sona college of technology, salem (an autonomous ...speak effectively in real time and business...

12.06.2019 B.E./B.Tech.Regulations-2019 1

SONA COLLEGE OF TECHNOLOGY, SALEM

(An Autonomous Institution)

Courses of Study for B.E./B.Tech. Semester I under Regulations 2019 (CBCS)

Branch: Biomedical Engineering

S.No Course Code Course Title L T P C Category

Theory

1 U19ENG101B English For Engineers - I 1 0 2 2 HS

2 U19MAT102B Linear Algebra and

Multivariable Calculus 3 1 0 4 BS

3 U19PHY103E Engineering Physics 4 0 0 4 BS

4 U19CHE104G Engineering Chemistry 3 0 0 3 BS

5 U19PPR105 Problem Solving using

Python Programming 3 0 0 3 ES

6 U19BEE106B Basic Electrical and

Electronics Engineering 3 0 0 3 PC

Practical

7 U19PPL111 Python Programming

Laboratory 0 0 2 1 ES

8 U19BEEL113B

Basic Electrical and

Electronics Engineering

Laboratory

0 0 2 1 PC

9 U19GE101 Basic Aptitude - I 0 0 2 0 EEC

Total Credits 21

Optional Language Elective*

10 U19OLE1101 French

0 0 2 1 HS 11 U19OLE1102 German

12 U19OLE1103 Japanese

*Students may opt for foreign languages viz., German/French/Japanese with additional

one credit (Not accounted for CGPA calculation)

Approved By

Chairperson,

Science and

Humanities BoS

Dr.M.Renuga

Chairperson,

Biomedical

Engineering BoS

Dr.R.S.Sabeenian

Member Secretary,

Academic Council

Dr.R.Shivakumar

Chairperson,

Academic Council

& Principal

Dr.S.R.R.Senthil

Kumar

Copy to:-

HOD/ Biomedical Engineering, First Semester BE BME Students and Staff, COE


U19ENG101B - ENGLISH FOR ENGINEERS – I

COMMON TO CSE, ECE, EEE, MCT, BME

L T P C

1 0 2 2

Course Outcomes: At the end of course, the students will be able to

1. Use grammatical components effectively in both written and spoken

communication

2. Develop speaking skills for self-introduction, delivering speeches and

technical presentation.

3. Speak effectively in real time and business situations

4. Write email, formal letters and descriptions of graphics

5. Develop skills for writing reports and proposals, and for general purpose and

technical writing.

UNIT I

General Vocabulary, Parts of speech

Self-introduction - personal information, name, home background, study

details, area of interest, hobbies, strengths and weaknesses, projects and paper

presentations, likes and dislikes in food, travel, clothes, special features of

home town.

Instructions, Email - fixing an appointment, cancelling appointments,

conference details, hotel accommodation, order for equipment, training

programme details, paper submission for seminars and conferences

Paragraph writing – Describing – defining – providing examples or evidences

UNIT II

Tenses, active and passive voice

Welcome address, vote of thanks, special address on specific topic.

Checklists, letter writing - business communication, quotations, placing

orders, complaints, replies to queries from business customers, inviting

dignitaries, accepting and declining invitations

UNIT III

Prefixes and Suffixes

Mini presentation in small groups of two or three on office arrangements,

facilities, office functions, sales, purchases, training recruitment, advertising,


applying for financial assistance, applying for a job, team work, discussion,

presentation.

Job application letter and resume, recommendations,

UNIT IV

Modal verbs and probability, concord

Situational Role Play - between examiner and candidate, teacher and student,

customer and sales manager, hotel manager and organiser, team leader and

team member, bank manager and candidate, interviewer and applicant, car

driver and client, industrialist and candidate, receptionist and appointment

seeker, new employee and manager, employee and employee, p.a. and

manager, schedule for training

Note making, Proposal

UNIT V

If conditionals

Situational Role Play - Asking for directions, seeking help with office

equipment, clarifying an error in the bill, job details, buying a product, selling

a product, designing a website, cancelling and fixing appointments, hotel

accommodation, training facilities, dress code, conference facilities.

Memo, technical report writing - feasibility reports, accident report, survey

report

TOTAL: 45 hours

Speaking test will be conducted for 20 marks externally and evaluated along with

English for Engineers – I in the End Semester Valuation.

TEXT BOOK

Technical English I & II, Dr. M. Renuga et al. Sonaversity, 2016

EXTENSIVE READING

The Story of Amazon.com- Sara Gilbert, published by Jaico

The Story of Google – Sara Gilbert, published by Jaico

REFERENCE

Norman Whitby, Business Benchmark – Pre-Intermediate to Intermediate,

Students Book, Cambridge University Press, 2006.

A Course in Communication Skills, P. Kiranmai Dutt, Geetha Rajeevan, C. L.

N. Prakash, published by Cambridge University Press India Pvt. Ltd.


U19MAT102B - LINEAR ALGEBRA AND MULTIVARIABLE CALCULUS

Common to ECE and BME

L T P C

3 1 0 4

Course Outcomes: At the end of the course, the students will be able to

1. apply the concepts of vector spaces and linear transformations in real world

applications

2. apply the concepts of eigen values and eigen vectors of a real matrix and their

properties in diagonalization and the reduction of a real symmetric matrix

from quadratic form to canonical form

3. find the Taylor’s series expansion, Jacobians and the maxima and minima of

functions of two variables

4. apply appropriate techniques of multiple integrals to find the area and volume

5. apply the concepts of vector differentiation and integration to determine the

line, surface and volume integrals.

UNIT I - VECTOR SPACES 12

Vector Space – Linear independence and dependence of vectors – Basis – Dimension –

Linear transformations (maps) – Matrix associated with a linear map – Range and

kernel of a linear map – Rank-nullity theorem (without proof).

UNIT II - EIGEN VALUES AND EIGEN VECTORS 12

Eigen values and eigen vectors of real matrices – Properties of eigen values and eigen

vectors – Cayley-Hamilton theorem – Diagonalization of real symmetric matrices –

Reduction of quadratic form to canonical form.

UNIT III - FUNCTIONS OF SEVERAL VARIABLES 12

Functions of several variables – Partial differentiation – Total derivative – Jacobians –

Taylor’s theorem for function of two variables – Maxima and minima of function of

two variables without constraints – Constrained maxima and minima by Lagrange’s

method of undetermined multipliers.

UNIT IV - MULTIPLE INTEGRALS 12

Double integrals – Change of order of integration – Change of variables from Cartesian

to polar coordinates – Area as double integrals in Cartesian coordinates – Triple

integrals – Volume as triple integrals in Cartesian coordinates.


UNIT V - VECTOR CALCULUS 12

Vector differentiation: Scalar and vector valued functions – Gradient, directional

derivative, divergence and curl – Scalar potential.

Vector integration: Line, surface and volume integrals – Statement of Green’s,

Stoke’s and Gauss divergence theorems – Simple applications involving squares,

rectangles, cubes and rectangular parallelopiped.

Theory: 45 Hours; Tutorial: 15 hours

TOTAL: 60 hours

TEXT BOOKS

1. T. Veerarajan, “Linear Algebra and Partial Differential Equations”, McGraw

Hill Publishers, 1st Edition, 2018.

2. T. Veerarajan, “Engineering Mathematics for Semesters I & II”, McGraw Hill

Publishers, 1st Edition, 2019.

REFERENCE BOOKS

1. S. Lipschutz and M. L. Lipson, “Linear Algebra”, McGraw Hill Publishers,

6th Edition, 2018.

2. E. Kreyszig, “Advanced Engineering Mathematics”, Wiley Publishers, 10th

Edition, Reprint, 2017.

3. C. Prasad and R. Garg, “Advanced Engineering Mathematics”, Khanna


4. B. V. Ramana, “Higher Engineering Mathematics”, McGraw Hill Publishers,

29th Reprint, 2017.

5. B.S. Grewal, “Higher Engineering Mathematics”, Khanna Publishers, 44th

Edition, 2018.


U19PHY103E - ENGINEERING PHYSICS

(For Biomedical Engineering)

L

Course Outcomes: At the end of the course, the students will be able to,

1. Discuss the dual nature of matter and radiation and the application of wave

nature of particles.

2. Describe the basic components of lasers.

3. Analyse the relation between arrangement of atoms and material properties.

4. Explain the ultrasonic inspection technique in the field of medicine.

5. Elucidate the applications of X rays and radioactivity in the field of medicine.

UNIT I - QUANTUM PHYSICS 12

Origin of quantum mechanics – Limitations of classical theory - Dual nature of matter

and radiation

Particle nature of radiation - Compton effect - Explanation based on quantum theory

- Expression for Compton shift (no derivation).

Wave nature of matter - de Broglie waves - Schrödinger’s time independent and time

dependent wave equations - Physical significance of wave function - Energy and wave

function of an electron trapped in one dimensional box.

Application of wave nature of particles - Electron microscope - Comparison of

optical and electron microscope –Transmission electron microscope - Scanning

electron microscope - Limitations of electron microscope.

UNIT II - LASERS 12

Basic terms - Energy level - normal population - induced absorption (pumping) -

population inversion - meta stable state - spontaneous emission - stimulated emission.

Basic components of a laser - Active medium - pumping technique - optical resonator

Einstein’s theory - Stimulated absorption - spontaneous emission and stimulated

emission.

Types of lasers - Solid lasers (Nd:YAG) - Gas lasers (CO2 laser) - Semiconductor laser

(homojunction and hetero junction laser)

Applications - Holography - Construction and reconstruction of hologram -

Applications of lasers in science and Engineering.

L T P C

4 0 0 4


UNIT III - CRYSTAL PHYSICS 12

Importance of crystals - Types of crystals - Basic definitions in crystallography (Lattice

– space lattice - unit cell - lattice parameters – basis - crystallographic formula) - Seven

crystal systems and fourteen Bravais lattices – Lattice planes and Miller indices –

Interplanar distance - d spacing in cubic lattice - Calculation of number of atoms per

unit cell - Atomic radius - Coordination number and Atomic Packing factor for SC,

BCC, FCC and HCP Structures - Polymorphism and allotropy.

Crystal imperfections - Point, line and surface defects – Burger vector.

Crystal Structure – Graphite Structure and Diamond Structure.

UNIT IV - ULTRASONICS 12

Introduction – Ultrasonic waves - Properties of ultrasonic waves.

Production of ultrasonic waves – Magneto striction method – Magnetostriction

oscillator - Piezo electric method – Piezo electric oscillator.

Ultrasonic imaging systems – Block diagram of ultrasonic imaging system – A scan,

B scan and T-M mode display - Ultrasound pictures of human body – Ultrasonic

technique to measure blood flow and heart beat – Physiological effects of ultrasound

therapy – Phonocardiography.

UNIT V - MEDICAL PHYSICS 12

X – rays - Electromagnetic spectrum - Introduction to x- rays – Production of x- ray

images – Producing live x- ray images – Radiation given to patients – Nuclear

medicine – Sources of radioactivity – Radioisotopes for nuclear medicine – Statistical

aspects of radioactivity decay in radioisotopes – Nuclear imaging techniques – Basic

instrumentation for nuclear imaging – Gamma ray camera – Positron emission

tomography.

TOTAL: 60 hours

TEXT BOOK

M.N.Avadhanulu, ‘Engineering Physics’ S.Chand & Company Ltd, New

Delhi (2015)

B. K. Pandey and S. Chaturvedi, Engineering Physics , Cengage Learning

India Pvt. Ltd., Delhi, 2019


REFERENCES

Engineering Physics, Sonaversity, Sona College of Technology, Salem

(Revised Edition 2019).

Rajendran, V, and Marikani A, ‘Materials science’ TMH Publications, (2004)

New Delhi.

Palanisamy P.K, ‘Materials science’, SciTech Publications (India) Pvt. Ltd.,

Chennai, Second Edition (2007)

Cameran. R, Medical Physics, John Wiley and Sons.

D. K. Bhattacharya, Poonam Tandon “Engineering Physics” Oxford

University Press 2017.

M.Arumugam, “Applied Physics” Anuradha agencies, kumbakonam 2001


U19CHE104G - ENGINEERING CHEMISTRY

(For Mechatronics and Biomedical Engineering)

L T P C

3 0 0 3


1. Analyze the impurities of water, their removal methods and explain the

conditioning methods for industrial uses.

2. Outline the principles and applications of electrochemistry to engineering and

technology.

3. Analyze the types of corrosion and describe the methods of corrosion control.

4. Discuss the principle and applications of surface chemistry and catalysis in

engineering and technology.

5. Describe the basics of nano chemistry, synthesis, properties and applications

of nano materials in engineering and technology.

UNIT I - WATER TECHNOLOGY 9

Introduction - Characteristics – hardness – estimation of hardness by EDTA method,

alkalinity and its estimation - Boiler feed water – requirements – disadvantages of using

hard water in boilers – internal conditioning (colloidal, phosphate, calgon and

carbonate conditioning methods) – external conditioning – zeolite process,

demineralization process, desalination of brackish water by reverse osmosis.

UNIT II - ELECTROCHEMISTRY 9

Electrode potential - Nernst Equation - derivation and problems based on single

electrode potential calculation - reference electrodes - standard hydrogen electrode -

calomel electrode – Ion selective electrode - glass electrode - measurement of pH –

electrochemical series – significance – electrolytic and electrochemical cells –

reversible and irreversible cells – EMF – measurement of emf – potentiometric

titrations (redox – Fe2+ vs dichromate) – conductometric titrations (acid-base – HCl vs

NaOH).

UNIT III - CORROSION AND CORROSION CONTROL 9

Chemical corrosion - Pilling-Bedworth rule – electrochemical corrosion – mechanism -

galvanic corrosion – differential aeration corrosion – factors influencing corrosion –

corrosion control – sacrificial anode and impressed cathodic current methods –

corrosion inhibitors – protective coatings – preliminary treatment - Paints constituents

and their functions – surface conversion coatings – Galvanizing and Tinning.


UNIT IV - SURFACE CHEMISTRY AND CATALYSIS 9

Adsorption-types-physical and chemical adsorption – adsorption of gases on solids-

adsorption isotherms-Freundlich and Langmuir isotherms-adsorption of solutes from

solution – applications of adsorption-role of adsorption in catalytic reactions – basic

principles in adsorption chromatography – adsorption in pollution abatement (granular

activated carbon and powdered activated carbon) – catalysis-types - characteristics of

catalysts - autocatalysis - definition and examples.

UNIT V - NANOCHEMISTRY 9

Basics - distinction between molecules, nanoparticles and bulk materials – size-

dependent properties – nanoparticles: nano cluster, nano rod, nanotube (CNT) and

nanowire – Synthesis: precipitation – thermolysis – hydrothermal – solvothermal –

electrodeposition - chemical vapour deposition - sol-gel technique – properties and

applications of nano materials.

TOTAL: 45 hours

TEXT BOOKS

P.C.Jain and Monica Jain, “Engineering Chemistry” Dhanpat Rai Pub, Co.,

New Delhi, 2010 (15th Edition).

T. Maruthavanan et al., “Engineering Chemistry”, Sonaversity, Sona College

of Technology, Salem, Revised Edition 2018.

