13.12.2019 B.E./B.Tech. Regulations-2019 1 · hyperbola by eccentricity method – Construction of cycloid – construction of involutes of square and circle – Drawing of tangents

13.12.2019 B.E./B.Tech. Regulations-2019 1


U19ENG201B - ENGLISH FOR ENGINEERS – II

L T P C

2 0 0 2

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

1. frame sentences correctly, both in written and spoken forms of language with

accuracy and fluency.

2. develop and demonstrate listening skills for academic and professional

purposes.

3. draw conclusions on explicit and implicit oral information.

4. develop effective reading skills and reinforce language skills required for

using grammar and building vocabulary.

5. read for gathering and understanding information, following directions and

giving responses.

UNIT - I

Cause and effect expressions, adjectives, comparative adjectives

Listening to conversations, welcome speeches, lectures and description of

equipment

Listening to different kinds of interviews (face-to-face, radio, TV and

telephone interviews)

Understanding notices, messages, timetables, advertisements, graphs, etc.

Reading passages for specific information transfer

UNIT - II

Prepositions and dependent prepositions

Understanding short conversations or monologues,

Taking down phone messages, orders, notes etc

Listening for gist, identifying topic, context or function

Reading documents for business and general contexts and interpreting

graphical representations

UNIT - III

Collocations

Listening comprehension, entering information in tabular form

Error correction, editing mistakes in grammar, vocabulary, spelling, etc.

Reading passage with multiple choice questions, reading for gist and reading

for specific information, skimming for comprehending the general idea and

meaning and contents of the whole text


UNIT - IV

Articles, adverbs

Intensive listening exercises and completing the steps of a process.

Listening exercises to categorise data in tables.

Short reading passage: gap-filling exercise related to grammar, testing the

understanding of prepositions, articles, auxiliary verbs, modal verbs,

pronouns, relative pronouns and adverbs, short reading passage with multiple

choice questions.

UNIT - V

Pronouns

Listening to extended speech for detail and inference

Listening and developing hints

Gap-filling exercise testing the knowledge of vocabulary, collocations,

dependent prepositions

Short reading passages for sentence matching exercises, picking out specific

information in a short text

TOTAL: 30 Hours

The listening test will be conducted for 20 marks and reading for 20 marks

internally and evaluated along with English for Engineers II in the End Semester

Valuation.

TEXT BOOK

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

EXTENSIVE READING

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

2. Discover the Diamond in You – Arindham Chaudhari – Vikas Publishing

House Pvt. Ltd

REFERENCES

1. 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.


U19MAT202C - TRANSFORMS AND DIFFERENTIAL EQUATIONS

L T P C

3 1 0 4

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

1. apply the classical method to solve linear ordinary differential equations with

constant coefficients.

2. apply the Laplace transforms technique and its properties to solve an ordinary

differential equation.

3. express a periodic signal as an infinite sum of sine and cosine wave

components using Fourier series.

4. apply the Fourier transform techniques to convert the signal in terms of the

frequencies of the waves.

5. find the general and singular solutions of linear and nonlinear partial

differential equations.

UNIT I - ORDINARY DIFFERENTIAL EQUATIONS 12

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 - LAPLACE TRANSFORMS 12

Laplace transform: Conditions for existence – Transform of elementary functions –

Basic properties – Transform of derivatives and integrals – Transform of unit step

function and impulse function – Initial and final value theorems – Transform of

periodic functions.

Inverse Laplace transform: Standard results – Statement of convolution theorem and

its applications – Solution of linear second order ordinary differential equations with

constant coefficients using Laplace transform.

UNIT III - FOURIER SERIES 12

General Fourier series – Dirichlet’s conditions – Change of intervals – Odd and even

functions – Half range sine and cosine series – Root mean square – Parseval’s identity

– Harmonic analysis.


UNIT IV - FOURIER TRANSFORMS 12

Fourier transform pair – Properties – Fourier sine and cosine transforms pair –

Properties –Transforms of simple functions – Parseval’s identity.

UNIT V - PARTIAL DIFFERENTIAL EQUATIONS 12

Formation of partial differential equations – Lagrange’s partial differential equation –

Clairaut’s form of partial differential equations – Higher order linear partial differential

equation with constant coefficients.

TOTAL: 60 Hours

TEXT BOOKS

1. T. Veerarajan, “Transforms and Partial Differential Equations”, McGraw Hill

Publishers, 3rd Edition, 2016.

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

Publishers, 1st Edition, 2019.

REFERENCES

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

Edition, Reprint, 2017.

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


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

Edition, 2018.

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

29th Reprint, 2017.


U19CHE204D - BIOCHEMISTRY

L T P C

2 0 0 2


1. outline the fundamentals of biochemistry.

2. analyze the classification of carbohydrates and their properties and

applications.

3. discuss the classification of lipids and their biological importance.

4. demonstrate the structure and properties of nucleic acid and protein.

5. describe the classification and the biological clinical applications of enzymes.

UNIT I - INTRODUCTION TO BIOCHEMISTRY 6

Introduction to Biochemistry - water as a biological solvent - weak acid and bases, pH,

buffers, Handerson Hasselbalch equation, physiological buffers in living systems,

Energy in living organism - Properties of water and their applications in biological

systems - Introduction to Biomolecules, Biological membrane, Clinical application of

Electrolytes and radioisotopes.

UNIT II - CARBOHYDRATES 6

Classification of carbohydrates - mono, di, oligo and polysaccharides - Structure,

physical and chemical properties of carbohydrates - Isomerism, racemisation and

mutarotation - Digestion and absorption of carbohydrates - Metabolic pathways and

bioenergetics – Glycolysis, glycogenesis, glycogenolysis and its hormonal regulation -

TCA cycle and electron transport chain - Oxidative phosphorylation - Biochemical

aspect of Diabetes mellitus and Glycogen storage Disease.

UNIT III - LIPIDS 6

Classification of lipids- simple, compound and derived lipids - Nomenclature of fatty

acid, physical and chemical properties of fat - Metabolic pathways: synthesis and

degradation of fatty acid (beta oxidation), hormonal regulation of fatty acid

metabolism, ketogenesis, Biosynthesis of Cholesterol - Disorders of lipid metabolism.

UNIT IV - NUCLEIC ACID and PROTEIN 6

Structure of purines and pyrimidines, nucleoside, nucleotide, DNA act as a genetic

material, chargoffs rule - Watson and crick model of DNA - Structure of RNA and its


type - Metabolism and Disorder of purines and pyrimidines nucleotide - Classification,

structure and properties of proteins, structural organization of proteins - classification

and properties of amino acids - Separation of protein, Inborn Metabolic error of amino

acid metabolism.

UNITV - ENZYME AND ITS CLINICAL APPLICATION 6

Classification of enzymes, apoenzyme, coenzyme, holoenzyme and cofactors - Kinetics

of enzymes - Michaelis-Menten equation - Factors affecting enzymatic activity:

temperature, pH, substrate concentration and enzyme concentration - Inhibitors of

enzyme action: Competitive, non - competitive, irreversible - Enzyme: Mode of action,

allosteric and covalent regulation - Clinical enzymology - Measurement of enzyme

activity and interpretation of units.

TOTAL: 30 Hours

TEXT BOOKS

1. Rafi MD ―Text book of biochemistry for Medical Students, Second

Edition, University Press, 2014.

2. David W. Martin, Peter A. Mayes, Victor W. Rodwell, - Harper’s Review of

Biochemistry, LANGE Medical Publications, 1981.

REFERENCES

1. Keith Wilson and John Walker, ― Practical Biochemistry - Principles &

Techniques, Oxford University Press, 2009.

2. Pamela. C. Champe and Richard. A. Harvey, ― Lippincott Biochemistry

Lippincott’s Illustrated Reviews, Raven publishers, 1994.


U19EGR206A – ENGINEERING GRAPHICS

L T P C

2 0 2 3


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

components.

2. analyze the principles of projection of various planes by different angle to

project points, lines and planes.

3. draw the principles of projection of simple solid by the axis is inclined to one

reference plane by change of position method.

4. understand the interior details of complex components, machineries by

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

pyramids.

5. draw the projection of three dimensional objects representation of machine

structure and explain standards of orthographic views by different methods.

CONCEPTS AND CONVENTIONS (Not for Examination) 03

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) 03

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

UNIT I – PLANE CURVES (Manual drafting) 06

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

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

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

UNIT II – PROJECTION OF POINTS, LINES AND PLANE SURFACES

(CAD software) 12

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

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

and circular lamina inclined to one reference planes.


UNIT III – PROJECTION OF SOLIDS (CAD software) 12

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

views - (Not for Examination)

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

inclined to one reference plane by change of position method.

UNIT IV – SECTION OF SOLIDS AND DEVELOPMENT OF SURFACES

(CAD software) 12

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

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

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

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

UNIT V – Conversion of Isometric Views to Orthographic Views (Manual

drafting) 12

Representation of three dimensional objects – General Principles of Orthographic

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

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

sketching of multiple views from pictorial views of objects.

TOTAL: 60 Hours

TEXT BOOKS

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

College of Technology, Salem, Revised edition, 2012.

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

REFERENCES

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, 2008.

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

Publications, 1998.

4. Bertoline & Wiebe fundamentals of graphics communication III edition

McGrawhill 2002.


U19BME201 – BIOLOGY FOR ENGINEERS

L T P C

3 0 0 3


1. analyze the cell growth and structure.

2. classify various nomenclatures of Enzymes.

3. compare different cycles of Metabolism.

4. analyze the human activity with the Genetic nature.

5. design the various industrial applications.

UNIT I - CELL: THE BASIC UNIT OF LIFE 09

Cell- Basic Properties of Cells- Prokaryotic Cells- Eukaryotic Cells- Cell Cycle and

Cell Division- M Phase- Meiosis- Cell Differentiation.

UNIT II - MOLECULAR ANALYSIS AND ENZYMES 09

Carbohydrates- Amino acids and Proteins- Nucleic Acids- Lipids- Nature of Bonding

and Qualitative Tests- Classification and Nomenclature of Enzymes- Co-Factors-

Importance of Enzymes.

UNIT III - METABOLISM 09

Metabolism and Its Concepts- Metabolic Basis for Living - Anabolic and Catabolic

Pathways - Concept of Non- Equilibrium and Steady State- Photosynthesis-

Photorespiration (C2 Cycle) - C4 Pathways- CAM Cycle (In Succulent Plant) - Factors

Affecting Photosynthesis-Respiration- Glycolysis- Fermentation- Aerobic Respiration.

UNIT IV - GENETICS 09

Mendel’s Laws of Inheritance- Gene Interaction- Multiple Alleles- Chromosomal

Theory of Inheritance- Linkage- Recombination (Crossing Over) - Chromosome

Mapping- Genetic Disorders.

UNIT V - MICROBIOLOGY AND ITS INDUSTRIAL APPLICATIONS 09

Microorganisms- Growth Kinetics- Culture Media- Sterilization- Microscopy-

applications of Microbiology- Immunology and Immunity- Cancer Biology- Stem

Cell.

TOTAL: 45 Hours


TEXT BOOKS

1. Wiley,”Biology for Engineers”, John Wiley & Sons,I Edition,2018.

2. S. ThyagaRajan, N. Selvamurugan, M. P. Rajesh, R. A. Nazeer, Richard W.

Thilagaraj, S. Barathi, and M. K. Jaganathan, “Biology for Engineers,” Tata

McGraw-Hill, New Delhi, 2012.

REFERENCES

1. Robert Weaver, “Molecular Biology,” MCGraw-Hill, 5th Edition, 2012.

2. Kenneth Murphy, “Janeway's Immunobiology,” Garland Science; 8th edition,

2011.


U19EC202 – CIRCUIT THEORY

L T P C

3 0 0 3


1. apply basic laws to calculate the voltage, current and power for ac and dc

electric circuit.

2. identify the network topologies of circuits.

3. analyze the dc circuits using network theorems.

4. analyze the resonant circuits and coupled circuits.

5. analyze the two port networks for various parameters.

UNIT I - BASICS OF CIRCUIT ANALYSIS 9

Review on mesh and nodal analysis – Star Delta Transformation Techniques – Phase

Relationship For R, L And C – Impedance, Admittance for R, L And C Elements –

Concept of Duality – Dual Network – Graphs of A Network – Trees, Twig, Link and

Branches – Incidence Matrix – Tie-Set Matrix Formation and Cut-Set Matrix

Formation of a Graph.

UNIT II - CIRCUIT THEOREMS 9

DC analysis : Superposition Theorem – Thevenin's Theorem – Norton’s Theorem –

Reciprocity Theorem – Maximum Power Transfer Theorem – Tellegen's Theorem –

Millman's Theorem.

UNIT III - SERIES RESONANT CIRCUITS AND COUPLED CIRCUITS 9

Resonances: Natural Frequency and Damping Ratio – Series Resonance – Impedance

and Phase Angle of a Series Resonance Circuit – Voltages and Currents in a Series

Circuit – Quality Factor.Coupled Circuits: Self-Inductance – Mutual Inductance – Dot

Conversion – Coupling Coefficient – Ideal Transformer.

UNIT IV - TRANSIENTS 9

Steady State and Transient Response – DC Response of an R-L Circuit – DC Response

of an R-C Circuit – DC Response of an R-L-C Circuit – Sinusoidal Response of R-L

Circuit – Sinusoidal Response of R-C Circuit – Sinusoidal Response of R-L-C Circuit.


UNIT V - TWO PORT NETWORKS 9

Two port Network – Open Circuit Impedance (Z) Parameters – Short Circuit

Admittance (Y) Parameters –Transmission (ABCD) Parameters – Hybrid (h)

Parameters –Inter Relationship of Different Parameters.

TOTAL: 45 Hours

TEXT BOOK

1. A Sudhakar, Shyammohan S Palli, "Circuits and Networks Analysis and

Synthesis", Mc-Graw Hill, 2019.

REFERENCES

1. Ravish R Singh,” Networks Analysis and Synthesis”, Mc-Graw Hill

Education, 2019.

2. M.L. Soni and J.C. Gupta, A Course in “Electrical Circuits Analysis”,

Dhanpat Rai & Co.(P), 2015.

3. G.K. Mithal and Ravi Mittal, “Network Analysis”, Khanna Khanna Pub,

2017.

4. Umesh Sinha, L.P.Singh,”Circuit and Field Theory”, Tech India

Publication Series, 2016.

5. Abhijit Chakrabarti, “Circuit Theory Analysis and Synthesis”, Dhanpat Rai

& CO. (Pvt).Ltd, Educational and technical publishers.


