learning is a celebration!speak effectively in real time and business situations 4. write emails,...

(AN AUTONOMOUS INSTITUTION)

Junction Main Road, Salem – 636 005

Regulations 2015R

syllabus for second semester B.e./B.tech. Programmes

Branch: Civil engineering

(with effect from the academic year 2018 - 2019)

Learning is a Celebration!

sona College oF teCHnologY, saleM – 636 005(An Autonomous Institution)

Courses of Study for BE / B Tech Semester II under Regulations 2015R (CBCS)

Branch: CiVil

s.no. Course Code Course title l t P C groupcode

theory

1 U15ENG201AR Technical English –II 2 0 2 3 HS

2 U15MAT202AR Mathematics - II 3 2 0 4 BS3 U15PHY203AR Physics For Civil Engineering 3 0 0 3 BS4 U15CHE205AR Chemistry For Civil Engineering 3 0 0 3 BS5 U15PSC206R Problem Solving in C# 3 0 0 3 ES6 U15GE207R Engineering Mechanics 2 2 0 3 ES

Practical

7 U15PCL208AR Physics and Chemistry Laboratory – II$ 0 0 2 1 BS

8 U15PSL209R Problem Solving in C Laboratory# 0 0 2 1 ES

9 U15CDL210R Computer Aided Drafting Laboratory 0 0 2 1 ES

total Credits 22

optional language elective*

10 U15OLE1201 French

0 0 2 1 HS11 U15OLE1202 German

12 U15OLE1203 Japanese

*Students may opt for foreign languages viz., German/French/Japanese with additional one credit (over and above the CGPA calculation).# Common to CIVIL & FT$Laboratory classes on alternate weeks for Physics and Chemistry. The lab examination will be conducted separately for 50marks each with 2 hours duration.

approved by

HOD-First YearDr. M. Renuga

Chairperson Bos/Civil & HOD-Civil

Dr. R. Malathy

Member secretary, academic CouncilDr. R. Shivakumar

Chairperson, academic Council &

PrincipalDr. S.R.R. Senthilkumar

07.05.2018 B.E/B.Tech Regulations- 2015R

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U15ENG201AR - TECHNICAL ENGLISH II

Course outcomes

at the end of the 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 emails, formal letters and descriptions of graphics

5. develop skills for writing reports and proposals

unit i – FoCus on language

• Cause and effect expressions

• Concord

• If conditionals

• Articles

• Pronouns

• Adverbs

• Grammatical structures

UNIT II – SPEAkING-I

• 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.

• Welcome address, vote of thanks, special address on specific topics.

unit iii – sPeaking – ii

• Mini presentation in small groups of two or three regarding, office arrangements, facilities, office functions, sales, purchases, training recruitment, advertising, applying for financial assistance, applying for a job, team work, discussion, presentation

L T P C M2 0 2 3 100

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• 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, 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.

unit iV – WRiting – i

• Email, fixing an appointment, Cancelling appointments, conference details, hotel accommodation, order for equipment, training programme details, paper submission for seminars and conferences

• Letter Writing, Business communication, quotations, placing orders, complaints, replies to queries from business customers, inviting dignitaries, accepting and declining invitations

• Resume / CV

• Transcoding: Flow Chart, Pie Chart, Graph, Bar Chart, Tabular Column.

UNIT V – WRITING -II

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

• General purpose writing specifications of equipment, description of an object, National and International issues, answering general questions with special emphasis on seeking opinions

• Technical Writing: recommendations, checklists, instructions, note making and memo

• Proposal: establishing a lab, introducing a subject in the curriculum, training programme for students

total: 45 Hours

speaking test will be conducted for 20 marks externally and evaluated along with technical english –ii in the end semester Valuation.

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textBook

Technical English – I & II, Dr. M. Renuga, et al. Sonaversity, Sona College of Technology, Salem, Revised edition, 2016.

extensiVe Reading

1. Who Moved my Cheese? – Spencer Johnson-G. P. Putnam’s Sons

2. “ Discover the Diamond in You” – Arindam Chaudhuri – Vikas Publishing House Pvt. Ltd.

ReFeRenCe Books

• 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.

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U15MAT202AR - MATHEMATICS II

(Common to Civil, Mech, Mechatronics, EEE, IT and FT Branches)

Course outcomes

1. explain the different types of ordinary differential equations and describe the various methods to solve ordinary differential equations.

2. define and explain the vector functions, operators and discuss the methods of solving line, surface and volume integrals.

3. state the special features of function of a complex variable, properties and discuss the problems involving conformal mapping.

4. describe the power series expansion of a complex function and the procedures of evaluating the complex integral.

5. define laplace transform, its inverse, properties and solve an ordinary differential equation using Laplace transform.

unit i – oRdinaRY diFFeRential equations 9+6

Linear higher order ordinary differential equations with constant coefficients – Cauchy’s and Legendre’s homogeneous linear ordinary differential equations – method of variation of parameters.

unit ii – VeCtoR CalCulus 9+6

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 parallelepiped.

unit iii – analYtiC FunCtions 9+6

Function of a complex variable, analytic function, necessary conditions and sufficient conditions (excluding proof), properties of an analytic function, harmonic conjugate, construction of an analytic function by Milne’s Thomson method, conformal mapping: w = z + c, cz,1/z and bilinear transformation.

L T P C M3 2 0 4 100

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unit iV – CoMPlex integRation 9+6

Statement of Cauchy’s integral theorem and Cauchy’s integral formula, simple applications, Taylor’s and Laurent’s expansions, singular points, residues, statement of Cauchy’s residue theorem, evaluation of contour integration over unit circle and semi circle (excluding poles on real axis).

unit V – laPlaCe tRansFoRM 9+6

laplace transform: conditions for existence, transform of elementary functions, basic properties, transform of derivatives and integrals, transform of unit step function and impulse function, transform of periodic functions.

inverse laplace transform: standard results – statement of convolution theorem and its applications, initial and final value theorems, solution of linear second order ordinary differential equations with constant coefficients using Laplace transformation.

total: 75 Hours

text Books

1. B. S. Grewal, “Higher Engineering Mathematics”, Khanna Publishers, New Delhi, 43rd Edition, 2014.

2. T. Veerarajan, “Engineering Mathematics”(I Year), Tata McGraw Hill, 4th Edition, 2011.

ReFeRenCe Books

1. P. Kandasamy, K. Thilagavathy and K. Gunavathy, “Engineering Mathematics”, (for first Year), S. Chand and Co., Ltd., Revised Edition 2011.

2. E. Kreyszig., “Advanced Engineering Mathematics”, John Wiley and Sons (Wiley Student Edition), 10th Edition, 2011.

3. S.Karthikeyan, R. Rajeswari, P. Senthilvadivu and R.Shivakumar, “Vector Calculus and Complex Analysis”, Sonaversity, Revised Edition, 2017.

4. N. P. Bali, M. Goyal, “Engineering Mathematics”, University Science Press, New Delhi, 9th Edition, 2011.

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U15PHY203AR- PHYSICS FOR CIVIL ENGINEERING

Course outcomes

1. examine the elastic behaviour of solid materials and apply hydrodynamic principles for the flow of liquids.

2. calculate the electrical and thermal conductivity of conducting materials.

3. compare the different modes of heat transfer and analyze the concept of green building.

4. analyze stress distribution in solids using strain measuring techniques.

5. recognize the novel properties of new engineering materials.

unit i – PROPERTIES OF MATTER AND HYDRODYNAMICS 9

Elasticity - Poisson’s ratio and relation between moduli (qualitative) – Stress-strain diagram- Factors affecting elasticity - Bending of beams – Cantilever- Expression for bending moment – Measurement of Young’s modulus by uniform and non-uniform bending- I shaped girders - Stream line flow – Turbulent flow- Poiseuille’s formula for flow of liquid through a capillary tube – Determination of coefficient of viscosity of a liquid.

unit ii – CONDUCTING MATERIALS 9

Conductors- Classical free electron theory of metals-Electrical and thermal conductivity- Wiedemann-Franz law-Lorentz number-Drawbacks of classical theory-Quantum theory-band theory of solids( qualitative treatment only) – Fermi distribution function- Effect of temperature on Fermi Function-Density of energy states- Carrier concentration in metals – application of conducting materials in electrically conductive concrete.

unit iii – THERMAL PHYSICS 9

Modes of heat transfer – conduction - convection – radiation - Coefficient of thermal conductivity - Thermal diffusivity - Rectilinear flow of heat along a bar (derivation) – Radial and cylindrical flow of heat, Spherical shell method - Thermal conductivity of rubber and glass tube - Conduction through compound media – Thermal insulation in

L T P C M3 0 0 3 100

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buildings - Thermal insulating materials – Green building concept

unit iV – STRAIN MEASURING TECHNIQUES 9

Stress – Strain – Electrical strain gauges – Resistance, capacitance, Inductance, Wheatstone bridge – Theory of photoelasticity - Stress optic law – Effect of stressed model in a plane polariscope – Isoclinic and Isochromatic fringes – Photo elastic bench

unit V – NEW ENGINEERING MATERIALS 9

Metallic glasses: Preparation - properties - applications

shape memory alloys: Characteristics - properties of Ni-Ti alloy – application- advantages and disadvantages of SMA

advanced Ceramics: Introduction – characteristics – structural ceramics

Nanoscience and Nanotechnology – significance of the nanoscale - different types of nanostructures (Confinement Dimensions 0-D, 1-D, 2-D and 3-D) - Categories of nanomaterials - Fabrication of nanomaterials - Ball milling method and Chemical vapour deposition technique - Carbon nanotubes - Types of carbon nanotubes - CNT structure – properties and applications.

total: 45 Hours

text Books

1. B. K. Pandey and S. Chaturvedi, ‘Engineering Physics’, Cengage Learning India Pvt. Ltd., Delhi, 2012.

2. M. Arumugam, ‘Materials Science’ Anuradha Publications, Kumbakonam, 2006.

ReFeRenCe Books

1. C. Shanthi et al., Physics for Civil Engineering, Sonaversity, Sona College of Technology, Salem (Revised edition, 2017).

2. V. Rajendran and A. Marikani, ‘Materials Science’ TMH Publications, New Delhi, 2004.

3. Subramaniam. N, Brijlal, ‘Heat and Thermodynamics’, S. Chand Group, New Delhi, 2007 (Unit II).

4. Subramaniam. N, Brijlal, ‘Properties of Matter’, S. Chand Group, New Delhi, 2007 (Unit I).

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U15CHE205AR - CHEMISTRY FOR CIVIL ENGINEERING

Course outcomes

1. analyze the types of polymers, polymerization reactions, polymerization techniques and fabrication methods of polymers for engineering applications.

2. describe the chemistry of engineering materials and their industrial applications.

3. discuss the chemistry of modern composite materials and their applications.

4. explain the industrial importance of phase rule and alloys.

5. describe the chemistry of building materials.

unit i – POLYMER CHEMISTRY 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 – 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 ii – CHEMISTRY OF ENGINEERING MATERIALS 9

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.

L T P C M3 0 0 3 100

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unit iii – CHeMistRY oF ModeRn CoMPosite MateRials 9

Blends and composites, significance and choice of polymers for blending, polymer alloys, plastic-plastic, rubber-plastic and rubber-rubber blends, FRP – composition and application of glass , carbon, boron, alumina and aramid FPRs. Reinforcement – Particle reinforced composites (PRC) – Composition and application of clay, silica, carbon, TiO2 and metal nano structured materials in PRC.

unit iV – PHASE RULE AND ALLOYS 9

Statement and explanation of terms involved – 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 – CHEMISTRY OF BUILDING MATERIALS 9

Lime – classification – manufacture and properties of lime – Cement – classification – Portland cement – chemical composition – manufacture – setting and hardening – analysis of cement – concretes – weathering of concrete, cement and its prevention – special cements - gypsum – plaster of paris – Glass - manufacture, types, properties and uses - Applications of Chemistry in Civil engineering.

total: 45 Hours

text Books

1. P.C.Jain and Monica Jain, “Engineering Chemistry” Dhanpat Rai Pub, Co., New Delhi , 2010.

2. B.K. Sharma, “Engineering Chemistry”, Krishna Prakasan Media (P) Ltd., Meerut (2001).

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ReFeRenCe Books

1. A.P. Uthirakumar et al., “Chemistry for Civil Engineering” by Sonaversity, Sona College of Technology, Salem, Revised Edition, 2018.

2. Gowariker V.R. , Viswanathan N.V. and Jayadev Sreedhar, “Polymer Science”, New Age International P (Ltd.,), Chennai, 2006

3. B. Sivasankar, “Engineering Chemistry”, Tata McGraw-Hill Pub. Co. Ltd., New Delhi (2008).

4. N. Krishnamurthy, K. Jeyasubramanian and P. Vallinayagam, “Applied Chemistry”, Tata McGraw-Hill Publishing Company Limited, New Delhi (1999).

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U15PSC206R - PROBLEM SOLVING IN C

(Non Circuit branches: MECH, FT, Civil)

Course outcomes

1. write c programs to solve problems using appropriate language features.

2. design and develop interactive real-time applications using files.

3. write programs using preprocessor directives and apply the concept of dynamic memory allocation.

4. write programs for several sorting and searching methods.

5. write programs using c graphics features.

UNIT I – C PROGRAMMING FUNDAMENTALS- A REVIEW 9

Conditional statements – Control statements – Functions – Arrays – Pointers - Variation in pointer declarations – Function Pointers – Function with Variable number of arguments – Structures and Unions

UNIT II – FILE HANDLING 9

File handling concepts – File read – write – binary and Stdio - File Manipulations Command line arguments

UNIT III – PREPROCESSOR AND DYNAMIC MEMORY ALLOCATION 9

Preprocessor: Macro Substitution, File Inclusion, Compiler Control Directives – Dynamic Memory Allocation: Library Functions for Dynamic Memory Allocation.

UNIT IV – SORTING AND SEARCHING TECHNIQUES 8

Sorting algorithms: Insertion Sort - Selection Sort - Bubble Sort - Merge Sort – Quick Sort- Shell Sort – Bucket Sort - Searching: Linear Search and Binary Search.

L T P C M3 0 0 3 100

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unit V – C gRaPHiCs BasiCs 10

Introduction, initializing the graphics, C Graphics functions, programs, Simple 2D Graphics: Text, Lines, Arc, Ellipse, Polygon and Rectangle.

total: 45 Hours

text Book

1. K R Venugopal, S R Prasad “Mastering C” Tata McGraw-Hill Education Pvt Ltd, 2012.

ReFeRenCe Books

1. Brian W. Kernighan and Dennis M. Ritchie, “The C Programming Language”, 2nd Edition, Pearson Education, 1988.

2. E Balagurusamy “Programming in ANSI C” Sixth Edition Tata McGraw-Hill Education Pvt Ltd, 2012.

3. Mark Allen Weiss, “Data Structures and Algorithm Analysis in C”, 2nd Edition, Pearson Education, 1996.

4. Byron S Gottfried, “Programming with C”, Schaum’’s Outlines, Second Edition, Tata McGraw-Hill, 2006.

5. Yashavant P. Kanetkar. “Let Us C”, 14th edition, BPB Publications, 2016.

6. Deitel and Deitel, “C How to Program”, 6th edition, Pearson Education, New Delhi, 2011.

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U15GE207R - ENGINEERING MECHANICS

Course outcomes

1. the student should be able to understand the vectorial and scalar representation of forces and moments, static equilibrium of particles and rigid bodies both in two dimensions and also in three dimensions.

2. further, they should understand the principle of work and energy. he should be able to comprehend the effect of friction on equilibrium.

3. they should be able to understand the laws of motion, the kinematics of motion and the interrelationship.

4. they should also be able to write the dynamic equilibrium equation. all these should be achieved both conceptually and through solved examples.

unit i – BasiCs & statiCs oF PaRtiCles 12

Introduction – Units and Dimensions – Laws of Mechanics – Lame’s theorem, Parallelogram and triangular Law of forces – Vectors – Vectorial representation of forces and moments – Coplanar Forces – Resolution and Composition of forces – Equilibrium of a particle

Forces in space – Equilibrium of a particle in space – Equivalent systems of forces – Principle of transmissibility – Single equivalent force.

unit ii – equiliBRiuM oF Rigid Bodies in 2 diMensions 12

Free body diagram – Types of supports and their reactions – requirements of stable equilibrium – Moments and Couples – Moment of a force about a point – Varignon’s theorem – Equilibrium of Rigid bodies in two dimensions

unit iii – FRiCtion 12

Frictional force – Laws of Coulomb friction – Angle of friction – cone of friction – Equilibrium of bodies on inclined plane – Ladder friction - Wedge Friction – Belt friction – Screw Jack - Self locking

L T P C M2 2 0 3 100

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unit iV – PRoPeRties oF suRFaCes and solids 12

Determination of Areas and Volumes – First moment of area and the Centroid of sections – Rectangle, circle, triangle from integration – T section, I section, Hollow section by using standard formula

Second and product moments of plane area – Rectangle, triangle, circle from integration – T section, I section by using standard formula – Parallel axis theorem and perpendicular axis theorem – Polar moment of inertia – Principal moments of inertia of plane areas – Principal axes of inertia – Mass moment of inertia of cylinder

unit V – dYnaMiCs oF PaRtiCles 12

Displacements, Velocity and acceleration, their relationship – Rectilinear and Curvilinear motion – Newton’s law – Work Energy Equation of particles – Impulse and Momentum – Impact of elastic bodies.

total: 60 Hours

text Books

1. Engineering mechanics by Sonaversity, III edition, by 2013

2. Beer, F.P and Johnson Jr. E.R. “Vector Mechanics for Engineers”, Vol. 1 Statics and Vol. Dynamics, McGraw–Hill International Edition, (1997).

ReFeRenCe Books

1. Rajasekaran, S, Sankarasubramanian, G., “Fundamentals of Engineering Mechanics”, Vikas Publishing House Pvt. Ltd., (2000).

