Red Wood Viscometer
(C) Determination of viscosity using Saybolt Viscometer
(D) Determination of calorific value of fuels by using Bomb Calorimeter
(E) ECONOMICAL SPEED TEST on IC Engines
Reference Books
1 Internal Combustion Engines V Ganesan TMH Publication 4th Edition
2 Internal Combustion Engines Fundamentals John B Heywood MGH
3 Thermal Engineering lab Manual Aditya Engineering College
Web Links
1 httpswwwscribdcomdoc38559760Thermal-Lab-Manual
2 httpwwwksrctacinpagethermal-engineering-labhtml
AR19 Mechanical Engineering
Aditya Engineering College (A) 164
EMPLOYABILITY SKILLS-III (Common to all branches)
Course Objectives
COB 1 To provide basic communication to ensure employability skills
COB 2 To meet the changing global needs and demands
COB 3 To orient students towards career and profession
COB 4 To equip students with fundamental and advanced inputs as various techniques
of strengthening their professional abilities
Course Outcomes
At the end of the Course Student will be able to
CO 1 Calculate the clock and calendar problems by simple methods
CO 2 Discuss about different types of puzzles
CO 3 Breakdown the typical write-up skills
CO 4 Apply different types of models on percentages profit and loss simple interest
and compound interest
CO 5 Demonstrate the tools of the soft skills
Mapping of Course Outcomes with Program Outcomes
COPO PO 1
(K3)
PO 2
(K4)
PO 3
(K5)
PO 4
(K5)
PO 5
(K3)
PO 6
(K3)
PO 7
(K2)
PO 8
(K3)
PO 9
(K2)
PO 10
(K2)
PO11
(K3)
PO12
(K1)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
Mapping of Course Outcomes with Program Specific Outcomes
COPSO PSO 1 (K3) PSO 2 (K4) PSO 3 (K3)
CO 1(K3)
CO 2(K3)
CO 3(K2)
CO 4(K4)
CO 5(K3)
UNIT-I
Aptitude puzzle test group reasoning
Soft Skills Group discussion
UNIT-II
Aptitude clock calendar
Soft Skills Resume writing Personalized Resume preparation Compose and Prepare a
cover letter
UNIT-III
Aptitude cubes ampdice partnership
Soft Skills E-mail -Writing ampEtiquette Business Etiquette
UNIT-IV
Aptitude percentage profit and loss
Soft Skills Interviewing skills-1Dorsquosamp donrsquots in an interview Interview Demonstration
V Semester L T P C
Course Code 191HS5T06 0 0 2 1
AR19 Mechanical Engineering
Aditya Engineering College (A) 165
Videos Interview Preparation
UNIT-V
Aptitude simple interest compound interest
Soft Skills Stress Management Personal priorities effect on career decisions Personal
priorities to professional priorities
Text Books
1 Quantitative Aptitude - Dr RS Aggarwal S CHAND
2 Quick Learning Objective General English ndash Dr RS Aggarwal S CHAND
Reference Books
1 Quantitative Aptitude - Abhijit Guha Mc Graw Hill Publications
2 Quantitative AptitudendashArun Sharma Mc Graw Hill Publications
3 A New Approach to Objective English -RS Dhillon DGP Publications
Web Links
1 wwwindiabixcom
2 wwwbankersaddacom