U19WPL212 – WORKSHOP PRACTICE

L T P C

0 0 2 1


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

carpentry, welding and sheet metal.

CO2 fabricate the different simple products in above trades.

CO3 produce different joining of metals.

List of Experiments

SECTION 1: FITTING

Tools and Equipment’s- Practice in filling.

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

SECTION 2: SHEET METAL

Tools and Equipment’s- Practice

Making of Dust Pan and Funnel.

SECTION 3: WELDING

Tools and Equipment’s – Practice

Arc welding of Butt joint and Lap Joint.

SECTION 4: CARPENTRY

Tools and Equipment’s- Planning Practice

Making of Half Lap joint and Dovetail Joint.

TOTAL: 30 Hours


U19PCL208B – PHYSICS AND CHEMISTRY LABORATORY

L T P C

0 0 4 2


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

Engineering properties of materials.

2. analyse the given water sample to determine the amount of hardness and

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

sample.

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

applications. Determine the molecular weight of various polymers, analyse

the quality of brass by estimating copper and calculate the amount of

chromium present in the given sample of water.

Physics Part - List of Experiments

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

using air wedge apparatus.

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

given liquid using ultrasonic interferometer.

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

the mercury spectrum using a spectrometer.

4. Determination of wavelength of the laser source.

5. Determination of particle size of lycopodium powder using diode laser.

6. Determination of acceptance angle and numerical aperture of an optical fibre

using diode laser.

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

bending method.

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

pendulum

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

bridge.

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


Chemistry Part - List of Experiments

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

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

3. Estimation of copper in brass by EDTA method.

4. Estimation of HCl acid by pH metry.

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

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

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

NaOH)

8. Estimation of ferrous ion by potentiometric titration.

9. Determination of molecular weight of a polymer by viscosity measurements.

10. Estimation of chromium in waste water.

TOTAL: 60 Hours


U19GE201 - BASIC APTITUDE - II

L T P C

0 0 2 0


CO1 solve more elaborate problems than those in BA-I in specific areas of

quantitative aptitude.

CO2 solve problems of greater intricacy than those in BA-I in stated areas of logical

reasoning.

CO3 demonstrate higher than BA-I level verbal aptitude skills in English with regard

to specific topics.

List of Experiments

1. QUANTITATIVE APTITUDE AND LOGICAL REASONING

Solving quantitative aptitude and logical reasoning problems with reference to the

following topics:

a. Ratio and proportion

b. Partnership

c. Chain rule

d. Ages

e. Profit, loss and discount

f. Geometry

g. Area and volume

h. Data arrangement

2. VERBAL APTITUDE

Demonstrating verbal aptitude skills in English with reference to the following topics:

a. Jumbled sentences

b. Reconstructions of sentences (PQRS)

c. Sentence fillers two words

d. Idioms and phrases

e. Spotting errors

f. Writing captions for given pictures

TOTAL : 24 Hours




U19ENG201A - ENGLISH FOR ENGINEERS – II

L T P C

2 0 2 3





purposes.





giving responses.

UNIT - I



equipment





UNIT - II







UNIT - III

Collocations







UNIT - IV

Articles, adverbs






choice questions.

UNIT - V

Pronouns







TOTAL: 45 Hours



Valuation.

TEXT BOOK


EXTENSIVE READING



House Pvt. Ltd

REFERENCES






U19MAT202A - DIFFERENTIAL EQUATIONS AND VECTOR CALCULUS

L T P C

3 1 0 4


1. apply the classical methods to solve linear ordinary differential equations.

2. apply the appropriate numerical methods to solve ordinary differential

equations.

3. apply the Laplace transforms technique to solve ordinary differential

equations.

4. apply the classical method to solve partial differential equations.

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

line, surface and volume integrals.





UNIT II - NUMERICAL SOLUTION OF ORDINARY DIFFERENTIAL

EQUATIONS 12

Single Step Methods: Taylor’s series – Euler and Modified Euler methods – Fourth

order Runge – Kutta method for solving first and second order ordinary differential

equations.

Multi Step Methods: Milne’s and Adam’s predictor-corrector methods.

UNIT III - LAPLACE TRANSFORMS 12




periodic functions.





UNIT IV - PARTIAL DIFFERENTIAL EQUATIONS 12

Formation of partial differential equations – Lagrange’s linear equation – Solution of

standard types of first order partial differential equations – Linear partial differential

equations of second and higher order with constant coefficients.

UNIT V - VECTOR CALCULUS 12

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

derivative, divergence and curl – Scalar potential.

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

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

rectangles, cubes and rectangular parallelopiped.

TOTAL: 60 Hours

TEXT BOOKS

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

Hill Publishers, 1st Edition, 2018.



REFERENCES

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



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



Edition, 2018.


29th Reprint, 2017.


U19PPR205 - PROBLEM SOLVING USING PYTHON PROGRAMMING

L T P C

3 0 0 3


1. develop algorithmic solutions to simple computational problems

2. write simple Python programs

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

Python

4. develop Python programs using functions and files

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

UNIT I - ALGORITHMIC PROBLEM SOLVING 9

Need for computer languages, Generation and Classification of computers - Basic

organization of a computer, Algorithms, building blocks of algorithms (statements,

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

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

(iteration, recursion).

UNIT II - BASICS OF PYTHON PROGRAMMING 9

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

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

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

implicit/explicit type conversion.

UNIT III - CONTROL STATEMENTS AND STRINGS 9

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

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

methods and operations.

UNIT IV - FUNCTIONS AND FILES 9

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

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

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


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

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

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

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

Nested Dictionaries.

TOTAL: 45 Hours

REFERENCES

1. Ashok Namdev Kamthane, Amit Ashok Kamthane, “Programming and

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

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

Second edition, Updated for Python 3, Shroff / O’Reilly Publishers, 2016.

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

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

Education Services Pvt. Ltd., 2016.

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

Private Ltd., 2015.

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

Learning, 2012.

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

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


U19BEE206 - BASICS OF ELECTRICAL AND ELECTRONICS

ENGINEERING

L T P C

3 0 0 3


1. analyze the various DC & AC circuits and find the circuit parameters.

2. discuss the construction and working principle of DC machines.

3. discuss the construction and working principle of Transformer & AC

machines.

4. describe the various types of measuring techniques.

5. discuss the electrical systems in buildings and electrical standards for various

devices.

UNIT I - DC & AC CIRCUITS 9

DC circuits: Definition of voltage, Current, Electromotive force, Resistance, Power &

Energy, Ohms law and Kirchhoff’s Law & its applications - Series and Parallel

circuits- Star-delta transformation.

AC Circuits: Generation of alternating emf - RMS value, Average value, Peak factor

and Form factor for sinusoidal AC waveform - Series RLC circuits - Introduction to

three-phase system.

UNIT II - DC MACHINES 9

DC Generator: Construction of DC generator – Working principle of DC generator –

EMF equation – Types of DC generator- Applications.

DC Motor: Working principle of DC motor – Back EMF- Types of DC motor-

Applications.

UNIT III - TRANSFORMER & AC MACHINES 9

Transformer: Construction and working principle of transformer – EMF equation –

Types of transformers- Transformation ratio.

AC machines: Construction and working principle of single phase & three phase

induction motor- Applications.


UNIT IV - MEASURING TECHNIQUES 9

Strain measuring techniques using electrical strain gauges- Measurement of Resistance,

Inductance and Capacitance using Wheatstone, Anderson and Schering bridges-

Measurement of energy using single phase induction type energy meter –Load cells.

UNIT V - ELECTRICAL SYSTEMS IN BUILDINGS 9

Protective devices in electrical installations- Earthing for safety- Types of earthing- ISI

specifications- Types of wires, wiring systems and selection criteria - Planning

electrical wiring for building- Main and distribution boards- Layout of a substation.

TOTAL: 45 Hours

TEXT BOOKS

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

Chand & Co Ltd, 2015.

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

Revised edition 2016.

REFERENCES

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

company ltd., 3rd Edition, 2009.

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

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

limited.

3. A.K.Sawheny, “A course in Electrical and Electronics Measurement &

Instrumentation ”, DhanpatRai and Co, 9th Edition, 2012


U19CE201 - BASICS OF ENGINEERING MECHANICS

L T P C

3 1 0 4


1. apply the various methods to determine the resultant forces and its

equilibrium acting on a particle in 2d and 3d.

2. apply the concept of reaction forces (non-concurrent coplanar and

noncoplanar forces) and moment of various support systems with rigid

bodies in 2d equilibrium. reducing the force, moment, and couple to an

equivalent force - couple system acting on rigid bodies in 2d.

3. apply the concepts of locating centroids / center of gravity of various

sections/ volumes and to find out area moments of inertia for the sections and

mass moment of inertia of solids.

4. apply the concepts of frictional forces at the contact surfaces of various

engineering systems.

5. apply the various methods of evaluating kinetic and kinematic parameters of

the rigid bodies subjected to concurrent coplanar forces.

UNIT I - STATICS OF PARTICLES 9+3

Fundamental Concepts and Principles, Systems of Units, Method of Problem Solutions,

Statics of Particles -Forces in a Plane, Resultant of Forces, Resolution of a Force into

Components, Rectangular Components of a Force, Unit Vectors. Equilibrium of a

Particle- Newton’s First Law of Motion, Space and Free-Body Diagrams, Forces in

Space, Equilibrium of a Particle in Space.

UNIT II - EQUILIBRIUM OF RIGID BODIES 9+3

Principle of Transmissibility, Equivalent Forces, Vector Product of Two Vectors,

Moment of a Force about a Point, Varignon’s Theorem, Rectangular Components of

the Moment of a Force, Scalar Product of Two Vectors, Mixed Triple Product of Three

Vectors, Moment of a Force about an Axis, Couple - Moment of a Couple-Further

Reduction of a System of Forces, Equilibrium in Two - Reactions at Supports and

Connections.

UNIT III - PROPERTIES OF SURFACES AND SOLIDS 9+3

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.

UNIT IV - FRICTION 9+3

Frictional force – Laws of Coulomb friction – Angle of friction – cone of friction –

Equilibrium of bodies on inclined plane – Ladder friction.

UNIT V - DYNAMICS OF PARTICLES 9+3

Kinematics - Rectilinear Motion and Curvilinear Motion of Particles. Kinetics-

Newton’s Second Law of Motion -Equations of Motions, Dynamic Equilibrium,

Energy and Momentum Methods - Work of a Force , Kinetic Energy of a Particle,

Principle of Work and Energy, Principle of Impulse and Momentum, Impact.

TOTAL: 60 Hours

TEXT BOOKS

1. Beer Ferdinand P, Russel Johnston Jr., David F Mazurek, Philip J Cornwell,

SanjeevSanghi, Vector Mechanics for Engineers: Statics and Dynamics,

McGraw Higher Education., 11th Edition, 2017.

2. Hibbeler, R.C., “Engineering Mechanics”, Vol. 1 Statics, Vol. 2 Dynamics,

Pearson Education Asia Pvt. Ltd., (2017).

3. Vela Murali, “Engineering Mechanics-Statics and Dynamics”, Oxford

University Press, 2018.

REFERENCES

1. K.L. Kumar, “Engineering Mechanics” Tata McGraw-hill, 2017, 4th Edition

2. S.S. Bhavikatti, “ Engineering Mechanics”, New Age International

Publishers, 2006

3. R. S. Khurmi, “ Engineering Mechanics”, S. Chand Publishers, 2018.

4. Dr. N. Kotteswaran, “Engineering Mechanics – Statics & Dynamics”, Sri

Balaji Publications 2004.


U19BEE207 - BASIC OF ELECTRICAL ENGINEERING LAB

L T P C

0 0 2 1


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

circuits.

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

of electrical machines.

3. determine the value of Resistance, Inductance and Capacitance using various

bridges.

List of Experiments

1. Verification of Ohm’s law

2. Verification of Kirchhoff’s laws

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

4. Load characteristics of DC shunt motor

5. Speed control of DC shunt motor

6. Load test on single phase transformer

7. Speed control of three phase induction motor

8. Measurement of DC resistance by Wheatstone bridge.

9. Measurement of inductance using Anderson bridge

10. Measurement of capacitance using Schering bridge

11. Measurement of earth pit resistance using megger

TOTAL: 30 Hours


U19PCL208A - PHYSICS AND CHEMISTRY LABORATORY – II

L T P C

0 0 3 1.5




2. analyse the two given brass samples and find which one possesses more

copper content in the brass samples and estimate the amount of calcium oxide

in cement.

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

applications. Analyse the two given water samples and find which one

possesses more dissolved oxygen and analyse the two given waste waters and

find which one possesses more chromium content.



pendulum


bridge.


4. Determination of wavelength of prominent colors in mercury spectrum using

a spectrometer.

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

bending method.

6. Determination of bandgap of a semiconductor diode.



2. Estimation of calcium oxide in cement by EDTA method.

3. Determination of dissolved oxygen of water by Winkler’s method



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

method.

TOTAL: 45 Hours


U19PPL211 - PYTHON PROGRAMMING LABORATORY

L T P C

0 0 2 1


1. implement the algorithms using basic control structures in python

2. develop python programs to use functions, strings and data structures to solve

different types of problems

3. implement persistent storing information through file operations

List of Experiments

1. Draw flowchart using any open source software.

2. Implement programs with simple language features.

3. Implement various branching statements in python.

4. Implement various looping statements in python.

5. Develop python programs to perform various string operations like

concatenation, slicing, indexing.

6. Implement user defined functions using python.

7. Implement recursion using python.

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

9. Implement dictionary and set in python

10. Implement python program to perform file operations.

TOTAL: 30 Hours



L T P C

0 0 2 0





reasoning.


to specific topics.

List of Experiments



following topics:


b. Partnership

c. Chain rule

d. Ages


f. Geometry

g. Area and volume

h. Data arrangement

2. VERBAL APTITUDE

Demonstrating verbal aptitude skills in English with reference to the following

topics:





e. Spotting errors


TOTAL : 24 Hours




L T P C

1 0 2 2





purposes.





giving responses.

UNIT - I



equipment





UNIT - II







UNIT - III

Collocations







UNIT - IV

Articles, adverbs






choice questions.

UNIT - V

Pronouns







TOTAL: 30 Hours



Valuation.

TEXT BOOK


EXTENSIVE READING



House Pvt. Ltd

REFERENCES






U19MAT202B - DISCRETE MATHEMATICS

L T P C

3 1 0 4


1. check the validity of the arguments in the field of data base and artificial

intelligence using the rules of logic.

2. apply the concept of logical theory to validate the correctness of software

specifications.