REFERENCE BOOKS

H.K. Chopra, A. Parmer, “Chemistry for Engineers”, Narosa Publishing

House, New Delhi, 110 002, 2016.

Kannan P., Ravikrishnan A., “Engineering Chemistry”, Sri Krishna Hi-tech

Publishing Company Pvt. Ltd., Chennai, 2009.

B. Sivasankar “Engineering Chemistry” Tata McGraw-Hill Pub.Co.Ltd, New

Delhi, 2008.

Ozin G. A. and Arsenault A. C., “Nanochemistry: A Chemical Approach to

Nanomaterials”, RSC Publishing, 2005.


U19PPR105 - PROBLEM SOLVING USING PYTHON PROGRAMMING

(Common to BME, CSE, ECE, EEE, IT and MCT)

L T P C

3 0 0 3


1. Develop algorithmic solutions to simple computational problems

2. Write simple Python programs

3. Write programs with the various control statements and handling strings in

Python

4. Develop Python programs using functions and files

5. Analyze a problem and use appropriate data structures to solve it.

UNIT I - ALGORITHMIC PROBLEM SOLVING 9

Need for computer languages, Algorithms, building blocks of algorithms (statements,

state, control flow, functions), notation (pseudo code, flow chart, programming

language), algorithmic problem solving, simple strategies for developing algorithms

(iteration, recursion).

UNIT II - BASICS OF PYTHON PROGRAMMING 9

Introduction-Python Interpreter-Interactive and script mode -Values and types,

variables, operators, expressions, statements, precedence of operators, Multiple

assignments, comments, input function, print function, Formatting numbers and strings,

implicit/explicit type conversion.

UNIT III - CONTROL STATEMENTS AND STRINGS 9

Conditional (if), alternative (if-else), chained conditional (if-elif-else). Iteration-while,

for, infinite loop, break, continue, pass, else. Strings-String slices, immutability, string

methods and operations.

UNIT IV - FUNCTIONS AND FILES 9

Functions - Introduction, inbuilt functions, user defined functions, passing parameters -

positional arguments, default arguments, keyword arguments, return values, local

scope, global scope and recursion. Files -Text files, reading and writing files.

UNIT V - DATA STRUCTURES: LISTS, SETS, TUPLES, DICTIONARIES 9

Lists-creating lists, list operations, list methods, mutability list functions, searching and

sorting, Sets-creating sets, set operations. Tuples-Tuple assignment, Operations on

Tuples, lists and tuples, Tuple as return value- Dictionaries-operations and methods,

Nested Dictionaries.

TOTAL: 45 Hours

TEXT BOOKS


Reema Thareja, "Problem Solving and Programming with Python”, Oxford

University Press, 2018.

Allen B. Downey, “Think Python: How to Think Like a Computer Scientist‘‘,

2nd edition, Updated for Python 3, Shroff/O‘Reilly Publishers, 2016

(http://greenteapress.com/wp/think- python/)

REFERENCES

Ashok Namdev Kamthane, Amit Ashok Kamthane, “Programming and

Problem Solving with Python” , Mc-Graw Hill Education, 2018.

Robert Sedgewick, Kevin Wayne, Robert Dondero, “Introduction to

Programming in Python: An Inter-disciplinary Approach”, Pearson India

Education Services Pvt. Ltd., 2016.

Timothy A. Budd,” Exploring Python”, Mc-Graw Hill Education (India)

Private Ltd., 2015.

Kenneth A. Lambert, “Fundamentals of Python: First Programs”, CENGAGE

Learning, 2012.

Charles Dierbach, “Introduction to Computer Science using Python: A

Computational Problem Solving Focus”, Wiley India Edition, 2013.

http://greenteapress.com/wp/think-python/



U19BEE106B - BASIC ELECTRICAL AND ELECTRONICS ENGINEERING

(Common to ECE and BME)

L T P C

3 0 0 3


1. Realize the basic concepts of electrical quantities and components.

2. Understand the working of electrical machines.

3. Analyze the construction and characteristics of semiconductor devices.

4. Examine the BJT formation and its characteristics.

5. Enhance the knowledge on Special Devices

UNIT I – BASICS OF ELECTRICAL PERCEPTIONS 9

Definition of Electric Voltage, Current, Power, Power factor & Energy, Ohms law,

Kirchhoff’s Laws and its applications-Frequency-AC and DC Signals-types of sources-

single phase-three phase- Resistance- Inductance-capacitance-Series and parallel

combinations.

UNIT II - ELECTRICAL MACHINES 9

DC Generator: construction of DC Machine – working principle of DC Generator –

EMF equation – Types of DC Generator. DC Motor: Working principle of DC Motor –

Types of DC Motor.Transformer: Working principle of Transformer – EMF equation –

Transformation ratio.

UNIT III - PN JUNCTION DIODE 9

Energy band theory-Conductor-Insulator-Semiconductor-Doping-formation of N-type

and P-type materials-PN junction Diode – V-I Characteristics- Zener diode- VI

characteristics of Zener-Avalanche break down. - Zener effect-Zener diode as voltage

regulator.

UNIT IV – BJT 9

Bipolar Junction Transistor – construction-Working principle-Regions of transistor-CB,

CE, CC Configurations and Characteristics –Transistor as a switch – Applications of

transistor.

UNIT V - SPECIAL DEVICES 9

Construction and Characteristics of - Tunnel Diode-Varactor diode-Photo diode- Photo

transistor- SCR-TRIAC-DIAC

Total: 45 hours


TEXT BOOKS

1. D P Kothari and I J Nagrath, “Basic Electrical and Electronics Engineering”,

Mc Graw Hills (India) Private Limited, 2014.

2.

REFERENCE BOOKS

1. D. Devaraj, S. K. Bhattacharya, “Basic Electrical and Electronics

Engineering”, Pearson India, 2016

2. AbhiChakrabarti, Sudipta Debnath, Soumitra Kumar Mandal, “Basic

Electrical & Electronics Book “,Mc Graw Hill Education; Fifth Edition, 2016.

3. Ravish Singh, “ Basic Electrical & Electronics Engineering”, McGraw Hill

Education, 2014


U19PPL111 - PYTHON PROGRAMMING LABORATORY


L T P C

0 0 2 1


1. Implement the algorithms using basic control structures in Python

2. Develop Python programs to use functions, strings and data structures to solve

different types of problems

3. Implement persistent storing information through file operations

LIST OF EXPERIMENTS

1. Draw flowchart using any open source software.

2. Implement programs with simple language features.

3. Implement various branching statements in python.

4. Implement various looping statements in python.

5. Develop python programs to perform various string operations like

concatenation, slicing, indexing.

6. Implement user defined functions using python.

7. Implement recursion using python.

8. Develop python programs to perform operations on list and tuples

9. Implement dictionary and set in python

10. Implement python program to perform file operations.

TOTAL: 30 hours


U19BEEL113B - BASIC ELECTRICAL AND ELECTRONICS LABORATORY


L T P C

0 0 2 1


1. Identify the active, passive components and measuring instruments.

2. Analysis the electrical quantity at the any point of circuit.

3. Design the circuit based on PN junction diode and BJT.

LIST OF EXPERIMENTS

1. Identification of active and passive electronic components.

2. Study on CRO, Ammeter, Voltmeter, Multi-meter, Function Generator, and

DSO.

3. Measurement of DC and AC power supply using measuring instruments.

4. Realization and design problems on ohms law.

5. Realization and design problems on KCL, KVL.

6. Mesh and node analysis of circuit.

7. VI characteristics analysis of PN junction diode.

8. Biasing and characteristics analysis of BJT.

9. CB, CC and CE analysis of BJT.

10. Realization of transistor as switch.

TOTAL: 30 hours


U19GE101 - BASIC APTITUDE – I

(Common to All Departments)

L T P C

0 0 2 0


1. Solve fundamental problems in specific areas of quantitative aptitude

2. Solve basic problems in stated areas of logical reasoning

3. Demonstrate rudimentary verbal aptitude skills in English with regard to

specific topics

1. Quantitative Aptitude and Logical Reasoning

Solving simple problems with reference to the following topics:

a. Numbers – HCF & LCM

b. Decimal fractions

c. Square roots & cube roots

d. Surds & Indices

e. Logarithms

f. Percentage

g. Averages

h. Coding and Decoding & Visual language

2. Verbal Aptitude

Demonstrating plain English language skills with reference to the following topics:

a. Synonyms

b. Antonyms

c. Verbal analogy

d. Editing passages

e. Sentence filler words

TOTAL: 30 hours

12.06.2019 B.E./B.Tech. Regulations-2019 1

Sona College of Technology, Salem


Courses of Study for B.E/B.Tech. Semester I under Regulations 2019 (CBCS)

Branch: Civil Engineering


Theory

1 U19ENG101 English for Engineers - I 2 0 2 3 HS

2 U19MAT102A Linear Algebra and Calculus 3 1 0 4 BS

3 U19PHY103A Physics for Civil Engineering 3 1 0 4 BS

4 U19CHE14A

Chemistry for Civil

Engineering 3 1 0 4 BS

5 U19EGR106 Engineering Graphics ** 2 0 2 3 ES

Practical

7 U19PCL108A

Physics and Chemistry

Laboratory-I # 0 0 3 1.5 BS

8 U19WPL112

Workshop Practices


9 U19GE101 Basic Aptitude-I 0 0 2 0 EEC

Total Credits



0 0 2 1 HS 12 U19OLE1102 German




# Laboratory classes on alternate weeks for physics and chemistry. The lab examination

will be conducted separately for 50 marks each with 2 hours durations.

** The examination will be conducted for 3 hours through CAD software and manual

drafting

Approved By

Chairperson,

Science and

Humanities BoS

Chairperson, Civil

Engineering BoS

Member Secretary,

Academic Council

Chairperson,

Academic Council

& Principal

Dr.M.Renuga Dr.R.Malathy Dr.R.Shivakumar Dr.S.R.R.Senthil

Kumar

Copy to:-

HOD/Civil, First Semester BE Civil Students and Staff, COE


U19ENG101 - ENGLISH FOR ENGINEERS – I

Common to Civil Engineering

L T P C

2 0 2 3

Course Outcome: At the end of course, the students will be able to


communication






technical writing.

UNIT - I


Self-introduction – personal information, name, home background, study



home town.

Instructions, Email – fixing an appointment, cancelling appointments,



Paragraph writing – describing – defining – providing examples or evidences

UNIT - II





dignitaries, accepting and declining invitations, detailed project report

UNIT - III


Mini presentation in small groups of two or three, on office arrangements,



presentation.

Job application letter and resume, recommendations


UNIT - IV








Note making, Proposal, drafting circulars

UNIT - V

If conditionals





Memo, technical report writing - feasibility reports, accident report, survey

report

Preparing abstracts for technical articles

TOTAL: 60 hours



TEXT BOOK


EXTENSIVE READING



REFERENCE






U19MAT102A - LINEAR ALGEBRA AND CALCULUS

Common to CIVIL, MECH, EEE, CSE, IT and MCT

L T P C

3 1 0 4


find the rank of the matrix and solve linear system of equations by direct and

indirect methods

apply the concepts of vector spaces and linear transformations in real world

applications

apply the concepts of eigen values and eigen vectors of a real matrix and their



find the Taylor’s series expansion, Jacobians and the maxima and minima of


apply appropriate techniques of multiple integrals to find the area and volume.

UNIT I - LINEAR SYSTEM OF EQUATIONS 12

Rank of a matrix – Solution of linear system of equations by matrix method, Gauss

elimination, Gauss-Jordan, Gauss-Jacobi and Gauss-Seidel methods.

UNIT II - VECTOR SPACES 12




UNIT III - EIGEN VALUES AND EIGEN VECTORS 12




UNIT IV - MULTIVARIABLE CALCULUS 12






UNIT V - MULTIPLE INTEGRALS 12




Theory: 45 hours; Tutorial: 15 hours

TOTAL: 60 Hours

TEXT BOOKS





REFERENCE BOOKS


6th Edition, 2018.






29th Reprint, 2017.

5. B. S. Grewal, “Higher Engineering Mathematics”, Khanna Publishers, 44th

Edition, 2018.


U19PHY103A - PHYSICS FOR CIVIL ENGINEERING

(For B.E Civil Engineering)

L T P C

3 1 0 4


1. Discuss the dual nature of matter and radiation.


3. Analyze the relation between arrangement of atoms and properties of solids.

4. Evaluate the factors affecting architectural acoustics of buildings.

5. Elucidate the different modes of heat transfer.



and radiation.

Particle nature of radiation - Compton Effect –Explanation based on quantum theory-

Expression for Compton shift (no derivation).





optical and electron microscope - Scanning electron microscope – Transmission

electron microscope-Limitations of electron microscope.

UNIT II - LASERS 12




Einstein’s theory - Stimulated absorption - spontaneous emission and stimulated

emission.

Types of lasers - Solid lasers ( Nd:YAG) - Gas lasers (CO2 laser) - semiconductor laser

(homojunction and hetero junction laser).

Applications - Holography - Construction and reconstruction of hologram -

Applications of lasers in science and Engineering.



–space lattice - unit cell - lattice parameters – basis - crystallographic formula) - Seven






Crystal imperfections - Point, line and surface defects - Burger vector.

Crystal Structure – Graphite Structure, Diamond Structure.

UNIT IV - ARCHITECTURAL ACOUSTICS 12

Classification of sound waves: Audible sound waves, Infrasonic waves, Ultrasonic

waves- Noise and musical sound-Weber – Fechner law-Loudness level and intensity.

Basic requirements for the acoustically good halls- Reverberation -Sabine’s law and

its importance (no derivation)-absorption co-efficient-Factors affecting the acoustics

and their remedies.

Sound insulation: Noise classification-Transmission loss-Sound insulation between

individual rooms.

UNIT V - THERMAL PHYSICS 12

Heat and temperature - Modes of heat transfer (Conduction, convection and

radiation) - Specific heat capacity - thermal capacity and coefficient of linear thermal

expansion. Thermal conductivity - Measurement of thermal conductivity of good

conductor - Forbe’s method - Measurement of thermal conductivity of bad conductor -

Lee’s disc method - Radial flow of heat - Cylindrical flow of heat - Practical

applications of conduction of heat – Thermal insulation in buildings.

Thermal radiations - Properties of thermal radiations - Applications of thermal

radiations.

TOTAL: 60 Hours

TEXT BOOKS

B. K. Pandey and S. Chaturvedi, “Engineering Physics”, Cengage Learning

India Pvt. Ltd., Delhi, 2012.

Dr. B.C. Punmia et al, “Building construction”, Laxmi publications Pvt. Ltd.,

New Delhi 2008.

REFERENCES


(Revised Edition 2018 ).


New Delhi.




U19CHE104A - CHEMISTRY FOR CIVIL ENGINEERING

L T P C

3 1 0 4



conditioning methods for domestic and industrial uses.

2. Outline the principles, applications of electrochemistry, types of corrosion and

its control methods.

3. Compare the types of polymerization reactions, techniques and fabrication

methods of polymers.