2. Hibbeller, R.C., “Engineering Mechanics”, Vol. 1 Statics, Vol. 2 Dynamics, Pearson Education Asia Pvt. Ltd., (2000).

3. Palanichamy, M.S., Nagam, S., “Engineering Mechanics – Statics & Dynamics”, Tata McGraw–Hill, (2001).

4. MeriamJ.L,KraigeL.G,“Engineering Mechanics-Statics”6th Edition, Wiley, 2010.

5. Irving H. Shames, “Engineering Mechanics – Statics and Dynamics”, IV Edition – Pearson Education Asia Pvt. Ltd., (2003).

6. Ashok Gupta, “Interactive Engineering Mechanics – Statics – A Virtual Tutor (CDROM)”, Pearson Education Asia Pvt., Ltd., (2002).

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U15PCL208AR - PHYSICS AND CHEMISTRY LABORATORY II

(Common to Civil, EEE, Mech, FT and Mechatronics Branches)

Course outcomes

1. apply the principles of optics, electricity and elasticity to determine the engineering properties of materials.

2. evaluate the amount of iron content in the given sample using spectrophotometry, analyze the amount of chloride in a domestic water sample and analyse the quality of brass by estimating copper.

3. determine the resistivity of the given fuse wire used for house hold applications and determine the dissolved oxygen in two different water samples collected from the students residential areas.

LIST OF ExPERIMENTS (PHYSICS PART)

1. Determination of rigidity modulus of the material using torsion pendulum.

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

3. Determination of Young’s modulus of the material by non-uniform bending method.

4. Determination of wavelength of the spectral lines in the mercury spectrum using a spectrometer.

5. Determination of band gap of a semiconductor diode.

6. Determination of coefficient of viscosity of the given liquid using Poiseuille’s method

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

L T P C M0 0 2 1 100

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LIST OF ExPERIMENTS (CHEMISTRY PART)

1. Determination of molecular weight of Polyvinyl alcohol using Ostwald Viscometer.

2. Estimation of copper in brass solution by EDTA method.

3. Determination of Calcium Oxide (CaO) in Cement.

4. Estimation of chromium in waste water.

5. Determination of dissolved oxygen in water by Winkler’s method.

6. Estimation of Iron content in water by Spectrophotometric method.

total: 30 Hours

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U15PSL209R - PROBLEM SOLVING IN C LABORATORY(Non Circuit branches: MECH, FT, Civil)

Course outcomes

2. write programs for sorting list of items and searching an item in a given list.

Write C programs for the following. the faculty concerned will add the suitable scenario based questions for the concepts and that must be shared during the lab classes. (Compiler/IDE: GCC / Code::Blocks)

1. Functions (includes Pass by value, Pass by reference and recursive functions)

2. Pointer manipulations

3. File Handling in C

4. Command Line Arguments in C.

5. Sorting algorithms - Bubble Sort, Insertion Sort, Selection Sort, Merge Sort and Quick Sort.

6. Linear Search and Binary Search algorithms.

7. Graphics primitives - Line, Arc, Ellipse, Polygon, Rectangle.

total: 30 Hours

L T P C M0 0 2 1 100

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U15CDL210R - COMPUTER AIDED DRAFTING LABORATORY

1. general introduction

Introduction to CAD Modeling Software – Industrial Applications – Parametric & Feature based modeling. Comparison - CAD models with Proto types. Practice - Sketch – Part Model – Detailing.

Introduction about ANALYSIS.

2. Preparation of standard solid Primitives

Create 3D- simple solids- Prism, Pyramid, Cylinder and Cone – Front view-Top view- and side view Create 3D simple models- V-block, Spur Gear, Bolt and Nut etc.).

3. Preparation of orthographic drawing and sectioning

Ortho graphic view and Cut section of standard Machine Elements.,

4. Material Properties and Rendering

Applying different materials for Machine Components-Steel –Aluminum-Copper- Brass-Silver-Wood

Plastic-Ceramic-.Concrete etc., Preparing Final CAD outputs with rendering features.

5. geometric tolerance and dimension

Detailing with Fits, Limits and Tolerance.

Introduction to GD&T – Industrial Drawing practice- Machining symbols, Welding Symbols etc.,

note: Laboratory Practicing CAD Modeling Software: Solidworks 2012.

L T P C M0 0 2 1 50

Regulations 2015R

Branch: Computer science and engineering

Courses of Study for BE / B Tech Semester II under Regulations 2015R (CBCS)Branch: Cse

theory

1 U15ENG201AR Technical English –II 2 0 2 3 HS2 U15MAT202BR Engineering Mathematics – II 3 2 0 4 BS3 U15PHY203BR Physics of Materials # 3 0 0 3 BS

4 U15CHE204AREnvironmental Science and Engineering$ 3 0 0 3 BS

5 U15PDS206R Programming and Data Structures 3 0 0 3 ES

6 U15EGR207R Engineering Graphics1 2 2 0 3 ES

Practical

7 U15PCL208BRPhysics and Chemistry Laboratory – II2

0 0 2 1 BS

8 U15PDS209RProgramming and Data Structures Laboratory

0 0 2 1 ES

9 U15BEEL210RBasic Electrical and Electronics Engineering Laboratory

0 0 2 1 ES

total Credits 22

optional language elective*10 U15OLE1201 French

0 0 2 1 HS11 U15OLE21202 German12 U15OLE1203 Japanese

*Students may opt for foreign languages viz., German/French/Japanese with additional one credit (over and above the CGPA calculation).# Common to CSE & IT branches$ Common to CSE & IT branches.1 The examination will be conducted for 3 hours both through written and practical mode.2 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 Bos/Cse & HOD-CSE

Dr. B. Sathiyabhama

Chairperson, academic Council

& PrincipalDr. S.R.R. Senthilkumar

- 27 -

Course outcomes

unit i – FoCus on language• Cause and effect expressions• Concord• If conditionals• Articles• Pronouns• Adverbs• Grammatical structures

unit ii – SPEAkING-I• 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.• Welcome address, vote of thanks, special address on specific topics.

unit iii – sPeaking – ii• Mini presentation in small groups of two or three regarding, office arrangements, facilities, office functions, sales, purchases, training recruitment, advertising, applying for financial assistance, applying for a job, team work, discussion, presentation

L T P C M2 0 2 3 100

- 28 -

unit iV – WRiting – i• Email, fixing an appointment, Cancelling appointments, conference details, hotel accommodation, order for equipment, training programme details, paper submission for seminars and conferences• Letter Writing, Business communication, quotations, placing orders, complaints, replies to queries from business customers, inviting dignitaries, accepting and declining invitations• Resume / CV• Transcoding: Flow Chart, Pie Chart, Graph, Bar Chart, Tabular Column.

unit V – WRITING -II• Technical report writing, feasibility reports, accident reports, survey reports• General purpose writing specifications of equipment, description of an object, National and International issues, answering general questions with special emphasis on seeking opinions• Technical Writing: recommendations, checklists, instructions, note making and memo• Proposal: establishing a lab, introducing a subject in the curriculum, training programme for students

total: 45 Hours

- 29 -

text Book

extensiVe Reading1. Who Moved my Cheese? – Spencer Johnson-G. P. Putnam’s Sons2. “ Discover the Diamond in You” – Arindam Chaudhuri – Vikas Publishing House Pvt. Ltd.

ReFeRenCe Books1. Norman Whitby, Business Benchmark – Pre-Intermediate to Intermediate, Students Book, Cambridge University Press, 2006.2. A Course in Communication Skills, P. Kiranmai Dutt, Geetha Rajeevan, C. L. N. Prakash, published by Cambridge University Press India Pvt. Ltd.

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U15MAT202BR - ENGINEERING MATHEMATICS – II

Course outcomes

1. explain the Eigen values and Eigen vectors of a real matrix and find them, discuss their properties, reduce a real symmetric matrix from Quadratic form to Canonical form.

2. define and explain the vector functions, operators and discuss the Methods of solving line, surface and volume integrals.

3. state the special features of a complex variable, its properties and discuss the problems involving conformal mapping.

4. describe the power series expansions of complex functions and the procedures of evaluating the complex integral.

5. define Laplace transform and its inverse, properties and solve the ordinary differential equations using Laplace transform.

unit i – MatRiCes 9+6

Eigenvalues and eigenvectors of a real matrix – characteristic equation – properties of eigenvalues and eigenvectors – Cayley-Hamilton theorem (statement only) – diagonalisation of matrices – reduction of a quadratic form to canonical form by orthogonal transformation – nature of quadratic forms.

Gradient and directional derivative – divergence and curl – irrotational and solenoidal vector fields – line integral over a plane curve – surface integral – area of a curved surface – volume integral – Green‘s, Gauss divergence and Stoke‘s theorems (statement only) – verification and application in evaluating line, surface and volume integrals.

UNIT III – ANALYTIC FUNCTIONS 9+6

Analytic functions – necessary and sufficient conditions for analyticity – properties – harmonic conjugates – construction of analytic function – conformal mapping – w = z + c, cz, 1/z – bilinear transformation.

L T P C M3 2 0 4 100

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UNIT IV – COMPLEX INTEGRATION 9+6

Line integral – Cauchy‘s integral theorem (statement only) – Cauchy‘s integral formula – Taylor‘s and Laurent‘s series – singularities – residues – residue theorem (statement only) – application of residue theorem for evaluation of real integrals – use of unit circular contour and semicircular contour with no pole on real axis.

unit V – laPlaCe tRansFoRMs 9+6

Existence conditions – transforms of elementary functions – transform of unit step function and unit impulse function – basic properties – shifting theorems -transforms of derivatives and integrals – initial and final value theorems – inverse transforms – convolution theorem – transform of periodic functions – application to solution of linear ordinary differential equations with constant coefficients.

total: 75 Hours

textBooks

2. T. Veerarajan, “Engineering Mathematics for semesters I and II”, 3rd Edition, Tata McGraw Hill Education Pvt. Ltd, New Delhi, 2012.

ReFeRenCe Books

1. B. V. Ramana, “Higher Engineering Mathematics”, Tata McGraw Hill Co. Ltd., New Delhi, 30th Reprint, 2017.

3. E. Kreyszig, “Advanced Engineering Mathematics”, International Student Version, Wiley, 10th Edition, 2015.

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U15PHY203BR - PHYSICS OF MATERIALS

(Common to CSE and IT)

Course outcomesat the end of the course, the students will be able to,

1. calculate electrical and thermal conductivity of conducting materials.2. classify semiconductors and analyze the variation of Fermi level with temperature

and examine the nature of charge carriers.3. compare the types of magnetic materials and explain their applications in data

storage devices. 4. illustrate the optical data storage techniques and different display devices.5. describe the significance of nano scale and their applications in the field of

quantum computing.

UNIT I – ELECTRICAL PROPERTIES OF MATERIALS 9

Conductors – Classical free electron theory of metals – Electrical and thermal conductivity – Wiedemann – Franz law – Lorentz number – Draw backs of classical theory – Quantum theory –band theory of solids ( qualitative treatment only) - Fermi distribution function – Effect of temperature on Fermi Function – Density of energy states – Carrier concentration in metals.

UNIT II – SEMICONDUCTOR PHYSICS 9

Intrinsic semiconductors – Energy band diagram – direct and indirect band gap semiconductors -Carrier concentration in intrinsic semiconductors - Fermi level – Variation of Fermi level with temperature – Electrical conductivity – Band gap determination– Extrinsic semiconductors – Carrier concentration in N-type and P-type semiconductors (Qualitative Treatment only) – Variation of Fermi level with temperature and impurity concentration – Compound semiconductors – Hall effect –Determination of Hall coefficient – Hall effect applications – Ohmic contacts – Schottky diode.

UNIT III – MAGNETIC PROPERTIES OF MATERIALS 9

Classification of magnetic materials – Quantum numbers – Magnetic moment – Classical theory of diamagnetism (Langevin theory) – Theory of paramagnetism – Ferromagnetism (Weiss theory) – Anti ferromagnetic materials – Ferrites – Hard and soft magnetic

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materials – Magnetic recording materials – Bubble memory – Magnetic principle in computer data storage – Magnetic tape – Floppy disc – Magnetic hard disc.

UNIT IV – OPTICAL PROPERTIES OF MATERIALS 9

Classification of optical materials – Absorption in metals, insulators & Semiconductors - LED’s – Organic LED’s – Polymer light emitting materials – Plasma light emitting devices – LCD’s –Optical data storage techniques in DVD and Blue -ray disc - Holographic data storage.

UNIT V – NANO MATERIALS 9

Nanoscience and Nanotechnology – significance of the nanoscale – Quantum confinement effect - different types of nanostructures (Confinement Dimensions 0-D, 1-D, 2-D and 3-D) – Categories of nanomaterials – Fabrication of nanomaterials – Ball milling method and Chemical vapour deposition technique - Quantum size effect in metal or semiconductor nanoparticles - Quantum structures – Metal-to-insulator transition – Confining excitons – Band gap of nanomaterials –Tunneling – Resonant Tunneling Diodes (RTD’s) – Single electron phenomena – Single electron transistor – Basic concepts of spintronics.

total: 45 Hours

textBooks1. S.O. Kasap, “Principles of Electronic Materials and Devices”, Tata McGraw-Hill,

2007.2. P.K. Palanisamy, “Materials Science”, Scitech, 2003.

ReFeRenCe Books

1. C.Shanthi et. al. ‘Physics of Materials’, Sonaversity, Sona College of Technology, Salem (Revised edition, 2015).

2. R.F. Pierret, “Semiconductor Device Fundamentals”, Pearson, 1996. 3. N. Garcia and A. Damask, “Physics for Computer Science Students”, Springer-

Verlag, 1991. 4. B. K. Pandey and S. Chaturvedi, Engineering Physics , Cengage Learning India

Pvt. Ltd., Delhi, 2012.

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U15CHE204AR - enViRonMental sCienCe and engineeRing(Common to CSE and IT branches)

Course outcomes

• state the importance of the acute need for environmental awareness and discuss significant aspects of natural resources like forests, water, mineral, food, and energy and land resources.

• explain the concepts of an ecosystem and provide an overview of biodiversity and its conservation.

• define the various known kinds of environmental pollution and discuss their causes, effects and control measures.

• describe the safe disposal of hazardous wastes and waste water treatment.

• give an account of the social issues with regard to the environment.

• discuss the impact of human population on the environment.

unit i – intRoduCtion to enViRonMental studies and natuRal ResouRCes 12Definition, Scope and Importance – Need for public awareness – Forest Resources:- Use and over - exploitation, deforestation, Case Studies, Timber Extraction, Dams, Benefits and their effects on forests and tribal people - Water Resources:- Use and Over - Utiliza-tion of Surface and ground water, Floods, Drought, Conflicts Over Water – Mineral Re-sources:- Use–Environmental Effects of Extracting and Using Mineral Resources – Food Resources: World Food Problems, Changes caused by Agriculture and Overgrazing, Ef-fects of Modern Agriculture, Fertilizer- Pesticide Problems, Water Logging, salinity – Energy Resources:- Growing Energy Needs, Renewable and Non Renewable Energy Sources, Use of Alternate Energy Sources – Land Resources:- Land as a Resource, Land Degradation, Man Induced Landslides, Soil Erosion and Desertification – Role of an Individual in Conservation of Natural Resources.

UNIT II – ECOSYSTEMS AND BIODIVERSITY 9

Concepts of an Ecosystem – Structure and Function of an Ecosystem – Producers, Con-sumers and Decomposers – Energy Flow in the Ecosystem – Biogeochemical Processes - Ecological Succession – Food Chains, Food Webs and Ecological Pyramids.

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Introduction to Biodiversity – Definition: Genetic, Species and Ecosystem Diversity – Value of Biodiversity: Consumptive Use, Productive Use, Social, Ethical, Aesthetic and Option Values – Biodiversity at Global, National and Local Levels – India as a Mega-Diversity Nation – Hot-Spots of Biodiversity – Threats to Biodiversity: Habitat Loss, Poaching of Wildlife, Man-Wildlife Conflicts – endangered and Endemic Species of India – Conservation of Biodiversity: In-Situ and Ex-Situ conservation of Biodiversity.

unit iii – enViRonMental Pollution 10

Definition – Causes, Effects and Control Measures of:- (A) Air Pollution (B) Water Pol-lution (C) Soil Pollution (D) Marine Pollution (E) Noise Pollution (F) Thermal Pollution (G) Nuclear Hazards – Solid Waste Management:- Causes, Effects and Control Measures of Urban and Industrial Wastes, hazardous wastes and biomedical wastes – Role of an Individual in Prevention of Pollution – Pollution Case Studies – disaster Management:- Floods, Earthquake, Cyclone and Landslides, Waste water treatment methods, Green chemistry – principles and applications.

UNIT IV – SOCIAL ISSUES AND THE ENVIRONMENT 8

Sustainable Development – Urban Problems Related To energy – Water conservation, Rain Water Harvesting, Watershed Management – Resettlement and Rehabilitation of People, its Problems and Concerns – Environmental Ethics:- Issues and Possible Solu-tions – Climate Change, Global Warming, Acid Rain, Ozone Layer Depletion - Nuclear Accidents and Holocaust, Case Studies – Wasteland Reclamation – Environment Produc-tion Act – Air (Prevention and Control of Pollution) Act – Water (Prevention and Control of Pollution) Act – Wildlife Protection Act – Forest Conservation Act – Issues Involved in enforcement of Environmental Legislation – Public Awareness.

unit V – HuMan PoPulation and tHe enViRonMent 6

Population Growth, Variation Among Nations – Population Explosion – Family Welfare Programme – environment and Human Health – Human Rights – Value Education – HIV /AIDS – Women and Child Welfare – Role of Information Technology in Environment and Human Health – Case Studies.

total : 45 Hours

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text Books

1. Miller, T.G. Jr., “Environmental Science”, Wadsworth Pub. Co.

2. “Environmental Science and Engineering” by Anubha Kaushik and Kaushik, New Age International Publication, 4th Multicolour Edition, New Delhi, 2014.