3. interpret and analyze the ordered structure using the concepts of relations and

lattices.

4. produce an output for each input in computer programming and Turing

machine.

5. apply the concepts of group theory in the field of coding theory and

cryptography.

UNIT I - PROPOSITIONAL CALCULUS 12

Propositions – Logical connectives – Compound propositions – Conditional and

biconditional propositions – Truth tables – Tautology and contradiction –

Contrapositive – Logical equivalences and implications – De Morgan’s laws – Normal

forms – Principal conjunctive and disjunctive normal form - Rules of inference –

Arguments – Validity of arguments.

UNIT II - PREDICATE CALCULUS 12

Predicates – Statement function – Variables – Free and bound variables – Quantifiers –

Universe of discourse – Logical equivalences and implications – Implications for

quantified statements – Theory of inference – The rules of universal specification and

generalization – Validity of arguments.

UNIT III - RELATIONS AND LATTICES 12

Relations - Types of relations and their properties – Equivalence relations – Partial

order relation – Equivalence Classes – Partition of a set – Matrix representation of a

relation – Representation of relations by graphs – Poset – Hasse diagram – Lattices and

their properties.


UNIT IV - FUNCTIONS 12

Definition – Classification – Types of functions – Examples – Compositions of

functions – Inverse functions – Characteristic function of a set – Permutation functions.

UNIT V - GROUPS AND GROUP CODES 12

Algebraic systems – Groups – Cyclic groups – Subgroups – Group homomorphism –

Cosets – Lagrange’s theorem – Normal subgroups – Rings (Definition and examples

only) – Codes and group codes – Basic notions of error detection and error correction.

TOTAL: 60 Hours

TEXT BOOK

1. T. Veerarajan, “Discrete Mathematics”, McGraw Hill Publishers, 1st Edition,

21st Reprint, 2015.

REFERENCES

1. J. P. Tremblay and R. Manohar, “Discrete Mathematical Structures with

Applications to Computer Science”, McGraw Hill Publishers, 1st Edition,

2017.

2. K. H. Rosen, “Discrete Mathematics and Its Applications”, McGraw Hill

Publishers, 7th Edition, 2017.

3. B. Kolman, R. C. Busby and S. C. Ross, “Discrete Mathematical Structures”,

Pearson Publishers, 6th Edition, 2006.


U19PHY203A - MATERIALS SCIENCE

L T P C

2 0 0 2


1. differentiate the electrical and thermal conductivity of metals.

2. elucidate the classification and theory of semiconducting materials.

3. distinguish the types of magnetic materials.

4. explain the optical data storage techniques.

5. discuss the novel properties of metallic glasses and nanomaterials.

UNIT I - CONDUCTING MATERIALS 6

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

Electrical conductivity - definition and expression for electrical conductivity - thermal

conductivity - definition and expression for thermal conductivity - Wiedemann - Franz

law and Lorentz number.

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

of energy bands - Fermi energy and Fermi distribution function - Effect of temperature

on Fermi function - Density of energy states - carrier concentration in metals.

UNIT II - SEMICONDUCTING MATERIALS 6

Intrinsic semiconductor - Energy band diagram of intrinsic semiconductors (at T= 0

K and T > 0 K) - Expression for number of electrons in conduction band - Expression

for number of holes in valence band (no derivation) - Law of mass action and intrinsic

carrier concentration - Fermi level - Variation of Fermi level with temperature -

electrical conductivity - band gap determination.

Extrinsic semiconductors - Draw backs of intrinsic semiconductors – Types of

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

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

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

Determination of Hall coefficient – Applications.


UNIT III - MAGNETIC MATERIALS 6

Basic definitions - Magnetic moment - Magnetic field - Magnetic field intensity -

Magnetic permeability - Magnetization - Intensity of magnetization - Magnetic

susceptibility.

Types of magnetic materials - Dia , Para , and Ferromagnetic materials - Domain

theory and origin of domains – Anti ferromagnetic materials - Ferrimagnetic materials

or Ferrites - Structure, properties and applications - hysteresis - Hard and soft magnetic

materials.

UNIT IV - OPTOELECTRONIC DEVICES AND OPTICAL DATA STORAGE

TECHNIQUES 6

Optoelectronic devices - LED - Organic LED - Polymer light emitting materials -

Plasma light emitting devices - LCD - Laser diodes.

Optical data storage techniques - DVD - Blue ray disc - Holographic data storage.

UNIT V - NEW ENGINEERING MATERIALS 6

Metallic glasses -Preparation, properties and applications.

Nanoscience and Nanotechnology - Significance of nanoscale - different types of

nanostructures (0-D, 1-D, 2-D and 3-D) - Fabrication of nanomaterials - Ball milling

and Chemical vapour deposition technique (CVD).

Carbon nanotubes - structure - properties and applications - fabrication - pulsed laser

deposition method.

TOTAL: 30 Hours

TEXT BOOKS

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

(2015)

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

India Pvt. Ltd., Delhi, 2012.

REFERENCES

1. Shanthi C, ‘Physics of materials’ Sonaversity , Sona College of Technology,

Salem (Revised Edition 2016).

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

New Delhi.


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

Chennai, Second Edition (2007)

4. M. Arumugam, ‘Materials Science’ Anuradha Publications, Kumbakonam,

(2006).


U19CHE204A - APPLIED CHEMISTRY – II

L T P C

2 0 0 2


1. analyze the characteristics, conducting mechanism, synthesis and applications

of conducting polymers.

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

storage devices for electronic appliances.

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

materials in electronic devices.

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

5. outline the principles and applications of photochemistry and spectroscopy.

UNIT I - CONDUCTING POLYMERS 6

Introduction – Structural characteristics and doping concept in metals and metal oxide

nanoparticles - Charge carriers and conducting mechanism – Classification of

conducting polymers: Intrinsic and extrinsic conducting polymers – Synthesis of

conducting polymers - bulk and solution polymerization – Applications of conducting

polymers in corrosion protection and sensors.

UNIT II - MODERN ENERGY DEVICES FOR ELECTRONIC APPLIANCES

6

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 – Hydrogen oxygen Fuel Cells.

UNIT III - CHEMISTRY OF ORGANIC ELECTRONIC MATERIALS 6

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 Diodes

(Oleds) – Construction - Working principle and applications – Organic transistors –

Construction - Working principle and applications in electronic Industries.


UNIT IV - ELECTROCHEMICAL PROCESSES IN ELECTRONIC

INDUSTRIES 6

Electroplating – Principle and process - Plating parameters - Current and energy

efficiency - Electroplating of nickel - Fundamentals of electroless deposition –

Electroless plating of nickel - fabrication of PCB’s - Electrochemical etching of copper

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

aluminium anodizing - Chemical sensors - Optical and heat sensors – definitions and

applications.

UNIT V - PHOTOCHEMISTRY AND SPECTROSCOPY 6

Photochemistry: Laws of photochemistry - Grotthuss–Draper law, Stark–Einstein law

and Lambert-Beer Law. Quantum efficiency – Determination - Photo processes -

Fluorescence, Phosphorescence, Chemiluminescence and Photo-sensitization.

Spectroscopy: Electromagnetic spectrum - Absorption of radiation – Electronic,

Vibrational and rotational transitions. UV-Visible and IR spectroscopy – Principles,

instrumentation (Block diagram only) and applications.

TOTAL: 30 Hours

TEXT BOOKS

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

New Delhi , 2010.

2. T. Maruthavanan et al., “Applied Chemistry-II”, Sonaversity, Sona College

of Technology, Salem, 2019.

REFERENCES

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

New Delhi (2008).

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

2004.

3. Hagen Klauk, “Organic Electronics: Materials, Manufacturing and

Applications”, Wiley-VCH, 2006.

4. Douglas A Skoog, Donald M West, James Holler F Stanley, R Crouch, “

Fundamentals Of Analytical Chemistry”, Thomson learning, 2006.


U19CS201 - PROGRAMMING IN C

L T P C

3 0 0 3


1. write simple C programs using console input and output functions

2. write C programs using arrays, decision making and looping statements

3. design and develop simple application using functions and pointers.

4. design and develop real-time applications using structures and unions

5. design and develop real-time applications using file operation

UNIT I - C PROGRAMMING BASICS 9

Structure of a C program - C Character set, Identifies and Keywords, Data Types,

Declarations, Expressions, Statements and Symbolic constants, Operators – Arithmetic

Operators – Unary operators – Relational and Logical Operators – Assignment

operators – Conditional operators. Unformatted and formatted Input/Output functions,

pre-processor directives and storage classes.

UNIT II - CONTROL STATEMENTS, ARRAYS AND STRING 9

Conditional statements, Unconditional statements, branching and looping statements -

Arrays – Initialization – Declaration – One dimensional and Two dimensional arrays.

String- String operations – String Arrays. Simple programs- sorting- searching – matrix

operations

UNIT III - FUNCTIONS AND POINTERS 9

Function – Library functions and user-defined functions – Function prototypes and

function definitions – Call by value – Call by reference – Recursion – Pointers -

Definition – Initialization – Pointers arithmetic – Pointers and arrays – Pointers and

Functions - Dynamic memory Allocation - Example Programs.

UNIT IV - STRUCTURES AND UNIONS 9

Need for structure data type – structure definition – Structure declaration – Structure

within a structure – Passing structures to functions – Array of structures – Pointers to

structures – Union - Programs using structures and Unions


UNIT V - FILE MANIPULATIONS 9

Files-File operations- Binary files and text files – Types of File processing-Sequential

access -Random Access File - Command line arguments.

TOTAL: 45 Hours

TEXT BOOKS

1. Deitel and Deitel, “C How to Program”, Pearson Education, New Delhi, 2011.

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

REFERENCES

1. Kernighan,B.W and Ritchie,D.M, “The C Programming language”, Second

Edition, Pearson Education, 2006.

2. Byron S Gottfried, “Programming with C”, Schaum’s Outlines, Second

Edition, Tata McGraw-Hill, 2006.

3. Anita Goel and Ajay Mittal, “Computer Fundamentals and Programming in

C”, Dorling Kindersley (India) Pvt. Ltd., Pearson Education in South Asia,

2011.

4. E. Balagurusamy, “Programming in ANSI C”, seventh edition, Tata McGraw

Hill, 2016.



L T P C

2 0 2 3



components.







pyramids.






and dimensioning.









(CAD software) 12










(CAD software) 12





UNIT V – CONVERSION OF ISOMETRIC VIEWS TO ORTHOGRAPHIC

VIEWS (Manual drafting) 12





TOTAL: 60 Hours

TEXT BOOKS





REFERENCES






Publications, 1998.


McGrawhill 2002.



L T P C

0 0 2 1


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


CO2 Fabricate the different simple products in above trades.

CO3 Produce different joining of metals.

List of Experiments

SECTION 1: FITTING






SECTION 3: WELDING






TOTAL: 30 Hours


U19CS202 – C PROGRAMMING LABORATORY

L T P C

0 0 2 1


1. design and develop simple programs using branching, looping statements

2. develop programs using functions, arrays, structures and string handling

3. write programs using pointers and dynamic memory allocation and file

handling

List of Experiments

1. Programs using Input, Output and assignment statements.

2. Programs using Branching statements

3. Programs using Looping statements

4. Programs using Functions

5. Programs using Arrays

6. Programs using Structures

7. Programs using Strings

8. Programs using Pointers (both data pointers and function pointers)

9. Programs using dynamic memory allocation

10. Programs using Recursion

11. Programs using Files

12. Develop a Mini Project for real time application

TOTAL: 30 Hours


U19GE201 - BASIC APTITUDE – II

L T P C

0 0 2 0


CO1 Solve more elaborate problems than those in BA-I in specific areas of


CO2 Solve problems of greater intricacy than those in BA-I in stated areas of

logical reasoning.

CO3 Demonstrate higher than BA-I level verbal aptitude skills in English with

regard to specific topics.

List of Experiments



following topics:


b. Partnership

c. Chain rule

d. Ages


f. Geometry

g. Area and volume

h. Data arrangement

2. VERBAL APTITUDE






e. Spotting errors


TOTAL : 24 Hours




L T P C

1 0 2 2





purposes.





giving responses.

UNIT - I



equipment





UNIT - II







UNIT - III

Collocations







UNIT - IV

Articles, adverbs






choice questions.

UNIT - V

Pronouns







TOTAL: 30 Hours



Valuation.

TEXT BOOK


EXTENSIVE READING



House Pvt. Ltd

REFERENCES







L T P C

3 1 0 4




















periodic functions.
















TOTAL: 60 Hours

TEXT BOOKS





REFERENCES






Edition, 2018.


29th Reprint, 2017.


U19PHY203B - PHYSICS FOR ECE

L T P C

2 0 0 2


1. illustrate the divergence and curl of electrostatic fields.

2. explain polarization process in dielectric materials and their temperature and

frequency dependence and the causes of dielectric breakdown.

3. illustrate the divergence and curl of magnetic field.

4. explain the types of magnetic materials.

5. discuss the novel properties of metallic glasses and nanomaterials.

UNIT I - ELECTROSTATICS 6

Electric field - Coulomb’s Law – Electric field intensity – Field due to discrete and

continuous charges.

Divergence and curl of Electrostatic fields – Electric lines of forces – Electric flux –

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

UNIT II - DIELECTRIC MATERIALS 6

Basic definitions – Electric dipole – Electric dipole moment – Electric field – Electric

displacement vector - Electrical susceptibility – Dielectric constant.

Dielectric polarization - Electronic, ionic, orientation and space charge polarization -

Frequency and temperature dependence of polarization - Internal field – Clausius-

Mosotti relation ( no derivation) - Dielectric loss - Dielectric breakdown - Uses of

dielectric materials (capacitor and transformer) .

UNIT III - MAGNETOSTATICS 6

Magnetic Lorentz force – Magnetic fields – Magnetic Lorentz force – Force

experienced by current carrying conductor in magnetic field.

Biot - Savart Law – Steady currents – Magnetic field due to steady current.

Divergence and Curl of B – Straight line currents – Ampere’s circuital law –

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

Magnetostatics and electrostatics.


UNIT IV - MAGNETIC MATERIALS 6

Basic definitions - Magnetic moment - Magnetic field - Magnetic field intensity -

Magnetic permeability - Magnetization - Intensity of magnetization - Magnetic

susceptibility

Types of magnetic materials - Dia , Para and Ferromagnetic materials - Domain

theory and origin of domains – Anti ferromagnetic materials - Ferrites - Structure,

properties and applications - hysteresis - Hard and soft magnetic materials.