4. Analyze the composition, properties and industrial applications of engineering

materials.

5. Describe the ingredients, manufacture, properties and applications of

construction materials.






demineralization process, desalination of brackish water by reverse osmosis - Domestic

water treatment – screening, sedimentation, coagulation, aeration, sand filtration and

disinfection methods - Chlorination, ozonation and UV treatment.

UNIT II - ELECTROCHEMISTRY AND CORROSION 12

Electrode potential – Nernst Equation – derivation and problems based on single

electrode potential calculation – reference electrodes – standard hydrogen electrode –

calomel electrode – Ion selective electrode – glass electrode – measurement of pH –




NaOH) – Corrosion – types – dry and wet corrosion – examples – Corrosion control

methods – Sacrificial anode and impressed cathode current method.

UNIT III - POLYMER CHEMISTRY 12

Nomenclature of Polymers - classification of Polymers – functionality – types of

polymerization-addition-condensation and copolymerization – Free Radical

mechanism of addition Polymerization – Properties of Polymers – glass transition

temperature, Tg - Methods of Polymerization-bulk-solution-emulsion and suspension –

Plastics – Moulding constituents of plastic – Moulding of plastics into articles-


Injection-Compression and Blow moulding – Thermoplastic and Thermosetting resins

– Engineering Plastics-Nylon 6,6-Polycarbonate and Polyurethane-preparation-

properties and applications – Rubbers-types-applications-vulcanization of rubber.

UNIT IV - CHEMISTRY OF ENGINEERING MATERIALS 12

Refractories – classification – acidic, basic and neutral refractories – properties

(refractoriness, refractoriness under load, dimensional stability, porosity, thermal

spalling). Abrasives – natural and synthetic abrasives – quartz, corundum, emery,

garnet, diamond, silicon carbide and boron carbide. Lubricants – mechanism of

lubrication, liquid lubricants, - properties – (viscosity index, flash and fire points, cloud

and pour points, oiliness) – solid lubricants – graphite and molybdenum sulphide.

Composites – definition, constituents of composites – composition, properties and

applications of various fibre reinforced polymer (FRP) composites.

UNIT V - CHEMISTRY OF BUILDING MATERIALS 12

Lime – classification – manufacture and properties of lime – Cement – classification –

Portland cement – chemical composition – manufacture of Portland cement by wet

method – setting and hardening – analysis of cement – concretes – hot and cold

weathering of concrete, cement and its prevention methods – special cements - gypsum

– plaster of Paris – Glass - manufacture, types, properties and uses – Recent trends in

construction materials – special paints and their applications in construction sector.

TOTAL: 60 hours

TEXT BOOKS


New Delhi , 17th Edition, 2018.

S. Kalaiarasan et al, “Chemistry For Civil Engineering” Sonaversity, Sona

College of Technology, Salem, 2019.

REFERENCE BOOKS

O G Palana, Engineering Chemistry”, Tata McGraw Hill Education (India)

Private Limited, Chennai, Second Edition, 2017.

B. Sivasankar, “Engineering Chemistry”, Tata McGraw-Hill Pub. Co. Ltd.,

New Delhi (2008).

B.K. Sharma, “Engineering Chemistry”, Krishna Prakasan Media (P) Ltd.,

Meerut (2001).

N. Krishnamurthy, K. Jeyasubramanian and P. Vallinayagam, “Applied

Chemistry”, Tata McGraw-Hill Publishing Company Limited, New Delhi

(1999).


U19EGR106 - ENGINEERING GRAPHICS

L T P C

2 0 2 3

Course Outcomes: Upon completion of this course the students will be able to

CO1 Predict the construction of various curves in civil elevation, plan and machine

components.

CO2 Analyze the principles of projection of various planes by different angle to

project points, lines and planes.

CO3 Draw the principles of projection of simple solid by the axis is inclined to one

reference plane by change of position method.

CO4 Understand the interior details of complex components, machineries by

sectioning the solid body. Study the development of surfaces for prisms and

pyramids.

CO5 Draw the projection of three dimensional objects representation of machine

structure and explain standards of orthographic views by different methods.

CONCEPTS AND CONVENTIONS (Not for Examination) L 3

Importance of graphics in engineering applications, Use of drafting instrument, BIS

conventions and specifications - Size, layout and folding of drawing sheets, Lettering

and dimensioning.

COMPUTER AIDED DRAFTING (Not for Examination) L 3

Importance 2d Drafting, sketching, modifying, transforming and dimensioning.

UNIT I - PLANE CURVES (Manual drafting) L 6

Curves used in engineering practices Conics – Construction of ellipse – Parabola and

hyperbola by eccentricity method – Construction of cycloid – construction of involutes

of square and circle – Drawing of tangents and normal to the above curves.

UNIT II - PROJECTION OF POINTS, LINES AND PLANE SURFACES L 12

(CAD Software)

Projection of points – Projection of straight lines located in the first quadrant –

Determination of true lengths and true inclinations – Projection of polygonal surface

and circular lamina inclined to one reference planes.


UNIT III - PROJECTION OF SOLIDS L 12

(CAD Software)

Creation of 3D CAD models of pyramids, prisms and solids of revolutions- Sectional

views - (Not for Examination)

Projection of simple solids like prisms – pyramids – cylinder and cone when the axis is

inclined to one reference plane by change of position method.

UNIT IV - SECTION OF SOLIDS AND DEVELOPMENT OF SURFACES L 12

(CAD Software)

Sectioning of simple solids like prisms – pyramids, cylinder and cone in simple vertical

position by cutting planes inclined to one reference plane and perpendicular to the

other, (Obtaining true shape of section is not required). Development of lateral surfaces

of simple and truncated solids – Prisms – pyramids –cylinders and cones.

UNIT V - CONVERSION OF ISOMETRIC VIEWS TO ORTHOGRAPHIC

VIEWS L 12

(Manual drafting)

Representation of three dimensional objects – General Principles of Orthographic

projection – Need for importance of multiple views and their placement – First angle

projection – layout of views – Developing visualization skills through free hand

sketching of multiple views from pictorial views of objects.

TOTAL: 60 Hours

TEXT BOOKS

P. Suresh et al., “Engineering Graphics and Drawing”, Sonaversity, Sona

College of Technology, Salem, Revised edition, 2012.

K.V. Natarajan Engineering Graphics by, Chennai, 17th edition 2003.

REFERENCE BOOKS

Dhananjay A. JoIhe, Engineering Drawing with an introduction to AutoCAD,

Tata McGraw Hill Publishing Company Limited, 2008.

Basant Agarwal and Agarwal C.M., Engineering Drawing, Tata McGraw Hill

Publishing Company Limited, New Delhi, 2008.

K. R. Gopalakrishnana, Engineering Drawing (Vol. I & II), Subhas

Publications, 1998.

Bertoline& Wiebe fundamentals of graphics communication III edition

McGrawhill 2002.


U19PCL108A - PHYSICS CHEMISTRY LABORATORY - I

PHYSICS PART

(FOR B.E. CIVIL ENGINEERING)

L T P C

0 0 3 1.5


1. Demonstrate an experimental setup to form interference fringes and use it to

determine the thickness of the thin wire.

2. Study the change in properties of ultrasonic waves in a liquid medium and

determine the characteristics of the liquid.

3. Demonstrate by means of an appropriate experiment the poor thermal

conductivity of a given bad conductor

4. Apply the principle of spectrometry to determine the properties of a given

prism.

5. Demonstrate the applications of a diode laser to determine the wave length,

particle size in the given powder (Lycopodium) and the characteristics of a

given optical fibre.

6. Investigate the non – uniform bending behavior of a given material.

List of Experiments

1. Determination of the thickness of a thin wire by forming interference fringes

using air wedge apparatus.

2. Determination of velocity of ultrasonic waves and compressibility of the given

liquid using ultrasonic interferometer.

3. Determination of the thermal conductivity of a bad conductor using Lee’s Disc

apparatus.

4. Determination of dispersive power of the prism for various pairs of colors in the

mercury spectrum using a spectrometer.

5. Determination of laser wavelength and particle size (lycopodium powder),

acceptance angle and numerical aperture of an optical fibre using diode laser.

6. Determination of the Young’s modulus of the given material by non-uniform

bending method.

TOTAL: 45 Hours


U19PCL108A - PHYSICS CHEMISTRY LABORATORY - I

CHEMISTRY PART

(FOR B.E. CIVIL ENGINEERING)

L T P C

0 0 3 1.5


Estimate the amount of total, temporary and permanent hardness in the given

water sample

Analyse the different types of alkalinity and determine their amount in the

given water sample

Estimate the amount of hydrochloric acid present in the given solution using

conductivity meter.


pH metry.

Describe the estimation of ferrous iron present in the given solution using

potentiometer.

Evaluate the iron content of the water by spectrophotometry.

List of Experiments (Chemistry part)

1. Estimation of hardness of water sample by EDTA method.

2. Estimation of alkalinity of water sample by indicator method.

3. Estimation of HCl by conductometry. (HCl vs NaOH)

4. Estimation of HCl by pH metry.

5. Estimation of ferrous ion by potentiometric titration.

6. Determination of iron content in water by spectrophotometric method.

Total: 45 Hours


U19WPL112 - WORKSHOP PRACTICE

L T P C

0 0 2 1


CO1 Familiarize with the basic of tools and equipment’s used in fitting, carpentry,

welding and sheet metal.

CO2 Fabricate the different simple products in above trades.

CO3 Produce different joining of metals.

LIST OF EXPERIMENTS

SECTION 1: FITTING

Tools and Equipment’s- Practice in filling.

Making of Vee joint and square (T-fitting) joint.

SECTION 2: SHEET METAL

Tools and Equipment’s- Practice

Making of Dust Pan and Funnel.

SECTION 3: WELDING

Tools and Equipment’s – Practice

Arc welding of Butt joint and Lap Joint.

SECTION 4: CARPENTRY

Tools and Equipment’s- Planning Practice

Making of Half Lap joint and Dovetail Joint.

TOTAL: 30 hours




L T P C

0 0 2 0





specific topics






d. Surds & Indices

e. Logarithms

f. Percentage

g. Averages


2. Verbal Aptitude


a. Synonyms

b. Antonyms

c. Verbal analogy

d. Editing passages


TOTAL: 30 hours





Branch: Computer Science and Engineering


Theory

1 U19ENG101B English for Engineers– I 1 0 2 2 HS


3 U19PHY103B Engineering Physics 3 0 0 3 BS

4 U19CHE104B Applied Chemistry -I 3 0 0 3 BS

5 U19PPR105 Problem Solving

Using Python Programming 3 0 0 3

ES

6 U19BEE106A Basic Electrical and

Electronics Engineering 3 0 0 3

ES

Practical

7 U19PCL108B Physics and

Chemistry Laboratory# 0 0 2 1

BS

8 U19BEEL113A Basic Electrical and

Electronics

Engineering Laboratory

0 0 2 1

ES


Laboratory 0 0 2 1

ES

10 U19GE101 Basic Aptitude -I 0 0 2 0 EEC

Total Credits 21



0 0 2 1 HS 12 U19OLE1102 German




# Laboratory classes on alternate weeks for physics and Chemistry. The lab

examination will be conducted separately for 50 marks each with 2 hours duration


Approved By

Chairperson,

Science and

Humanities BoS

Dr.M.Renuga

Chairperson,

Computer Science

and Engineering BoS

Dr.B.Sathiyabhama

Member Secretary,

Academic Council

Dr.R.Shivakumar

Chairperson,

Academic Council

& Principal

Dr.S.R.R.Senthil

Kumar

Copy to:-

HOD/ Computer Science and Engineering, First Semester BE CSE Students and Staff,

COE




L T P C

1 0 2 2



communication






technical writing.

UNIT I





home town.





UNIT II



Checklists, letter writing – business communication, quotations, placing



UNIT III





presentation.



UNIT IV









UNIT V

If conditionals





Memo, technical report writing, feasibility reports, accident report, survey

report

TOTAL: 45 hours



TEXT BOOK:


Extensive Reading



Reference








L T P C

3 1 0 4



indirect methods


applications





























TOTAL: 60 Hours

TEXT BOOKS





REFERENCE BOOKS


6th Edition, 2018.






29th Reprint, 2017.


Edition, 2018.


U19PHY103B - ENGINEERING PHYSICS

(For B.E Computer Science and Engineering)

L T P C

3 0 0 3






4. Deduce Maxwell’s equations using the fundamentals of electromagnetism.




and radiation.







optical and electron microscope - Scanning electron microscope - Limitations of

electron microscope.

UNIT II - LASERS 9




Einstein’s theory - stimulated absorption - spontaneous emission and stimulated

emission.



Holography - Construction and reconstruction of hologram.









Crystal imperfections - Point, line and surface defects - burger vector.

UNIT IV – ELECTROMAGNETISM 9

Electrostatics - Electric field - Electric field intensity – Field due to discrete and

continuous charges – Electric lines of forces – Electric flux – Gauss’s law – Divergence

of E – Applications of Gauss’s law – Curl of E.

Magnetostatics – Magnetic fields – Magnetic Lorentz force – Force experienced by

current carrying conductor in magnetic field – Steady currents – Magnetic field due to

steady current - Biot - Savart Law - Straight line currents – Ampere’s circuital law –

Divergence and curl of B – Applications of Ampere’s circuital law - Comparison of

Magneto statics and Electrostatics.




expansion. Thermal conductivity - Measurement of thermal conductivity of good

conductor - Forbe’s method - Measurement of thermal conductivity of bad conductor -

Lee’s disc method - Radial flow of heat - Cylindrical flow of heat - Practical

applications of conduction of heat.


radiations.

TOTAL: 45 Hours

TEXT BOOKS


Delhi (2015)



REFERENCES






New Delhi.




U19CHE104B - APPLIED CHEMISTRY- I

L T P C

3 0 0 3



technology.


3. Discuss the principle, applications of surface chemistry and catalysis in




5. Analyze the types of polymers, methods of polymerization and methods of

fabrication.

UNIT I - ELECTROCHEMISTRY 9

Conductivity of Electrolytes – Kohlrausch’s Law of Independent Migration of Ions and

Its Applications – Conductometric Titration (Acid-Base – HCl vs NaOH) – Electrode

Potential – Nernst Equation – Derivation and Problems Based on Single Electrode

Potential Calculation – Electrochemical Series – Significance – Reference Electrodes -

Standard Hydrogen Electrode, Saturated Calomel electrode – Ion selective electrode -

glass electrode - determination of pH for unknown solution – Electrochemical Cell –

Emf of an Electrochemical Cell – Redox Reactions - Potentiometric Titrations (Redox

– Fe2+ Vs Dichromate).

UNIT II - CORROSION AND ITS CONTROL 9

Dry or Chemical Corrosion - Pilling-Bedworth Rule – Wet or Electrochemical

Corrosion – Mechanism of Electrochemical Corrosion – Galvanic Corrosion –

Differential aeration Corrosion - Factors Influencing Corrosion – Corrosion Control -

Cathodic Protection - Sacrificial Anodic Protection Method and Impressed Current

Cathodic Protection – Protective Coatings – Metallic Coatings – Galvanizing process –

Tinning process - Organic Coatings – Paints - Constituents and Functions.