ReFeRenCe Books

1. S. Radjarejesri et al., “Environmental Science and Engineerig” Sonaversity, Sona College of Technology, Salem, Revised Edition 2018.

2. Masters, G.M., “Introduction to Environmental Engineering and Science”, Pearson Education Pvt., Ltd., 2nd Edition, 2004.

3. Erach, B., “The Biodiversity of India”, Mapin Publishing P.Ltd.,Ahmedabad, India.

4. Erach Bharucha, “Textbook of Environmental Studies for Undergraduate Courses”, 2005, University Grands Commission, Universities Press India Private Limited, Hyderguda, Hyderabad – 500029.

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U15PDS206R - PROGRAMMING AND DATA STRUCTURES

(Circuit branches: CSE, IT, EEE)

Course outcomes

1. select suitable language features to solve and implement real-time problems.

2. write c programs to demonstrate file concepts.

3. design and develop real-time scenario using lists.

4. write c programs to manipulate stack data structure.

5. apply queue data structure for solving problems.

UNIT I – POINTERS AND OTHER FEATURES OF C 9

Pointers – Arrays and Pointers – Pointers and Strings – Pointer and Address Arithmetic – Two dimensional Arrays and Pointers – pointers to Functions – Dynamic memory Al-location – Structures and Unions – Enumeration Types – Bitfields.

UNIT II – FILE MANIPULATIONS 9

File Manipulations- File operations – Open, Read, Write and Close, Binary files and text files, Input and out file redirection – Stdin and Stdout and Command line arguments.

UNIT III – LISTS 9

LISTS – Abstract Data Types (ADT) – List ADT - Array implementation of lists – Linked List And their Operations – Doubly Linked List, Circularly Linked List – Polynomial Manipulation using Linked List.

UNIT IV – STACk 9

STACK ADT – Array and Linked List Implementation of Stack – Stack Operations – Stack Applications: Balancing Symbols, Postfix Expression Evaluation, Infix to Postfix Conversion and Function calls.

UNIT V – QUEUE 9

QUEUE ADT – Array and Linked List Implementation of Queues – Queue Operations – Circular Queues – Double ended Queues – Applications of Queues.

total: 45 Hours

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text Books

1. Brian W. Kernighan and Dennis M. Ritchie, “The C Programming Language”.2nd Edition, Pearson Education, 1988.

ReFeRenCe Books

1. Reema Thareja, “Data Structures Using C”, Oxford University Press, 2nd Edition, 2014.

2. Aho, Hopcroft and Ullman, “Data Structures and Algorithms”, Pearson Education. 1983.

3. Byron S Gottfried, “Programming with C”, Schaum’s Outlines, Second Edition. Tata McGraw-Hill, 2006.

4. Yashavant P.Kanetkar. “Let Us C”, BPB Publications, 14th Edition, 2016.

5. Deitel and Deitel, “C How to Program”, Pearson Education, 8th Edition, 2016.

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U15EGR207R - ENGINEERING GRAPHICS

Course outcomes

at the end of the course, the students will be able to,1. predict the construction of various curves in civil elevation plan and machine components.2. draw the projection of three dimensional objects representation of machine structure and explain standards of orthographic views by different methods.3. analyze the principles of projection of various planes by different angle to project points, lines and planes.4. draw the principles of projection of simple solid by the axis is inclined to one reference plane by change of position method.5. plan the interior components of machinery (or) buildings by sectioning the solid, and to study the development of simple solids for fabrication of sheet metals.

CONCEPTS AND CONVENTIONS (Not for Examination) 2

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) 6

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

UNIT I – PLANE CURVES (Free hand sketching) 10

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 – ISOMETRIC TO ORTHOGRAPHIC VIEWS (Free Hand Sketching) 10

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

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of multiple views from pictorial views of objects.

unit iii – PRoJeCtion oF Points, lines and Plane suRFaCes (Free hand sketching and 2D Software) 10

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 both reference planes.

UNIT IV – PROJECTION OF SOLIDS (Free hand sketching and 2D Software) 12

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 V – seCtion oF solids and deVeloPMent oF suRFaCes (Free hand sketching and 2D Software) 10

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.

total: 60 Hours

text Books

1. Engineering Graphics and Drawing, Sonaversity, Sona College of Technology, Salem, Revised edition, 2012.

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

ReFeRenCe Books

1. Dhananjay A. JoIhe, Engineering Drawing with an introduction to AutoCAD, Tata McGraw Hill Publishing Company Limited, 2008.

2. Basant Agarwal and Agarwal C.M., Engineering Drawing, Tata McGraw Hill Publishing Company Limited, New Delhi.

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

4. Bertoline & Wiebe fundamentals of graphics communication III edition McGrawhill 2002.

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U15PCL208BR - PHYSICS AND CHEMISTRY LABORATORY II

(Common to CSE and IT branches)

Course outcomes

LIST OF EXPERIMENTS (PHYSICS PART)

6. Determination of coefficient of viscosity of the given liquid using Poiseuille’s method.

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LIST OF EXPERIMENTS (CHEMISTRY PART)

3. Determination of fluoride in water.

4. Estimation of iron in water by spectrophotometric method.

5. Estimation of chloride in water by argentometric method.

total: 30 Hours

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U15PDS209R - PROGRAMMING AND DATA STRUCTURES laBoRatoRY(Circuit branches: CSE, IT, EEE)

Course outcomes

2. write programs to handle files.

3. write programs to implement operations and applications of linear data structures.

4. Programs using command line arguments.

5. Singly Linked list and its operations.

6. Circular linked list and its operations.

7. Doubly Linked List and its manipulations.

8. Implement stack and its applications using arrays and linked list.

9. Implement Queues using arrays and linked list

total: 30 Hours

L T P C M0 0 2 1 100

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U15BEEL210R - BASIC ELECTRICAL AND ELECTRONICS LABORATORY

(Common to CSE & IT Branches)

Course outcomes

1. apply the basic circuit laws for calculating various parameters of dc and ac circuits

2. analysis the performance characteristics of electronic devices such as pn diode, zener diode, bjt and op-amp.

3. design the circuit for various applications using electronic devices.

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. VI Characteristics of PN Junction Diode.

6. VI Characteristics of Zener Diode.

7. VI Characteristics of BJT in CB configuration.

8. VI Characteristics of BJT in CE configuration.

9. VI Characteristics of BJT in CC configuration.

10. Characteristics of Operational amplifier as Inverting and Non-Inverting amplifier.

11. Measurement of ripple factor for Half wave and Full wave rectifier circuit.

12. Study of working principle of DC generator.

total: 30 Hours

L T P C M0 0 2 1 100

REGULATIONS 2015R

Syllabus for Second Semester B.E./B.Tech. Programmes

Branch: Electronics and Communication Engineering

SONA COLLEGE OF TECHNOLOGY, SALEM – 636 005 (An Autonomous Institution)

Branch: ECE

S.No. Course Code Course Title L T P C Group code

Theory

2 U15MAT202CR Mathematics – II for ECE 3 2 0 4 BS

3 U15MEC203R Basic Mechanical

Engineering 3 0 0 3 ES

4 U15CHE204BR Environmental Engineering

Science 3 0 0 3 BS

5 U15BEE205R Basic Electrical Engineering 3 0 0 3 ES

Practical

6 U15PCL206CR Physics and Chemistry

Laboratory – II# 0 0 4 2 BS

7 U15EPL207R Engineering Practices

Laboratory 0 0 4 2 ES

8 U15BEL208R Basic Electrical Engineering

Laboratory 0 0 4 2 ES

9 Library 0 0 2 0

10 Seminar 0 0 2 0

Total Credits 22

Optional Language Elective*

0 0 2 1 HS 12 U15OLE1202 German

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

and above the CGPA calculation).

# Laboratory classes on alternate weeks for Physics and Chemistry. The lab examination will be

conducted separately for 50 marks each.

Approved by

HOD - First Year

Dr. M. Renuga

Chairperson BOS/ECE & HOD-ECE

Dr. R.S. Sabeenian

Member Secretary, Academic Council Dr. R. Shivakumar

Chairperson, Academic Council & Principal

Dr. S.R.R. Senthilkumar

U15ENG201AR TECHNICAL ENGLISH – II L T P C M

2 0 2 3 100

COURSE OUTCOMES

At the end of the 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.

UNIT I FOCUS ON LANGUAGE

Cause and effect expressions- Concord- If conditionals- Articles-

Pronouns-Adverbs-Grammatical structures

UNIT II SPEAKING - I

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.

Welcome address- vote of thanks- special address on specific

topics.

UNIT III SPEAKING – II

Mini presentation in small groups of two or three regarding- office

arrangements- facilities- office functions- sales- purchases-

training recruitment- advertising- applying for financial

assistance- applying for a job- team work- discussion-

presentation

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- 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.

UNIT IV WRITING – I

Email, fixing an appointment- Cancelling appointments-

conference details- hotel accommodation- order for equipment-

training programme details- paper submission for seminars and

conferences

Letter Writing- Business communication- quotations- placing

orders- complaints- replies to queries from business customers-

inviting dignitaries- accepting and declining invitations

Resume / CV

Transcoding: Flow Chart- Pie Chart- Graph- Bar Chart- Tabular

Column.

UNIT V WRITING -II

Technical report writing- feasibility reports-accident reports-

survey reports- General purpose writing specifications of

equipment - description of an object- National and International

issues- answering general questions with special emphasis on

seeking opinions

Technical Writing: recommendations- checklists- instructions-

note making and memo

Proposal: establishing a lab- introducing a subject in the

curriculum- training programme for students

Total: 45 Hours

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

with Technical English –II in the End Semester Valuation.

TEXT BOOK

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

Students Book, Cambridge University Press, 2006.

EXTENSIVE READING

1. Who Moved my Cheese? – Spencer Johnson-G. P. Putnam's Sons

2. “Discover the Diamond in You” – Arindam Chaudhuri – Vikas Publishing

House Pvt. Ltd.

REFERENCE BOOKS

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

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

2. Technical English – I & II, Dr. M. Renuga, et al. Sonaversity, Sona College of

Technology, Salem, Revised edition, 2016.

U15MAT202CR MATHEMATICS – II

FOR ECE

L T P C M

3 2 0 4 100

Course Outcomes

1. solve different types of ordinary differential equations using various methods

2. compute vector functions, operators and use different methods of solving line,

surface and volume integrals.

3. describe special features of function of a complex variable, properties and solve

the problems involving conformal mapping.

4. find the power series expansion of a complex function and the procedures of

evaluating the complex integral.

5. solve problems on Laplace transform and its inverse, properties and solve an

ordinary differential equation using Laplace transform.

UNIT I LINEAR DIFFERENTIAL EQUATIONS

Second order differential equation with constant coefficients -

Linear differential equation of second order with variable

coefficients - homogeneous - higher order linear

homogeneous differential equations - non-homogenous

equations - differential equation with variable coefficients -

reducible to equation with constant coefficients - method of

variation of parameters - higher order linear equation with

variable coefficients.

UNIT II VECTOR CALCULUS

Vector differentiation - directional derivative - gradient of

scalar function and conservative field - divergence - curl -

vector integration - integration of a vector function of a scalar

argument.

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 parallelepiped.

UNIT III COMPLEX FUNCTION THEORY

Complex function - continuity - differentiability - analyticity -

Cauchy- Riemann (C-R) equations: in Cartesian coordinates -

harmonic and conjugate harmonic functions - Cauchy-

Riemann equations: in polar coordinates - elementary

functions - conformal mapping: mapping (or transforming or

operator) - conformal mapping - conformal mapping by

elementary functions - transformation: w = zn - Mapping: w =

z2, bilinear transformation.

UNIT IV COMPLEX INTEGRATION

Line integral in complex plane - Cauchy’s integral theorem -

Cauchy’s integral formula - derivative of analytic

functions(statement only) - complex sequences - series and

power series - Taylor’s series, Laurent series (statement only)

- zeros and poles - theory of residues - residue - residue

theorem - evaluation of real definite integrals as contour

integral (unit circle only).

UNIT V LAPLACE TRANSFORM

Laplace transform - application-advantage and sufficient

conditions for existence of Laplace transform - general

properties of Laplace transform - Laplace transform of

periodic function - inverse Laplace transform - general

properties of inverse Laplace transform - use of partial

fractions to find Laplace transform - convolution - application

of Laplace transform to differential equation with constant

coefficient.

Total: 75 Hours

TEXT BOOKS

1. T. Veerarajan, “Engineering Mathematics for semesters I and II”, 3rd Edition,

Tata McGraw Hill Education Pvt. Ltd, New Delhi, 2012.

2. B. V. Ramana, “Higher Engineering Mathematics”, Tata McGraw Hill Co. Ltd.,

New Delhi, 30th Reprint, 2017.

REFERENCE BOOKS

1. G. James, Advanced Modern Engineering Mathematics, 3rd Edition, Pearson

Education 2007.

2. B. S. Grewal, “Higher Engineering Mathematics”, Khanna Publishers, New

Delhi, 43rd Edition, 2014.

3. E. Kreyszig, “Advanced Engineering Mathematics”, International Student

Version, Wiley, 10th Edition, 2015.

U15MEC203R BASIC MECHANICAL

ENGINEERING

L T P C M

3 0 0 3 100

Course Outcomes

1. explain the fundamental principles of thermodynamics, its components and

solve simple problems.

2. describe and explain the principles of thermal power plant, IC engines and

components.

3. analyse the heat transfer modes, mechanisms of heat transfer and principle

of refrigeration.

4. identify engineering materials, their properties, manufacturing methods and

explain the functions and operations of machine tools.

5. explain the mechanism of power transfer through belt, rope, chain and gear

drive.

UNIT I FUNDAMENTALS OF THERMODYNAMICS

Introduction to Thermodynamics – Concept of a System – Types

of Systems – Thermodynamic Equilibrium – Properties - State -

Process and Cycle – Zeroth Law – Energy Interactions – Heat

and Work – Types of Work – Work interactions in a closed

System for various processes – First Law: Cycle and Process –

Specific Heats (Cp and Cv) – Heat Interactions in a Closed System

for Various Processes – Limitations of First Law – Concept of

Heat Engine (H.E.) and Reversed H.E. (Heat Pump and

Refrigerator) – Efficiency/COP – Second Law: Kelvin-Planck

and Clausius Statements – Carnot Cycle – Carnot Efficiency –

Statement of Clausius Inequality – Property of Entropy – T-S

and P-V Diagrams.

UNIT II THERMAL POWER PLANT AND IC ENGINES

Thermal Power Plant Layout – Four Circuits – Rankine Cycle –

Boilers: Fire Tube vs. Water Tube – Babcock & Wilcox –

Cochran Boilers – Steam Turbines : Impulse vs. Reaction

Turbines – Compounding of Turbines: Pressure Compounding –

Velocity Compounding – Pressure Velocity Compounding –

Condensers: Types – Jet & Surface Condensers – Cooling

Towers – Internal Combustion Engines – 2 stroke and 4 Stroke

Engines – S.I. Engine and C.I. Engine: Differences – P-V and T-S

Diagrams.

UNIT III REFRIGERATION SYSTEM AND HEAT TRANSFER

Principle and Working of Standard Vapour Compression

Refrigeration System and Brief description of Refrigerants –

Modes of Heat Transfer – Thermal Resistance Concept –

Conduction: Composite Walls and Cylinders – Combined

Conduction and Convection: Overall Heat Transfer Co-efficient.

UNIT IV MANUFACTURING PROCESSES, MACHINE TOOLS

AND MACHINING PROCESSES

Engineering Materials: Classification – Properties of Materials –

Manufacturing Processes: Metal Casting – Moulding – Patterns –

Metal Working: Hot Working and Cold Working – Metal

Forming: Extrusion – Forging – Rolling – Drawing – Welding:

Welding: Gas Welding and Arc Welding – Soldering – Brazing –

Lathe Machine – Lathe Operations – Milling Machine-Types –

Milling Operations – Shaper and Planer Machines: Differences –

Quick-Return Motion Mechanism – Drilling Machine: Operations

– Grinding Machine: Operations.

UNIT V POWER TRANSMISSION AND AUTOMOTIVE

VEHICLE

Transmission of Mechanical Power: Belt Drives – Simple

Numerical Problems – Gear Drives – Simple Numerical Problems

– Layout of Automobile Transmission – Brakes – Types – Clutch

– Differential.

Total: 45 Hours

TEXT BOOKS

1. Rudramoorthy R, “Thermal Engineering”, Tata McGraw Hill Book

Company, New Delhi, 2003

2. Hazra Chowdary, S.K. and Bose, “Workshop Technology”, Vol. I and II,

Media Promoters and Publishers Pvt. Ltd., 2002

REFERENCE BOOKS

1. P. L. Ballaney, “Thermal Engineering: Engineering Thermodynamics and

Energy Conversion Techniques”, Khanna Publishers, 5th Edition, 2010.

2. Roy, K.P., and Hazra Chowdary, S.K.., “Elements of Mechanical

Engineering”, Media Promoters and Publishers Pvt. Ltd., 2002

3. R S Khurmi, “Theory Of Machines”, S CHAND, 14th Edition, 2005.

4. Kirpal Singh, “Automobile Engineering”, Vol I,II – Standard Publishes

Distributors - Delhi 13th Edition, 2012.

U15BEE205R BASIC ELECTRICAL

ENGINEERING

L T P C M

2 2 0 3 100

Course Outcomes

1. analyze the behavior of circuit elements in electric circuits.

2. explain the principles of operation of magnetics circuits and transformers.

3. analyze the electromagnetic energy conversion and operating principle of three

phase induction motors.