UNIT V - NEW ENGINEERING MATERIALS 6

Metallic glasses -Preparation, properties and applications.


nanostructures (0-D, 1-D, 2-D and 3-D) - Fabrication of nanomaterials - Ball milling


Carbon nanotubes - structure - properties and applications - fabrication - pulsed laser

deposition method.

TOTAL: 30 Hours

TEXT BOOKS

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

Delhi (2015)

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

University Press 2017.

REFERENCES

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

(Revised Edition 2018 ).

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

India Pvt. Ltd., Delhi, 2019

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

(2004) New Delhi.

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

Ltd., Chennai, Second Edition (2007)



L T P C

2 0 2 3



components.







pyramids.






and dimensioning.








(CAD software) 12











(CAD software) 12






drafting) 12





TOTAL: 60 Hours

TEXT BOOKS




REFERENCES






Publications, 1998.


McGrawhill 2002.


U19EC201 – ELECTRONIC DEVICES AND CIRCUITS

L T P C

2 0 2 3


1. bias the transistors for amplification purpose

2. analyse the working principle of fets

3. analyse the mid-frequency operation of bjt amplifier circuits

4. calculate cut-off frequencies and bandwidth of bjt amplifier circuit

5. design the different types of power supply.

UNIT I - FIELD EFFECT TRANSISTORS 06+06

JFETs – Drain and Transfer characteristics -Current Equations - Pinch off voltage and

its significance- MOSFET- Characteristics- Threshold voltage -Channel length

modulation, Characteristics – Comparison of MOSFET with JFET.

UNIT II - TRANSISTOR BIASING 06+06

BJT – Need for biasing – Stability factor - Fixed bias circuit, Load line and quiescent

point. Variation of quiescent point due to h FE variation within manufacturers tolerance

- Stability factors - Different types of biasing circuits - Method of stabilizing the Q

point - Advantage of Self bias (voltage divider bias) over other types of biasing- self

bias as a constant current circuit.

UNIT III - MID-BAND ANALYSIS OF SMALL SIGNAL AMPLIFIERS 06+06

CE, CB and CC amplifiers - Method of drawing small-signal equivalent circuit -

Miller’s theorem - Comparison of CB, CE and CC amplifiers and their uses - Methods

of increasing input impedance using Darlington connection and bootstrapping.

UNIT IV - FREQUENCY RESPONSE OF AMPLIFIERS 06+06

General shape of frequency response of amplifiers - Definition of cut-off frequencies

and bandwidth - Low frequency analysis of amplifiers to obtain lower cut-off frequency

Hybrid equivalent circuit of BJTs - High frequency analysis of BJT amplifiers to obtain

upper cut-off frequency – Gain Bandwidth Product.


UNIT V - RECTIFIERS AND POWER SUPPLIES 06+06

Classification of power supplies, Rectifiers - Half-wave, full-wave and bridge rectifiers

with resistive load. Analysis for V dc and ripple voltage with C, L, LC and CLC filters.

TOTAL: 60 Hours

TEXT BOOKS

1. Millman and Halkias, “ Integrated Electronics”, 2nd Edition, Tata Mc Graw

Hill, 2010.

2. Anil K. Maini and Varsha Agrawal, “Electronics Devices and Circuits”,

First Edition, Wiley Publications, 2009.

REFERENCES

1. Y.N. Bapat, “Electronic devices and circuits, Discrete and Integrated”, 3rd

Edition, Tata Mc Graw Hill, 2011

2. S. Salivahanan, N. Suresh Kumar and A. Vallavaraj, “ Electronic Devices

and Circuits”, 2nd Edition, TMH, 2007


U19EC202 – CIRCUIT THEORY

L T P C

3 0 0 3


1. apply basic laws to calculate the voltage, current and power for ac and dc

electric circuit.

2. identify the network topologies of circuits.

3. analyze the dc circuits using network theorems.

4. analyze the resonant circuits and coupled circuits.

5. analyze the two port networks for various parameters.

UNIT I - BASICS OF CIRCUIT ANALYSIS 9

Review on mesh and nodal analysis – Star Delta Transformation Techniques – Phase

Relationship For R, L And C – Impedance, Admittance for R, L And C Elements –

Concept of Duality – Dual Network – Graphs of A Network – Trees, Twig, Link and

Branches – Incidence Matrix – Tie-Set Matrix Formation and Cut-Set Matrix

Formation of a Graph.

UNIT II - CIRCUIT THEOREMS 9

DC analysis : Superposition Theorem – Thevenin's Theorem – Norton’s Theorem –

Reciprocity Theorem – Maximum Power Transfer Theorem – Tellegen's Theorem –

Millman's Theorem.

UNIT III - SERIES RESONANT CIRCUITS AND COUPLED CIRCUITS 9

Resonances: Natural Frequency and Damping Ratio – Series Resonance – Impedance

and Phase Angle of a Series Resonance Circuit – Voltages and Currents in a Series

Circuit – Quality Factor.Coupled Circuits: Self-Inductance – Mutual Inductance – Dot

Conversion – Coupling Coefficient – Ideal Transformer.

UNIT IV - TRANSIENTS 9

Steady State and Transient Response – DC Response of an R-L Circuit – DC Response

of an R-C Circuit – DC Response of an R-L-C Circuit – Sinusoidal Response of R-L

Circuit – Sinusoidal Response of R-C Circuit – Sinusoidal Response of R-L-C Circuit.


UNIT V - TWO PORT NETWORKS 9

Two port Network – Open Circuit Impedance (Z) Parameters – Short Circuit

Admittance (Y) Parameters –Transmission (ABCD) Parameters – Hybrid (h)

Parameters –Inter Relationship of Different Parameters.

TOTAL: 45 Hours

TEXT BOOK

1. A Sudhakar, Shyammohan S Palli, "Circuits and Networks Analysis and

Synthesis", Mc-Graw Hill, 2019.

REFERENCES

1. Ravish R Singh,” Networks Analysis and Synthesis”, Mc-Graw Hill

Education, 2019.

2. M.L. Soni and J.C. Gupta, A Course in “Electrical Circuits Analysis”,

Dhanpat Rai & Co.(P), 2015.

3. G.K. Mithal and Ravi Mittal, “Network Analysis”, Khanna Khanna Pub,

2017.

4. Umesh Sinha, L.P.Singh,”Circuit and Field Theory”, Tech India

Publication Series, 2016.

5. Abhijit Chakrabarti, “Circuit Theory Analysis and Synthesis”, Dhanpat Rai

& CO. (Pvt).Ltd, Educational and technical publishers.



L T P C

0 0 2 1


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


CO2 Fabricate the different simple products in above trades.

CO3 Produce different joining of metals.

List of Experiments

SECTION 1: FITTING






SECTION 3: WELDING






TOTAL: 30 Hours


U19PCL208B – PHYSICS AND CHEMISTRY LABORATORY

L T P C

0 0 4 2






sample.


applications. Determine the molecular weight of various polymers, analyse

the quality of brass by estimating copper and calculate the amount of

chromium present in the given sample of water.











using diode laser.


bending method.


pendulum


bridge.











NaOH)




TOTAL: 60 Hours



L T P C

0 0 2 0





reasoning.


to specific topics.

List of Experiments



following topics:


b. Partnership

c. Chain rule

d. Ages


f. Geometry

g. Area and volume

h. Data arrangement

2. VERBAL APTITUDE






e. Spotting errors


TOTAL : 24 Hours




L T P C

1 0 2 2





purposes.





giving responses.

UNIT - I



equipment





UNIT - II







UNIT - III

Collocations







UNIT - IV

Articles, adverbs






choice questions.

UNIT - V

Pronouns







TOTAL: 30 Hours



Valuation.

TEXT BOOK


EXTENSIVE READING



House Pvt. Ltd

REFERENCES







L T P C

3 1 0 4




















periodic functions.
















TOTAL: 60 Hours

TEXT BOOKS





REFERENCES






Edition, 2018.


29th Reprint, 2017.


U19PHY203C - PHYSICS FOR ELECTRICAL ENGINEERS

L T P C

3 1 0 4


1. discuss the dual nature of matter and radiation and its applications.



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

5. elucidate the principle of optical fiber communication and their applications.

UNIT I - QUANTUM PHYSICS ` 12

Particle nature of radiation: Drawbacks of classical theory-Origin of quantum

mechanics-Dual nature of matter and radiation - Particle nature of radiation - Black

body radiation-Planck Hypothesis - Planck radiation formula (no derivation) –

Compton effect – Explanation based on quantum theory-Expression for Compton shift

(no derivation) –Wave nature of matter - de Broglie waves - Schrödinger’s time

independent and time dependent wave equations- Physical significance of wave

function-Energy and wave function of an electron trapped in one dimensional box.

Application of wave nature of particle- Electron microscope- Comparison of optical

and electron microscope - Transmission electron microscope – Scanning electron

microscope- Limitations of electron microscope

UNIT II - CONDUCTING MATERIALS 12

Basics of conducting materials: Usage of conducting materials – basic definitions (

electrical resistance-conductance-resistivity - conductivity) - classical free electron

theory of metals – postulates of classical free electron theory – microscopic form of

Ohm’s law - Electrical conductivity - definition and expression for electrical

conductivity- thermal conductivity – definition and expression for thermal conductivity

- Wiedemann – Franz law and Lorentz number – Success and failure of classical free

electron theory.

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

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

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

energy states – carrier concentration in metals.


UNIT III - SEMICONDUCTOR PHYSICS 12

Fundamentals of semiconductors: Properties of semiconductors-Classification of

semiconductors – Intrinsic and extrinsic semiconductors - Elemental and compound

semiconductors.

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

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

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

action and intrinsic carrier concentration - Fermi level and its uses - Fermi level –

Variation of Fermi level with temperature – electrical conductivity – band gap

determination– Draw backs of intrinsic semiconductors

Extrinsic semiconductors: Types of extrinsic semiconductors – ‘n’-type and ‘p’-type

semiconductors – Energy band diagram of ‘n’ type and ‘p’ type semiconductors (at T=

0 K and T > 0 K) – carrier concentration of extrinsic semiconductors (Qualitative

Treatment only) – variation of Fermi level with temperature and impurity concentration

– Hall effect –Determination of Hall coefficient – Applications.

UNIT IV - PN JUNCTION DIODE AND OPTOELECTRONIC DEVICES 12

Theory of diode: Formation of p-n junction - p-n junction diode- p-n junction diode

under forward bias- p-n junction diode under reverse bias- Half wave rectifier- full

wave rectifier- bridge rectifier-Zener diode

Display devices: Photo diodes- types of photo diodes- Photo detector-PIN diode-

Avalanche photo diode-Light emitting diode (LED) – Liquid Crystal Display (LCD)

principle, construction and working - Solar cell- principle –construction- working-

Photo conductive cell –structure and operation, V I characteristics of photo transistor,

Opto coupler, DIAC, TRIAC & CCD

UNIT - V FIBER OPTICS 12

Optical communication system: Fiber optics-Significance of optical fibers- Basic

terms (reflection, refraction, refractive index, Snell’s law, total internal reflection) –

Derivation for acceptance angle, numerical aperture and fractional index change-

Classification of fibers (based on materials, number of modes and refractive index

profile)

Optical fiber communication: Block diagram of optical fiber communication-

Advantages of optical fiber communication- Fiber optic sensors (Temperature and

displacement sensors).

TOTAL: 60 Hours


TEXT BOOKS


(2015)

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

Press 2017.

REFERENCES

1. Engineering Physics, Sona College of Technology, Salem (Revised Edition

2016).

2. Physics for Electrical and Electronics Engineering, Sonaversity, Sona College

of Technology, Salem (Revised Edition 2016).


New Delhi.




U19EE201 - ELECTRIC CIRCUITS AND ELECTRON DEVICES

L T P C

3 1 0 4


1. discuss the DC and AC fundamentals of electric circuits.

2. solve the complex circuits using mesh analysis, nodal analysis and network

theorems.

3. analyse resonance circuits and solve problems on three phase balanced and

unbalanced loads.

4. discuss the configurations and analyse the performance of BJT, UJT JFET,

MOSFET and IGBT.

5. analyse the applications of electron devices.

UNIT I - DC AND AC FUNDAMENTALS 12

DC fundamentals – resistance in series and parallel circuits - star – delta conversions –

voltage and current divisions, source transformations - problems.

AC fundamentals – RMS and average values of sinusoidal waveform - RL, RC and

RLC series circuits-problems.

UNIT II - NETWORK ANALYSIS AND THEOREMS 12

Mesh current and node voltage analysis - Superposition theorem -Thevenin’s and

Norton’s theorems – Maximum power transfer theorem – Reciprocity theorem -

problems (only DC networks).

UNIT III - RESONANCE AND THREE PHASE CIRCUITS 12

Series and parallel resonance – Frequency response – quality factor and bandwidth-

three phase balanced and unbalanced systems – analysis of three phase 3-wire and 4-

wire circuits with star and delta connected loads– power and power factor

measurements in three phase circuits by two wattmeter method -problems.

UNIT IV - TRANSISTOR 12

Principle of operation of NPN and PNP transistors-transistor as an amplifier-study of

CE,CB and CC configurations and characteristics - comparison - relationship between


amplification factors - operation and characteristics of UJT, JFET and MOSFET–

working principle of IGBT - comparison of BJT with JFET and MOSFET.

UNIT V - ELECTRON DEVICES AND THEIR APPLICATIONS 12

Construction and characteristics of SCR and its two transistor analogy –SCR triggering

methods-construction and operation of DIAC and TRIAC - comparison of SCR with

DIAC and TRIAC -SCR as rectifier and inverter (single phase) - chopper – types of

chopper- control strategies of chopper - cycloconverter.

TOTAL: 60 Hours

TEXT BOOKS

1. Sudhakar A and Shyam Mohan SP, “Circuits and Network Analysis

and Synthesis”, McGraw Hill Education (India) Private Limited, New Delhi

(2015).

2. Padma S, Senthil Kumar M, Sabeenian R.S and Paramasivam M.E, “Electric

Circuits and Electron Devices” Sonaversity (2008).

REFERENCES

1. Arumugam M and Premakumaran N, “Electric Circuit Theory”, Khanna

Publishers, 12th edition, (2017).

2. Chakrabarti A, “Circuit Theory Analysis and synthesis”, Dhanpath Rai &

Sons, 7th edition, New Delhi, (2018).

3. Salivahanan S, Suresh Kumar N and “Electronic Devices and Circuits”,

McGraw Hill Education (India) Private Limited, 4th edition, New Delhi

(2016).

4. Bimbhra P.S, “Power Electronics”, Khanna Publishers, 6th edition, New Delhi

(2018).