UNIT III - SURFACE CHEMISTRY AND CATALYSIS 9

Adsorption – types - Physical and chemical adsorption – adsorption of gases on solids -

Adsorption isotherms - Freundlich and Langmuir isotherms - Adsorption of solutes

from solution – Applications of adsorption - Role of adsorption in catalytic reactions –

Adsorption in pollution abatement (granular activated carbon and powdered activated

carbon) – Catalysis - Types - Characteristics of catalysts - Autocatalysis - Definition

and examples – catalytic promoters – catalytic poisons.


UNIT IV - NANOCHEMISTRY 9

Basics - Distinction between molecules, nanoparticles and bulk materials – Size-

dependent properties – Nanoparticles: nano cluster, nano rod, nanotube (CNT) and

nanowire – Synthesis: Precipitation – Thermolysis – Hydrothermal – Solvothermal –

Electrodeposition - Chemical vapour deposition - Sol-gel technique – Properties and


UNIT V - POLYMERS AND COMPOSITES 9

Nomenclature of Polymers – Functionality – Types of Polymerization-Addition-

Condensation and Copolymerization – Classification of Polymers – Free Radical

mechanism of Addition Polymerization – Properties of Polymers - Glass transition

temperature – Tacticity - Methods of Polymerization – Bulk, solution, emulsion and

suspension – Thermoplastic and Thermosetting Resins – Plastics – Moulding

Constituents of Plastic – Moulding of Plastics into Articles-Injection - Compression

and Blow Moulding – Composites - Constituents of Composites – Types of FRP

Composites.

TOTAL : 45 Hours

TEXT BOOKS

P. C. Jain and Monica Jain, “Engineering Chemistry” Dhanpat Rai Pub, Co.,


G. Shanthi et al., “Applied Chemistry”, Sonaversity, Sona College of

Technology, Salem, 2019.

REFERENCE BOOKS

H. K. Chopra, A. Parmer, “Chemistry for Engineers”, Narosa Publishing





Delhi, 2008.





L T P C

3 0 0 3





Python


























TOTAL: 45 Hours


TEXT BOOKS






REFERENCES







Private Ltd., 2015.


Learning, 2012.






U19BEE106A - BASIC ELECTRICAL AND ELECTRONICS ENGINEERING

L T P C

3 0 0 3

Course Outcomes: At the end of the course, the student will be able to,

Analyse the various DC circuits and find the circuit parameters.

Describe the principles of AC fundamentals.

Discuss the construction and working principle of DC machines and

Transformer.

Explain the basics of semiconductor devices and its applications.

Discuss the various applications of operational amplifier and working

principle of UPS.

UNIT I - DC FUNDAMENTALS 9

Electrical components and parameters – Resistance, Conductance – Ohm’s law,

limitations of Ohm’s law – – Kirchhoff’s law – Power – Energy – resistors in series

and parallel – comparison of series and parallel circuits – Star-Delta transformation –

simple problems.

UNIT II - AC FUNDAMENTALS 9

AC waveforms – standard terminologies – RMS and average value of Sinusoidal,

Triangular and Square waveforms – form factor, peak factor – Resistance, Inductance,

Capacitance in AC circuits – Impedance – RL, RC, RLC series circuits – series

resonance – simple problems.

UNIT III - ELECTRICAL MACHINES 9


EMF equation – Types of DC Generator.

DC Motor: Working principle of DC Motor – Types of DC Motor.

Transformer: Working principle of Transformer – EMF equation – Transformation

ratio.

UNIT IV - SEMICONDUCTOR DEVICES 9

BJT: Operations of NPN and PNP Transistors – Characteristics of Transistors in CE,

CB and CC configuration.

Introduction to power semiconductors - SCR, MOSFET – V-I characteristics and

applications.


UNIT V - OPERATIONAL AMPLIFIERS AND POWER SUPPLY 9

Operational Amplifier: Ideal characteristics of Op-Amp – Inverting amplifier, Non-

Inverting amplifier – voltage follower – summing amplifier.

Rectifiers: working principle of half wave rectifier, full wave rectifier, bridge rectifier.

UPS: components of UPS – working principle of UPS.

TOTAL: 45 Hours

TEXT BOOKS

1. B.L. Theraja, “Fundamentals of Electrical Engineering & Electronics”, S.

Chand & Co Ltd, 2015.

2. Muthusubramanian R, Salivahanan S, “Basic Electrical and Electronics

Engineering”, 3rd Edition 2007,Tata McGraw-Hill publishing company

limited.

REFERENCES

1. Mehta V.K, Rohit Mehta, “Principles of Electrical Engineering &

Electronics”, S.Chand& Co. Ltd., 2011.

2. S.K. Bhattacharya, “Electrical Machines”, Tata MC Graw Hill Publishing

company ltd., III edition, 2009.

3. Smarajit Ghosh, “Fundamentals of Electrical and Electronics Engineering”, II

revised edition 2010, PHI publications.

4. D. Roy Choudhury and Shail Jain, “Linear Integrated Circuits”, First edition,

New age international, 2011.

5. S. Padma, “Basic Electrical and Electronics Engineering”, Sonaversity,

Revised edition 2016.


U19PCL108B - PHYSICS AND CHEMISTRY LABORATORY

PHYSICS PART

(For Computer Science and Engineering)

L T P C

0 0 2 1



prism.



3. Demonstrate the applications of a diode laser to determine the characteristics

of a given optical fibre.

4. Determine the specific resistance of the given wire using Carey – Fosters

bridge.

5. Determine the band gap of a semiconductor diode.



LIST OF EXPERIMENTS (PHYSICS PART)





3. Determination of laser wavelength, particle size (lycopodium powder),


4. Determination of specific resistance of a given wire using Carey Foster’s bridge.

5. Determination of band gap of the given semiconductor diode.


apparatus.

(Any five experiments may be conducted from the above list)

Total: 30 Hours



CHEMISTRY PART

(For Computer Science and Engineering)

L T P C

0 0 2 1



water sample


given water sample


conductivity meter.


pH metry.


potentiometer.








6. Determination of iron content in water by spectrophotometric method


Total: 30 Hours


U19BEEL113A - BASIC ELECTRICAL AND ELECTRONICS

ENGINEERING LABORATORY

L T P C

0 0 2 1


Apply the basic circuit laws for calculating various parameters of DC and AC

circuits

Design the circuit for various applications using electronic devices.

Analysis the performance characteristics of electronic devices such as SCR,

MOSFET, BJT and op-amp.

LIST OF EXPERIMENTS

1. Verification of Ohm’s Law.

2. Verification of Kirchhoff’s Law.

3. Measurement of power and power factor for RLC circuit.

4. Frequency response of RLC resonance circuit.

5. V-I characteristics of BJT in CB configuration.

6. V-I characteristics of BJT in CE configuration.

7. V-I characteristics of BJT in CC configuration.

8. V-I characteristics of MOSFET.

9. V-I characteristics of SCR.

10. Characteristics of operational amplifier as inverting and non-inverting

amplifiers.

11. Measurement of ripple factor for half wave and full wave rectifier circuits.

TOTAL: 30 Hours



L T P C

0 0 2 1






LIST OF EXPERIMENTS












TOTAL: 30 Hours




L T P C

0 0 2 0





specific topics






d. Surds & Indices

e. Logarithms

f. Percentage

g. Averages


2. Verbal Aptitude


a. Synonyms

b. Antonyms

c. Verbal analogy

d. Editing passages


TOTAL: 30 hours





Branch: Electronics and Communication Engineering


Theory

1 U19ENG101B English For Engineers - I 1 0 2 2 HS

2 U19MAT102B Linear Algebra and

Multivariable Calculus

3 1 0 4 BS

3 U19PHY103C Engineering Physics 3 0 0 3 BS

4 U19CHE104C Chemistry of Organic

Electronics

4 0 0 4 BS


Python Programming

3 0 0 3 ES

6 U19BEE106B Basic Electrical and


3 0 0 3 PC

Practical


Laboratory

0 0 2 1 ES

8 U19BEEL113B Basic Electrical and


Laboratory

0 0 2 1 PC


Total Credits 21



0 0 2 1 HS 11 U19OLE1102 German





Approved By

Chairperson,

Science and

Humanities

BoS

Dr.M.Renuga

Chairperson,

Electronics and

Communication

Engineering BoS

Dr.R.S.Sabeenian

Member Secretary,

Academic Council

Dr.R.Shivakumar

Chairperson,

Academic Council

& Principal

Dr.S.R.R.Senthil

Kumar

Copy to:-

HOD/ Electronics and Communication Engineering, First Semester BE ECE Students

and Staff, COE



Common to CSE, ECE, EEE, MCT, BME

L T P C

1 0 2 2



communication






technical writing.

UNIT I





home town.





UNIT II






UNIT III






presentation.


UNIT IV









UNIT V

If conditionals






report

TOTAL: 45 hours



TEXT BOOK:


Extensive Reading



Reference






U19MAT102B - LINEAR ALGEBRA AND MULTIVARIABLE CALCULUS

Common to ECE and BME

L T P C

3 1 0 4


1. apply the concepts of vector spaces and linear transformations in real world

applications

2. apply the concepts of eigen values and eigen vectors of a real matrix and their



3. find the Taylor’s series expansion, Jacobians and the maxima and minima of


4. apply appropriate techniques of multiple integrals to find the area and volume

5. apply the concepts of vector differentiation and integration to determine the

line, surface and volume integrals.

UNIT I - VECTOR SPACES 12




UNIT II - EIGEN VALUES AND EIGEN VECTORS 12




UNIT III - FUNCTIONS OF SEVERAL VARIABLES 12





UNIT IV - MULTIPLE INTEGRALS 12





UNIT V - VECTOR CALCULUS 12

Vector differentiation: Scalar and vector valued functions – Gradient, directional

derivative, divergence and curl – Scalar potential.

Vector integration: Line, surface and volume integrals – Statement of Green’s,

Stoke’s and Gauss divergence theorems – Simple applications involving squares,

rectangles, cubes and rectangular parallelopiped.

Theroy: 45 hours; Tutorial: 15 hours

TOTAL: 60 hours

TEXT BOOKS





REFERENCE BOOKS


6th Edition, 2018.






29th Reprint, 2017.

5. B.S. Grewel, “Higher Engineering Mathematics”, Khanna Publishers, 44th

Edition, 2018.


U19PHY103C - ENGINEERING PHYSICS

(For BE Electronics and Communication Engineering)

L T P C

3 0 0 3






4. Differentiate the electrical and thermal conductivity of metals.

5. Elucidate the classification and theory of semiconducting materials.



and radiation.









UNIT II - LASERS 9





emission.












Crystal imperfections - Point, line and surface defects – burger vector.

UNIT IV - CONDUCTING MATERIALS 9

Usage of conducting materials - basic definitions (electrical resistance - conductance -

resistivity - conductivity).

Classical free electron theory of metals - Postulates of classical free electron theory -

microscopic form of Ohm’s law - Electrical conductivity - definition and expression for

electrical conductivity - Thermal conductivity - definition and expression for thermal

conductivity - Wiedemann - Franz law and Lorentz number - Success and failure of

classical free electron theory.

Quantum free electron theory - Drawbacks of quantum free electron theory - origin

of energy bands - band theory of solids ( qualitative treatment only) - Fermi energy and

Fermi distribution function - Effect of temperature on Fermi function - Density of

energy states - carrier concentration in metals.

UNIT V - SEMICONDUCTING MATERIALS 9

Properties of semiconductors - Classification of semiconductors - Intrinsic and extrinsic

semiconductors - Elemental and compound semiconductors.

Intrinsic semiconductor - Two types of charge carriers - Energy band diagram of

intrinsic semiconductors (at T= 0 K and T > 0 K) - Expression for number of electrons

in conduction band - Expression for number of holes in valence band - Law of mass

action and intrinsic carrier concentration - Fermi level - Variation of Fermi level with

temperature - electrical conductivity - band gap determination.

Extrinsic semiconductors - Draw backs of intrinsic semiconductors – Types of

extrinsic semiconductors – ‘n’-type and ‘p’-type semiconductors – Energy band

diagram of ‘n’ type and ‘p’ type semiconductors (at T= 0 K and T > 0 K) – Carrier

concentration of extrinsic semiconductors (Qualitative Treatment only) – Hall effect –

Determination of Hall coefficient – Applications.

TOTAL: 45 Hours


TEXT BOOKS


Delhi (2015)

B. K. Pandey and S. Chaturvedi, Engineering Physics, Cengage Learning


REFERENCES




New Delhi.



K. Bhattacharya, Poonam Tandon “Engineering Physics” Oxford University

Press 2017.


U19CHE104C - CHEMISTRY OF ORGANIC ELECTRONICS

(For ECE)

L T P C

4 0 0 4


Outline the basic principles and properties of organic electronic materials.

Analyze the types of various advanced organic electronics and their uses.

Describe the working principle of organic conducting polymeric materials.

Demonstrate the synthetic methods of conducting polymers.

Outline the modern applications of organic materials.

UNIT I - INTRODUCTION TO ORGANIC ELECTRONIC MATERIALS 12

Introduction to organic electronic materials and their basic properties; charge transport

and energy structure of organic materials; Optical properties of organic electronic

materials-energy levels, color change, light emission (fluorescence and

phosphorescence) and absorption-electrochemical properties of organic electronic

materials - Liquid crystalline small molecules and polymers-basic properties of liquid

crystalline molecules.

UNIT II - ADVANCED MATERIALS FOR ORGANIC ELECTRONICS 12

Pentacene transistors – performance - Engineered pentacenes – Reversible

functionalization – end - substituted derivatives – perifunctionalized pentacenes –

Heteropentacenes - Various types of graphene nano ribbons (GNRs) - simple synthesis

and structure property relationships - Electronic properties of graphene and GNRs -

General applications of graphene-based materials.

UNIT III - INTRODUCTION TO CONDUCTING POLYMERIC MATERIALS

12

Conduction mechanism in conductive polymers e.g. Polyaniline (PANI) and

Polypyrrole (PPY), polythiophene - Concept of Polarons and solitons. Doping process

in conducting polymers- optoelectronic functions of conducting polymeric materials-

Electro active (redox type) conducting polymers-Various general applications of

conducting polymers.

UNIT IV - SYNTHESIS OF CONDUCTING POLYMERS 12

Synthesis, structure, morphology, conductivity doping, theory and uses of Poly

(sulfur nitride), polyacetylene, polyphenylene, poly(para-phenylene), poly

(phenylenevinylenes), poly(phenylene sulfide), Polypyrrole and Polythiophene,

Polyaniline, Stacked Phthalocyanine polymers - Polymers with transition metals in the

side-group structure and their uses.


UNIT V - MODERN APPLICATIONS OF ORGANIC MATERIALS 12

Construction working principle and applications of organic materials: Organic solar

cells (OSCs) - dye sensitized solar cell, bulk heterojunction solar cell, perovskite solar

cell – Organic light emitting diode (OLED) - Organic field effect transistor (OTFT) –

Graphene nano ribbons (GNRs) - thermoelectric generators - basic principle - device

configuration-general device fabrication techniques.