4. analyze the construction and working principles of synchronous machines and

DC machines.

5. explain the principles of operations of single phase induction and stepper motors.

UNIT I Fundamental laws of Electrical Engineering and Circuit

Elements

Electric Current – Coulomb’s Law – Ohm’s Law – Faraday’s

Law of Electromagnetic Induction – Kirchhoff’s Laws – Ideal

Independent Current and Voltage Sources – Reference

Directions and Symbols – Energy and Power – Resistance

Parameter – Inductance Parameter –Capacitance Parameter –

Series and Parallel Combinations of Resistances – Series and

Parallel Combinations of Capacitances – Series and Parallel

Combinations of Inductances –RLC Series-Parallel Circuits–

Resonance – Delta-Star and Star-Delta Transformations.

UNIT II Magnetic Circuits and Transformers

Ampere’s Law – Basic Definition: Flux, Flux Density, Field

Strength, Permeability, Reluctance, Permeance – Theory of

Magnetism –Hysteresis and Eddy-Current Losses - Magnetic

Circuit -Self Inductance, Mutual inductance, Co-efficient of

Coupling- Comparison between Electric and Magnetic

Circuits–Transformers – Theory of Operation and Development

of Phasor Diagrams – Equivalent Circuit–Parameters from No-

Load Tests – Efficiency and Voltage Regulation.

UNIT III Electromagnetic Energy Conversion and Three Phase

Induction motor

Introduction-Basic Analysis of Electromagnetic Torque - Three

Phase Induction Motor – Revolving Magnetic Field –

Construction- Working Principle- Types-Speed-Torque

Characteristic – Starting Torque and Maximum Developed

Torque – Parameters from No Load and Blocked rotor Tests –

Equivalent Circuit – Applications of Three phase Induction

Motors.

UNIT IV Three Phase Synchronous Machines and DC Machines

Generation of a Three Phase Voltage– Synchronous Generator-

construction and working principle-Phasor Diagram and

Equivalent Circuit. DC Machines- DC Generator-construction–

working principle- EMF equation-Types of DC Generator, DC

motor-working principle –Types of DC Motor-Motor Speed

torque Characteristics-starters for DC Motors.

UNIT V Single Phase Induction Motors and stepper Motors

Single Phase Induction Motor-Construction-working principle-

Types: capacitor start induction motor-Capacitor start capacitor

run induction motor-shaded pole induction motor– Applications

– Stepper Motors – Construction- working principle- types:

permanent magnet stepper motor-variable reluctance stepper

motor and hybrid stepper motor-Applications.

Total: 60 Hours

TEXT BOOKS

1. B.L. Theraja and A. K. Theraja, “A Text Book of Electrical Technology”,

S.Chand Publication, Vol 2, 2014.

2. A. Sudhakarand S.P Shyam Mohan, “Circuits, Network Analysis and

Synthesis”, Tata McGraw Hill, Fifth Edition, 2015.

REFERENCE BOOKS

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

Hill, Fourth Edition, 2011.

2. V.K.Metha, RohitMetha, “Principles of Electrical Engineering and

Electronics”, Second edition, S.Chand Publication, 2015.

3. S.K.Bhattacharya “Basic Electrical and Electronics Engineering” Pearson

Education India, 2012.

4. V.N. Mittle and Aravind Mittal “Basic Electrical Engineering”, Tata

McGraw Hill, Second edition, 2005.

U15CHE204BR ENVIRONMENTAL

ENGINEERING SCIENCE

L T P C M

3 0 0 3 100

Course Outcomes

1. explain the eco system components and the various types of biomes.

2. describe the concepts of ecosystem and Biodiversity.

3. describe about natural resources like food, soil, water and minerals.

4. identify the problems in air, Energy, ozone, global warming and can suggest

remedial measures.

5. Analyses the Indian scenario in human population and the environment.

UNIT I HUMANS AND SUSTAINABILITY, ECOLOGY AND

SUSTAINABILITY, ECOSYSTEMS, EVOLUTION,

CLIMATE AND BIODIVERSITY

Living More Sustainability – Population Growth-Economic

Growth-Economic Development – Resources – Environmental

Problems Causes and Connections. The Nature of Ecology – The

Earth Life Support Systems – Ecosystem Components – Energy

Flow in Ecosystems – Matter Cycling in Ecosystems. Origin Of

Life – Evolution and Adaption – Ecological Niches and Adaption

– Speciation – Extinction and Biodiversity. Desert and Grassland

Biomes – Forest and Mountain Biomes – Saltwater Life Zones.

UNIT II COMMUNITY ECOLOGY AND SUSTAINING

BIODIVERSITY

Community Structure and Species Diversity – Types of Species –

Species Interactions – Ecological Succession-Communities in

Transition – Population Dynamics and Carrying Capacity –

Human Impacts on Ecosystems -Learning from Nature. Human

Impacts on Biodiversity – Managing and Sustaining Forests –

Forest Resource and Management – Tropical Deforestation –

National Parks – National Reserves – Ecological Restoration –

Sustaining Aquatic Biodiversity. Introduction to Biodiversity in

India – Understanding Biodiversity – India as a Megadiversity

Nation – Endangered and Endemic Species – Threats to

Biodiversity – Conservation of Biodiversity. The Legal Approach

and The Sanctuary Approach – Reconciliation Ecology.

UNIT III FOOD SOIL AND PEST MANAGEMENT, WATER AND

WATER POLLUTION AND NON-RENEWABLE

MINERALS

Food Production – Nutrition and Environmental Effects –

Increasing Food Production – Protecting Food Resources -Pest

Management – Solution-Sustainable Agriculture - Soil Erosion

and Degradation – Soil Conservation. Water’s Importance-Use

and Renewal – Supplying More Water – Reducing Water

Wastage – Too Much Water – Water Pollution-Types-Effects and

Sources – Pollution of Freshwater Streams –Lakes and Aquifers –

Mineral resources - Environmental Effects of Using Mineral

Resources.

UNIT IV ENERGY, AIR POLLUTION, CLIMATE CHANGE AND

OZONE LOSS, SOLID AND HAZARDOUS WASTE

Evaluating Energy Resources – Non-Renewable Fossil Fuels –

Non-Renewable Nuclear Energy – Improving Energy Efficiency

– Using Renewable Energy to Provide Heat and Electricity –

Geothermal Energy – Hydrogen – A Sustainable Energy Strategy.

Structure and Science of the Atmosphere – Outdoor Air

Pollution – Photochemical and Industrial Smog – Regional

Outdoor Air Pollution from Acid Deposition – Indoor Air

Pollution – Harmful Effects of Air Pollution – Preventing and

Reducing Air Pollution. Past Climate Change and The Natural

Greenhouse Effect – Climate Change and Human Activities –

Factors Affecting the Earth’s Temperature – Possible Effects of a

Warmer World – Dealing With the Threat of Global Warming –

Ozone Depletion in the Stratosphere – Protecting the Ozone

Layer. Wasting Resources – Producing Less Waste – The Eco-

industrial Revolution and Selling Services Instead of Things –

Reuse – Recycling – Burning and Burying Solid Waste.

UNIT V SUSTAINABILITY: THE INDIAN SCENARIO, HUMAN

POPULATION AND THE ENVIRONMENT

Environmental Ethics – The Population Scenario-India and The

World – Variation of Population Among Nations – Population

Control – Environment and Human Health – Human Rights –

Value Education – HIV/AIDS – Woman and Child Welfare.

Total: 45 Hours

TEXT BOOK

1. G .Tyler Miller,Jr.., “Environmental science” , Thomson south-western, 11th

Edition , 2007

REFERENCE BOOKS

1. Mackenzie l. Davis, Susan J.Masten, “Environmental engineering and

science”, Mc-Graw Hill Education (India) Pvt. Ltd., New Delhi, 2013

2. William W Nazarof and Lisa Alvarez-Cohen, “Environmental Engineering

Science”, John wiley, 2014

3. Anubha Kaushik – C.P. Kaushik, “Environmental Science and engineering”,

New age international (p) Ltd. Publishers, 2006

U15BEE205R BASIC ELECTRICAL

ENGINEERING

L T P C Marks

3 0 0 3 100

Course Outcomes

1. analyze the behavior of circuit elements in electric circuits.

2. explain the principles of operation of magnetics circuits and transformers

3. analyze the electromagnetic energy conversion and operating principle of three

phase induction motors.

4. analyze the construction and working principles of synchronous machines and DC

machines.

5. explain the principles of operations of single phase induction and stepper motors.

UNIT I FUNDAMENTAL LAWS OF ELECTRICAL

ENGINEERING AND CIRCUIT ELEMENTS

Electric Current – Coulomb’s Law – Ohm’s Law – Faraday’s

Law of Electromagnetic Induction – Kirchhoff’s Laws – Ideal

Independent Current and Voltage Sources – Reference

Directions and Symbols – Energy and Power – Resistance

Parameter – Inductance Parameter –Capacitance Parameter –

Series and Parallel Combinations of Resistances – Series and

Parallel Combinations of Capacitances – Series and Parallel

Combinations of Inductances –RLC Series-Parallel Circuits–

Resonance – Delta-Star and Star-Delta Transformations.

UNIT II MAGNETIC CIRCUITS AND TRANSFORMERS

Ampere’s Law – Basic Definition: Flux, Flux Density, Field

Strength, Permeability, Reluctance, Permeance – Theory of

Magnetism –Hysteresis and Eddy-Current Losses - Magnetic

Circuit -Self Inductance, Mutual inductance, Co-efficient of

Coupling- Comparison between Electric and Magnetic

Circuits–Transformers – Theory of Operation and Development

of Phasor Diagrams – Equivalent Circuit–Parameters from No-

Load Tests – Efficiency and Voltage Regulation.

UNIT III ELECTROMAGNETIC ENERGY CONVERSION AND

THREE PHASE INDUCTION MOTOR

Introduction-Basic Analysis of Electromagnetic Torque - Three

Phase Induction Motor – Revolving Magnetic Field –

Construction- Working Principle- Types-Speed-Torque

Characteristic – Starting Torque and Maximum Developed

Torque – Parameters from No Load and Blocked rotor Tests –

Equivalent Circuit – Applications of Three phase Induction

Motors.

UNIT IV THREE PHASE SYNCHRONOUS MACHINES AND DC

MACHINES

Generation of a Three Phase Voltage– Synchronous Generator-

construction and working principle-Phasor Diagram and

Equivalent Circuit. DC Machines- DC Generator-construction–

working principle- EMF equation-Types of DC Generator, DC

motor-working principle –Types of DC Motor-Motor Speed

torque Characteristics-starters for DC Motors.

UNIT V SINGLE PHASE INDUCTION MOTORS AND STEPPER

MOTORS

Single Phase Induction Motor-Construction-working principle-

Types: capacitor start induction motor-Capacitor start capacitor

run induction motor-shaded pole induction motor– Applications

– Stepper Motors – Construction- working principle- types:

permanent magnet stepper motor-variable reluctance stepper

motor and hybrid stepper motor-Applications.

Total: 60 Hours

TEXT BOOKS

1. B.L. Theraja and A. K. Theraja, “A Text Book of Electrical Technology”,

S.Chand Publication, Vol 2, 2014.

2. A. Sudhakarand S.P Shyam Mohan, “Circuits, Network Analysis and

Synthesis”, Tata McGraw Hill, Fifth Edition, 2015.

REFERENCE BOOKS

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

Hill, Fourth Edition, 2011.

2. 2 V.K.Metha, RohitMetha, “Principles of Electrical Engineering and

Electronics”, Second edition, S.Chand Publication, 2015.

3. S.K.Bhattacharya “Basic Electrical and Electronics Engineering” Pearson

Education India, 2012.

4. V.N. Mittle and Aravind Mittal “Basic Electrical Engineering”, Tata

McGraw Hill, Second edition, 2005.

U15PCL206CR PHYSICS AND CHEMISTRY

LABORATORY - II

L T P C M

0 0 4 2 100

Course Outcomes

At the end of the course, the student will be able to,

1. apply the principles of optics, electricity and elasticity to determine the

engineering properties of materials.

2. evaluate the amount of iron content in the given sample using spectrophotometry,

analyze the amount of chloride in a domestic water sample and analyse the

quality of brass by estimating copper.

3. determine the resistivity of the given fuse wire used for house hold applications

and determine the dissolved oxygen in two different water samples collected from

the students residential areas.

List of Experiments (PHYSICS PART)

Determination of rigidity modulus of the material using torsion

pendulum.

2. Determination of coefficient of viscosity of the given liquid using

Poiseuille’s method

3. Determination of specific resistance of a given wire using Carey-Fosters

bridge.

4. Determination of Young’s modulus of the material by uniform bending

method.

5. Determination of wavelength of the spectral lines using a spectrometer.

6. Determination of band gap energy of a semiconductor diode

List of Experiments (CHEMISTRY LAB)

Total:60 Hours

U15EPL207R ENGINEERING PRACTICES

LABORATORY

L T P C M

0 0 4 2 100

Course Outcomes

Civil Lab

At the end of experiments, the students will be able to,

1. plan the pipe connections using PVC, G.I pipes

2. analyze the process of wood separation with proper types of joints using

tools and machines

COURSE OUTCOMES

Mechanical Lab

1. Demonstrate the method of material removal from metal components and

assemble the components using sheet metals.

COURSE OUTCOMES

Electrical and Electronics Lab

At the end of experiments, the students will be able to -

1. Measure and draw basic wave forms using function generator & CRO.

2. Make simple electronics circuit using passive components and general

purpose PCB.

3. Connecting electrical devices and verifying their practical application.

List of Experiments:

Civil Lab Plumbing work

1. Basic pipe connections (PVC) involving the fittings like valves, taps, and

bends.

2. Mixed pipe (PVC and G.I) connections involving the fitting like valves,

taps, and bends.

Carpentry work

3. Planning, lap joint and cross lap joint.

Mechanical Lab

Sheet metal work

1. Design of square tray and funnel.

Fitting work

2. L-joint, V-joint

3. Demonstration of welding classes

Electrical and Electronics Lab

1. Study of passive components.

2. Measurement of waveform using CRO.

3. Verification of truth tables of logic gates.

4. Soldering practice using general purpose PCB.

5. Residential house electrical wiring.

1. Stair case wiring 2. Doorbell Wiring

6. Measurement of power factor using fluorescent lamp.

7. Measurement of energy using energy meter for single phase system

resistive load.

U15BEEL208R BASIC ELECTRICAL

ENGINEERING LABORATORY

L T P C M

0 0 4 2 100

Course Outcomes

1. apply basic circuit laws for calculating electric parameters of DC circuits.

2. determine and draw the mechanical, electrical and performance characteristics of

DC Machines.

3. determine the efficiency and regulation of transformer under load and no load

conditions.

List of Experiments:

1. Verification of Kirchhoff’s laws.

2. Verification of mesh analysis.

3. Measurement of RLC series and parallel parameters.

4. Measurement of RLC series and parallel resonance parameters.

5. Open circuit and load characteristics on separately excited DC shunt

generator.

6. Load characteristics on DC shunt motor.

7. Speed control of DC shunt motor.

8. Load test on 3 phase induction motor.

9. Speed control of 3 phase induction motor.

10. Open circuit and short circuit test on single phase transformer.

11. Load test on single phase transformer.

Total: 60 Hours

Regulations 2015R

Branch: electrical and electronics engineering

Branch: eee

theory

1 U15ENG201AR Technical English –II 2 0 2 3 HS2 U15MAT202AR Mathematics – II 3 2 0 4 BS

3 U15PHY203CR Physics For Electrical and Electronics Engineering 3 0 0 3 BS

4 U15CHE205BR Chemistry For Electrical and Electronics Engineering 3 0 0 3 BS

5 U15PDS206R Programming and Data Structures1 3 0 0 3 ES

6 U15ECT207R Electric Circuit Theory 2 2 0 3 ES

Practical

7 U15PCL208AR Physics and Chemistry Laboratory – II2 0 0 2 1 BS

8 U15PDS209R Programming and Data Structures Laboratory 0 0 2 1 ES

9 U15ECL210R Electric Circuits Laboratory 0 0 2 1 EStotal Credits 22

*Students may opt for foreign languages viz., German/French/Japanese with additional one credit (over and above the CGPA calculation).1 Common to CSE, IT, EEE branches2 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 Bos/EEE & HOD-EEE

Dr. S. Padma

- 27 -

Course outcomes

unit iii – sPeaking – ii• Mini presentation in small groups of two or three regarding, office arrangements, facilities, office functions, sales, purchases, training recruitment, advertising, applying for financial assistance, applying for a job, team work, discussion, presentation• Situational role play between examiner and candidate, teacher and student, customer and sales manager, hotel manager and organiser, team leader and

L T P C M2 0 2 3 100

- 28 -

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, 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.

unit iV –WRiting – i• Email, fixing an appointment, Cancelling appointments, conference details, hotel accommodation, order for equipment, training programme details, paper submission for seminars and conferences• Letter Writing, Business communication, quotations, placing orders, complaints, replies to queries from business customers, inviting dignitaries, accepting and declining invitations• Resume / CV• Transcoding: Flow Chart, Pie Chart, Graph, Bar Chart, Tabular Column.

UNIT V – WRITING -II• Technical report writing, feasibility reports, accident reports, survey reports• General purpose writing specifications of equipment, description of an object, National and International issues, answering general questions with special emphasis on seeking opinions• Technical Writing: recommendations, checklists, instructions, note making and memo• Proposal: establishing a lab, introducing a subject in the curriculum, training programme for students

total: 45 Hours

- 29 -

textBook

- 30 -

U15MAT202AR - MATHEMATICS – II

Course outcomes

5. define Laplace transform, its inverse, properties and solve an ordinary differential equation using Laplace transform.