U19EE202 - MEASUREMENTS AND INSTRUMENTATION

L T P C

3 0 0 3


1. discuss the static and dynamic characteristics and define various errors.

2. derive torque equation for different types of meters.

3. calculate R, L, and C using bridges.

4. explain types of transducers storage and display devices.

5. explain data acquisition systems using transducers and sensors.

UNIT I - INTRODUCTION 9

Functional elements of an instrument – static characteristics: true value, static error,

static correction, reproducibility, drift, repeatability, noise, signal to noise ratio,

accuracy and precision, sensitivity, linearity, threshold, dead zone, resolution. Dynamic

characteristics: speed of response, fidelity, lag, and dynamic error – errors: gross error,

systematic error and random error – statistical evaluation of measurement data –

standards and calibration.

UNIT II - ELECTRICAL AND ELECTRONICS INSTRUMENTS 9

Principle and operation of analog voltmeters and ammeters: moving iron: attraction and

repulsion type instruments. Moving coil instruments; PMMC, dynamometer type,

torque equation – single phase dynamometer type watt meter: torque expression, errors

– single phase induction type energy meters – measurement of power using instrument

transformers – single phase electro-dynamometer power factor meters and Weston

frequency meter.

UNIT III - BRIDGES & INTERFERENCE TECHNIQUES 9

DC bridges: Wheatstone bridge, Kelvin double bridge – AC bridges: Anderson,

Schering, Wein - interference & screening – grounding techniques – Measurement of

earth resistance.

UNIT IV - DIGITAL INSTRUMENTS AND DISPLAY DEVICES 9

Digital voltmeter: ramp, integrating and successive approximation – Digital multi-

meter – Dot matrix display, LED and LCD display, digital energy meter, Digital


Storage Oscilloscope (DSO) – digital printers and plotters – Recorders: X-Y graphic

recorders - Special instruments: measurement of solar radiation and Wind velocity.

UNIT V - TRANSDUCERS AND SENSORS 9

Transducers – selection of transducers – resistive, capacitive and inductive transducers

– measurement of temperature – RTD, thermistors and thermocouples – piezoelectric

transducers – digital transducers – optical encoders – Introduction to data acquisition –

Sensors: Temperature, Infrared.

TOTAL: 60 Hours

TEXT BOOKS

1. A.K.Sawhney, “A Course in Electrical & Electronic Measurements

&Instrumentation”, DhanpatRai and Co, 7th Edition, 2015.

2. R.K.Rajput, “Electrical Measurements and Measuring Instruments”, S.Chand

and Company Pvt. Ltd., Second Edition, 2013.

REFERENCES

1. E.O.Doebelin, “Measurement Systems – Application and Design”, Tata

McGraw Hill Publishing company, 2003.

2. D.V.S. Moorthy, “Transducers and Instrumentation”, Prentice Hall of India

Pvt Ltd, 2007.

3. J. B. Gupta, “A Course in Electronic and Electrical Measurements”, S. K.

Kataria & Sons, Delhi, 2003.


U19PHL210 - PHYSICS LABORATORY

L T P C

0 0 3 1.5


1. apply the principles of optics and elasticity to determine the Engineering

properties of materials.

2. apply the principles of electronics, electricity and thermal physics to determine

the Engineering properties of materials.


applications.

List of Experiments










using diode laser



bridge.

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

Disc apparatus.

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

11. V-I Characteristics of PN junction diode

12. V-I Characteristics of Zener diode

13. Performance analysis of half wave rectifier.

14. Performance analysis of bridge rectifier.

TOTAL: 45 Hours


U19EE203 - ELECTRIC CIRCUITS AND ELECTRON DEVICES

LABORATORY

L T P C

0 0 3 1.5


1. calculate electrical parameters of DC circuits using basic circuital laws and to

determine the loop currents and nodal voltages of DC circuits.

2. apply various circuit theorems to solve complex DC networks.

3. analyze the performance characteristics of switching devices, converter

circuits, relaxation oscillator and controlled rectifier.

List of Experiments

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

2. Calculation of Mesh currents and Node voltages

3. Verification of Superposition Theorem

4. Verification of Thevenin’s and Norton’s Theorems

5. Verification of Maximum Power Transfer Theorem

6. Analysis of RLC series and parallel circuits

7. Measurement of power and power factor by two wattmeter method

8. Analysis of I/O characteristics of BJT with CE configuration

9. Performance analysis of relaxation oscillator

10. Performance analysis of JFET and MOSFET

11. Performance analysis of DIAC and TRIAC

12. Analysis of single phase controlled rectifier

TOTAL : 45 Hours



L T P C

0 0 2 0


CO1: solve more elaborate problems than those in BA-I in specific areas of


CO2: solve problems of greater intricacy than those in BA-I in stated areas of logical

reasoning.

CO3: demonstrate higher than BA-I level verbal aptitude skills in English with


List of Experiments



following topics:


b. Partnership

c. Chain rule

d. Ages


f. Geometry

g. Area and volume

h. Data arrangement

2. VERBAL APTITUDE






e. Spotting errors


TOTAL : 24 Hours



U19MAT202E - PROBABILITY AND STATISTICAL QUALITY CONTROL

L T P C

3 1 0 4


1. apply the concepts of probability, random variable and their properties to

generate the moments.

2. fit the suitable distribution and its properties to the real world problems and

interpret the results.

3. apply the concepts of joint probability distribution and its properties to find the

covariance and transformation of random variables.

4. apply the various designs of experiments to find cause-and-effect relationships.

5. apply the process control techniques to control and maintain the quality of the

product.

UNIT I - RANDOM VARIABLES 12

Discrete and continuous random variables – Moments – Expectation – Moment

generating function and its properties.

UNIT II - PROBABILITY AND DISTRIBUTIONS 12

Binomial, Poisson, Geometric, Uniform, Exponential and Normal distributions.

UNIT III - TWO DIMENSIONAL RANDOM VARIABLES 12

Joint distributions – Marginal and conditional distributions – Covariance – Correlation

– Central limit theorem.

UNIT IV - DESIGN OF EXPERIMENTS 12

Analysis of variance – One way classification – Completely randomised design – Two

way classification – Randomised block design – Latin square.

UNIT V - STATISTICAL QUALITY CONTROL 12

Control charts for measurements ( X and R charts) - Control charts for attributes, p, c

and np Charts – Examples of application of statistical control charts in garment

industry.


TOTAL: 60 Hours

TEXT BOOK

1. T. Veerarajan, “Probability, Statistics and Random Processes with Queueing

Theory and Queueing Networks”, McGraw Hill Publishers, 4th Edition, 7th

reprint, 2018.

REFERENCES

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

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

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

Edition, 2012.

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

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

4. S. Ross, “A first course in probability”, Pearson Publishers, 9th Edition,

2019.

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

Universal Book Stall Publishers, Reprint, 2003.

6. W. Feller, “An Introduction to Probability Theory and its Applications”, Vol.

1, 3rd Edition, Wiley Publishers, 2008.


U19PHY203E - ENGINEERING PHYSICS- II

L T P C

3 0 0 3



2. discuss the three moduli of elasticity in detail.

3. apply hydrodynamic principles for the flow of liquids.

4. elucidate the elastic, anelastic and visco-elastic behaviour of materials.

5. evaluate the novel properties of phase change materials, shape memory

polymers and nanomaterials.

UNIT I - CONDUCTING MATERIALS 9

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

resistivity-conductivity).

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

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

electrical conductivity - thermal conductivity - definition and expression for thermal

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

classical free electron theory.


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

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

energy states - carrier concentration in metals - Electrically conductive textiles.

UNIT II - ELASTIC PROPERTIES OF MATERIALS 9

Stress-Strain - Hooke’s law - Modulus of elasticity - Young’s modulus - Rigidity

modulus -Bulk modulus - Poisson’s ratio – stress - strain diagram - applications of

stress - strain diagram - factors affecting elasticity.

Bending of beams –expression for bending moment – elevation produced at the

midpoint of the beam-Measurement of Young’s modulus by uniform bending-

Cantilever depression produced at the loaded end of the beam-depression produced at

the midpoint of the beam- Measurement of Young’s modulus by non uniform bending-

I shaped girders.


Torsion pendulum - Work done in twisting a wire - Expression for couple per unit

twist -Determination of rigidity modulus of thin wire by torsion pendulum.

UNIT III - HYDRODYNAMICS 9

Viscosity - Stream line motion - Turbulent motion - Reynold’s number - Determination

of viscosity of fluids - Poiseuille’s method.

Surface Tension - Molecular forces - Surface energy and surface tension - Rise of

liquids in a capillary tube - Determination of surface tension by capillary rise method -

Applications: Detergents and surface tension.

Moisture absorption in fibres - Humidity and its importance in Textiles - definition of

humidity, Absolute humidity, Relative humidity, Recommended allowance, Regain and

moisture content.

UNIT IV - ELASTIC, INELASTIC AND VISCOELASTIC BEHAVIOR 9

Elastic behavior: Atomic model of elastic behavior - Modulus as a parameter in

design, stiffness - Rubber like elasticity: Elastomers - coiling and uncoiling of an

elastomer chain -Stress strain curve for elastomer molecule.

Anelastic behavior - Relaxation processes-damping capacity - Visco-elastic behavior -

Spring dashpot models - Maxwell element - Voigt-Kelvin element - Four parameter

model, Retarded elasticity, Entropy elasticity.

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 ,Features,

properties, classifications and applications.

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 nonomaterials - Ball milling method and Chemical

vapour deposition technique - Applications.

TOTAL: 45 Hours


TEXT BOOKS


(2015)

2. Subramaniam. N, Brijlal, ‘ Properties of Matter’, S. Chand Group, New Delhi

(2007) ( Unit II)

REFERENCES

1. ‘Applied Physics’, Sonaversity, Sona College of Technology, Salem (Revised

edition, 2015).

2. Physics for Mechanical Engineering, Sonaversity, Sona College of

Technology, Salem (Revised Edition 2016).


New Delhi.




U19CHE204C - CHEMISTRY FOR TEXTILE TECHNOLOGISTS –II

L T P C

3 0 0 3


1. compare the various types of organic material used in textile industry and

their structure activity relationship and also can replace alternative

environmental organic substituents.

2. analyze various types of inorganic materials used in textile industry and their

mechanistic way in those application and preparation, uses in other industry.

3. analyze the types of fibre forming polymers, polymerization and

characteristics of Polymers.

4. discuss topics related to various types of modern washing machines and

highlight the importance of using industrial cleaning agents and label care.

5. give an account of the principles and practices of stain removal in textiles /

garments and describe the applications of stiffening agents to textiles.

UNIT I - ORGANIC COMPOUNDS FOR TEXTILE INDUSTRY 09

Cellulose – structure of cellulose – derivatives of cellulose – carboxymethyl cellulose

and Gun cotton – structural aspects of cellulose –waxes - classification of waxes -

Organic 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 - azo dyes – disperse dyes – reactive dyes – examples

only - chemistry of reactive dyes – Textile auxiliaries – dying auxiliaries – optical

brighteners – printing auxiliaries – synthetic softeners – wetting agents, etc.

UNIT II - INORGANIC COMPOUNDS FOR TEXTILE INDUSTRY 09

Zeolites – types – applications – ion exchange properties of pigments – white pigments-

titanium dioxide – lithophone – zinc oxide – coloured pigments - iron oxide –

ultramarine – bleaching agents – Oxidizing bleaching agents, calcium hypochlorite,

hydrogen peroxide, Reducing bleaching agents- sulphur dioxide and sodium

hyposulphite, Applications of Chemistry in textile technology.


UNIT III - POLYMERS 09

Polymers: Terminology related to fibre molecules-classification of polymers; polymer-

monomer-copolymer-types of fibre forming polymers; homo polymer-copolymer-

alternating copolymer-random copolymer-block copolymer-graft copolymer-types of

polymerization: addition-condensation and copolymerization-properties of polymers.

UNIT IV - LAUNDRY EQUIPMENT WITH CARE LABELS AND LAUNDRY

REAGENTS 09

Washing Machines: Methods of washing, manual and machine washing. Study of

modern/industrial washing machines: Rotary, swirling, pressure, tumble type washing

machines laundering specialty fabrics and Care Labels: Importance of care label,

various systems of care labelling, placement of labels on garments.

Laundry reagents: Soaps, detergents, cleaning action of soaps, indigenous cleaning

agents, industrial cleaning agents, application of perchloroethylene, acetone and petrol.

Study on modern cleaning agents.

UNIT V - STAIN REMOVAL AND STIFFENING 09

Stain Removal: Principles of stain removal, classification of stains and stain removers,

various solvents for removing stains like blood, tea, rust, oil/grease, ink, candle wax,

fruit juice, gum and other handling stains, stain removal procedure in garment

industries.

Stiffening: Stiffening agents, purpose of stiffening and classification of stiffening

agents, preparation and uses of stiffeners, steps in stiffening process.

TOTAL: 45 Hours

TEXT BOOKS

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

New Delhi, 2018 (17th Edition).

2. N. Panneer Selvam et al., “Chemistry For Textile Technologists – II” by

Sonaversity, Sona College of Technology, Salem, 2019.

REFERENCES

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

Delhi, 2017.

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

Publishing Company Pvt. Ltd., Chennai, 2016.


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

House, New Delhi, 110 002, 2016.

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

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

5. Gurdeep R. Chatwal, “Synthetic Organic Chemistry”, Himalaya Publishing

House, Mumbai, 1994.

6. Dr. C.V. Koushik and Antao Irwin Josico, “Chemical Processing of Textiles

Preparatory Processes and Dyeing”, NCUTE Publication, New Delhi – 110

016.

7. Dantyagi S., “Fundamentals of Textile and Their Care”, Oriental Longmans

Ltd, New Delhi, 1996.

8. Noemia D’Souza, “Fabric Care”, New Age International (P) Ltd. Publishers,

Chennai, 1998.

9. Shenai V. A., “Technology of Textile Finishing”, Sevak Publications,

Bombay, 1995.

10. Davis, “Laundry and Clothing Care”, Drama Book Publishers, 1995.


U19BEE206 – BASICS OF MECHANICAL AND ELECTRICAL

ENGINEERING

L T P C

3 0 0 3


1. Summarise the principle of operation of various conventional power plants and

explain the components

2. Discuss the working principles of Refrigerators and Air conditioner used in

domestic purposes

3. State the fundamental laws of electrical circuits and explain the basic principles

related to DC and AC electrical circuits

4. Explain the constructional features and principles of operation of DC and AC

motors

5. State the working principles of electrical measuring instruments and calculate

electrical power consumption

UNIT I - POWER PLANT ENGINEERING 9

Introduction, Classification of power plants-working of steam, gas, diesel, hydro-

electric, nuclear power plants; Pumps-working principle of reciprocating and

centrifugal pumps. Boilers: types, applications of Cochran, Lamont, Benson, Babcock-

Wilcox boilers; Properties of steam; Dryness fraction, latent heat, Total heat of wet

steam, Superheated steam; Use of steam tables; Volume of wet steam; Volume of

superheated steam.