TOTAL: 60 Hours

TEXT BOOKS

Hagen Klauk, Organic Electronics: Materials, Manufacturing and Applications,

Wiley – VCH. Weinheim, 2006.

C. Saravanan et al, “Chemistry of Organic Electronics”, Sonaversity, Sona

College of Technology, Salem, 2019.

REFERENCE BOOKS

Kiichi Takemoto, Raphael M. Ottenbrite, MikiharuKamachi, “Functional

Monomers and Polymers”, CRC Press, New York.

Kaiser A B, Electronic properties of conjugated polymers, basics, models and

applications, Springer verlag, Berlin.

Chilton J A and Goosey M T, Special polymers for electronics and

optoelectronics, Kluwer Academic Pub. London.




L T P C

3 0 0 3





Python


























TOTAL: 45 Hours


TEXT BOOK






REFERENCES







Private Ltd., 2015.


Learning, 2012.






U19BEE106B - BASIC ELECTRICAL AND ELECTRONICS ENGINEERING


L T P C

3 0 0 3


1. Realize the basic concepts of electrical quantities and components.

2. Understand the working of electrical machines.

3. Analyze the construction and characteristics of semiconductor devices.

4. Examine the BJT formation and its characteristics.

5. Enhance the knowledge on Special Devices

UNIT I – BASICS OF ELECTRICAL PERCEPTIONS 9

Definition of Electric Voltage, Current, Power, Power factor and Energy, Ohms law,

Kirchhoff’s Laws and its applications-Frequency-AC & DC Signals-types of sources-

single phase-three phase- Resistance- Inductance-capacitance- Series and parallel

combinations.

UNIT II - ELECTRICAL MACHINES 9


EMF equation – Types of DC Generator. DC Motor: Working principle of DC Motor –

Types of DC Motor.Transformer: Working principle of Transformer – EMF equation –

Transformation ratio.

UNIT III - PN JUNCTION DIODE AND ITS APPLICATIONS 9

Energy band theory-Conductor-Insulator-Semiconductor-Doping-formation of N-type

and P-type materials-PN junction Diode – V-I Characteristics- Zener diode- VI

characteristics of Zener-Avalanche break down. - Zener effect-Zener diode as voltage

regulator.

UNIT IV - BJT AND ITS APPLICATIONS 9

Bipolar Junction Transistor – construction-Working principle-Regions of transistor-CB,

CE, CC Configurations and Characteristics –Transistor as a switch – Applications of

transistor.

UNIT V - SPECIAL DEVICES 9

Construction and Characteristics of - Tunnel Diode-Varactor diode-Photo diode- Photo

transistor- SCR-TRIAC-DIAC

Total: 45 hours


TEXT BOOKS

1. D P Kothari and I J Nagrath, “Basic Electrical and Electronics Engineering”,

Mc Graw Hills (India) Private Limited, 2014.

REFERENCE BOOKS

1. D. Devaraj, S. K. Bhattacharya, “Basic Electrical and Electronics

Engineering”, Pearson India, 2016

2. AbhiChakrabarti, Sudipta Debnath, Soumitra Kumar Mandal, “Basic

Electrical & Electronics Book “,Mc Graw Hill Education; Fifth Edition, 2016.

3. Ravish Singh, “ Basic Electrical & Electronics Engineering”, McGraw Hill

Education, 2014



(Common to BME, ECE, CSE, EEE, IT and MCT)

L T P C

0 0 2 1






LIST OF EXPERIMENTS












TOTAL: 30 Hours


U19BEEL113B - BASIC ELECTRICAL AND ELECTRONICS LABORATORY


L T P C

0 0 2 1


1. Identify the active, passive components and measuring instruments.

2. Analysis the electrical quantity at the any point of circuit.

3. Design the circuit based on PN junction diode and BJT.

LIST OF EXPERIMENTS

1. Identification of active and passive electronic components.

2. Study on CRO, Ammeter, Voltmeter, Multi-meter, Function Generator, and

DSO.

3. Measurement of DC and AC power supply using measuring instruments.

4. Realization and design problems on ohms law.

5. Realization and design problems on KCL, KVL.

6. Mesh and node analysis of circuits.

7. V-I characteristics analysis of PN junction diode.

8. Biasing and characteristics analysis of BJT.

9. CB, CC and CE analysis of BJT.

10. Realization of transistor as switch.

TOTAL: 30 hours




L T P C

0 0 2 0





specific topics






d. Surds & Indices

e. Logarithms

f. Percentage

g. Averages


2. Verbal Aptitude


a. Synonyms

b. Antonyms

c. Verbal analogy

d. Editing passages


TOTAL: 30 hours





Branch: Electrical and Electronics Engineering

S. No. Course Code Course Title L T P C Category

Theory

1 U19ENG101B English for Engineers - I 1 0 2 2 HS


3 U19CHE104D Chemistry for Electrical

Engineers 3 0 0 3 BS




Laboratory

6 U19CHL109 Chemistry Laboratory 0 0 3 1.5 BS



8 U19WPL112 Workshop Practice 0 0 2 1 ES


Total Credits 18.5



0 0 2 1 HS 11 U19OLE1102 German


* Students may opt for foreign languages viz., German/French/Japanese with

additional one credit

(Not accounted for CGPA calculation)


drafting.


Approved By

Chairperson,

Science and

Humanities BoS

Chairperson,

Electrical and

Electronics

Engineering BoS

Member Secretary,

Academic Council

Chairperson,

Academic Council

& Principal

Dr.M.Renuga Dr.S.Padma Dr.R.Shivakumar Dr.S.R.R.Senthil

Kumar

Copy to:-

HOD / Electrical and Electronics Engineering, First Semester BE EEE Students and

Staff, COE.




L T P C

1 0 2 2



communication






technical writing.

UNIT I





home town.





UNIT II






UNIT III





presentation.



UNIT IV









UNIT V

If conditionals






report

TOTAL: 45 hours



Text Book


Extensive Reading



Reference








L T P C

3 1 0 4



indirect methods


applications




























Theory: 45 hours, Tutorial: 15 hours

TOTAL: 60 Hours

TEXT BOOKS





REFERENCE BOOKS


6th Edition, 2018.






29th Reprint, 2017.


Edition, 2018.


U19CHE104D - CHEMISTRY FOR ELECTRICAL ENGINEERS

L T P C

3 0 0 3


1. Analyze the types of polymers, polymerization reactions, polymerization

techniques and fabrication methods of polymers for engineering applications.

2. Describe the construction, working principle and applications of energy

storage devices for electronic appliances.

3. Discuss the principles, advantages and applications of organic electronic

materials in electronic devices.

4. Explain the electrochemical processes carried out in electronic industries.

5. Outline the principle and process of fabrication of Integrated Circuits.

UNIT I - POLYMERS AND COMPOSITES 9

Nomenclature of Polymers – Functionality – Types of Polymerization-Addition-

Condensation and Copolymerization – Classification of Polymers – Free Radical

mechanism of addition polymerization - Tacticity in polymers – Methods of

Polymerization-bulk-solution-emulsion and suspension – Plastics – Moulding

constituents of plastic – Moulding of plastics into articles-Intrution, Compression and

Blow moulding – Thermoplastic and Thermosetting Resins – Engineering Plastics-

Nylon 6,6-Polycarbonate and Polyurethane-preparation-properties and applications –

Composites-Constituents of composites – Types of composites – Rubbers-types-

applications-vulcanization of rubber.

UNIT II - MODERN ENERGY DEVICES FOR ELECTRONIC APPLIANCES 9

Reversible and Irreversible Cells – Batteries-Types of Batteries – Battery

Characteristics-Voltage-Current-Capacity-Electricity Storage Density-Power-Discharge

Rate-Cycle Life-Energy Efficiency and Shelf Life – Fabrication and Working of

Alkaline Battery-Lead-Acid Battery-Ni-Cd-Lithium Ion Batteries and Solar cells – Fuel

Cells – Hydrogen-Oxygen fuel cell – Nano Batteries- Construction-Working-

Advantages and Applications.


UNIT III - CHEMISTRY OF ORGANIC ELECTRONIC MATERIALS 9

Organic semiconducting materials – working principle and advantages over inorganic

semiconducting materials - p-type and n-type organic semiconducting materials -

Pentacene Fullerenes-C-60 – Organic dielectric material-definition-working principle

and examples - Polystyrene – PMMA – Organic light emitting polymer – structure-

properties and applications of Polythiopene – Conducting polymers, types and

applications – Organic Light Emitting Diodes (Oleds) - construction-working principle

and applications – Organic Solar Cells-working principle and applications organic

transistors- construction-working principle and applications in electronic Industries.

UNIT IV - ELECTROCHEMICAL PROCESSES IN ELECTRONIC

INDUSTRIES 9

Electroplating – Principle and process - plating parameters- current and energy

efficiency - Electroplating of Cu, Ni, and Cr. Fundamentals of electroless deposition –

Ni and Cu electroless plating, fabrication of PCB’s - Electrochemical etching of copper

from PCBs - Anodizing - Definition, Principle and working methodology of

aluminium anodizing process - Chemical sensors - optical and heat sensors –

definitions and applications.

UNIT V - FABRICATION OF INTEGRATED CIRCUITS 9

Introduction – Classification – IC chip size and circuit complexity – Fundamentals of

monolithic IC technology – Basic planar process – Silicon wafer preparation, Epitaxial

growth, X-ray and electron beam lithography, Diffusion, Isolation techniques,

Metallization, Assembly processing and packaging – Fabrication of a typical circuit –

Active and passive components of ICs – Transistors only.

TOTAL: 45 Hours

TEXT BOOKS

P.C.Jain and Monica Jain, “Engineering Chemistry” DhanpatRai Pub, Co., New

Delhi , 2010.

M.Raja et al., “Chemistry For Electrical and Electronics Engineering”

Sonaversity, Sona College of Technology, Salem, New Edition, 2019.


REFERENCE BOOKS

Gowariker V.R. , Viswanathan N.V. and Jayadev Sreedhar, “Polymer

Science”, New Age International P (Ltd.,), Chennai, 2006

Electroplating, Anodizing and Metal treatment”, Hand book, NIIR board,

2004.

Hagen Klauk, “Organic Electronics: Materials, Manufacturing and

Applications”, Wiley-VCH, 2006.

D. Roy Choudhuryshail Jain, “Linear Integrated Circuits”, New age

international publishers, 2000.



L T P C

3 0 0 3





Python


























TOTAL: 45 Hours


TEXT BOOKS






REFERENCES







Private Ltd., 2015.


Learning, 2012.







L T P C

2 0 2 3



components.







pyramids.






and dimensioning.








(CAD Software)






(CAD Software)

Creation of 3D CAD models of pyramids, prisms and solids of revolutions - Sectional





(CAD Software)




of simple and truncated solids – Prisms – pyramids – cylinders and cones.


VIEWS L 12

(Manual drafting)





TOTAL: 60 Hours

TEXT BOOKS




REFERENCE BOOKS






Publications, 1998.

Bertoline & Wiebe fundamentals of graphics communication III edition

McGrawhill 2002.


U19CHL109 - CHEMISTRY LABORATORY

L T P C

0 0 3 1.5



water sample.


given water sample.

Analyse the two given water samples and find which one possesses more

chloride content in the given water samples by argentometric method.

Analyse the two given brass samples and find which one possesses more

copper content in the brass samples.


pH metry.



conductivity meter.

Estimate the amount of hydrochloric acid and acetic acid present in the given

solution using conductivity meter.


potentiometer.

Describe the method of determining the molecular weight of a given polymer.


dissolved oxygen in the given water samples by Winkler’s method.

Analyse the two given waste waters and find which one possesses more

chromium content.

List of Experiments



3. Estimation of chloride ion present in the sample water by argentometric

method.

4. Estimation of copper in brass by EDTA method.




8. Estimation of mixture of acids by conductometry. (HCl + CH3COOH vs

NaOH)



10. Determination of Molecular weight of a polymer by viscosity measurements.

11. Determination of Dissolved Oxygen of water by Winkler’s method.

12. Estimation of chromium in waste water.

Total: 45 Hours



L T P C

0 0 2 1






LIST OF EXPERIMENTS












TOTAL: 30 Hours



L T P C

0 0 2 1






LIST OF EXPERIMENTS

SECTION 1: FITTING






SECTION 3: WELDING






TOTAL: 30 Hours




L T P C

0 0 2 0





specific topics






d. Surds & Indices

e. Logarithms

f. Percentage

g. Averages


2. Verbal Aptitude


a. Synonyms

b. Antonyms

c. Verbal analogy

d. Editing passages


TOTAL: 30 hours





Branch: Fashion Technology

S.No. Course Code Course Title L T P C Category

Theory

1. U19ENG101D English for Engineers - I 2 0 0 2 HS

2. U19MAT102C Calculus and Statistics 3 1 0 4 BS

3. U19PHY103D Engineering Physics - I 3 0 0 3 BS

4. U19CHE104F Chemistry for Textile

Technologists - I 3 0 0 3 BS

5. U19FTY107 Textile Science: Fibres

and Yarns 3 0 0 3 PC

Practical

6. U19PCL108B Physics and Chemistry

Laboratory# 0 0 2 1 BS

7. U19FTL116 Fibre and Yarn Analytical

Laboratory 0 0 2 1 PC

8. U19CFTL117 Computer basics for

Fashion Technology

Laboratory

0 0 2 1 PC

9. U19GE101 Basic Aptitude - I 0 0 2 0 EEC

Total Credits 18


10. U19OLE1101 French

0 0 2 1 HS 11. U19OLE1102 German

12. U19OLE1103 Japanese



# Laboratory classes on alternative weeks for Physics and Chemistry. The lab

examination will be conducted separately for 50 marks each with 2 hours duration.


Approved By

Chairperson,

Science and

Humanities BoS

Dr.M.Renuga

Chairperson,

Fashion

Technology

BoS

Dr.D.Raja

Member Secretary,

Academic Council

Dr.R.Shivakumar

Chairperson,

Academic Council

& Principal

Dr.S.R.R.Senthil

Kumar

Copy to:-

HOD/ Fashion Technology, First Semester BE FT Students and Staff, COE


U19ENG101D - ENGLISH FOR ENGINEERS – I

Common to FT

L T P C

2 0 0 2


1. Frame sentences correctly with accuracy.

2. Write emails and formal letters

3. Prepare reports and proposals

4. Draft memos for professional purposes

5. Recommend suggestions / solutions to problems, give instruction, make notes,

prepare checklists

UNIT – I

General Vocabulary- Parts of speech, Prefixes and Suffixes, Active and

Passive voices

Email - fixing an appointment, Cancelling appointments, conference details,

hotel accommodation, order for equipment, training programme details, paper

submission for seminars and conferences

UNIT – II

Adjectives, comparative adjectives, Prepositions and dependent prepositions

Letter Writing - Business communication, quotations, placing orders,

complaints, replies to queries from business customers, inviting dignitaries,

accepting and declining invitations

Resume / CV

UNIT – III

Tenses, Modal verbs and probability

Proposal: establishing a lab, introducing a subject in the curriculum, training

programme for students

UNIT – IV

Concord, If conditionals, Collocations

Technical report writing - feasibility reports, accident reports, survey reports


UNIT - V

Cause and effect expressions, Pronouns, Adverbs

Technical Writing: recommendations, checklists, instructions, note making

and memo

TOTAL: 30 hours

TEXT BOOK



U19MAT102C - CALCULUS AND STATISTICS

L T P C

3 1 0 4


apply the various differentiation techniques to the algebraic and

transcendental functions

apply the various integration techniques to the algebraic and transcendental

functions

represent the data in the form of diagram and graph and analyze them

apply the concepts of measure of central tendency, dispersion and skewness to

the given data and analyze the results

apply the concepts of correlation and regression to the data and analyze the

result.