L T P C M3 2 0 4 100

- 31 -

total: 75 Hours

text Books

ReFeRenCe Books

- 32 -

U15PHY203CR - PHYSICS FOR ELECTRICAL AND ELECTRONICS engineeRing

Course outcomes

1. calculate electrical and thermal conductivity of conducting materials.

2. classify semiconductors and analyze the variation of Fermi level with temperature and determine the nature of charge carriers.

3. explain the basics of electron devices and their applications.

4. compare the different types of magnetic materials and their applications in data storage devices.

5. analyze various polarization mechanisms and the causes of breakdown in dielectric materials.

UNIT I – CONDUCTING MATERIALS 9

Conductors – classical free electron theory of metals – Electrical and thermal conductivity – Wiedemann – Franz law – Lorentz number – Draw backs of classical theory – Quantum theory –band theory of solids ( qualitative treatment only) - Fermi distribution function – Effect of temperature on Fermi Function – Density of energy states – carrier concentration in metals – conducting materials in thermal relay and themostats

Atomic structure - Energy band diagram - Types of semiconductor - Electron mobility –Conductivity - Drift current - Diffusion current – Compound semiconductors - Carrier concentration in intrinsic semiconductors - Fermi level – Variation of Fermi level with temperature – Electrical conductivity – Band gap determination – Extrinsic semiconductors – N type semiconductor, P type semiconductor - Carrier concentration in N-type and P-type semiconductors (Qualitative Treatment only) – Variation of Fermi level with temperature and impurity concentration –– Hall effect – Determination of Hall coefficient – Hall effect applications.

UNIT III – ELECTRON DEVICES 9

Theory of PN junction, PN junction Diode – V- I Characteristics of PN junction diode

L T P C M3 0 0 3 100

- 33 -

- Application of PN junction Diode - Zener Diode, V-I Characteristics of Zener diode-Application of Zener diode – Voltage Regulators.

Transistor Construction - Detailed study of current in transistor - CB, CC and CE Configurations – Input - Output Characteristics – Switching characteristics of Transistor - Transistor as an amplifier

UNIT IV – MAGNETIC PROPERTIES OF MATERIALS 9

Introduction – Magnetism - Origin of magnetic moment – Bohr magneton – Dia, para and Ferromagnetic materials – Domain theory – origin of domains - Hysteresis – Soft and hard magnetic materials – Ferrites – properties and applications - Simple and Composite Magnetic circuits – concepts of leakage flux – fringing effect – comparison of electric and magnetic circuit.

UNIT V – DIELECTRIC MATERIALS 9

Electrical susceptibility – Dielectric constant – Electronic, ionic, orientation and space charge polarization – Frequency and temperature dependence of polarization – Internal field – Clausius – Mosotti relation (derivation) – Physical significance of Maxwell’s equations - Dielectric loss – Dielectric breakdown – Uses of dielectric materials in capacitor and transformer.

total: 45 Hours

text Books

1. B. K. Pandey and S. Chaturvedi, Engineering Physics, Cengage Learning India Pvt. Ltd., Delhi, 2012.

ReFeRenCe Books

1. C. Shanthi et al., ‘Physics for Electrical and Electronics Engineering’, Sonaversity, Sona College of Technology, Salem (Revised edition, 2015).

2. V. Rajendran, and A. Marikani, ‘Materials science’ TMH Publications, New Delhi, 2004.

3 P.K Palanisamy, ‘Materials science’, Scitech Publications (India) Pvt. Ltd., Chennai, Second Edition, 2007.

4 Charles P. Poole and Frank J. Ownen, ’Introduction to Nanotechnology’, Wiley India, 2007 (Unit V).

- 34 -

U15CHE205BR - CHEMISTRY FOR ELECTRICAL AND ELECTRONICS engineeRing

Course outcomes

• analyze the types of polymers, polymerization reactions, polymerization techniques and fabrication methods of polymers for engineering applications.

• describe the construction, working principle and applications of energy storage devices for electronic appliances.

• discuss the principles, advantages and applications of organic electronic materials in electronic devices.

• explain the electrochemical processes carried out in electronic industries.

• outline the principles and applications of photochemistry and spectroscopy.

UNIT I – POLYMERS AND COMPOSITES 9

Nomenclature of Polymers – Functionality – Types of Polymerization-Addition-Conden-sation and Copolymerization – Classification of Polymers – Free Radical Mechanism of Addition Polymerization – Properties of Polymers – Glass transition temperature – tac-ticity - Methods of Polymerization-Bulk-Solution-Emulsion and Suspension – Plastics – Moulding Constituents of Plastic – Moulding of Plastics into Articles-Injection-Com-pression and Blow Moulding – Thermoplastic and Thermosetting Resins – Engineering Plastics-Nylon 6,6-Polycarbonate and Polyurethane-Preparation-Properties and Applica-tions – Rubbers-Types-Applications-Vulcanization of Rubber – Composites - Constitu-ents of Composites – Types of FRP Composites.

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 Cells – Nano Batteries- Construction-Working-Advantages and Applications.

L T P C M3 0 0 3 100

- 35 -

unit iii – CHeMistRY oF oRganiC eleCtRoniC MateRials 10

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– 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 efficien-cy - 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 applications - Chemical sensors - optical and heat sensors – definitions and applications, Applications of Chemistry in electrical and electronics engineering.

UNIT V – PHOTOCHEMISTRY AND SPECTROSCOPY 9

Photochemistry: Laws of photochemistry - Grotthuss–Draper law, Stark–Einstein law and Lambert- Beer Law. Quantum efficiency – determination- Photo processes - Fluo-rescence, Phosphorescence, Chemiluminescence and Photo-sensitization. Spectroscopy: Electromagnetic spectrum - Absorption of radiation – Electronic, Vibrational and rota-tional transitions. UV-Visible and IR spectroscopy – principles, instrumentation (Block diagram only) and applications.

total : 45 Hours

text Books

2. Douglas A Skoog, Donald M West, James Holler F Stanley, R Crouch, “ Fundamentals of Analytical Chemistry”, Thomson learning, 2006.

- 36 -

ReFeRenCe Books

1. N. Panneer Selvam et al., “Chemistry For Electrical and Electronics Engineering” Sonaversity, Sona College of Technology, Salem, Revised Edition 2018.

2. Gowariker V.R., Viswanathan N.V. and Jayadev Sreedhar, “Polymer Science”, New Age International P (Ltd.,), Chennai, 2006.

3. Electroplating, “Anodizing and Metal treatment”, Hand book, NIIR board, 2004.

4. Hagen Klauk, “Organic Electronics: Materials, Manufacturing and Applications”, Wiley-VCH, 2006.

- 37 -

Course outcomes

UNIT II – FILE MANIPULATIONS 9

UNIT IV – STACk 9

UNIT VQUEUE 9

total: 45 Hours

L T P C M3 0 0 3 100

- 38 -

text Books

ReFeRenCe Books

2. Aho, Hopcroft and Ullman,”Data Structures and Algorithms”, Pearson Education. 1983.

3. Byron S Gottfried, “Programming with C”, Schaum’s Outlines, Second Edition. Tata McGraw-Hill, 2006.

4. Yashavant P.Kanetkar. “Let Us C”,BPB Publications, 14th Edition, 2016.

- 39 -

U15ECT207R - ELECTRIC CIRCUIT THEORY

Course outcomes

1. calculate the circuit parameters using kirchoff’s law and ohm’s law and find the equivalent resistance by series, parallel reduction concept.

2. analyze the complex circuits using mesh and nodal analysis.

3. solve the complex circuits using various network theorems.

4. calculate the circuit parameters of complex ac circuits.

5. solve problems on three phase balanced and unbalanced loads.

unit i – dC FundaMentals 12

Electrical Components – Resistance, Conductance – factors affecting resistance – effect of temperature on resistance, Ohm’s Law and its limitations, Kirchhoff’s’ Laws (statement only), series – parallel resistive circuits, comparison of series and parallel circuits, Star - Delta Transformation – Problems.

unit ii – analYsis oF eleCtRiC CiRCuits 12

Network Reduction: Voltage and Current Division, Source Transformation, Mesh current and Nodal Voltage Method of Analysis for D.C Circuits – Problems.

unit iii – netWoRk tHeoReMs FoR d.C. CiRCuits 12

Superposition Theorem - Thevenin’s and Norton’s Theorem –– Maximum Power Transfer Theorem – Reciprocity Theorem – Problems.

unit iV – aC FundaMentals 12

AC Waveforms - Standard Terminologies – Inductor, Capacitor. Sinusoidal, Triangular and Square wave forms, Effective value or RMS Value – Average value – Form Factor, Peak Factor, Single Phase AC Circuits – RL, RC, RLC series and parallel circuits –Resonance , Power, Power factor, Impedance series and parallel circuits - Problems.

L T P C M2 2 0 3 100

- 40 -

unit V – analYsis oF tHRee PHase CiRCuits 12

Three Phase 3 – wire and 4 – wire circuits with Star and Delta Connected loads, Balanced & Unbalanced – Phasor diagram of Voltages and Currents – Power and Power factor measurements in Three Phase Circuits –Problems

total: 60 Hours

text Books

1. William HB. Hayt Jr, Jack E. Kemmerly and Steven M. Durbin, “Engineering circuits Analysis”, TMH publishers, 6th edition, New Delhi, (2002).

2. Sudhakar A and Shyam Mohan SP, Circuits and Network Analysis and Synthesis”, Tata Mc Graw Hill, Fifth Edition, 2015.

ReFeRenCe Books

1. Paranjothi SR, “Electric Circuits Analysis”, New Age International Ltd., New Delhi, (1996).

2. Joseph A. Edminister, Mahmood Nahri, “Electric circuits”, Schaum’s Series, Tata Mc Graw – Hill, New Delhi (2001).

3. Chakrabarti A, “Circuits Theory (Analysis and synthesis), Dhanpath Rai & Sons, New Delhi, (1999).

4. Charles K. Alexander, Mathew N.O. Sadik, “Fundamentals of Electric Circuits” 2002

- 41 -

Course outcomes

L T P C M0 0 2 1 100

- 42 -

total: 30 Hours

- 43 -

L T P C M0 0 2 1 100

U15PDS209R - PROGRAMMING AND DATA STRUCTURES laBoRatoRY

Course outcomes

total: 30 Hours

- 44 -

U15ECL210R - ELECTRIC CIRCUITS LABORATORY

Course outcomes

1. apply various circuit laws and theorems to solve complex ac and dc networks.

2. analyse the rlc circuits and to calculate the circuit parameters.

3. solve the complex electrical circuits with help of modern simulation tools.

list oF exPeRiMents

1. Verification of Ohm’s Law and Kirchhoff’s Law.

2. Verification of Mesh and Nodal Analysis.

3. Verification of Superposition Theorem.

4. Verification of Thevenin’s Theorem.

5. Verification of Norton Theorem.

6. Verification of Maximum Power Transfer Theorem.

7. Verification of Reciprocity Theorem.

8. Measurement of Power and Power Factor for RLC Series circuit.

9. Measurement of Power and Power Factor for RLC Parallel circuit.

10. Frequency response of RLC Series Resonance circuits.

11. Frequency Response of RLC Parallel Resonance circuits.

12. Measurement of Power and Power Factor using Two Wattmeter Method.

13. Study of simulation tools to solve basic electric circuits

total: 30 Hours

L T P C M0 0 2 1 100

Regulations 2015R

Branch: FasHion teCHnologY

Branch: Ft

s.no. Course Code Course title l t P Cgroup

codetheory

2 U15MAT202AR Mathematics – II 3 2 0 4 BS3 U15PHY203ER Applied Physics 3 0 0 3 BS

4 U15CHE205DR Chemistry For Textile Technology 3 0 0 3 BS

5 U15PSC206R Problem Solving in C# 3 0 0 3 ES

6 U15FTY207R Fibre Science and Technology 3 0 0 3 ES

Practical

7 U15PCL208AR Physics and Chemistry Laboratory – II$ 0 0 2 1 BS

8 U15PSL209R Problem Solving in C Laboratory# 0 0 2 1 ES9 U15FTL210R Fibre Analytical Laboratory 0 0 4 2 ES

total Credits 23

*Students may opt for foreign languages viz., German/French/Japanese with additional one credit (over and above the CGPA calculation).# Common to CIVIL & FT$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

HOD-First Year

Dr. M. Renuga

Chairperson Bos/Ft & HOD-Fashion Technology

Dr. G. Gunasekaran

- 27 -

U15ENG201AR - teCHniCal englisH ii

Course outcomes

unit iii – sPeaking – ii• Mini presentation in small groups of two or three regarding, office arrangements, facilities, office functions, sales, purchases, training recruitment, advertising, applying for financial assistance, applying for a job, team work, discussion, presentation.

L T P C M2 0 2 3 100

- 28 -

unit iV – WRiting – i• Email, fixing an appointment, Cancelling appointments, conference details, hotel accommodation, order for equipment, training programme details, paper submission for seminars and conferences.• Letter Writing, Business communication, quotations, placing orders, complaints, replies to queries from business customers, inviting dignitaries, accepting and declining invitations.• Resume / CV.• Transcoding: Flow Chart, Pie Chart, Graph, Bar Chart, Tabular Column.

unit V – WRITING -II• Technical report writing, feasibility reports, accident reports, survey reports.• General purpose writing specifications of equipment, description of an object, National and International issues, answering general questions with special emphasis on seeking opinions.• Technical Writing: recommendations, checklists, instructions, note making and memo.• Proposal: establishing a lab, introducing a subject in the curriculum, training programme for students.

total: 45 Hours

- 29 -

textBook

extensiVe Reading1. Who Moved my Cheese? – Spencer Johnson-G. P. Putnam’s Sons2. “Discover the Diamond in You” – Arindam Chaudhuri – Vikas Publishing House Pvt. Ltd.

- 30 -

Course outcomes

5. define laplace transform, its inverse, properties and solve an ordinary differential equation using laplace transform.

unit – i oRdinaRY diFFeRential equations 9+6

unit – ii VeCtoR CalCulus 9+6

unit – iii analYtiC FunCtions 9+6

L T P C M3 2 0 4 100

- 31 -

unit – iV CoMPlex integRation 9+6

Statement of Cauchy’s integral theorem and Cauchy’s integral formula, simple applications , Taylor’s and Laurent’s expansions, singular points, residues, statement of Cauchy’s residue theorem, evaluation of contour integration over unit circle and semi circle (excluding poles on real axis).

unit – V laPlaCe tRansFoRM 9+6

total: 75 Hours

text Books

ReFeRenCe Books

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U15PHY203ER - APPLIED PHYSICS

Course outcomes

1. examine the elastic, inelastic and visco-elastic behaviour of materials.

3. compare the types of magnetic materials and explain the applications of superconducting materials.

4. analyze various polarization mechanisms and the causes of breakdown in dielectric materials.

5. recognize the novel properties of phase change materials and nanomaterials.

unit i – elastiC PRoPeRties oF MateRials 9

Elasticity - Poisson’s ratio and relation between moduli (qualitative) - Stress-strain diagram- Factors affecting elasticity - Bending of beams -Expression for bending moment Measurement of Young’s modulus by uniform bending method - Torsion pendulum - Determination of rigidity modulus of a wire.

elastic, inelastic and Viscoelastic behavior

Elastic behavior- idea of atomic model, idea of modulus as a parameter of design, rubber like elasticity, Inelastic behaviour-relaxation process, visco-elastic behaviour- introduction to spring dashpot model.

UNIT II – CONDUCTING MATERIALS 9

Conductors – Classical free electron theory of metals – Electrical and thermal conductivity – Wiedemann – Franz law – Lorentz number – Draw backs of classical theory – Quantum theory –band theory of solids ( qualitative treatment only) - Fermi distribution function – Effect of temperature on Fermi Function – Density of energy states – Carrier concentration in metals – Electrically conductive textiles.

UNIT III – MAGNETIC AND SUPERCONDUCTING MATERIALS 9

Origin of magnetic moment – Bohr magneton – Dia and para and ferromagnetic materials – Domain theory – Hysteresis – Soft and hard magnetic materials – Ferrites – applications – Magnetic hard disc.

L T P C M3 0 0 3 100

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Superconductivity - Properties - Types of super conductor – BCS theory of superconductivity(Qualitative) - High Tc superconductors – Applications of superconductors : SQUID, cryotron, magnetic levitation in trains.

UNIT IV – DIELECTRIC MATERIALS 9

Electrical susceptibility – Dielectric constant – Electronic, ionic, orientation and space charge polarization – Frequency and temperature dependence of polarization – Internal field – Clausius – Mosotti relation (derivation) – Physical significance of Maxwell’s equations- Dielectric loss – Dielectric breakdown – Uses of dielectric materials (capacitor and transformer).

UNIT V – NEW ENGINEERING MATERIALS 9

Phase change materials - Basic information of phase change materials - Phase change technology-PCM in textiles.

Shape memory polymers (SMPs) – Introduction and applications.

total: 45 Hours

text Books

1. B.K. Pandey and S. Chaturvedi, Engineering Physics, Cengage Learning India Pvt. Ltd., Delhi, 2012.

ReFeRenCe Books1. C. Shanthi et al., Applied Physics, Sonaversity, Sona College of Technology,

Salem (Revised edition, 2017).2. N. Subramaniam, Brijlal, ‘ Properties of Matter’, S. Chand Group, New Delhi,

2007 (Unit I).3. V. Rajendran and A. Marikani, ‘Materials science’ TMH Publications, New Delhi,

2004.4. S. Jayakumar, ‘Materials science’, R.K. Publishers, Coimbatore, 2008.

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U15CHE205DR - CHEMISTRY FOR TEXTILE TECHNOLOGY

Course outcomes

• analyze the types of polymers, polymerization reactions, polymerization techniques and fabrication methods of polymers for engineering applications.

• outline the basic concepts of chemical bonding.

• describe the instrumental methods of analysis and their importance.

• discuss the role and applications of organic compounds in textile industry.

• discuss the role and applications of inorganic compounds in textile industry.