UNIT II - REFRIGERATION AND AIR CONDITIONING 9

Terminology of refrigeration and air conditioning; Principle of vapour compression and

absorption system-window and split type air conditioner

Compressor – Classification, Working of reciprocating and rotary air compressors,

Applications

UNIT III - DC AND AC CIRCUITS 10

DC Circuits: Ohm’s law, Kirchoff’s laws, Series and Parallel circuits, Star – Delta

transformation – Simple Problems.

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 10

DC motors: Construction - Principle of operation - Torque equation - Types -

Characteristics - Applications.

Three Phase Induction Motor: Construction- Principle of operation- Torque Equation

- Slip - Torque vs Slip characteristics - Applications.

UNIT V - ELECTRICAL DRIVES 7

Basic Electrical Drives – Types of Electric Drive – Types of Load – Classes of Duty –

Factors Affecting Selection of Electric Drives – Heating and Cooling Curve.

TOTAL: 45 Hours

TEXT BOOKS

1. Shunmagam G, Ravindran S, “Basic Mechanical Engineering”, Tata

McGraw Hill, 2011.

2. V.K. Mehta and Rohit Mehta, “Principles of Electrical Engineering and

Electronics”, S. Chand publishers, 2015.

REFERENCES

1. Venugopal K, Prabhuraja V, “ Basic Mechanical Engineering”, Anuradha

Agencies, 2014

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

Tech Publications, 2000.

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

publishers, 2016

4. D.P. Kothari and I.J. Nagrath, ‘Electric Machines’, Tata McGraw Hill, 2010.

5. B.L. Theraja, “Fundamentals of Electrical Engineering and Electronics”, S.

Chand publishers, 2008.

6. SudhakarA and Shyam Mohan SP, Circuits and Network Analysis and

Synthesis”, Tata McGraw Hill, 2015.


U19FT201 – WOVEN FABRIC MANUFACTURE AND STRUCTURE

L T P C

3 0 0 3


1. explain the winding, warping, sizing, drawing-in, denting and knotting process.

2. describe the working principles of various loom mechanisms.

3. explain the various principles of weft insertion in shuttleless looms and modern

weaving.

4. explain the elementary features of woven design and explain the construction of

different elementary weaves with appropriate diagrams

5. illustrate the design of dobby, jacquard, mock leno and pile fabrics.

UNIT I - WEAVING PREPARATORY PROCESSES 9

Winding: Objectives and yarn passage in cone winding machines, Objectives and yarn

passage in pirn winding machine. Warping machine: Objectives, types and material

passage. Sizing: Objects of sizing and list of sizing ingredients; drawing-in, denting

and knotting.

UNIT II - BASICS OF LOOM MECHANISMS 10

Looms: Types of looms. Basic motions: Primary, secondary and auxiliary motions.

Primary mechanisms: Principles of Shedding: Dobby and Jacquard. Principle of

Picking and beat up.

Secondary mechanisms: Principle of take-up and let-off motions.

Objectives of Auxiliary mechanisms: Warp protector mechanism, Warp stop motion,

weft stop motion, temples and brakes.

UNIT III - SHUTTLELESS LOOMS 8

Shuttleless weaving machines: Principles of weft insertion by projectile, rapier, air jet

and water jet. Types of selvedges. Multi-phase weaving and 3D fabrics.

UNIT IV - ELEMENTARY WEAVES 9

Elements of woven design: Design, Draft and its types, Peg plan and Repeat

Construction of elementary weaves: Plain weave and its derivatives: warp rib, weft

rib and matt rib, Twill weave and its derivatives: ordinary twill, herringbone twill and

zigzag twill, Satin, Sateen and their derivatives; Honeycomb, Ordinary and Brighton

honeycomb, huck a back, Crepe weave and its modifications.


UNIT V - DOBBY AND JACQUARD DESIGN 9

Spot figuring: Basic dobby, Jacquard designs, Arrangement of motifs in dobby and

Jacquard designs; Extra-warp and extra-weft figuring.

Mock leno: Perforated mock leno design; Pile fabrics: plain velveteen and corduroys;

Colour and weave effects; Principle of Double cloth construction; Fabric structures and

its commercial name.

TOTAL: 45 Hours

TEXT BOOKS

1. Talukdar M. K., Sriramulu P. K. and Ajgaonkar D. B., “Weaving: Machines,

Mechanisms, Management”, Mahajan Publishers Pvt Ltd, 2004

2. Gokarneshan N., “Fabric Structure and Design”, New Age International (P)

Limited, 2009

REFERENCES

1. W.S. Murphy, “Textile weaving and Design”, Abhishek Publications, 2007.

2. H. Nisbet, “Grammar of Textile Design”, Taraporewala and Sons Co. Pvt.

Ltd., 1994

3. Grosicki,Watson’s Textile design and colour, Elementary weaves and figured

fabrics, Butterworth & Co publishers ltd.


U19EGR206B – ENGINEERING GRAPHICS FOR FASHION DESIGNING

L T P C

1 0 2 2


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

components.




project points, lines and planes and simple solids.

4. study the development of simple solids and surfaces

5. create fabric print design, garment designs and illustrate the human figures.




and dimensioning.



UNIT I – PLANE CURVES (Free hand sketching) 9




UNIT II – ISOMETRIC TO ORTHOGRAPHIC VIEWS (Free Hand Sketching)

9






UNIT III – PROJECTION OF POINTS, LINES PLANE SURFACES (Free hand

sketching and 2D Software) 9

Projection of points- All 4 quadrants, lines- Perpendicular to H.P and parallel to V.P,

Perpendicular to V.P and parallel to H.P ,Inclined to H.P parallel to V.P, inclined to

V.P and parallel to H.P, Planes – inclined to any one of the reference plane, Solids –

prism, pyramid, cylinder and cone – resting on H.P and resting on V.P-simple

positions.


(Free hand sketching and 2D Software) 9



other, Development of lateral surfaces of simple and truncated solids – Prisms –

pyramids – cylinders and cones.

UNIT V - FASHION DESIGNING 9

(2D CAD software) Creation of fabric print design - garment design - Illustration of

three different poses of fashion figure.

(Not for Examination)-Paper craft models preparation of simple and truncated solids –

Prisms – pyramids – cylinders and cones.

TEXT BOOK

1. P. Suresh, “Engineering Graphics and Drawing”, Sonaversity, Sona College

of Technology, Salem, Revised edition, 2012.

REFERENCES

1. Manmeet sodhia, “Fashion Illustration”, Kalyani publishers, Ludhiana, New

delhi, 2008.

2. Caroline Tatham and Julian Seaman, “Fashion Designing and Drawing

course” Thames and Hudson Publishers, 2003.


U19ENL215 – ENGLISH FOR ENGINEERS – II

L T P C

0 0 2 1


1. demonstrate effective listening skills for academic and professional purposes.


3. develop effective reading skills and reinforce skills required for grammar and

building vocabulary.


giving responses

5. introduce themselves, initiate and participate in conversations, deliver

speeches and technical presentations

LISTENING


equipment.


telephone interviews). Understanding short conversations or monologues.

Taking down phone messages, orders, notes etc.

Listening for gist, identifying topic, context or function.

Listening comprehension, entering information in tabular form.



Listening to extended speech for detail and inference.

READING


Reading passages for specific information transfer.


graphical representations.



for specific information, skimming for comprehending the general idea,

meaning and contents of the whole text.


SPEAKING

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.

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.

EXTENSIVE READING

1. You Can Win by Shiv Khera - Macmillan Publishers India


3. Discover the Diamond in You – Arindham Chaudhari – Vikas publishing

House Pvt.

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

5. The Story of Google – Sara Gilbert, published by Jaico

TOTAL: 40 Hours


U19FT202 – WOVEN FABRIC STRUCTURE AND TEXTILE CAD

LABORATORY

L T P C

0 0 2 1


1. analyse the common woven fabrics and develop the related design, draft and

peg plan

2. determine the cloth particulars for given fabrics

3. utilise effectively the different tools in textile CAD software

4. create/Develop different textile design and prepare their 2D simulations

List of Experiments

Analyse the structures of woven fabric Designs

1. Plain, Twill, Satin.(2 session)

2. Huck a back and Honey comb.(1 session)

3. Dobby cloth analysis. (1 session)

4. Jacquard cloth (1 session)

5. Extra warp and extra weft figuring. (1 sessions)

6. Pile fabrics – corduroy fabrics. (1 session)

Study and practice of

1. Different tools used in textile CAD software. (1 session)

2. Development of striped, checked and print design and preparation of its 2D

simulation. (1 session)

3. Development of dobby design and preparation of its 2D simulation. (1

session)

4. Development of jacquard design and preparation of its 2D simulation. (1

session)

TOTAL: 30 Hours



L T P C

0 0 2 0





reasoning.


to specific topics.

List of Experiments



following topics:


b. Partnership

c. Chain rule

d. Ages


f. Geometry

g. Area and volume

h. Data arrangement

2. VERBAL APTITUDE






e. Spotting errors


TOTAL : 24 Hours



U19MAT202D – APPLIED PROBABILITY AND STATISTICS

L T P C

3 1 0 4


1. apply the concepts of measure of central tendency, dispersion, correlation to

the given data and analyze the results.

2. apply the concepts of random variables and their properties to generate the

moments.

3. fit the suitable distribution and its properties to the real world problems and

interpret the results.

4. apply the concepts of joint probability distribution and its properties to find

the covariance.

5. test the hypothesis of the population using sample information.

UNIT I - BASIC STATISTICS 12

Measures of central tendency (simple arithmetic mean, median, mode) – Quartile’s –

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

standard deviation, coefficient of variation) – Simple correlation – Curve fitting

(straight line and parabola).

UNIT II - RANDOM VARIABLES 12

Discrete and continuous random variables – Probability mass function, probability

density function, moments, moment generating function and their properties.

UNIT III - STANDARD DISTRIBUTIONS 12

Binomial, Poisson, geometric, uniform, exponential and normal distributions and their

properties.

UNIT IV - TWO DIMENSIONAL RANDOM VARIABLES 12

Joint distributions, marginal and conditional distributions – Covariance – Correlation –

Central limit theorem.


UNIT V - TESTING OF SIGNIFICANCE 12

Sampling distributions - Testing of hypothesis for mean, standard deviation, variance,

proportion and differences using normal and t distributions - χ2- test for independence

of attributes and goodness of fit and F distribution.

TOTAL: 60 Hours

TEXT BOOKS

1. S. C. Gupta, V. K. Kapoor, “Fundamentals of Mathematical Statistics”, Sultan

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

2. T. Veerarajan, “Probability, Statistics and Random Processes with Queueing

Theory and Queueing Networks”, McGraw Hill Publishers, 4th Edition, 7th

Reprint, 2018.

REFERENCES

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

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

2. S. Ross, “A first course in probability”, Pearson Publishers, 9th Edition, 2019.

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

Universal Book Stall Publishers, Reprint, 2003.

4. W. Feller, “An Introduction to Probability Theory and its Applications”, Vol.

1, 3rd Edition, Wiley Publishers, 2008.


U19ENG201C - COMMUNICATION SKILLS IN ENGLISH - II

L T P C

2 0 2 3





purposes.





giving responses.

UNIT – I



equipment





UNIT – II







UNIT – III

Collocations







UNIT – IV

Articles, adverbs






choice questions.

UNIT – V

Pronouns







TOTAL: 45 Hours


internally and evaluated along with Communication Skills in English –II in the

End Semester Valuation.

TEXTBOOK


EXTENSIVE READING



House Pvt. Ltd.

REFERENCES






U19CHE204B - APPLIED CHEMISTRY

L T P C

3 0 0 3


1. outline the principles and applications of electrochemistry to engineering and

technology.

2. analyze the types of corrosion and describe the methods of corrosion control.

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

engineering and technology.

4. describe the basics of nano chemistry, synthesis, properties and applications

of nano materials in engineering and technology.

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

fabrication.

UNIT I - ELECTROCHEMISTRY 9

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

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

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

Potential Calculation – Electrochemical Series – Significance – Reference Electrodes -

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

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

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

– Fe2+ Vs Dichromate).

UNIT II - CORROSION AND ITS CONTROL 9

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

Corrosion – Mechanism of Electrochemical Corrosion – Galvanic Corrosion –

Differential aeration Corrosion - Factors Influencing Corrosion – Corrosion Control -

Cathodic Protection - Sacrificial Anodic Protection Method and Impressed Current

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

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

UNIT III SURFACE CHEMISTRY AND CATALYSIS 9

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

Adsorption isotherms - Freundlich and Langmuir isotherms - Adsorption of solutes

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

Adsorption in pollution abatement (granular activated carbon and powdered activated


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

and examples – catalytic promoters – catalytic poisons.

UNIT IV NANOCHEMISTRY 9

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

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

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

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

applications of nano materials.

UNIT V POLYMERS AND COMPOSITES 9

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

Condensation and Copolymerization – Classification of Polymers – Free Radical

mechanism of Addition Polymerization – Properties of Polymers - Glass transition

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

suspension – Thermoplastic and Thermosetting Resins – Plastics – Moulding

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

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

Composites.

TOTAL : 45 Hours

TEXT BOOKS

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

Co., New Delhi, 2010 (15th Edition).

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

Technology, Salem, 2019.

REFERENCES

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


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

Publishing Company Pvt. Ltd., Chennai, 2009.

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

New Delhi, 2008.

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

Nanomaterials”, RSC Publishing, 2005.



L T P C

2 0 2 3



components.







pyramids.






and dimensioning.








(CAD software) 12











(CAD software) 12






drafting) 12





TOTAL: 60 Hours

TEXT BOOKS




REFERENCES






Publications, 1998.


McGrawhill 2002.


U19IT201 – PROGRAMMING IN C

L T P C

3 0 0 3


1. write simple C programs

2. apply the concepts such as arrays, decision making and looping statements to

solve real-time problems

3. develop C programs using functions and pointers

4. write a C programs to define own data types using the concept of structures

and union

5. write a C program to store the information persistently using file concepts

UNIT I - C PROGRAMMING BASICS 9

Structure of a C program – Compiling and Debugging a C program - C Character set,

Identifiers and Keywords, Data Types, Declarations, Expressions, Statements and

Symbolic constants, Operators – Arithmetic Operators – Unary operators – Relational

and Logical Operators – Assignment operators – Conditional operators. Managing

Input and Output operations, pre-processor directives and storage classes.