UNIT I - DIFFERENTIAL CALCULUS 12

Ordinary Differentiation: Rules of differentiation – Derivatives of elementary

functions – Differentiation of inverse functions – Logarithmic differentiation –

Differentiation of implicit functions – Successive differentiation of simple functions.

Partial Differentiation: Total derivative – Euler’s theorem – Differentiation of

implicit functions.

UNIT II - INTEGRAL CALCULUS 12

Definite and indefinite integrals – Substitution rule – Integration by parts – Bernoulli’s

formula – Integration of rational functions by partial fraction – Double integral in

Cartesian coordinates – Change of order of integration.

UNIT III - COLLECTION AND REPRESENTATION OF DATA 12

Collection of data – Primary and secondary data – Diagramatic representation –

Simple, subdivided, multiple and bar diagram – Pie diagram – Pictograph – Graphs of

frequency distribution – Histogram – Frequency polygon – Frequency curve –

Cumulative frequency curve.


UNIT IV - MEASURES OF CENTRAL TENDENCY, DISPERSION AND

SKEWNESS 12

Measure of central tendency (Simple arithmetic mean, median, mode) – Quartile’s –

Measure of dispersion (range, inter-quartile range, quartile deviation, mean deviation,

standard deviation, coefficient of variation) – Skewness – Karl Pearson’s coefficient of

skewness.

UNIT V - CORRELATION AND REGRESSION 12

Simple and rank correlations – Multiple and partial correlations – Linear regression –

Multiple and partial regressions – Curve fitting (straight line and parabola).

Total: 60 Hours

TEXT BOOKS

1. S. Narayanan and T. K. Manicavachagom Pillay, “Calculus – volume I and

II”, S.Viswanathan Publishers, 2016.

2. S. P. Gupta, “Statistical Methods”, Sultan Chand and Sons Publishers, 15th

Edition, 2012.

REFERENCE BOOKS

1. J. Stewart, “Calculus”, Cengage Publishers, 8th Edition, 2016.

2. G. B. Thomas, “Calculus”, Pearson Publishers, 14th Edition, 2018.

3. S. C. Gupta and V. K. Kapoor, “Fundamentals of Mathematical Statistics”,

Sultan Chand and Sons Publishers, 11th Edition, Reprint, 2019.

4. R. A. Johnson and C. B. Gupta, “Miller and Freund’s, Probability and

Statistics for Engineers”, Pearson Publishers, 9th Edition, 2018.

5. P. G. Hoel, S. C. Port and C. J. Stone, “Introduction to Probability Theory”,

Universal Book Stall Publishers, Reprint, 2003.


U19PHY103D - ENGINEERING PHYSICS -I

(For B.Tech. Fashion Technology)

L T P C

3 0 0 3


Discuss the dual nature of matter and radiation and the application of wave


Describe the basic components of lasers.

Analyse the relation between arrangement of atoms and material properties.

Deduce Maxwell’s equations using the fundamentals of electromagnetism.

Elucidate the different modes of heat transfer.



and radiation.









UNIT II - LASERS 9

Basic terms - Energy level - normal population - Stimulated absorption - population

inversion - meta stable state - spontaneous emission - stimulated emission.



emission.












Crystal imperfections - Point, line and surface defects - Burger vector.

UNIT IV - ELECTROMAGNETISM 9


continuous

charges – Electric lines of forces – Electric flux – Gauss’s law – Divergence of E –

Applications of Gauss’s law – Curl of E.





Magnetostatics and Electrostatics.




expansion.

Thermal conductivity - Measurement of thermal conductivity of good conductor -

Forbe’s method - Measurement of thermal conductivity of bad conductor - Lee’s disc

method - Radial flow of heat - Cylindrical flow of heat - Practical applications of

conduction of heat.


radiations.

Total: 45 Hours

TEXT BOOKS

1. M.N.Avadhanulu, ‘Engineering Physics’ S.Chand & Company Ltd, New

Delhi (2015)

2. D. K. Bhattacharya, Poonam Tandon “Engineering Physics” Oxford



REFERENCES

1. Engineering Physics, Sonaversity, Sona College of Technology, Salem


2. B. K. Pandey and S. Chaturvedi, Engineering Physics , Cengage Learning


3. Rajendran, V, and Marikani A, ‘Materials science’ TMH Publications, (2004)

New Delhi.

4. Palanisamy P.K, ‘Materials science’, SciTech Publications (India) Pvt. Ltd.,



U19CHE104F - CHEMISTRY FOR TEXTILE TECHNOLOGISTS – I

L T P C

3 0 0 3


Analyze the types of impurities of water, their removal methods and explain

the conditioning methods for domestic and industrial uses.

Analyze the various types of chemical bonding and impacts on materials.

Recognize the role applications of surface chemistry and catalysis in


Understand the basics of nano chemistry and nano material fabrication on

fibers and its role.

Apply the various instrumental methods of analysis on numerous engineering

materials and their significances.







UNIT II - CHEMICAL BONDING 09

Types of bond – van der Waals (or) intermolecular forces – types – hydrogen bond –

types, Valence Bond Theory (VBT) – VSEPR Theory - Molecular Orbital Theory –

Linear Combination of Atomic Orbitals (LCAO method)- energy level diagram of

molecular orbitals (nitrogen and oxygen only) – coordinate bond – metallic bond.

UNIT III - SURFACE CHEMISTRY AND CATALYSIS 09



solution – applications of adsorption - role of adsorption in catalytic reactions – basic


activated carbon and powdered activated carbon) – catalysis - types - characteristics of


UNIT IV - APPLICATIONS OF NANO CHEMISTRY IN TEXTILES 09

Basics - distinction between molecules, nanoparticles and bulk materials – size

dependent properties – Synthesis: precipitation – thermolysis – hydrothermolysis –

solvothermolysis –sol-gel technique – Potential applications of Nanoparticles in textiles


- Fabrication Process – Electrospinning- Self Cleaning Fabrics - Water Repellency

Property- UV-Protection Property - Anti-Bacterial Property - Anti-Static Property -

Wrinkle Resistance Property - Flame Retardant Finish- Nanotextiles – Properties,

Types, Functionalities and Processes.

UNIT V - INSTRUMENTAL METHODS OF ANALYSIS 09

Beer-Lambert’s law – UV-Visible spectroscopy, Colourimetry – principles and

instrumentation - Estimation of Iron - IR and FT-IR spectroscopy – principles and

instrumentation (block diagram only) - Thermoanalytical methods – principles and

applications of Thermogravimetry (TGA), Differential thermal analysis (DTA) and

Differential Scanning Calorimetry (DSC).

Total: 45 Hours

TEXT BOOKS



N. Panneer Selvam et al., “Chemistry For Textile Technologists - I”,

Sonaversity, Sona College of Technology, Salem, 2019.

REFERENCE BOOKS

O.G. Palanna “Engineering Chemistry” Tata McGraw-Hill Pub.Co.Ltd, New

Delhi, 2017.






U19FTY107 - TEXTILE SCIENCE: FIBRES AND YARNS

L T P C

3 0 0 3

Course Outcomes: At the end of the course, the students should be able to,

Classify textile fibres, define the basic terms used, outline fundamental concepts

of fibre structure, describe the properties of an ideal fibre and state the properties

and uses of major natural fibres.

Describe the common man-made fibre spinning techniques and explain the

properties and uses of major natural-polymer, synthetic and special fibres.

Describe the identification methods of common fibres and define the common

linear density terms used for man-made fibres.

Outline the objectives and working principles of the different processes in spun

yarn production.

Describe sewing thread types, fibres used, quality requirements, outline of

production and state the characteristics and uses of fancy yarns and certain special

yarns.

UNIT I - GENERAL INTRODUCTION AND NATURAL FIBRES 10

Definitions: Textile fibre, staple fibre, filament; yarn: spun, continuous filament,

monofilament and multifilament, flat and textured yarn; single, ply and cabled yarns;

thread; fabric: woven, knitted and non-woven

Classification of textile fibres: Main classes and sub-classes with examples for each

class / sub-class

Basic concepts of fibre structure: Definition of orientation, types, schematic

representations and examples; definition of crystallinity, schematic representation of

fibre with crystalline and amorphous contents, outline of influence of crystallinity on

fibre properties; crystallinity values of some common natural and man-made fibres

Properties expected of a Textile Fibre: Definitions of fibre length, fineness, strength,

flexibility, elongation, elasticity, moisture content, moisture regain, crimp, fibre

uniformity, lustre, fibre modulus, Tm and Tg,; Essential and desirable properties of a

textile fibre

Natural Fibres: Definition and source, properties and uses of cotton, flax, silk and

wool

UNIT II - MAN MADE FIBRES 09

Introduction to man-made fibre spinning: Principles of wet-spinning, dry-spinning

and melt-spinning of man-made fibres, principle of drawing and its importance.


Raw materials, properties and uses of natural-polymer and synthetic fibres:

Viscose rayon, modal, bamboo, polyester, nylon 6, acrylic and elastomeric fibre. High

performance fibres: Definition, characteristics, types, properties and uses of Nomex

and Kevlar. Climate yarn; latest developments in fibres to attain comfort properties.

UNIT III - LINEAR DENSITY AND IDENTIFICATION OF FIBRES 08

Linear density: Definition, denier and tex systems, decitex, millitex, kilotex and

English cotton count; Conversion formulae and simple calculations of linear density

Definition, properties and uses: Micro, nano fibres and bio polymers

Identification of common textile fibres: Microscopic test, burning test, solubility test

and density test

UNIT IV - OUTLINE OF YARN PRODUCTION 10

Preparatory processes: Objects of ginning, names of machines used; Objects of

mixing and blending; Objects of blow room, common sequence of machines used for

processing of cotton, manmade fibre and blends; Objects of carding, outline of working

principle of high production card; Objects of combing, difference between carded and

combed yarns; Objects of draw frame, outline of working principle of draw frame;

Objects of speed frame, outline of working principle of simplex

Yarn production: Objects of ring spinning outline of working principle of ring frame;

yarn count and TPI; Objects of doubling, difference between single and double yarn;

Outline of principles of compact spinning. New spinning system: Types and its needs,

principle of rotor and air jet spinning system.

UNIT V - SEWING THREADS, FANCY YARNS AND SPECIAL YARNS 08

Sewing thread: Definition, quality requirements, fibres used, types, properties,

production process, selection of sewing thread, ticket number, leading brands of sewing

threads

Fancy yarns: Definition, brief study of slub yarn, snarl yarn, melange yarn, and

spotted yarn. End uses of fancy yarn

Other special yarns: Brief study of core spun yarn, metallic yarn, hollow yarn and

applications of these yarns

TOTAL: 45 Hours

TEXT BOOKS

1. Mishra S.P., “Fibre Science and Technology”, New Age International Publishers,

New Delhi, 2000

2. Lord P. R., “Yarn Production: Science Technology and Economics”, The Textile

Institute, Manchester, U.K., 2003


REFERENCES

1. Bernard P. Corbman, “Textiles: Fibre to Fabric”, McGraw Hill International

Edition, New Delhi, 1983

2. Srinivasamoorthy H. V., “Introduction to Textile Fibres”, The Textile Association

India, Mumbai, 1993

3. Cook, J. Gordon, “Hand Book of Textile Fibres: Man-Made Fibres”, Vol. 1 and 2,

Merrow Publishing Co. Ltd., England, 2005

4. Moncrief R.W., “Manmade Fibres”, John Willey & Sons, New York, 2004

5. Klein W. “ A practical guide to opening and carding”, Vol 2, The Textile Institute,

Manchester, 1987

6. Klein W. “ A practical guide to combing and drawing ”,Vol 3, The Textile

Institute, Manchester, 1987

7. Klein W. “ A practical guide to ring spinning”,Vol 4, The Textile Institute,

Manchester, 1987



PHYSICS PART

(For B.Tech. Fashion Technology)

L T P C

0 0 2 1





prism.

3. Demonstrate the experimental set up to execute torsional oscillations and

determine the rigidity modulus of the given wire

4. Demonstrate the experimental setup for stream line flow of low viscus liquid

and determine the coefficient of viscosity of the given liquid by Poiseuille’s

method.





apparatus.



3. Determination of rigidity modulus of the material of wire using torsion

pendulum

4. Determination of coefficient of viscosity of liquid by Poiseuille’s method.

5. Determination of the Young’s modulus of the given material by non - uniform

bending method.



Total: 30 Hours



CHEMISTRY PART

(For Fashion Technology)

L T P C

0 0 2 1



water sample


given water sample


conductivity meter.


pH metry.


potentiometer.