UNIT I – POLYMERS AND COMPOSITES 9

Nomenclature of Polymers – Functionality – Types of Polymerization-Addition-Conden-sation and Copolymerization – Classification of Polymers – Free Radical Mechanism of Addition Polymerization – Properties of Polymers – Glass transition temperature – tac-ticity - Methods of Polymerization-Bulk-Solution-Emulsion and Suspension – Plastics – Moulding Constituents of Plastic – Moulding of Plastics into Articles-Injection-Com-pression and Blow Moulding – Thermoplastic and Thermosetting Resins – Engineering Plastics-Nylon 6,6-Polycarbonate and Polyurethane-Preparation-Properties and Applica-tions - Rubbers-Types-Applications-Vulcanization of Rubber.– Composites-Constitu-ents of Composites – Types of FRP Composites.

UNIT II – CHEMICAL BONDING 9

Types of bond – van der waals (or) intermolecular forces – types – hydrogen bond – types, Valence Bond Theory (VBT) – VSEPR Theory - Molecular Orbital Theroy – Linear Combination of Atomic Orbitals (LCAO method)- energy level diagram of molecular orbitals (nitrogen and oxygen only) – coordinate bond – metallic bond.

UNIT III – INSTRUMENTAL METHODS OF ANALYSIS 9

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

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applications of Thermogravimetry (TGA), Differential thermal analysis (DTA) and Differential Scanning Calorimetry (DSC).

UNIT IV – ORGANIC COMPOUNDS FOR TEXTILE INDUSTRY 9

Cellulose – structure of cellulose – derivatives of cellulose – carboxy methyl cellulose and Gun cotton – structural aspects of cellulose –waxes - classification of waxes - Or-ganic dyes – introduction – colour and chemical constitution – classification of dyes by structure – examples only– classification of dyes by methods of application – direct dyes – vat dyes – mordant dyes - azoic dyes – disperse dyes – reactive dyes – examples only - chemistry of reactive dyes – toxic dyes in wet processing.

UNIT V – INORGANIC COMPOUNDS FOR TEXTILE INDUSTRY 9

Zeolites – types – applications – ion exchange properties of pigments – white pigments- titanium dioxide – lithophone – zinc oxide – coloured pigments - iron oxide – ultrama-rine – bleaching agents – Oxidising bleaching agents, calcium hypochlorite, hydrogen peroxide, Reducing bleaching agents- sulphur dioxide and sodium hyposulphite, Appli-cations of Chemistry in textile technology.

total : 45 Hours

text Books

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ReFeRenCe Books

1. G.Shanthi et al., “Chemistry For Textile Technology” by Sonaversity, Sona Col-lege of Technology, Salem, Revised Edition 2018.

3. Gurdeep R. Chatwal, “Synthetic Organic Chemistry”, Himalaya Publishing House, Mumbai, 1994.

4. Dr. C.V. Koushik and Antao Irwin Josico, “Chemical Processing of Textiles – Pre-paratory Processes and Dyeing”, NCUTE Publication, New Delhi – 110 016.

5. ARUN BAHL and BAHL,”A Text Book of Organic Chemistry”, S. CHAND & Company Ltd., New Delhi, 2003.

6. B.K. Sharma, “Industrial Chemistry”, Krishna Prakasan Media (P) Ltd., Meerut.

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U15PSC206R - PROBLEM SOLVING IN C(Non Circuit branches: Mech, FT, Civil)

Course outcomes

2. design and develop interactive real-time applications using files.

3. write programs using preprocessor directives and apply the concept of dynamic memory allocation.

4. write programs for several sorting and searching methods.

UNIT I – C PROGRAMMING FUNDAMENTALS- A REVIEW 9

Conditional statements – Control statements – Functions – Arrays – Pointers - Variation in pointer declarations – Function Pointers – Function with Variable number of arguments – Structures and Unions

UNIT II – FILE HANDLING 9

File handling concepts – File read – write – binary and Stdio - File Manipulations Command line arguments

UNIT III – PREPROCESSOR AND DYNAMIC MEMORY ALLOCATION 9

Preprocessor: Macro Substitution, File Inclusion, Compiler Control Directives – Dynamic Memory Allocation: Library Functions for Dynamic Memory Allocation.

UNIT IV – SORTING AND SEARCHING TECHNIQUES 8

Sorting algorithms: Insertion Sort - Selection Sort - Bubble Sort - Merge Sort – Quick Sort- Shell Sort – Bucket Sort - Searching: Linear Search and Binary Search.

L T P C M3 0 0 3 100

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unit V – C gRaPHiCs BasiCs 10

Introduction, initializing the graphics, C Graphics functions, programs, Simple 2D Graphics: Text, Lines, Arc, Ellipse, Polygon and Rectangle.

total: 45 Hours

text Book

1. K R Venugopal, S R Prasad “Mastering C” Tata McGraw-Hill Education Pvt Ltd, 2012.

ReFeRenCe Books

1. Brian W. Kernighan and Dennis M. Ritchie, “The C Programming Language”, 2nd Edition, Pearson Education, 1988.

2. E Balagurusamy “Programming in ANSI C” Sixth Edition Tata McGraw-Hill Education Pvt Ltd, 2012.

4. Byron S Gottfried, “Programming with C”, Schaum’’s Outlines, Second Edition, Tata McGraw-Hill, 2006.

5. Yashavant P. Kanetkar. “Let Us C”, 14th edition, BPB Publications, 2016.

6. Deitel and Deitel, “C How to Program”, 6th edition, Pearson Education, New Delhi, 2011.

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L T P C M3 0 0 3 100

U15FTY207R - FiBRe sCienCe and teCHnologY

Course outcomes

at the end of the study of this course, the students will be able to,

1. classify textile fibres, define fundamental textile terms and briefly explain concepts related to fibre structure and properties.

2. explain the production of major natural fibres and state their properties and uses.

3. describe the common man-made spinning techniques and explain the production, properties and uses of major natural-polymer fibres.

4. outline the production sequence, properties and uses of typical synthetic and specialty fibres.

5. describe the identification methods of common fibres and explain the common linear density systems for man-made fibres.

unit i – geneRal intRoduCtion 9

definitions: Fibre: 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 fabrics.

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

Basic concepts of fibre structure: Definition of orientation, Schematic representations of fibre structure and Properties of poorly-oriented, Moderately-oriented and highly-oriented fibres; definition of crystallinity, Schematic representation of fibre with crystalline and amorphous contents, crystallinity 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 and Moisture regain, Crimp, Fibre uniformity, Lustre, Fibre modulus, Tm and Tg; Essential and desirable properties of a textile fibre; Examples of typical physical, chemical, biological and thermal attributes of textile fibres

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Moisture terms: Definitions of absolute humidity, Relative humidity; Standard moisture regain of common fibres.

unit ii – natuRal FiBRes 9

Cellulosic fibres

Cotton: Introduction, Properties and uses; Brief study of organic cotton, BT cotton and naturally coloured cotton.

Flax: Introduction, Properties and Uses.

Protein fibres

silk: Types; Production processes: reeling, throwing, degumming, weighting; silk mark; Properties and uses.

Wool: Classification of wool, grading of wool, production processes, wool mark, Properties and uses.

UNIT III – MAN MADE REGENERATED FIBRES 9

Introduction to man-made fibre spinning

Production sequence, properties and uses of natural-polymer fibres: Viscose rayon, Modal, Lyocell, Bamboo and Acetate.

UNIT IV – SYNTHETIC FIBRES 9

Production sequence, properties and uses of synthetic-polymer fibres: Polyester, Nylon, Acrylic and Polypropylene;

speciality fibres: Properties and end uses of Elastomeric fibre, Nomex and Kevlar.

UNIT V – LINEAR DENSITY AND IDENTIFICATION OF FIBRES 9

linear density: Definition, Denier and Tex systems, Decitex, Millitex, Kilotex and English cotton count; Conversion formulae and simple calculations of linear density.

Microfibres: Definition, Advantages and Uses.

identification of textile fibres: Microscopic test, burning test, solubility test and density test.

total: 45 Hours

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text Books

1. Srinivasamoorthy H. V., “Introduction to Textile Fibres”, The Textile Association India, Mumbai, 1993

2. Mishra S.P., “Fibre Science and Technology”, New Age International Publishers, New Delhi, 2000

ReFeRenCe Books

1. Bernard P. Corbman, “Textiles: Fibre to Fabric”, McGraw Hill International Edition, New Delhi, 1983

2. Mukhopadhyay S.K., “Advances in Fibre Science”, The Textile Institute, UK, 1992

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, 2000

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Course outcomes

LIST OF EXPERIMENTS (PHYSICS PART)

6. Determination of coefficient of viscosity of the given liquid using Poiseuille’s method.

L T P C M0 0 2 1 100

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LIST OF EXPERIMENTS (CHEMISTRY PART)

total: 30 Hours

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U15PSL209R - PROBLEM SOLVING IN C LABORATORY(Non Circuit Branches : Mech, FT & Civil)

Course outcomes

2. write programs for sorting list of items and searching an item in a given list.

4. Command Line Arguments in C.

5. Sorting algorithms - Bubble Sort, Insertion Sort, Selection Sort, Merge Sort and Quick Sort.

6. Linear Search and Binary Search algorithms.

7. Graphics primitives - Line, Arc, Ellipse, Polygon, Rectangle.

total: 30 Hours

L T P C M0 0 2 1 100

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U15FTL210R - FiBRe analYtiCal laBoRatoRY

Course outcomes:

1. identify the common textile fibres and determine the blend proportions of binary blends.

2. determine the physical properties, like fibre length, fineness, moisture regain, density of given fibres.

3. examine and discuss the swelling behaviour of cotton and viscose rayon fibres in water and alkaline solution.

4. estimate the spin finish content in synthetic fibres or wax content in cotton.

list oF exPeRiMents

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

2. Identification of fibres by microscopy: cross-sectional view 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 mixtures

7. Determination of blend proportion in blended yarn / fabric

8. Examination of the diametric swelling behaviour of cotton and viscose rayon fibres in water and alkali solution

9. Determination of the atmospheric conditions in the lab and the amount of moisture in given samples of conditioned and unconditioned fibre

10. Estimation of the crimp of man-made staple fibre and the denier by length and mass measurements

L T P C M0 0 4 2 50

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deMonstRation exPeRiMents

1. Estimation of spin-finish content in man-made fibre or wax content in cotton by using Soxhlet extraction

2. Floatation principle to identify textile fibres by their density

total: 45 Hours

List of equipment required for a batch of 30- students for U.G

s. no. name of the equipment / software quantity Required

1. Simple and Projection Microscope 3

2. Electronic Balance (1 mg. accuracy) 1

3. Hot-Air Oven 1

4. Soxhlet Apparatus 2

total 7

Regulations 2015R

Branch: information technology

Courses of Study for BE / B Tech Semester II under Regulations 2015R (CBCS)Branch: it

theory

2 U15MAT202AR Mathematics – II 3 2 0 4 BS3 U15PHY203BR Physics of Materials # 3 0 0 3 BS

4 U15CHE204AR Environmental Science and Engineering$ 3 0 0 3 BS

5 U15PDS206R Programming and Data Structures 3 0 0 3 ES

6 U15EGR207R Engineering Graphics1 2 2 0 3 ES

Practical

7 U15PCL208BR Physics and Chemistry Laboratory – II2 0 0 2 1 BS

8 U15PDS209R Programming and Data Structures Laboratory 0 0 2 1 ES

9 U15BEEL210R Basic Electrical and Electronics Engineering Laboratory 0 0 2 1 ES

total Credits 22

*Students may opt for foreign languages viz., German/French/Japanese with additional one credit (over and above the CGPA calculation).# Common to CSE & IT branches$ Common to CSE & IT branches.1 The examination will be conducted for 3 hours both through written and practical mode.2 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

Chairman Bos/it & HOD-IT

Dr. J. Akilandeswari

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Course outcomes

L T P C M2 0 2 3 100

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total: 45 Hours

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text Book

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Course outcomes

L T P C M3 2 0 4 100

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total: 75 Hours

text Books

ReFeRenCe Books

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U15PHY203BR - PHYSICS OF MATERIALS

(Common to CSE and IT)

Course outcomesat the end of the course, the students will be able to,

1. calculate electrical and thermal conductivity of conducting materials.2. classify semiconductors and analyze the variation of Fermi level with temperature

and examine the nature of charge carriers.3. compare the types of magnetic materials and explain their applications in data

storage devices. 4. illustrate the optical data storage techniques and different display devices.5. describe the significance of nano scale and their applications in the field of

quantum computing.

UNIT I – ELECTRICAL PROPERTIES OF MATERIALS 9

Conductors – Classical free electron theory of metals – Electrical and thermal conductivity – Wiedemann – Franz law – Lorentz number – Draw backs of classical theory – Quantum theory –band theory of solids ( qualitative treatment only) - Fermi distribution function – Effect of temperature on Fermi Function – Density of energy states – Carrier concentration in metals.

Intrinsic semiconductors – Energy band diagram – direct and indirect band gap semiconductors -Carrier concentration in intrinsic semiconductors - Fermi level – Variation of Fermi level with temperature – Electrical conductivity – Band gap determination– Extrinsic semiconductors – Carrier concentration in N-type and P-type semiconductors (Qualitative Treatment only) – Variation of Fermi level with temperature and impurity concentration – Compound semiconductors – Hall effect –Determination of Hall coefficient – Hall effect applications – Ohmic contacts – Schottky diode.

UNIT III – MAGNETIC PROPERTIES OF MATERIALS 9

Classification of magnetic materials – Quantum numbers – Magnetic moment – Classical theory of diamagnetism (Langevin theory) – Theory of paramagnetism – Ferromagnetism (Weiss theory) – Anti ferromagnetic materials – Ferrites – Hard and soft magnetic

L T P C M3 0 0 3 100

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materials – Magnetic recording materials – Bubble memory – Magnetic principle in computer data storage – Magnetic tape – Floppy disc – Magnetic hard disc.

UNIT IV – OPTICAL PROPERTIES OF MATERIALS 9

Classification of optical materials – Absorption in metals, insulators & Semiconductors - LED’s – Organic LED’s – Polymer light emitting materials – Plasma light emitting devices – LCD’s –Optical data storage techniques in DVD and Blue -ray disc - Holographic data storage.

UNIT V – NANO MATERIALS 9

Nanoscience and Nanotechnology – significance of the nanoscale – Quantum confinement effect - different types of nanostructures (Confinement Dimensions 0-D, 1-D, 2-D and 3-D) – Categories of nanomaterials – Fabrication of nanomaterials – Ball milling method and Chemical vapour deposition technique - Quantum size effect in metal or semiconductor nanoparticles - Quantum structures – Metal-to-insulator transition – Confining excitons – Band gap of nanomaterials –Tunneling – Resonant Tunneling Diodes (RTD’s) – Single electron phenomena – Single electron transistor – Basic concepts of spintronics.

total: 45 Hours

textBooks1. S.O. Kasap, “Principles of Electronic Materials and Devices”, Tata McGraw-Hill,

2007.2. P.K. Palanisamy, “Materials Science”, Scitech, 2003.

ReFeRenCe Books

1. C.Shanthi et. al. ‘Physics of Materials’, Sonaversity, Sona College of Technology, Salem (Revised edition, 2015).

2. R.F. Pierret, “Semiconductor Device Fundamentals”, Pearson, 1996. 3. N. Garcia and A. Damask, “Physics for Computer Science Students”, Springer-

Verlag, 1991. 4. B. K. Pandey and S. Chaturvedi, Engineering Physics, Cengage Learning India

Pvt. Ltd., Delhi, 2012.

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U15CHE204AR - enViRonMental sCienCe and engineeRing

(Common to CSE and IT Branches)

Course outcomes

• state the importance of the acute need for environmental awareness and discuss significant aspects of natural resources like forests, water, mineral, food, and energy and land resources.

• explain the concepts of an ecosystem and provide an overview of biodiversity and its conservation.

• define the various known kinds of environmental pollution and discuss their causes, effects and control measures.

• describe the safe disposal of hazardous wastes and waste water treatment.

• give an account of the social issues with regard to the environment.

• discuss the impact of human population on the environment.

unit i – intRoduCtion to enViRonMental studies and natuRal ResouRCes 12Definition, Scope and Importance – Need for public awareness – Forest Resources:- Use and over - exploitation, deforestation, Case Studies, Timber Extraction, Dams, Benefits and their effects on forests and tribal people - Water Resources:- Use and Over - Utiliza-tion of Surface and ground water, Floods, Drought, Conflicts Over Water – Mineral Re-sources:- Use–Environmental Effects of Extracting and Using Mineral Resources – Food Resources: World Food Problems, Changes caused by Agriculture and Overgrazing, Ef-fects of Modern Agriculture, Fertilizer- Pesticide Problems, Water Logging, salinity – Energy Resources:- Growing Energy Needs, Renewable and Non Renewable Energy Sources, Use of Alternate Energy Sources – Land Resources:- Land as a Resource, Land Degradation, Man Induced Landslides, Soil Erosion and Desertification – Role of an Individual in Conservation of Natural Resources.

UNIT II – ECOSYSTEMS AND BIODIVERSITY 9

Concepts of an Ecosystem – Structure and Function of an Ecosystem – Producers, Con-sumers and Decomposers – Energy Flow in the Ecosystem – Biogeochemical Processes - Ecological Succession – Food Chains, Food Webs and Ecological Pyramids.