UNIT II - CONTROL STATEMENTS, ARRAYS AND STRINGS 9

Unconditional statements, conditional statements, branching and looping statements -

Arrays – Initialization – Declaration – One dimensional and Two dimensional arrays.

String- String operations – String Arrays. Simple programs- sorting- searching – matrix

operations.

UNIT III - FUNCTIONS AND POINTERS 9

Function – Library functions and user-defined functions – Function prototypes and

function definitions – Call by value – Call by reference – Recursion – Pointers -

Definition – Initialization – Pointers arithmetic – Pointers and arrays- Example

Problems – Pointers and Functions

UNIT IV - STRUCTURES AND UNIONS 9

Introduction – need for structure data type – structure definition – Structure declaration

– Structure within a structure – Passing structures to functions – Array of structures –

Pointers to structures – Union - Programs using structures and Unions – Dynamic

Memory Allocation: malloc and calloc


UNIT V – FILE MANIPULATIONS 9

File Manipulations- File operations – Open, Read, Write and Close, Binary files and

text files, Input and outout file redirection – Stdin and Stdout and Command line

arguments.

TOTAL: 45 Hours

TEXTBOOKS

1. Deitel P and Deitel H, “C How to Program”, Pearson Education, New Delhi,

2016.

2. Venugopal KR and Sudeep R Prasad, “Mastering C”, McGraw Hill, Second

edition, 2017.

REFERENCES

1. Byron S Gottfried, “Programming with C”, Schaums Outlines, Second

Edition, Tata McGraw-Hill, 2017.

2. Yashavant P. Kanetkar, “Let Us C”, 15th Edition, BPB Publications, 2016.

3. Balagurusamy E, “Programming in ANSI C”, sixth edition, Tata Mcgraw-

Hill, 2012.

4. Kernighan, B.W and Ritchie, D.M, “The C Programming language”, Second

Edition, Pearson Education, 2006.


U19IT202 – INFORMATION TECHNOLOGY ESSENTIALS

L T P C

2 0 0 2


1. create a web pages using HTML and CSS

2. explain the basics of networking and its working principles in real world

3. explain the working principles of mobile communication

4. perform installation and configuration of operating system, and drivers

5. explain the basics of Machine Learning, Cloud Computing and IoT

UNIT I - WEB ESSENTIALS 6

Creating a Website - Working principle of a Website - Browser fundamentals -

Authoring tools - Types of servers: Application Server - Web Server - Database Server.

UNIT II - NETWORKING ESSENTIALS 6

Fundamental computer network concepts - Types of computer networks - - Network

layers - TCP/IP model - Wireless Local Area Network - Ethernet - WiFi - Network

Routing - Switching - Network components.

UNIT III - MOBILE COMMUNICATION ESSENTIALS 6

Cell phone working fundamentals - Cell phone frequencies & channels - Digital cell

phone components - Generations of cellular networks - Cell phone network

technologies / architecture - Voice calls & SMS

UNIT IV - INSTALLATION AND CONFIGURATION OF PC 6

Configuration of BIOS - Installing Operating System (Open Source and Proprietary) –

Driver installation – Network Configuration – Disk Configuration

UNIT V - RECENT TRENDS IN IT 6

Introduction to Machine Learning - Application of Machine Learning – Introduction to

Cloud Computing – Types of Cloud services – IoT and its applications

TOTAL: 30 Hours


TEXTBOOKS

1. Laura Lemay, Rafe Colburn, Jennifer Kyrnin, “Mastering HTML, CSS and

Java Script”, BPB Publications, 2017.

2. James F. Kurose, ―Computer Networking: A Top-Down Approach‖, Sixth

Edition, Pearson, 2017.

REFERENCES

1. Gottapu Sasibhushana Rao, "Mobile Cellular Communication", Pearson, 2012.

2. Nathan Clark,” Linux: installation, configuration and command line basics”,

Independent Publisher,2018.

3. R. Kelly Rainer, Casey G. Cegielski, Brad Prince, Introduction to Information

Systems, Fifth Edition, Wiley Publication, 2014.


U19IT203 – PROGRAMMING IN C LABORATORY

L T P C

0 0 3 1.5


1. develop programs in C using basic constructs.

2. develop applications in C using strings, pointers, functions, structures

3. develop applications in C using file processing

List of Experiments

1 Programs using Input, Output and assignment statements

2. Programs using Branching statements

3. Programs using Looping statements

4. Programs using Functions

5. Programs using one dimensional and two dimensional arrays

6. Programs using Structures and Unions.

7. Programs using Strings

8. Programs using Pointers (both data pointers and function pointers)

9. Programs using Recursion

10. Programs using Command line arguments

11. Programs using Files concepts

12. Programs using Dynamic Memory Allocation

TOTAL: 45 Hours


U19CHL209 – ENGINEERING CHEMISTRY LABORATORY

L T P C

0 0 3 1.5




sample.

2. determine the molecular weight of various polymers, analyse the quality of

brass by estimating copper and estimate the amount of calcium oxide in the

given cement sample. Calculate the amount of chromium present in the given

sample of water.

3. estimate the amount of DO in water and evaluate the amount of iron content

in the given sample using spectrophotometry.

List of Experiments



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

method.






NaOH)



11. Determination of dissolved oxygen of water by Winkler’s method.


13. Estimation of corrosion rate by weight loss measurements.


14. Determination of calcium oxide in cement.

TOTAL : 45 Hours



L T P C

0 0 2 0




CO2: solve problems of greater intricacy than those in BA-I in stated areas of

logical reasoning.



List of Experiments



following topics:


b. Partnership

c. Chain rule

d. Ages


f. Geometry

g. Area and volume

h. Data arrangement

2. VERBAL APTITUDE






e. Spotting errors


TOTAL : 24 Hours




L T P C

1 0 2 2





purposes.





giving responses.

UNIT - I



equipment





UNIT - II








UNIT - III

Collocations






UNIT - IV

Articles, adverbs






choice questions.

UNIT - V

Pronouns







TOTAL: 30 Hours



Valuation.


TEXT BOOK


EXTENSIVE READING



House Pvt. Ltd

REFERENCES







L T P C

3 1 0 4


1. apply the classical methods to solve linear ordinary differential equations.

2. apply the appropriate numerical methods to solve ordinary differential

equations.

3. apply the Laplace transforms technique to solve ordinary differential

equations.

4. apply the classical method to solve partial differential equations.

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

line, surface and volume integrals.

UNIT I – ORDINARY DIFFERENTIAL EQUATIONS 12




UNIT II – NUMERICAL SOLUTION OF ORDINARY DIFFERENTIAL

EQUATIONS 12



equations.


UNIT III – LAPLACE TRANSFORMS 12




periodic functions.





UNIT IV – PARTIAL DIFFERENTIAL EQUATIONS 12




UNIT V – VECTOR CALCULUS 12






TOTAL: 60 Hours

TEXTBOOKS





REFERENCES







Edition, 2018.


29th Reprint, 2017.


U19PHY203F - PHYSICS FOR ELECTRON DEVICES

L T P C

3 0 0 3




3. discuss the applications of diode as rectifier, photodiode, LED and solar cell.

4. elucidate the application of bipolar transistor as amplifier

5. evaluate the novel properties of metallic glasses, shape memory alloys and

nanomaterials.

UNIT I – CONDUCTING MATERIALS 9

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

resistivity - conductivity).

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

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

electrical conductivity - thermal conductivity - definition and expression for thermal

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

classical free electron theory.


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

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

energy states - carrier concentration in metals.

UNIT II – SEMICONDUCTING MATERIALS 9

Properties of semiconductors - Classification of semiconductors - Intrinsic and extrinsic

semiconductors - Elemental and compound semiconductors.

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

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

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

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

temperature - electrical conductivity - band gap determination.

Extrinsic semiconductors - Draw backs of intrinsic semiconductors – Types of

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


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

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

Determination of Hall coefficient – Applications.

UNIT III – PN JUNCTION DIODE AND OPTOELECTRONIC DEVICES 9

PN junction diode - Formation of p-n junction - p-n junction diode- p-n junction diode

under forward bias- p-n junction diode under reverse bias-Application of junction diode

as rectifier- Half wave rectifier- full wave rectifier- bridge rectifier-Zener diode- Zener

diode as voltage regulator.

Optoelectronic devices - Photo diodes- types of photo diodes- Photo detector-PIN

diode- Avalanche photo diode-Light emitting diode (LED) - LED- principle –

construction- working- Solar cell- principle –construction- working.

UNIT IV –- BIPOLAR JUNCTION TRANSISTORS AND AMPLIFIERS 9

Bipolar junction transistors - npn and pnp transistors - Unbiased npn transistor –

Biased npn transistor – Transistor currents - Transistor configuration - common base

configuration - common emitter configuration-common collector configuration.

Amplifiers - Transistor as amplifier-introduction to Field effect transistors (FET) -

Types of field effect transistors- Junction field effect transistor (JFET) –Metal oxide

field effect transistor (MOSFET).

UNIT V – NEW ENGINEERING MATERIALS 9

Metallic glasses - Preparation, properties and applications.

Shape memory alloys (SMA) - Characteristics, properties of NiTi alloy, application,

advantages and disadvantages of SMA.


nanostructures (0-D, 1-D, 2-D and 3-D) – Fabrication of nanomaterials - Ball milling


Carbon nanotubes – structure - properties and applications – fabrication - pulsed laser

deposition method.

TOTAL: 45 Hours


TEXT BOOKS

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

Delhi (2015)

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

India Pvt. Ltd., Delhi, 2012.

REFERENCES

1. Physics for Electrical and Electronics Engineering, Sonaversity, Sona College

of Technology, Salem (Revised Edition 2016).


New Delhi.



4. M. Arumugam, ‘Materials Science’ Anuradha Publications, Kumbakonam,

(2006).


U19CHE204E – MODERN MATERIALS

L T P C

3 0 0 3


CO1: analyze the types of polymers, polymerization reactions, polymerization

techniques and fabrication methods of polymers for engineering

applications.

CO2: analyze the types and methods of preparing conducting polymers.

CO3: explore different methodologies to synthesize nanostructured composites

materials.

CO4: analyze the different types of electrochemical processes carried out in

electronic industries.

CO5: compare the working principles of various organic electronic devices.

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- Tg – tacticity -

Methods of Polymerization: emulsion and suspension – Plastics: Moulding constituents

of plastic – Moulding of plastics into articles-Injection-Compression and Blow

moulding – Thermoplastic and Thermosetting Resins.

UNIT II – CONDUCTING POLYMERS 9

Introduction – Structural characteristics and doping concept in metals and metal oxide

nanoparticles - Charge carriers and conducting mechanism – Classification of

conducting polymers: Intrinsic and extrinsic conducting polymers – Synthesis of

conducting polymers - bulk and solution polymerization – Applications of conducting

polymers in corrosion protection and sensors.

UNIT III – NANOSTRUCTURED COMPOSITES 9

Definition of nanocomposites – Nanofillers: Classification of nanofillers, Synthesis and

properties of nanofillers – Synthesis of nanocomposites by physical methods - direct

mixing and solution mixing - Chemical methods - Microemulsion synthesis,

Microwave assisted synthesis and Sonochemical assisted synthesis - Types of


nanocomposites - Core-Shell nanostructure, Organic-Inorganic hybrid nanocomposites,

Quantum dot (QDs) synthesis.

UNIT IV – ELECTROCHEMICAL PROCESSES IN THE FABRICATION OF

ELECTRONIC DEVICES 9

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

efficiency - Electroplating of Nickel - Fundamentals of electro less deposition – electro

less plating of Nickel, fabrication of PCB’s - Electrochemical etching of copper from

PCBs - Anodizing - definition, principle and working methodology of anodized

aluminium - Chemical sensors - optical and heat sensors – definitions and applications.

UNIT V – ORGANIC ELECTRONIC MATERIALS 9

Organic semiconducting materials – working principle and advantages over inorganic

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

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

principle and examples - Polystyrene – PMMA – Organic Light Emitting Diodes

(OLEDs): construction, working principle and applications – Organic transistors:

construction, working principle and applications in electronic industries.

TOTAL: 45 Hours

TEXT BOOKS

1. Hagen Klauk, Organic Electronics: Materials, Manufacturing and

Applications, Wiley – VCH. 2006.

2. A.P. Uthirakumar et.al, “Modern Materials”, Sonaversity, Sona College of

Technology, 2019.

REFERENCES

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


2. Nanostructured Materials and Nanotechnology – II, Eds. Sanjay Mathur and

Mrityunjay Singh, Willey, 2008.

3. Gowariker V.R, Viswanathan N.V. and Jayadev Sreedhar, Polymer Scinece,

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

4. Nanostructured Materials and Nanotechnology – II, Eds. Sanjay Mathur and

Mrityunjay Singh, Willey, 2008.


U19MCT201 – ENGINEERING MECHANICS

L T P C

3 0 0 3


1. analyse the forces in statically determinate structures using scalar and vector

analytical techniques.

2. examine the condition for equilibrium of rigid body using free body diagram.

3. evaluate the effect of friction of bodies under equilibrium condition.

4. determine the centroid, moment of inertia and polar moment of inertia of

simple and composite sections.

5. analyse the motion of a body with force and without force causing the motion.

UNIT I – BASICS & STATICS OF PARTICLES 9

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 9

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 9

Frictional force – Laws of Coulomb friction – Angle of friction – cone of friction –

Equilibrium of bodies on inclined plane.

UNIT IV – PROPERTIES OF SURFACES AND SOLIDS 9

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.


UNIT V – DYNAMICS OF PARTICLES 9

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: 45 Hours

TEXT BOOKS

1. Beer, F.P and Johnson Jr. E.R. “Vector Mechanics for Engineers: Statics and

Dynamics”, McGraw–Hill International 10th Edition, 2013.

2. Dr. N. Kottiswaran, “Engineering Mechanics (Statics and Dynamics)”,

Sri Balaji Publications 10th edition 2010.

REFERENCES

1. Rajasekaran, S, Sankarasubramanian, G., “Fundamentals of Engineering

Mechanics”, Vikas Publishing House Pvt. Ltd., (2011).

2. Hibbeller, R.C., “Engineering Mechanics”, Vol. 1 Statics, Vol. 2 Dynamics,

Pearson Education Asia Pvt. Ltd., (2015).