4. Estimation of HCl acid by pH metry.




Total: 30 Hours


U19FTL116 - FIBRE AND YARN ANALYTICAL LABORATORY

L T P C

0 0 2 1

Course Outcomes: At the end of the study of this course the students will be able

to,

1. Identify the common textile fibres and determine the blend proportion of

binary blends

2. Determine the physical properties like moisture regain, linear density,

swelling behaviour of fibre and yarn / sewing thread characteristics like yarn

type, yarn count and ticket number

3. Solve real time problems in fibre identification, fibre and yarn properties

LIST OF EXPERIMENTS

1. Identification of fibres by microscopy: longitudinal views of fibres

2. Identification of fibres by microscopy: cross-sectional views of fibres

3. Confirmation of fibres by means of the burning test

4. Confirmation of fibres by means of the solubility test

5. Identification of a textile fibre of unknown identity using microscopic,

burning and solubility tests

6. Determination of blend proportion in fibre mixture / blended yarn / fabric.

7. Determination of the atmospheric conditions in the lab and the amount of

moisture in given samples of conditioned and unconditioned fibre

8. Estimation of the crimp of man-made staple fibre and the denier by length and

mass measurements

9. (a) Identification of yarn type and twist direction and determination of yarn

count of given spun yarn

(b) Identification of fibre type and determination of number of filaments

and yarn linear density of given continuous filament yarn

(c) Identification of filament yarn and spun yarn

10. Identification of type of given sewing thread and determination of its ticket

number and linear density

DEMONSTRATION

11. Identification of fibre by density test using density gradient column

12. Examination of the diametric swelling behaviour of cotton and viscose rayon

fibres in water and alkali solution

SAMPLE COLLECTION

13. Collection of various fibre and yarn samples

TOTAL: 30 hours


U19CFTL117 - COMPUTER BASICS FOR FASHION TECHNOLOGY

LABORATORY

L T P C

0 0 2 1

Course Outcomes: At the end of a study of this course the students will be able to,

1. Apply MS Excel tools in the analysis of apparel-production data.

2. Develop basic fashion sketches using fashion-CAD software and compile

information on ancient fashion and latest fashion trends

3. Generate fashion ideas for garments using stated requirements and information

related to ancient and current trends in the fashion industry

BASICS OF MS EXCEL

1. Datasheet – Manipulating tools

2. Built-in functions

3. Basic analysis options for apparel-production data

BASICS OF CAD - FASHION ILLUSTRATOR SOFTWARE

4. CAD Tools I

5. CAD Tools II

6. Development of basic fashion sketches and simple designs

COLLECTION OF VARIOUS FASHION-DESIGN RELATED DATA

7. Collection of details about the origin and evaluation of costumes

8. Analysis of motifs, design, colour and materials used in Indian, Egyptian,

Roman, French and English costumes

9. Collection of profiles of at least three popular Indian/International designers

and their design collections (for two seasons)

TOTAL: 30 hours




L T P C

0 0 2 0





specific topics






d. Surds & Indices

e. Logarithms

f. Percentage

g. Averages


2. Verbal Aptitude


a. Synonyms

b. Antonyms

c. Verbal analogy

d. Editing passages


TOTAL: 30 hours





Branch: Information Technology


Theory

1 U19MAT102A Linear Algebra and

Calculus

3 1 0 4 BS

2 U19ENG101C Communication skills in

English- I 2 0 0 2 HS

3 U19PHY103C Engineering Physics 3 0 0 3 BS

4 U19BEE106A Basic Electrical and

Electronics Engineering 3 0 0 3 ES



Practical

6 U19PHL110 Engineering Physics

Laboratory 0 0 3 1.5 BS

7 U19BEEL113A Basic Electrical and


Laboratory

0 0 2 1 ES



9 U19GE101 Basic Aptitude – I 0 0 2 0 EEC

Total Credits 18.5



0 0 2 1 HS 11 U19OLE1102 German





Approved By

Chairperson,

Science and

Humanities BoS

Dr.M.Renuga

Chairperson,

Information

Technology BoS

Dr.J.Akilandeswari

Member Secretary,

Academic Council

Dr.R.Shivakumar

Chairperson,

Academic Council

& Principal

Dr.S.R.R.Senthil

Kumar

Copy to:-

HOD/ Information Technology, First Semester BE IT Students and Staff, COE


U19ENG101C - COMMUNICATION SKILLS IN ENGLISH – I

COMMON TO IT

L T P C

2 0 0 2



communication






technical writing.

UNIT I

Parts of speech




home town.





UNIT II


Welcome address, Vote of Thanks, Special Address on specific topic.

Letter Writing – Business communication, quotations, placing orders,

complaints, replies to queries from business customers, inviting dignitaries,

accepting and declining invitations

UNIT III


Mini presentation in small groups of two or three on Office Arrangements,

Facilities, Office Functions, Sales, Purchases, Training Recruitment,

Advertising, Applying for financial assistance, applying for a job, team work,

discussion, presentation.

Cover letter and resume writing


UNIT IV








Proposal: establishing a lab, introducing a subject in the curriculum, training

programme for students

UNIT V

If conditionals





Technical report writing - feasibility report, accident report, survey report

TOTAL: 40 Hours


Communication Skills in English – I in the End Semester Valuation.

TEXT BOOK


EXTENSIVE READING



REFERENCE

1. Norman Whitby, Business Benchmark – Pre-Intermediate to Intermediate,


2. A Course in Communication Skills, P. Kiranmai Dutt, Geetha Rajeevan, C. L.





L T P C

3 1 0 4



indirect methods


applications





























TOTAL: 60 Hours

TEXT BOOKS





REFERENCE BOOKS


6th Edition, 2018.






29th Reprint, 2017.


Edition, 2018.


U19PHY103C - ENGINEERING PHYSICS

(For B.Tech Information Technology)

L T P C

3 0 0 3






4. Differentiate the electrical and thermal conductivity of metals.

5. Elucidate the classification and theory of semiconducting materials.



and radiation.









UNIT II - LASERS 9





emission.












Crystal imperfections - Point, line and surface defects – burger vector.

UNIT IV - CONDUCTING MATERIALS 9

Usage of conducting materials - basic definitions (electrical resistance - conductance -

resistivity - conductivity).

Classical free electron theory of metals - Postulates of classical free electron theory -

microscopic form of Ohm’s law - Electrical conductivity - definition and expression for

electrical conductivity - Thermal conductivity - definition and expression for thermal

conductivity - Wiedemann - Franz law and Lorentz number - Success and failure of

classical free electron theory.

Quantum free electron theory - Drawbacks of quantum free electron theory - origin

of energy bands - band theory of solids ( qualitative treatment only) - Fermi energy and

Fermi distribution function - Effect of temperature on Fermi function - Density of

energy states - carrier concentration in metals.

UNIT V - SEMICONDUCTING MATERIALS 9

Properties of semiconductors - Classification of semiconductors - Intrinsic and extrinsic

semiconductors - Elemental and compound semiconductors.

Intrinsic semiconductor - Two types of charge carriers - Energy band diagram of

intrinsic semiconductors (at T= 0 K and T > 0 K) - Expression for number of electrons

in conduction band - Expression for number of holes in valence band - Law of mass

action and intrinsic carrier concentration - Fermi level - Variation of Fermi level with

temperature - electrical conductivity - band gap determination.

Extrinsic semiconductors - Draw backs of intrinsic semiconductors – Types of

extrinsic semiconductors – ‘n’-type and ‘p’-type semiconductors – Energy band

diagram of ‘n’ type and ‘p’ type semiconductors (at T= 0 K and T > 0 K) – Carrier

concentration of extrinsic semiconductors (Qualitative Treatment only) – Hall effect –

Determination of Hall coefficient – Applications.

TOTAL: 45 Hours


TEXT BOOKS


Delhi (2015)

B. K. Pandey and S. Chaturvedi, Engineering Physics, Cengage Learning


REFERENCES




New Delhi.



K. Bhattacharya, Poonam Tandon “Engineering Physics” Oxford University

Press 2017.


U19BEE106A - BASIC ELECTRICAL AND ELECTRONICS ENGINEERING

L T P C

3 0 0 3


Analyse the various DC circuits and find the circuit parameters.

Describe the principles of AC fundamentals.

Discuss the construction and working principle of DC machines and

Transformer.

Explain the basics of semiconductor devices and its applications.

Discuss the various applications of operational amplifier and working

principle of UPS.

UNIT I - DC FUNDAMENTALS 9

Electrical components and parameters – Resistance, Conductance – Ohm’s law,

limitations of Ohm’s law – – Kirchhoff’s law – Power – Energy – resistors in series

and parallel – comparison of series and parallel circuits – Star-Delta transformation –

simple problems.

UNIT II - AC FUNDAMENTALS 9

AC waveforms – standard terminologies – RMS and average value of Sinusoidal,

Triangular and Square waveforms – form factor, peak factor – Resistance, Inductance,

Capacitance in AC circuits – Impedance – RL, RC, RLC series circuits – series

resonance – simple problems.

UNIT III - ELECTRICAL MACHINES 9


EMF equation – Types of DC Generator.

DC Motor: Working principle of DC Motor – Types of DC Motor.

Transformer: Working principle of Transformer – EMF equation – Transformation

ratio.

UNIT IV - SEMICONDUCTOR DEVICES 9

BJT: Operations of NPN and PNP Transistors – Characteristics of Transistors in CE,

CB and CC configuration.

Introduction to power semiconductors - SCR, MOSFET – V-I characteristics and

applications.


UNIT V - OPERATIONAL AMPLIFIERS AND POWER SUPPLY 9

Operational Amplifier: Ideal characteristics of Op-Amp – Inverting amplifier, Non-

Inverting amplifier – voltage follower – summing amplifier.

Rectifiers: working principle of half wave rectifier, full wave rectifier, bridge rectifier.

UPS: components of UPS – working principle of UPS.

TOTAL: 45 Hours

TEXT BOOKS

1. B.L. Theraja, “Fundamentals of Electrical Engineering & Electronics”, S.

Chand & Co Ltd, 2015.

2. Muthusubramanian R, Salivahanan S, “Basic Electrical and Electronics

Engineering”, 3rd Edition 2007,Tata McGraw-Hill publishing company

limited.

REFERENCES

1. Mehta V.K, Rohit Mehta, “Principles of Electrical Engineering &

Electronics”, S.Chand& Co. Ltd., 2011.

2. S.K. Bhattacharya, “Electrical Machines”, Tata MC Graw Hill Publishing

company ltd., III edition, 2009.

3. Smarajit Ghosh, “Fundamentals of Electrical and Electronics Engineering”, II

revised edition 2010, PHI publications.

4. D. Roy Choudhury and Shail Jain, “Linear Integrated Circuits”, First edition,

New age international, 2011.

5. S. Padma, “Basic Electrical and Electronics Engineering”, Sonaversity,

Revised edition 2016.



L T P C

3 0 0 3





Python


























TOTAL: 45 Hours


TEXT BOOK






REFERENCES







Private Ltd., 2015.


Learning, 2012.






U19PHL110 - ENGINEERING PHYSICS LABORATORY

(For B.Tech. Information Technology)

L T P C

0 0 3 1.5


1. Demonstrate an experimental setup to form interference fringes and use it to

determine the thickness of the thin wire.






prism.

5. Demonstrate the applications of a diode laser to determine the wave length,

particle size in the given powder (Lycopodium) and the characteristics of a

given optical fibre.


7. Demonstrate the experimental set up to execute torsional oscillations and

determine the rigidity modulus of the given wire


bridge.

9. Demonstrate the experimental setup for stream line flow of low viscus liquid

and determine the coefficient of viscosity of the given liquid by Poiseuille’s

method.


prism.

11. Investigate the uniform bending behavior of a given material.


LIST OF EXPERIMENTS

1. Determination of the thickness of a thin wire by forming interference fringes

using air wedge apparatus.




apparatus.






6. Determination of the Young’s modulus of the given material by non-uniform

bending method.

7. Determination of rigidity modulus of the material of wire using torsion

pendulum


9. Determination of coefficient of viscosity of liquid by Poiseuille’s method.

10. Determination of wavelength of prominent colors in mercury spectrum using a

spectrometer.

11. Determination of the Young’s modulus of the given material by uniform

bending method.


TOTAL: 45 Hours


U19BEEL113A - BASIC ELECTRICAL AND ELECTRONICS ENGINEERING

LABORATORY

L T P C

0 0 2 1


Apply the basic circuit laws for calculating various parameters of DC and AC

circuits

Design the circuit for various applications using electronic devices.

Analysis the performance characteristics of electronic devices such as SCR,

MOSFET, BJT and op-amp.

List of experiments

1. Verification of Ohm’s Law.

2. Verification of Kirchhoff’s Law.

3. Measurement of power and power factor for RLC circuit.

4. Frequency response of RLC resonance circuit.

5. V-I characteristics of BJT in CB configuration.

6. V-I characteristics of BJT in CE configuration.

7. V-I characteristics of BJT in CC configuration.

8. V-I characteristics of MOSFET.

9. V-I characteristics of SCR.

10. Characteristics of operational amplifier as inverting and non-inverting

amplifiers.

11. Measurement of ripple factor for half wave and full wave rectifier circuits.

Total: 30 Hours



L T P C

0 0 2 1






LIST OF EXPERIMENTS












TOTAL: 30 Hours




L T P C

0 0 2 0





specific topics






d. Surds & Indices

e. Logarithms

f. Percentage

g. Averages


2. Verbal Aptitude


a. Synonyms

b. Antonyms

c. Verbal analogy

d. Editing passages


TOTAL: 30 hours





Branch: Mechatronics Engineering

S.No. Course Code Course Title L T P C Category

Theory

1 U19ENG101B English for Engineers-I 1 0 2 2 HS


3 U19PHY103B Engineering Physics 3 0 0 3 BS

4 U19CHE104G Engineering Chemistry 3 0 0 3 BS

5 U19PPR105 Problem solving using



Practical

7 U19PCL108B Physics and Chemistry

Laboratory# 0 0 2 1 BS



9 U19GE101 Basic aptitude-I 0 0 2 0 EEC

Total Credits 20



0 0 2 1 HS 11 U19OLE1102 German




# Laboratory classes on alternate weeks for physics and chemistry. The lab examination

will be conducted separately for 50 marks each with 2 hours durations.


drafting.

Approved By

Chairperson,

Science and

Humanities BoS

Dr.M.Renuga

Chairperson,

Mechatronics

Engineering

BoS

Dr.P.Suresh

Member Secretary,

Academic Council

Dr.R.Shivakumar

Chairperson,

Academic Council

& Principal

Dr.S.R.R.Senthil

Kumar

Copy to:-

HOD/ Mechatronics Engineering, First Semester BE MCT Students and Staff, COE




L T P C

1 0 2 2



communication






technical writing.

UNIT I


Self-introduction - personal information, name, home background, study



home town.

Instructions, Email - fixing an appointment, cancelling appointments,




UNIT II






UNIT III





presentation.



UNIT IV









UNIT V

If conditionals






report

TOTAL: 45 hours



TEXT BOOK:


Extensive Reading



Reference








L T P C

3 1 0 4



indirect methods


applications





























TOTAL: 60 Hours

TEXT BOOKS





REFERENCE BOOKS


6th Edition, 2018.






29th Reprint, 2017.


Edition, 2018.


U19PHY103B - ENGINEERING PHYSICS

(For BE Mechatronics Engineering)

L T P C

3 0 0 3






4. Deduce Maxwell’s equations using the fundamentals of electromagnetism.




and radiation.









UNIT II - LASERS 9





emission.












Crystal imperfections - Point, line and surface defects - burger vector.

UNIT IV – ELECTROMAGNETISM 9


continuous charges – Electric lines of forces – Electric flux – Gauss’s law – Divergence

of E – Applications of Gauss’s law – Curl of E.





Magneto statics and Electrostatics.




expansion.

Thermal conductivity - Measurement of thermal conductivity of good conductor -

Forbe’s method - Measurement of thermal conductivity of bad conductor - Lee’s disc

method - Radial flow of heat - Cylindrical flow of heat - Practical applications of

conduction of heat.


radiations.

TOTAL: 45 Hours

TEXT BOOKS


Delhi (2015)



REFERENCES






New Delhi.




U19CHE104G - ENGINEERING CHEMISTRY

(For Mechatronics and Biomedical Engineering)

L T P C

3 0 0 3



conditioning methods for industrial uses.


technology.


4. Discuss the principle and applications of surface chemistry and catalysis in










UNIT II - ELECTROCHEMISTRY 9

Electrode potential - Nernst Equation - derivation and problems based on single

electrode potential calculation - reference electrodes - standard hydrogen electrode -

calomel electrode – Ion selective electrode - glass electrode - measurement of pH –




NaOH).