L T P C M3 0 0 3 100

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Introduction to Biodiversity – Definition: Genetic, Species and Ecosystem Diversity – Value of Biodiversity: Consumptive Use, Productive Use, Social, Ethical, Aesthetic and Option Values – Biodiversity at Global, National and Local Levels – India as a Mega-Diversity Nation – Hot-Spots of Biodiversity – Threats to Biodiversity: Habitat Loss, Poaching of Wildlife, Man-Wildlife Conflicts – endangered and Endemic Species of India – Conservation of Biodiversity: In-Situ and Ex-Situ conservation of Biodiversity.

unit iii – enViRonMental Pollution 10

Definition – Causes, Effects and Control Measures of:- (A) Air Pollution (B) Water Pol-lution (C) Soil Pollution (D) Marine Pollution (E) Noise Pollution (F) Thermal Pollution (G) Nuclear Hazards – Solid Waste Management:- Causes, Effects and Control Measures of Urban and Industrial Wastes, hazardous wastes and biomedical wastes – Role of an Individual in Prevention of Pollution – Pollution Case Studies – disaster Management:- Floods, Earthquake, Cyclone and Landslides, Waste water treatment methods, Green chemistry – principles and applications.

UNIT IV – SOCIAL ISSUES AND THE ENVIRONMENT 8

Sustainable Development – Urban Problems Related To energy – Water conservation, Rain Water Harvesting, Watershed Management – Resettlement and Rehabilitation of People, its Problems and Concerns – Environmental Ethics:- Issues and Possible Solu-tions – Climate Change, Global Warming, Acid Rain, Ozone Layer Depletion - Nuclear Accidents and Holocaust, Case Studies – Wasteland Reclamation – Environment Produc-tion Act – Air (Prevention and Control of Pollution) Act – Water (Prevention and Control of Pollution) Act – Wildlife Protection Act – Forest Conservation Act – Issues Involved in enforcement of Environmental Legislation – Public Awareness.

unit V – HuMan PoPulation and tHe enViRonMent 6

Population Growth, Variation Among Nations – Population Explosion – Family Welfare Programme – environment and Human Health – Human Rights – Value Education – HIV /AIDS – Women and Child Welfare – Role of Information Technology in Environment and Human Health – Case Studies.

total : 45 Hours

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text Books

1. Miller, T.G. Jr., “Environmental Science”, Wadsworth Pub. Co.

2. “Environmental Science and Engineering” by Anubha Kaushik and Kaushik, New Age International Publication, 4th Multicolour Edition, New Delhi, 2014.

ReFeRenCe Books

1. S. Radjarejesri et al., “Environmental Science and Engineerig” Sonaversity, Sona College of Technology, Salem, Revised Edition 2018.

2. Masters, G.M., “Introduction to Environmental Engineering and Science”, Pearson Education Pvt., Ltd., 2nd Edition, 2004.

3. Erach, B., “The Biodiversity of India”, Mapin Publishing P.Ltd.,Ahmedabad, India.

4. Erach Bharucha, “Textbook of Environmental Studies for Undergraduate Courses”, 2005, University Grands Commission, Universities Press India Private Limited, Hyderguda, Hyderabad – 500029.

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(Circuit Branches: CSE, IT, EEE)

Course outcomes

UNIT II –FILE MANIPULATIONS 9

UNIT IV – STACk 9

L T P C M3 0 0 3 100

- 38 -

UNIT V – QUEUE 9

total: 45 Hours

text Books

ReFeRenCe Books

2. Aho, Hopcroft and Ullman, ”Data Structures and Algorithms”, Pearson Education. 1983.

3. Byron S Gottfried, “Programming with C”, Schaum’s Outlines”, Second Edition. Tata McGraw-Hill, 2006.

4. Yashavant P.Kanetkar. “Let Us C”, BPB Publications, 14th Edition, 2016.

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U15EGR207R - ENGINEERING GRAPHICS

Course outcomes

1. predict the construction of various curves in civil elevation plan and machine components.

2. draw the projection of three dimensional objects representation of machine structure and explain standards of orthographic views by different methods.

3. analyze the principles of projection of various planes by different angle to project points, lines and planes.

4. draw the principles of projection of simple solid by the axis is inclined to one reference plane by change of position method.

5. plan the interior components of machinery (or) buildings by sectioning the solid, and to study the development of simple solids for fabrication of sheet metals.

CONCEPTS AND CONVENTIONS (Not for Examination) 2

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) 6

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

UNIT I – PLANE CURVES (Free hand sketching) 10

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 – ISOMETRIC TO ORTHOGRAPHIC VIEWS (Free Hand Sketching) 10

Representation of three dimensional objects – General Principles of Orthographic projection – Need for importance of multiple views and their placement – First angle

L T P C M2 2 0 3 100

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projection – layout of views – Developing visualization skills through free hand sketching of multiple views from pictorial views of objects.

unit iii – PRoJeCtion oF Points, lines and Plane suRFaCes (Free hand sketching and 2D Software) 10

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 both reference planes.

UNIT IV – PROJECTION OF SOLIDS (Free hand sketching and 2D Software) 12

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 V – seCtion oF solids and deVeloPMent oF suRFaCes (Free hand sketching and 2D Software) 10

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.

total: 60 Hours

text Books

1. Engineering Graphics and Drawing, Sonaversity, Sona College of Technology, Salem, Revised edition, 2012.

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

ReFeRenCe Books

1. Dhananjay A. JoIhe, Engineering Drawing with an introduction to AutoCAD, Tata McGraw Hill Publishing Company Limited, 2008.

2. Basant Agarwal and Agarwal C.M., Engineering Drawing, Tata McGraw Hill Publishing Company Limited, New Delhi.

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

4. Bertoline & Wiebe fundamentals of graphics communication III edition McGrawhill 2002.

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U15PCL208BR - PHYSICS AND CHEMISTRY LABORATORY II

(Common to CSE and IT Branches)

Course outcomes

L T P C M0 0 2 1 100

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total: 30 Hours

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U15PDS209R - PROGRAMMING AND DATA STRUCTURES laBoRatoRY

(Circuit Branches: CSE, IT, EEE)

Course outcomes

total: 30 Hours

L T P C M0 0 2 1 100

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U15BEEL210R - BASIC ELECTRICAL AND ELECTRONICS LABORATORY

(Common to CSE & IT Branches)

Course outcomes

1. apply the basic circuit laws for calculating various parameters of dc and ac circuits

2. analysis the performance characteristics of electronic devices such as pn diode, zener diode, bjt and op-amp.

3. design the circuit for various applications using electronic devices.

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. VI Characteristics of PN Junction Diode.

6. VI Characteristics of Zener Diode.

7. VI Characteristics of BJT in CB configuration.

8. VI Characteristics of BJT in CE configuration.

9. VI Characteristics of BJT in CC configuration.

10. Characteristics of Operational amplifier as Inverting and Non-Inverting amplifier.

11. Measurement of ripple factor for Half wave and Full wave rectifier circuit.

12. Study of working principle of DC generator.

total: 30 Hours

L T P C M0 0 2 1 100

Regulations 2015R

Branch: Mechanical engineering

(with effect from the academic year 2018- 2019)

Courses of Study for BE / B Tech Semester II under Regulations 2015R (CBCS)Branch: MeCH

theory

2 U15MAT202AR Mathematics – II 3 2 0 4 BS

3 U15PHY203DR Physics For Mechanical Engineering 3 0 0 3 BS

4 U15CHE205CR Chemistry For MechanicalEngineering 3 0 0 3 BS

5 U15MEC206R Manufacturing Technology – I 3 0 0 3 ES

6 U15GE207R Engineering Mechanics 2 2 0 3 ES

Practical

7 U15PCL208AR Physics and Chemistry Laboratory – II# 0 0 2 1 BS

8 U15MEC209R Manufacturing TechnologyLaboratory – I 0 0 2 1 ES

total Credits 22

*Students may opt for foreign languages viz., German/French/Japanese with additional one credit (over and above the CGPA calculation).

#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 Bos/Mechanical &

HOD-MechanicalDr. D. Senthilkumar

- 27 -

Course outcomes at the end of the 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 emails, formal letters and descriptions of graphics 5. develop skills for writing reports and proposals

unit i – FoCus on language

• Cause and effect expressions

• Concord

• If conditionals

• Articles

• Pronouns

• Adverbs

• Grammatical structures

unit ii – SPEAkING-I

• 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.

• Welcome address, vote of thanks, special address on specific topics.

unit iii – sPeaking – ii

• Mini presentation in small groups of two or three regarding, office arrangements, facilities, office functions, sales, purchases, training recruitment, advertising, applying for financial assistance, applying for a job, team work, discussion, presentation

L T P C M2 0 2 3 100

- 28 -

unit iV – WRiting – i

• Email, fixing an appointment, Cancelling appointments, conference details, hotel accommodation, order for equipment, training programme details, paper submission for seminars and conferences

• Letter Writing, Business communication, quotations, placing orders, complaints, replies to queries from business customers, inviting dignitaries, accepting and declining invitations

• Resume / CV

• Transcoding: Flow Chart, Pie Chart, Graph, Bar Chart, Tabular Column.

unit V – WRITING -II

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

• General purpose writing specifications of equipment, description of an object, National and International issues, answering general questions with special emphasis on seeking opinions

• Technical Writing: recommendations, checklists, instructions, note making and memo

• Proposal: establishing a lab, introducing a subject in the curriculum, training programme for students

total: 45 Hours

- 29 -

textBook

extensiVe Reading

1. Who Moved my Cheese? – Spencer Johnson-G. P. Putnam’s Sons

2. “Discover the Diamond in You” – Arindam Chaudhuri – Vikas Publishing House Pvt. Ltd.

ReFeRenCe Books

• 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.

- 30 -

Course outcomes

L T P C M3 2 0 4 100

- 31 -

Statement of Cauchy’s integral theorem and Cauchy’s integral formula – simple applications,Taylor’s and Laurent’s expansions, singular points, residues, statement of Cauchy’s residue theorem, evaluation of contour integration over unit circle and semi circle (excluding poles on real axis).

total: 75 Hours

text Books

ReFeRenCe Books

- 32 -

U15PHY203DR - PHYSICS FOR MECHANICAL ENGINEERING

Course outcomes

1. examine the elastic behaviour of solid materials and apply hydrodynamic principles for the flow of liquids.

2. compare the different modes of heat transfer and apply the thermodynamic processes and laws to compute the efficiency of heat engines.

4. classify semiconductors and analyze the variation of fermi level with temperature and examine the nature of charge carriers.

5. describe the significance of new engineering materials and their applications.

unit i – PROPERTIES OF MATTER AND HYDRODYNAMICS 9

Elasticity - Poisson’s ratio and relation between moduli (qualitative) -Stress-strain diagram- Factors affecting elasticity - Bending of beams -Cantilever - expression for bending moment – Measurement of Young’s modulus by uniform and non-uniform bending- I shaped girders - Stream line flow - Turbulent flow- Poiseuille’s formula for flow of liquid through a capillary tube – Determination of coefficient of viscosity of a liquid.

unit ii – HEAT AND THERMODYNAMICS 9

Thermal conductivity - Forbe’s and Lee’s disc methods- Radial and cylindrical flow of heat -Thermal conductivity of rubber and glass - Thermal insulation of buildings- Thermal insulating materials -Thermal equilibrium - Zeroth law of thermodynamics - Internal Energy - First law of thermodynamics -Indicator diagram - Isothermal process - Work done in an isothermal expansion - Adiabatic process - Work done in an adiabatic expansion – Reversible and irreversible processes - Second law of thermodynamics - Carnot engine - Efficiency of Canot’s cycle - Carnot’s cycle as heat engine and refrigerator - Carnot’s theorem - Comparative study of Ideal Otto and diesel engines and their efficiency (no derivation) -Entropy - temperature diagram of Carnot’s cycle.

L T P C M3 0 0 3 100

- 33 -

unit iii – CONDUCTING MATERIALS 9

Conductors-classical free electron theory of metals-Electrical and thermal conductivity- Wiedemann-Franzlaw-Lorentz number-Drawbacks of classical theory-Quantum theory-band theory of solids( qualitative treatment only) - Fermi distribution function- Effect of temperature on Fermi Function-Density of energy states- Carrier concentration in metals - application of conducting materials in induction furnace.

unit iV – SEMICONDUCTING MATERIALS 9

Intrinsic semiconductors – Energy band diagram – direct and indirect band gap semiconductors -Carrier concentration in intrinsic semiconductors - Fermi level – Variation of Fermi level with temperature – Electrical conductivity – Band gap determination– Extrinsic semiconductors – Carrier concentration in N-type and P-type semiconductors (Qualitative Treatment only) – Variation of Fermi level with temperature and impurity concentration – Compound semiconductors – Hall effect –Determination of Hall coefficient – Hall effect applications - application of semiconductors in strain measurements.

unit V – NEW ENGINEERING MATERIALS 9

total: 45 Hours

- 34 -

text Books

ReFeRenCe Books

1. C. Shanthi et al., Physics for Mechanical Engineering , Sonaversity, Sona College of Technology, Salem (Revised edition, 2017).

2. Rajendran, V, and Marikani A, ‘Materials science’ TMH Publications, New Delhi, 2004.

4. Subramaniam. N, Brijlal, ‘ Properties of Matter’, S. Chand Group, New Delhi, 2007 (Unit I).

- 35 -

text Books

ReFeRenCe Books

1. C. Shanthi et al., Physics for Mechanical Engineering , Sonaversity, Sona College of Technology, Salem (Revised edition, 2017).

2. Rajendran, V, and Marikani A, ‘Materials science’ TMH Publications, New Delhi, 2004.

4. Subramaniam. N, Brijlal, ‘ Properties of Matter’, S. Chand Group, New Delhi, 2007 (Unit I).

U15CHE205CR - CHEMISTRY FOR MECHANICAL ENGINEERING

Course outcomes

1. analyze the types of polymers, polymerization reactions, polymerization techniques and fabrication methods of polymers for engineering applications.

2. describe the chemistry of engineering materials and their industrial applications.

3. discuss the chemistry of fuels and combustion.

4. explain the industrial importance of phase rule and alloys.

5. outline the principle and processes of metallurgy and powder metallurgy.

unit i – POLYMER CHEMISTRY 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 – 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 ii – CHEMISTRY OF ENGINEERING MATERIALS 9

Refractories – classification – acidic, basic and neutral refractories – properties (refractoriness, refractoriness under load, dimensional stability, porosity, thermal spalling).

Modern Composite Materials – Definition, constituents – FRP - types and engineering applications.

L T P C M3 0 0 3 100

- 36 -

unit iii – FUELS AND COMBUSTION 9

Fuels – calorific value – gross and net calorific values – coal – proximate and ultimate analyses – metallurgical coke – manufacture by Otto-Hoffmann method – Petroleum processing and fractions – cracking – types – synthetic petrol – Bergius and Fischer Tropsch processes - knocking – octane number and cetane number – power alcohol – biodiesel – Gaseous fuels – Water gas, producer gas, CNG and LPG, Combustion – flue gas analysis by Orsat’s method.

UNIT – IV PHASE RULE AND ALLOYS 9

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 9

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: 45 Hours

text Books

- 37 -

ReFeRenCe Books

1. T. Maruthavanan et al., “Chemistry For Mechanical Engineering” Sonaversity, Sona College of Technology, Salem, Revised Edition 2018.

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

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

4. N. Krishnamurthy, K. Jeyasubramanian and P. Vallinayagam, “Applied Chemistry”, Tata McGraw-Hill Publishing Company Limited, New Delhi (1999).

- 38 -

U15MEC206R - MANUFACTURING TECHNOLOGY - I

Course outcomes

CO1: gain knowledge on sand casting, pattern materials and the working principle of special casting processes.

CO2: gain knowledge on welding, different welding processes, brazing and soldering.

CO3: acquire knowledge about the various bulk deformation processes.

CO4: explain the different sheet metal characteristics and operations involved in them.

CO5: acquire knowledge about forming and shaping of plastics using different moulding methods.

unit i – METAL CASTING 9

Sand Casting- Moulding Tools- Types of Patterns- Pattern Materials- Pattern Allowances- Types of Moulding Sand- Properties- Core Making- Methods of Sand Testing- Moulding Machines: Types- Melting Furnaces: Cupola, Crucible and Electric arc furnace- Special Casting Process: Shell, Investment Casting - Lost Wax Process- Pressure Die Casting- Centrifugal Casting- CO2 Process- Sand Casting Defects- Inspection Methods.

unit ii – METAL JOINING PROCESS 9

Gas welding: Types- oxy- acetylene, air-acetylene- Flame characteristics- Arc welding: Types- Metal arc welding-TIG welding- MIG welding-Plasma arc welding- Submerged arc welding- Electro slag welding - Resistant welding: Butt- Spot- Seam welding, Friction welding- Electron beam welding. Thermit Welding - Brazing- Soldering- Welding defects.

UNIT III – BULk DEFORMATION PROCESSES 9

Hot and Cold working Process- Drawing Process: Wire drawing, Tube drawing, Metal Spinning, Embossing- Coining- Forging Process: Open and closed die forging- operations- Forging machine, Rolling: Type of rolling mills- Shape rolling operation- Principle of rod and wire drawing – Tube drawing- Defects in rolling parts, Extrusion:- Principles of Extrusion – Types – Hot and Cold extrusion.

L T P C M3 0 0 3 100

- 39 -

UNIT IV – SHEET METAL PROCESSES 9

Sheet metal: characteristics-typical shearing operations-bending and drawing operations – stretch forming operations – formability of sheet metal – test methods–working principle and application of special forming processes –hydro forming - Rubber pad forming - Metal spinning-Introduction to Explosive forming - Magnetic pulse forming-peen forming - super plastic forming.

unit V – MANUFACTURING OF PLASTIC COMPONENTS 9

Types and characteristics of plastics – Moulding of thermoplastics – working principles and typical applications – injection moulding – Plunger and screw machines – Compression moulding, Transfer Moulding – Typical industrial applications – introduction to blow moulding –Rotational moulding – Film blowing – Extrusion.

text Books 1. J.P .Kaushish “Manufacturing Processes” PHI Learning Private limited, second edition 2010. 2. Hajra Choudhury, “Elements of Workshop Technology”, Vol. I Media Promoters & Publishers pvt ltd .2009

ReFeRenCe Books 1. B.S. Magendran parashar & R.K. Mittal, “Elements of Manufacturing Processes”, Prentice Hall of India, 2003. 2. J.T. Black, Ronald A. Kohser, “degarmo’s materials & processes in manufacturing, 10th ED (With CD )” Wiley India Pvt. Limited, 2010 3. P.N. Rao, Manufacturing Technology”, Tata McGraw-Hill Publishing Limited, II Edition, 2009. 4. J.P .Kaushish “Manufacturing Processes” PHI Learning Private limited, second edition 2010. 5. P. C. Sharma, “A text book of production technology”, S. Chand and company, IV Edition, 2003. 6. Begma, ‘Manufacturing process”, John Wilely & sons, VII Edition, 2005. 7. Serope Kalpajian, Steven R.Schmid, Manufacturing Engineering and Technology, Pearson Education, Inc. 2002 (Second Indian Reprint) 8. Beddoes. J and Bibby M.J. ‘Principles of Metal Manufacturing Processes’, Elsevier, 2006.

9. Rajput R.K, ‘A text book of Manufacturing Technology’, Lakshmi Publications, 2007.

- 40 -

U15GE207R - ENGINEERING MECHANICS

Course outcomes

unit i – BasiCs & statiCs oF PaRtiCles 12

unit ii – equiliBRiuM oF Rigid Bodies in 2 diMensions 12

unit iii – FRiCtion 12

L T P C M2 2 0 3 100

- 41 -

unit iV – PRoPeRties oF suRFaCes and solids 12

unit V – dYnaMiCs oF PaRtiCles 12

total: 60 Hours

text Books

1. Engineering mechanics by sonaversity III edition , by 2013

ReFeRenCe Books

4. MeriamJ.L,KraigeL.G,“Engineering Mechanics-Statics” 6th Edition, Wiley, 2010.

- 42 -

Course outcomes

L T P C M0 0 2 1 100

- 43 -

total: 30 Hours

- 44 -

U15MEC209R - MANUFACTURING TECHNOLOGY LABORATORY – I

Course outcomes

CO1: to gain experience on working of general purpose in machine tools and on various manufacturing processes.

CO2: to gain knowledge and experience on working in welding machine.

CO3: to gain knowledge on foundry.

list oF exPeRiMents

1. Simple facing & turning.

2. Step turning model.

3. Taper turning model.

4. Thread cutting operation.

5. Knurling and grooving.

6. Drilling, boring and chamfering.

7. Exercise on radial drilling machine (Drilling, Tapping, Reaming and Counter Sink).

8. Eccentric turning model - Demonstration.

Welding

9. Butt Joints by using Arc welding

10. Lap Joints by using Arc welding

11. Tee Joints by using Arc welding

12. Gas welding – Demonstration

L T P C M0 0 2 1 100

- 45 -

Foundry

13. Foundry – Demonstration

list of equipments

1. Centre Lathe with accessories - 15 Nos

2. Pillar type drilling machine - 01 No

3. Table top drilling machine - 01 No

4. Radial drilling machine - 01 No

5. Moulding table - 05 Nos

6. Moulding boxes, tools, patterns - 05 Nos

7. Injection Moulding Machine - 01 No

8. Arc Welding Unit - 02 Nos

9. Gas Welding Unit - 01 No

- 46 -

1. general introduction:

3. Preparation of orthographic drawing and sectioning:

Applying different materials for Machine Components-Steel – Aluminum - Copper-Brass - Silver - Wood Plastic - Ceramic - Concrete etc., Preparing Final CAD outputs with rendering features.

Note: Laboratory Practicing CAD Modeling Software: Solidworks 2012.

L T P C M0 0 2 1 100

Regulations 2015R

Branch: Mechatronics engineering

Courses of Study for BE / B Tech Semester II under Regulations 2015R (CBCS)Branch: Mechatronics

theory

2 U15MAT202AR Mathematics – II 3 2 0 4 BS

3 U15PHY203FR Physics For Mechatronics Engineering 3 0 0 3 BS

4 U15CHE205ER Chemistry For Mechatronics Engineering 3 0 0 3 BS

5 U15MEA206R Basic Mechanical and Electrical Engineering 3 0 0 3 ES

6 U15GE207R Engineering Mechanics 2 2 0 3 ES

Practical

7 U15PCL208AR Physics and Chemistry Laboratory – II# 0 0 2 1 BS

8 U15MEC209R Manufacturing Technology Laboratory – I 0 0 2 1 ES

total Credits 22

*Students may opt for foreign languages viz., German/French/Japanese with additional one credit (over and above the CGPA calculation).

#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 Bos/ Mechatronics &

HOD-MechatronicsDr. P. Suresh

- 27 -

Course outcomes

L T P C M2 0 2 3 100

- 28 -

total: 45 Hours

- 29 -

text Book

- 30 -

Course outcomes

L T P C M3 2 0 4 100

- 31 -

laplace transform: conditions for existence, transform of elementary functions, basic properties, transform of derivatives and integrals, transform of unit step function and impulse function, transform of periodic functions

total: 75 Hours

text Books

ReFeRenCe Books

- 32 -

U15PHY203FR - PHYSICS FOR MECHATRONICS ENGINEERING

Course outcomes

2. classify semiconductors and analyze the variation of Fermi level with temperature and examine the nature of charge carriers.

3. compare the types of magnetic materials and explain the applications of superconducting materials.

4. compare the different modes of heat transfer and apply the thermodynamic processes and laws to compute the efficiency of heat engines.

5. describe the significance of new engineering materials and their applications.

UNIT I – CONDUCTING MATERIALS 9

Conductors-classical free electron theory of metals-Electrical and thermal conductivity- Wiedemann-Franz law-Lorentz number-Drawbacks of classical theory-Quantum theory-band theory of solids( qualitative treatment only) - Fermi distribution function- Effect of temperature on Fermi Function-Density of energy states- Carrier concentration in metals - application of conducting materials in induction furnace.

Intrinsic semiconductors – Energy band diagram – direct and indirect band gap semiconductors -Carrier concentration in intrinsic semiconductors - Fermi level – Variation of Fermi level with temperature – Electrical conductivity – Band gap determination– Extrinsic semiconductors – Carrier concentration in N-type and P-type semiconductors (Qualitative Treatment only) – Variation of Fermi level with temperature and impurity concentration – Compound semiconductors – Hall effect –Determination of Hall coefficient – Hall effect applications - application of semiconductors in strain measurements.

L T P C M3 0 0 3 100

- 33 -

unit iii – MagnetiC and suPeRConduCting MateRials 9

Origin of magnetic moment – Bohr magneton – Dia, para and ferromagnetic materials – Domain theory – Hysteresis – Soft and hard magnetic materials – Ferrites – applications – Magnetic hard disc.

Superconductivity-Properties - Types of super conductor – BCS theory of superconductivity (Qualitative) - High Tc superconductors – Applications of superconductors: SQUID, cryotron, magnetic levitation in trains.

UNIT IV – HEAT AND THERMODYNAMICS 9

Thermal conductivity - Forbe’s and Lee’s disc methods- Radial and cylindrical flow of heat -Thermal conductivity of rubber and glass - Thermal insulation of buildings- Thermal insulating materials -Thermal equilibrium - Zeroth law of thermodynamics - Internal Energy - First law of thermodynamics -Indicator diagram - Isothermal process - Work done in an isothermal expansion - Adiabatic process - Work done in an adiabatic expansion – Reversible and irreversible processes - Second law of thermodynamics - Carnot engine - Efficiency of Carnot’s cycle - Carnot’s cycle as heat engine and refrigerator - Carnot’s theorem - Comparative study of Ideal Otto and diesel engines and their efficiency (no derivation) -Entropy - temperature diagram of Carnot’s cycle.

UNIT V – NEW ENGINEERING MATERIALS 9

Nano science and Nanotechnology – significance of the nano scale - different types of nanostructures (Confinement Dimensions 0-D, 1-D, 2-D and 3-D) - Categories of nanomaterials - Fabrication of nanomaterials - Ball milling method and Chemical vapour deposition technique - Carbon nanotubes - Types of carbon nanotubes - CNT structure – properties and applications

total: 45 Hours

- 34 -

text Books

1. B. K. Pandey and S. Chaturvedi, ‘Engineering Physics ‘, Cengage Learning India Pvt. Ltd., Delhi, 2012.

ReFeRenCe Books

1. C. Shanthi et al., Physics for Mechatronics Engineering , Sonaversity, Sona College of Technology, Salem (Revised edition, 2017).

2. V. Rajendran and A. Marikani, ‘Materials science’ TMH Publications, New Delhi, 2004.

3. N. Subramaniam, Brijlal, ‘ Heat and Thermodynamics’, S. Chand Group, New Delhi, 2007( Unit II).

4. N. Subramaniam, Brijlal, ‘ Properties of Matter’, S. Chand Group, New Delhi, 2007 ( Unit I).

- 35 -

U15CHE205ER - CHEMISTRY FOR MECHATRONICS ENGINEERING

Course outcomes

• describe the chemistry of engineering materials and their industrial applications.

• discuss the chemistry of fuels and combustion.

• explain the industrial importance of phase rule and alloys.

• outline the principle and processes of metallurgy and powder metallurgy.

• describe the chemistry of organic electronic materials and electrochemical processes.

UNIT I – CHEMISTRY OF ENGINEERING MATERIALS 9

Refractories – classification – acidic, basic and neutral refractories – properties (refrac-toriness, refractoriness under load, dimensional stability, porosity, thermal spalling).

Modern Composite Materials – Definition, constituents – FRP - types and engineering applications.

Polymers – Introduction and Nomenclature of Polymers – Types of Polymerization-Addition-Condensation and Copolymerization – Conducting polymers.

UNIT II – FUELS AND COMBUSTION 9 Fuels – calorific value – gross and net calorific values – coal – proximate and ultimate analyses – metallurgical coke – manufacture by Otto-Hoffmann method – Petroleum pro-cessing and fractions – cracking – types – synthetic petrol – Bergius and Fischer Tropsch processes - knocking – octane number and cetane number – power alcohol – biodiesel – Gaseous fuels – Water gas, producer gas, CNG and LPG, Combustion – flue gas analysis by Orsat’s method.

L T P C M3 0 0 3 100

- 36 -

UNIT III – PHASE RULE AND ALLOYS 9

Alloys: Introduction- Definition- Properties of alloys- Significance of alloying, Func-tions and effect of alloying elements - ferrous alloys – nichrome and stainless steel – heat treatment of steel, non-ferrous alloys – brass and bronze.

UNIT IV – METALLURGY 9

Metallurgy – extraction of metals from its ores – froth floatation, electromagnetic sepa-ration and chemical methods – refining of metals – liquation and electrolytic refining methods – metallurgy of iron and nickel - Powder metallurgy – principle – characteris-tics of metal powders – methods of producing metal powders (mechanical pulveriza-tion, atomization, chemical reduction, electrolytic process, decomposition) – mixing and blending – compacting – sintering – applications, advantages and limitations of powder metallurgy, Applications of Chemistry in mechanical engineering.

unit V – CHeMistRY oF oRganiC eleCtRoniC MateRials and ELECTROCHEMICAL PROCESSES 9

Organo Electronics - Organic Semiconducting Materials – Working Principle and Ad-vantages over Inorganic Semiconducting Materials - P-Type and N-Type Organic Semi-conducting Materials - Pentacene Fullerenes- C-60 – Organic dielectric materials - definition and examples-Organic Light Emitting Diodes (Oleds) - Construction-Working Principle and Applications – Organic Transistors- Construction-Working Principle and Applications in Electronic Industries.

Electrochemical processes - Plating Techniques – Electro plating and electroless plating of nickel – Fabrication of PCBs – Electrochemical etching of copper from PCB.

total : 45 Hours

- 37 -

text Books

ReFeRenCe Books

1. T. Maruthavanan et al., “Chemistry For Mechatronics Engineering” Sonaver sity, Sona College of Technology, Salem, 2019 Edition.

4. N. Krishnamurthy, K. Jeyasubramanian and P. Vallinayagam, “Applied Chem istry”, Tata McGraw-Hill Publishing Company Limited, New Delhi (1999).

- 38 -

U15MEA206R - BasiC MeCHaniCal and eleCtRiCal engineeRing

Course outcomes

1. describe the essential features and working principles of conventional power plants and pumping system.

2. state the working principle of petrol and diesel ic engines

3. explain the working of refrigerators and air conditioning systems.

4. state the fundamental laws of electrical circuits and explain the basic principles related to dc and ac electrical circuits

5. explain the constructional features and principles of operation of dc and ac motors

unit i – PoWeR Plant engineeRing 9

Introduction, Classification of Power Plant -Working principle of steam, Gas, Diesel, Hydro -Electric and Nuclear Power plants –Merits and Demerits -Pumps and turbines – working principle of Reciprocating pumps (single acting and double acting) –Centrifugal Pump. Concept of IoT in Power plant.

UNIT II – INTERNAL COMBUSTION ENGINES 9

Internal combustion engines as automobile power plant –Working principle of Petrol and Diesel Engines Four stroke and two stroke cycles Comparison of four stroke and two stroke engines. Concept of IoT in automobile.

UNIT III – REFRIGERATION AND AIR CONDITIONING 9

Terminology of refrigeration and air conditioning; Principle of vapour compression and absorption system-Layout of typical domestic refrigerator -window and split type room air conditioner. Concept of IoT in room air conditioning system.

UNIT III – DC AND AC CIRCUITS 9

dC Circuits: Ohm’s law, Kirchhoff’s laws, Series and Parallel circuits, Star – Delta transformation – Simple Problems.

L T P C M3 0 0 3 100

- 39 -

aC Circuits: AC waveform standard terminologies, Single phase RL, RC, RLC series circuits – Simple Problems. Introduction to three phase circuits.

unit iV – dC and aC MotoRs 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 –Trans-formation ratio.

Total: 45 Hours

text Books

1. Shanmugam G and Palanichamy M S, “Basic Civil and Mechanical Engineering”,Tata McGraw Hill Publishing Co., New Delhi, (1996).

2. Ramamrutham. S, “Basic Civil Engineering”, Dhanpat Rai Publishing Co. (P) Ltd. (1999).

3. V.K. Mehta and Rohit Mehta, “Principles of Electrical Engineering and Electron-ics”, S. Chand publishers, 2011.

4. S.K. Bhattacharya, “Basic Electrical and Electronics Engineering”, Pearson pub-lishers, 2012.

ReFeRenCe Books

1. S.R.J. Shantha Kumar, “Basic Mechanical Engineering”, 2nd Edition, Hi-Tech Publications, 2000.

2. P.K.Nag, “Power Plant Engineering” 3rd Edition, Tata McGraw-Hill Education, 2002.

3. Sudhakar A and Shyam Mohan SP, Circuits and Network Analysis and Synthe-sis”, Tata Mc Graw Hill 2007.

4. D.P. Kothari and I.J. Nagrath, ‘Electric Machines’, Tata McGraw Hill 2002.

5. A.K. Sawhney, “A Course in Electrical & Electronic Measurements &Instru-mentation”, Dhanpat Rai and Co 2004.

6. B.L. Theraja, “Fundamentals of Electrical Engineering and Electronics”, S. Chand publishers, 2007.

- 40 -

U15GE207R- ENGINEERING MECHANICS

Course outcomes

unit i BasiCs & statiCs oF PaRtiCles 12

unit ii equiliBRiuM oF Rigid Bodies in 2 diMensions 12

unit iii FRiCtion 12

L T P C M2 2 0 3 100

- 41 -

unit iV PRoPeRties oF suRFaCes and solids 12

unit V dYnaMiCs oF PaRtiCles 12

total: 60 Hours

text Books

1. Engineering mechanics by sonaversity III edition , by 2013.

ReFeRenCe Books

4. MeriamJ.L,KraigeL.G,“Engineering Mechanics-Statics” 6th Edition, Wiley, 2010.

- 42 -

Course outcomes

L T P C M0 0 2 1 100

- 43 -

total: 30 Hours

- 44 -

U15MEC209R - MANUFACTURING TECHNOLOGY LABORATORY – I

Course outcomes

CO1: to gain experience on working of general purpose in machine tools and on various manufacturing processes.

CO2: to gain knowledge and experience on working in welding machine.

CO3: to gain knowledge on foundry.

list oF exPeRiMents

1. Simple facing & turning.

2. Step turning model.

3. Taper turning model.

4. Thread cutting operation.

5. Knurling and grooving.

6. Drilling, boring and chamfering.

7. Exercise on radial drilling machine (Drilling, Tapping, Reaming and Counter Sink).

8. Eccentric turning model - Demonstration.

Welding

9. Butt Joints by using Arc welding

10. Lap Joints by using Arc welding

11. Tee Joints by using Arc welding

12. Gas welding – Demonstration

Foundry

13. Foundry – Demonstration

L T P C M0 0 2 1 100

- 45 -

list of equipments

1. Centre Lathe with accessories - 15 Nos

2. Pillar type drilling machine - 01 No

3. Table top drilling machine - 01 No

4. Radial drilling machine - 01 No

5. Moulding table - 05 Nos

6. Moulding boxes, tools, patterns - 05 Nos

7. Injection Moulding Machine - 01 No

8. Arc Welding Unit - 02 Nos

9. Gas Welding Unit - 01 No

- 46 -

1. general introduction:

3. Preparation of orthographic drawing and sectioning:

Applying different materials for Machine Components-Steel –Aluminum-Copper-Brass-Silver-Wood

Plastic-Ceramic-.Concrete etc., Preparing Final CAD outputs with rendering features.

Note: Laboratory Practicing CAD Modeling Software: Solidworks 2012.

L T P C M0 0 2 1 100

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survey experiments (day 1) - Факультет...

managing emails

freshdirect emails

better emails

writing emails