UNIT III - CORROSION AND CORROSION CONTROL 9

Chemical corrosion - Pilling-Bedworth rule – electrochemical corrosion – mechanism -

galvanic corrosion – differential aeration corrosion – factors influencing corrosion –

corrosion control – sacrificial anode and impressed cathodic current methods –

corrosion inhibitors – protective coatings – preliminary treatment - Paints constituents

and their functions – surface conversion coatings – Galvanizing and Tinning.


UNIT IV - SURFACE CHEMISTRY AND CATALYSIS 9



solution – applications of adsorption-role of adsorption in catalytic reactions – basic


activated carbon and powdered activated carbon) – catalysis-types - characteristics of


UNIT V - NANOCHEMISTRY 9

Basics - distinction between molecules, nanoparticles and bulk materials – size-

dependent properties – nanoparticles: nano cluster, nano rod, nanotube (CNT) and

nanowire – Synthesis: precipitation – thermolysis – hydrothermal – solvothermal –

electrodeposition - chemical vapour deposition - sol-gel technique – properties and


TOTAL: 45 hours

TEXT BOOKS



T. Maruthavanan et al., “Engineering Chemistry”, Sonaversity, Sona College

of Technology, Salem, Revised Edition 2019.

REFERENCE BOOKS






Delhi, 2008.





L T P C

3 0 0 3





Python


























TOTAL: 45 Hours


TEXT BOOK






REFERENCES







Private Ltd., 2015.


Learning, 2012.







L T P C

2 0 2 3



components.







pyramids.






and dimensioning.








(CAD Software)






(CAD Software)

Creation of 3D CAD models of pyramids, prisms and solids of revolutions- Sectional





(CAD Software)




of simple and truncated solids – Prisms – pyramids –cylinders and cones.


VIEWS L 12

(Manual drafting)





TOTAL: 60 Hours

TEXT BOOKS




REFERENCE BOOKS






Publications, 1998.

Bertoline& Wiebe fundamentals of graphics communication III edition

McGrawhill 2002.



PHYSICS PART

(For Mechatronics Engineering)

L T P C

0 0 2 1



prism.



3. Demonstrate the applications of a diode laser to determine the characteristics

of a given optical fibre.


bridge.














apparatus.


Total: 30 Hours



CHEMISTRY PART

(For Mechatronics Engineering)

L T P C

0 0 2 1



water sample

Analyse the different types of alkalinity and determine their amount in the given

water sample


conductivity meter.

Estimate the amount of hydrochloric acid present in the given solution using pH

metry.


potentiometer.










Total: 30 Hours



L T P C

0 0 2 1






LIST OF EXPERIMENTS












TOTAL: 30 Hours




L T P C

0 0 2 0





specific topics






d. Surds & Indices

e. Logarithms

f. Percentage

g. Averages


2. Verbal Aptitude


a. Synonyms

b. Antonyms

c. Verbal analogy

d. Editing passages


TOTAL: 30 hours





Branch: Mechanical Engineering


Theory

1 U19CHE104E Chemistry for Mechanical

Engineering 3 1 0 4 BS


3 U19EE106 Electrical Drives and ARM

Processor 3 0 0 3 ES

4 U19EGR106 Engineering Graphics** 2 0 2 3 ES

Practical

5 U19CHL109 Chemistry Laboratory 0 0 3 1.5 BS

6 U19EEL114 Electrical Drives and ARM

Processor Laboratory 0 0 4 2 ES

7 U19WPL112 Workshop Practice 0 0 2 1 ES

8 U19ENL115 Communication Skills in

English - I 0 0 2 1 HS


Total Credits 19.5



0 0 2 1 HS 11 U19OLE1102 German





drafting.


Approved By

Chairperson,

Science and

Humanities

BoS

Chairperson,

Mechanical

Engineering BoS

Member Secretary,

Academic Council

Chairperson,

Academic Council

& Principal

Dr.M.Renuga Dr.D.Senthilkumar Dr.R.Shivakumar Dr.S.R.R.Senthil

Kumar

Copy to:-

HOD/Mechanical, First Semester BE Mechanical Students and Staff, COE


U19CHE104E - CHEMISTRY FOR MECHANICAL ENGINEERING

L T P C

3 1 0 4


CO1: Outline the principle, applications of electrochemistry, types of corrosion and its

control methods.

CO2: Describe the basic concepts, applications of surface chemistry and catalysis in


CO3: Discuss the chemistry of fuels and combustion.

CO4: Analyze the industrial importance of phase rule and alloys.

CO5: Outline the principle and processes of metallurgy and powder metallurgy.

UNIT I - ELECTROCHEMISTRY AND CORROSION 12

Electrode potential – Nernst Equation – derivation and problems based on single

electrode potential calculation – reference electrodes – standard hydrogen electrode –

calomel electrode – Ion selective electrode – glass electrode – measurement of pH –




NaOH) – Corrosion – types – dry and wet corrosion – examples – Corrosion control

methods – Sacrificial anode and impressed cathode current method.

UNIT II - SURFACE CHEMISTRY AND CATALYSIS 12

Adsorption – types-physical and chemical adsorption – adsorption of gases on solids-

adsorption isotherms – Freundlich and Langmuir isotherms-adsorption of solutes from

solution – applications of adsorption-role of adsorption in catalytic reactions – ion

exchange adsorption- basic principles in adsorption chromatography – adsorption in

pollution abatement (granular activated carbnon and powdered activated carbon) –

catalysis-types - characteristics of catalysts – autocatalysis – definition and examples.

UNIT III - FUELS AND COMBUSTION 12

Fuels – calorific value – gross and net calorific values - problems based on the

calculation of calorific value of a fuel – coal – proximate and ultimate analyses –

metallurgical coke – manufacture by Otto-Hoffmann method – Petroleum processing

and fractions – cracking – types – Methods of synthesis of petrol – Bergius and Fischer

Tropsch processes - knocking – octane number and cetane number – power alcohol –

manufacture, advantages and disadvantages – biodiesel manufacture by

Transesterification process – advantages and disadvantages - Gaseous fuels – Water

gas, producer gas, CNG and LPG, Combustion – flue gas analysis by Orsat’s method.


UNIT IV - PHASE RULE AND ALLOYS 12

Statement and explanation of terms involved - limitations and applications of phase

rule - simple problems on the calculation of number of phases and number of

components of systems in equilibrium (water system, decomposition of CaCO3, PCl5

and NH4Cl) – Construction of phase diagram for one component system; water system

– condensed phase rule – construction of phase diagram by thermal analysis – simple

eutectic systems (lead – silver system only).

Alloys: Introduction- Definition- Properties of alloys- Significance of alloying,

Functions and effect of alloying elements - ferrous alloys – nichrome and stainless steel

– heat treatment of steel, non-ferrous alloys – brass and bronze.

UNIT V – METALLURGY 12

Metallurgy – extraction of metals from its ores – froth floatation, electromagnetic

separation and chemical methods – refining of metals – liquation and electrolytic

refining methods – metallurgy of iron and nickel - Powder metallurgy – principle –

characteristics of metal powders – methods of producing metal powders (mechanical

pulverization, atomization, chemical reduction, electrolytic process, decomposition) –

mixing and blending – compacting – sintering – applications, advantages and

limitations of powder metallurgy, Applications of Chemistry in mechanical

engineering.

TOTAL: 60 Hours

TEXT BOOKS


New Delhi , 2010.

R. Venkatesh et al, “Chemistry For Mechanical Engineering” Sonaversity,

Sona College of Technology, Salem, 2019.

REFERENCE BOOKS

O G Palana, Engineering Chemistry”, Tata McGraw Hill Education (India)

Private Limited, Chennai, Second Edition, 2017.

B. Sivasankar, “Engineering Chemistry”, Tata McGraw-Hill Pub. Co. Ltd.,

New Delhi (2008).

B.K. Sharma, “Engineering Chemistry”, Krishna Prakasan Media (P) Ltd.,

Meerut (2001).

N. Krishnamurthy, K. Jeyasubramanian and P. Vallinayagam, “Applied

Chemistry”, Tata McGraw-Hill Publishing Company Limited, New Delhi

(1999).




L T P C

3 1 0 4



indirect methods


applications





























TOTAL: 60 Hours

TEXT BOOKS





REFERENCE BOOKS


6th Edition, 2018.






29th Reprint, 2017.


Edition, 2018.


U19EE106 - ELECTRICAL DRIVES AND ARM PROCESSOR

L T P C

3 0 0 3


CO1 Explain the Construction, operation, starting and characteristics of DC

motors.

CO2 Explain the Construction, Types, Operation and characteristics of Three Phase

and Single Phase Induction motors.

CO3 Describe about Types of electric drives, Heating and Cooling curves and

selection of power rating for motors.

CO4 Discuss about the Solid State Speed control of DC motors and Three phase

induction motors.

CO5 Identify the features of Intel 8085 Microprocessor and writing simple

programs.

UNIT I - DC MOTORS L 9

Construction, principle of operation, torque-speed characteristics - Starters-Speed

control of DC series and shunt motors (Conventional Methods) – Armature and field

control, Ward-Leonard control system, Applications.

UNIT II - INDUCTION MOTORS L 9

Three-phase induction motor: Construction- types- principle of operation- torque-slip

characteristics- starting methods and speed control (Conventional Methods)-Single

phase Induction motor, Applications.

UNIT III - ELECTRIC DRIVES INTRODUCTION L 9

Basic Elements – Types of Electric Drives – factors are influencing the choice of

electrical drives –Heating and cooling curves – Loading conditions and classes of duty

– Selection of power rating for drive motors with regard to thermal overloading and

Load variation factors.

UNIT IV - SOLID STATE SPEED CONTROL OF AC AND DC DRIVES L 9

Introduction- Half wave and Full Wave Rectifiers -Single phase half controlled and

fully controlled bridge rectifier fed DC drives- single phase full bridge inverter with

resistive and inductive load- voltage source inverter(VSI) and current source inverter

(CSI) fed induction motor drives-slip power recovery scheme (Scherbious system and

Kramers system)


UNIT V - ARM PROCESSOR FUNDAMENTALS L 9

Architecture: Registers, Program status Register, Pipeline, Memory- ARM Instruction

Set - Data processing Instructions, Branch Instructions, Load, store instructions,

Software Interrupt Instruction, Program Statys Register Instructions, Loading Constants

and Conditional Executions Basic Programming Using C.

Total: 45 hours

TEXT BOOKS

1. Vedam Subramanyan, Electrical Drives concepts and applications, Tata

McGraw Hill Publications, 2014

2. D.P. Kothari and I.J. Nagrath, “Electric Machines”, Tata McGraw Hill

Publishing Company Ltd, Fourth Edition 2010.

REFERENCE BOOKS

1. Pillai.S.K “A first course on Electric drives”, Wiley Eastern Limited,3rd Edition

Reprint 2015.

2. Jonathan W. Valvano., “Embedded System: Introduction to ARM Cortex-M

Microcontrollers”, 5th Edition, 2017, ISBN-13: 978-1477508992

3. Electrical Drives and Microprocessor, Sonaversity.



L T P C

2 0 2 3



components.







pyramids.






and dimensioning.








(CAD Software)






(CAD Software)

Creation of 3D CAD models of pyramids, prisms and solids of revolutions - Sectional





(CAD Software)




of simple and truncated solids – Prisms – pyramids – cylinders and cones.


VIEWS L 12

(Manual drafting)





TOTAL: 60 Hours

TEXT BOOKS

1. P. Suresh et al., “Engineering Graphics and Drawing”, Sonaversity, Sona


2. K.V. Natarajan Engineering Graphics by, Chennai, 17th edition 2003.

REFERENCE BOOKS

1. Dhananjay A. JoIhe, Engineering Drawing with an introduction to AutoCAD,


2. Basant Agarwal and Agarwal C.M., Engineering Drawing, Tata McGraw Hill


3. K. R. Gopalakrishnana, Engineering Drawing (Vol. I & II), Subhas

Publications, 1998.

4. Bertoline & Wiebe fundamentals of graphics communication III edition

McGrawhill 2002.


U19CHL109 - CHEMISTRY LABORATORY

L T P C

0 0 3 1.5



water sample


given water sample


chloride content in the given water samples by argentometric method.

Analyse the two given brass samples and find which one possesses more

copper content in the brass samples.


pH metry.



conductivity meter.

Estimate the amount of hydrochloric acid and acetic acid present in the given

solution using conductivity meter.


potentiometer.

Describe the method of determining the molecular weight of a given polymer.


dissolved oxygen in the given water samples by Winkler’s method.

Analyse the two given waste waters and find which one possesses more

chromium content.


LIST OF EXPERIMENTS



3. Estimation of chloride ion present in the sample water by argentometric

method.

4. Estimation of copper in brass by EDTA method.




8. Estimation of mixture of acids by conductometry. (HCl + CH3COOH vs

NaOH)

9.


11. Determination of Molecular weight of a polymer by viscosity measurements.

12. Determination of Dissolved Oxygen of water by Winkler’s method.

13. Estimation of chromium in waste water.

Total: 45 Hours


U19EEL114 - ELECTRICAL DRIVES AND ARM PROCESSOR LABORATORY

L T P C

0 0 4 2


CO1 Analyze the characteristics and determine the efficiency of DC and AC

motors.

CO2 Control the speed of DC and AC motors using rheostat and solid state

controllers.

CO3 Execute a simple program interfacing with ARM processor.

LIST OF EXPERIMENTS

1. Load test on DC Shunt motor.

2. Load test on DC Series motor.

3. Speed control of DC shunt motor (Armature, Field control)

4. Load test on three phase squirrel cage Induction motor

5. Load test on single phase Induction Motor.

6. Speed control of three phase slip ring Induction Motor.

7. Single phase half controlled converter using R, RL Loads.

8. Single phase fully controlled converter using R, RL Loads.

9. Speed control of DC motor using 3Phase converter.

10. Speed control of 3 Phase Induction motor using Voltage Source Inverter

(VSI).

11. Study of ARM evaluation system.

12. Write a program to interface stepper motor using ARM processor.

13. Write a program for an on chip ADC using ARM processor.

TOTAL: 60 hours



L T P C

0 0 2 1






LIST OF EXPERIMENTS

SECTION 1: FITTING






SECTION 3: WELDING






TOTAL: 30 Hours


U19ENL115 - COMMUNICATION SKILLS IN ENGLISH – I

L T P C

0 0 2 1


Communicate competitively among themselves

Demonstrate improved ability to communicate effectively in work place and

at home

Introduce themselves, deliver speeches on general topics and make technical

presentation

Part – 1

Extempore presentation – story narration, simple, general, abstract topics and

incidents

Part - 2

Self- introduction - personal information, name, home background, study

details, area of interest, hobbies, strengths and weaknesses




presentation




driver and client, industrialist and candidate

Total: 30 hours




L T P C

0 0 2 0





specific topics






d. Surds & Indices

e. Logarithms

f. Percentage

g. Averages


2. Verbal Aptitude


a. Synonyms

b. Antonyms

c. Verbal analogy

d. Editing passages


TOTAL: 30 hours

sona college of technology, salem (an autonomous ...speak effectively in real time and business...

Documents