3. Palanichamy, M.S., Nagam, S., “Engineering Mechanics – Statics &

Dynamics”, Tata McGraw–Hill, (2004).

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

2017.

5. Irving H. Shames, “Engineering Mechanics – Statics and Dynamics”, IV

Edition– Pearson Education Asia Pvt. Ltd., (2006).

6. Kumar, K.L., “Engineering Mechanics”, 3rd Revised Edition, Tata McGraw-

Hill Publishing company, New Delhi (2008)


U19MCT202 - BASIC ELECTRICAL ENGINEERING

L T P C

3 0 0 3


1. evaluate the behaviour of circuit elements in electric circuits.

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

3. outline the construction and working principles of DC machines and

synchronous machines.

4. evaluate the electromagnetic energy conversion and operating principle of

three phase induction motors.

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

motors.

UNIT I – FUNDAMENTAL LAWS OF ELECTRICAL ENGINEERING AND

CIRCUIT ELEMENTS 9

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

Induction – Kirchhoff’s Laws – Power and Energy – Resistance Parameter –

Inductance Parameter – Capacitance Parameter – Series and Parallel Combinations of

Resistances – Series -Parallel Circuits - Resonance.

UNIT II – MAGNETIC CIRCUITS AND TRANSFORMERS 9

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

Reluctance, Permeance – Theory of Magnetism –Hysteresis and Eddy-Current Losses -

Magnetic Circuits -Self Inductance, Mutual inductance, Co-efficient of Coupling-

Transformers – Equivalent Circuit–Parameters from No-Load Tests – Efficiency and

Voltage Regulation.

UNIT III – DC MACHINES AND THREE PHASE SYNCHRONOUS

MACHINES 9

DC Machines - DC Generator-construction–working principle- EMF equation -Types

of DC Generators, DC motor-working principle –Types of DC Motors - Motor Speed

torque Characteristics - starters for DC Motors - Generation of a Three Phase Voltage –

Synchronous Generator - construction and working principle.


UNIT IV – ELECTROMAGNETIC ENERGY CONVERSION AND THREE

PHASE INDUCTION MOTOR 9

Introduction-Basic Analysis of Electromagnetic Torque - Three Phase Induction Motor

– Revolving Magnetic Field – Construction- Working Principle- Types- Speed-Torque

Characteristic – Parameters from No Load and Blocked rotor Tests – Equivalent Circuit

– Applications of Three phase Induction Motors.

UNIT V – SINGLE PHASE INDUCTION MOTORS AND SPECIAL

MACHINES 9

Single Phase Induction Motor-Construction-working principle- Switched reluctance

motor - Stepper Motors -PM Brushless DC motors - Servo motors – Construction and

Working Principles - Applications.

TOTAL: 45 Hours

TEXT BOOKS

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

S.Chand Publication, Vol 2, 2014.

2. Sudhakar and S.P Shyam Mohan, “Circuits, Network Analysis and Synthesis”,

Tata McGraw Hill, Fifth Edition, 2015.

REFERENCES

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

Hill, Fourth Edition, 2011.

2. V.K.Metha, Rohit Metha, “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.


U19WPL212 - WORKSHOP PRACTICE

L T P C

0 0 1 1


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

welding and sheet metal.

CO2 fabricate the different simple products in above trades.

CO3 produce different joining of metals.

LIST OF EXPERIMENTS

SECTION 1: FITTING






SECTION 3: WELDING






TOTAL: 30 Hours


U19MCT203 - BASIC ELECTRICAL ENGINEERING AND DEVICES

LABORATORY

L T P C

0 0 4 2


1. understand the usage of common electrical measuring instruments and basic

characteristics of transformers and electrical machines.

2. evaluate the characteristics of semiconductor devices.

3. interpret the solutions for real time applications of electrical machines and

semiconductor devices.

List of Experiments

1. Measuring the steady-state and transient time-response of R-L, R-C, and RLC

series circuits.

2. Sinusoidal steady state response of R-L, and R-C circuits impedance

3. Calculation and verification. Observation of phase differences between

current and voltage. Resonance in R-L-C circuits.

4. Loading of a transformer: measurement of primary and secondary voltages

and currents, and power.

5. Three-phase transformers: Star and Delta connections.

6. Torque Speed Characteristic of dc shunt motor.

7. Synchronous speed of two and four-pole, three-phase induction motors.

8. Torque-Slip Characteristic of an induction motor.

9. Verify the V - I Characteristics of PN diode

10. Verify the V - I Characteristics of Zener diode

11. Verify the V - I Characteristics of SCR.

12. Verify the V - I Characteristics of MOSFET.

TOTAL: 60 Hours


U19GE201 – BASIC APTITUDE – II [

L T P C

0 0 2 0





reasoning.


to specific topics.

List of Experiments



following topics:


b. Partnership

c. Chain rule

d. Ages


f. Geometry

g. Area and volume

h. Data arrangement

2. VERBAL APTITUDE






e. Spotting errors


TOTAL: 24 Hours



U19PHY203D - PHYSICS FOR MECHANICAL ENGINEERING

L T P C

3 1 0 4

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

CO1: explain motion of objects in two dimension.

CO2: discuss different types of waves and their uses

CO3: illustrate electromagnetic waves and their applications.

CO4: explain optical phenomena of waves and their propagation

CO5: describe quantum physics concepts and their uses.

UNIT I - MECHANICS 12

Vectors: Introduction to vector – coordinate systems – vector and scalar quantities –

some properties of vectors – components of a vector and unit vectors

Motion in Two Dimensions: The position, velocity and acceleration vectors – Two-

dimension motion with constant acceleration – Projectile motion – Analysis mode;

Particle in uniform circular motion – tangential and radial acceleration – relative

velocity and relative acceleration.

UNIT II - MECHANICAL WAVES 12

Wave Motion: Propagation of a disturbance – Analysis Model – travelling wave – the

speed of waves on strings – reflection and transmission – rate of energy transfer by

sinusoidal waves on strings – the linear wave equation.

Sound Waves: Pressure variations in sound waves – speed of sound waves – intensity

of periodic sound waves – The Doppler effect.

UNIT III - DC CURRENT AND ELECTROMAGNETIC WAVES 12

Direct Current Circuits: Electromotive force – Resistors in series and parallel –

Kirchhoff’s rules – RC circuits – Household wiring and electrical safety.

Electromagnetic waves: Displacement current and the general form of Ampere’s law

– Maxwell’s equations and Hertz’s discoveries – plane electromagnetic waves – Energy

carried by electromagnetic waves – momentum and radiation pressure – Production of

electromagnetic waves by antenna – the spectrum of electromagnetic waves.


UNIT IV - WAVE OPTICS, DIFFRACTION PATTERNS AND

POLARIZATION 12

Wave Optics: Young’s double-slit experiment – Analysis Model: Waves in

interference – Intensity distribution of the double-slit interference pattern – change of

phase due to reflection – interference in thin films – The Michelson’s interferometer.

Diffraction Patterns and Polarization: Introduction to diffraction patterns –

diffraction patterns from narrow slits – resolution of single-slit and circular apertures –

The diffraction grating – diffraction of x-ray by crystals – polarization of light waves.

UNIT V – QUANTUM PHYSICS 12

Particle nature of radiation: Compton Effect - expression for Compton shift (no

derivation)

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

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

function of an electron trapped in one dimensional box- A particle in a well of finite

height and width.

Application of wave nature of particles: Introduction to electron microscope-

Comparison of optical and electron microscope - Scanning electron microscope-

Limitations of electron microscope.

TOTAL: 60 Hours

TEXT BOOKS

1. Physics for Scientists and Engineers by Serway & Jewett – Cengage

Publications 9th edition.

2. B. K. Pandey and Manoj K. Harbola, Cengage Learning India Pvt. Ltd.,

Delhi, 2012

REFERENCES

1. C. Shanthi etal., Engineering Physics, Sonaversity, Sona College of

Technology, Salem (Revised edition, 2016).

2. M.N. Avadhanulu and PG Kshirsagar, A Text book of Engineering

Physics, S.Chand and company, Ltd., New Delhi, 2005.

3. Rajendran.V and Marikani. A, Engineering Physics, Tata Mc Graw

Hill Publications Ltd, III Edition, New Delhi, 2004.



L T P C

3 1 0 4


CO1: apply the classical methods to solve linear ordinary differential equations.

CO2: apply the appropriate numerical methods to solve ordinary differential

equations.

CO3: apply the Laplace transforms technique to solve ordinary differential

equations.

CO4: apply the classical method to solve partial differential equations.

CO5: apply the concepts of vector differentiation and integration to determine the

line, surface and volume integrals





UNIT II - NUMERICAL SOLUTION OF ORDINARY DIFFERENTIAL

EQUATIONS 12



equations.


UNIT III - LAPLACE TRANSFORMS 12




periodic functions.


its applications– Solution of linear second order ordinary differential equations with



UNIT IV - PARTIAL DIFFERENTIAL EQUATIONS 12




UNIT V - VECTOR CALCULUS 12






TOTAL: 60 Hours

TEXT BOOK





REFERENCES







Edition, 2018.


29th Reprint, 2017.


U19PPR205 - PROBLEM SOLVING USING PYTHON PROGRAMMING

L T P C

3 0 0 3


CO1: develop algorithmic solutions to simple computational problems

CO2: write simple Python programs

CO3: write programs with the various control statements and handling strings in

Python

CO4: develop Python programs using functions and files

CO5: analyze a problem and use appropriate data structures to solve it.

UNIT I - ALGORITHMIC PROBLEM SOLVING 9

Need for computer languages, Generation and Classification of computers - Basic

organization of a computer, Algorithms, building blocks of algorithms (statements,

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

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

(iteration, recursion).

UNIT II - BASICS OF PYTHON PROGRAMMING 9

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

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

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

implicit/explicit type conversion.

UNIT III - CONTROL STATEMENTS AND STRINGS 9

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

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

methods and operations.

UNIT IV - FUNCTIONS AND FILES 9

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

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

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

files.


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

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

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

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

Nested Dictionaries.

.

TOTAL: 45 Hours

REFERENCES

1. Ashok Namdev Kamthane, Amit Ashok Kamthane, “Programming and

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

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

Second edition, Updated for Python 3, Shroff / O’Reilly Publishers, 2016.

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

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

Education Services Pvt. Ltd., 2016.

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

Private Ltd., 2015.

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

Learning, 2012.

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

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


U19ME201- MANUFACTURING PROCESS

L T P C

3 0 2 4


CO1: explain the major concepts of material removal process and characterization

of tool wear and its types

CO2: make clear the cutting tool materials and its specific purpose and explain

about lathe details, main dissimilarity of capstan and turret lathes.

CO3; describe the various types of welding process for the engineering application

and investigate the welding defects.

CO4: explain the sand casting process, pattern materials and special casting

processes.

CO5: discuss the various types of moulding processes in manufacturing of plastic

components..

SECTION - A

UNIT I - THEORY OF METAL CUTTING 9

Introduction: material removal processes, nomenclature of single point cutting tool-

chip formation, orthogonal cutting, oblique cutting- shear angle in orthogonal cutting-

cutting tool materials, tool wear, Taylors tool life, factors affecting tool life – Tool life

Calculations -surface finish, cutting fluids..

UNIT II - CENTRE LATHE AND SPECIAL PURPOSE LATHES 9

Centre lathe: constructional features- various operations, tool and work holding

devices- taper turning methods, special attachments, Lathe machining time calculations.

Capstan and turret lathes – automats –Swiss type- - geneva mechanism, Bar feed

mechanism.

UNIT III - METAL JOINING PROCESS 9

Gas welding: Types- oxy- 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 IV - 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 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.

TOTAL: 45 Hours

SECTION – B

PRACTICAL

LIST OF EXPERIMENTS

1. Experiment on Simple Facing & Turning.

2. Exercise on Step And Taper Turning Model.

3. Exercise on Grooving And Thread Cutting Operation.

4. Exercise on Drilling, Boring.

5. Exercise on Arc Welding ( Tee Joint)

6. Exercise on TIG Welding

7. Exercise on MIG Welding

TOTAL: 45 Hours

Total Number of Hours : 75

Learning Resources

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

REFERENCES

1. B.S. Magendran parashar & R.K. Mittal, “Elements of Manufacturing

Processes”, Prentice Hall of India, 2003.


2. P.N. Rao, Manufacturing Technology”, Tata McGraw-Hill Publishing

Limited, II Edition, 2009.

LIST OF EQUIPMENTS

1. Centre Lathe with accessories - 15 No

2. Pillar type drilling machine - 01 No

3. Table top drilling machine - 01 No

4. Arc Welding Unit - 01 No

5. TIG Welding Unit - 01 No

6. MIG Welding Unit - 01 No


U19ENG201C - COMMUNICATION SKILLS IN ENGLISH – II

L T P C

2 0 2 3


CO1: use grammatical components effectively in both written and spoken

communication.

CO2: read for gathering and understanding information, following directions and

giving responses.

CO3: demonstrate effective listening skills for academic and professional purposes.

CO4: write email and formal letters.

CO4: develop skills for writing reports and proposals, and for general purpose and

technical writing.

UNIT – I 9

Focus on language -articles- prepositions - modal verbs- prefixes and suffixes.

Listening to conversations

Understanding notice, messages, timetable, advertisements, graphs, etc.

Writing - e-mail, constructing paragraphs and essays

UNIT – II 9

Focus on language - active and passive voice, tenses



Reading passages for specific information transfer.

Letter Writing - inviting dignitaries, accepting and declining invitations.

UNIT – III 9

Focus on language - Collocation, concord,

Understanding short conversations or monologues, taking down phone

messages, orders, notes etc, listening for gist, identifying topic, context or

function

Reading passage with multiple choice questions

Proposal Writing


UNIT – IV 9

Focus on language - if conditional clauses, cause and effect expressions

Listening comprehension, entering information in tabular form, Intensive

listening exercises and completing the steps of a process.

Short reading passage: gap-filling exercises related to grammar

Writing- resume, instructions.

UNIT – V 9

Focus on language - pronoun, adverbs




Writing- note making, report writing

TOTAL : 45 Hours

The listening test will be conducted for 20 marks and Reading for 20 marks

internally and evaluated along with Communication Skills in English II in the end

semester valuation.

TEXT BOOK

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

EXTENSIVE READING


House Pvt. Ltd.

REFERENCES






U19PHL210 - PHYSICS LABORATORY

L T P C

0 0 3 1.5


1. apply the principles of optics and thermal physics to determine the Engineering


2. apply the principles of elasticity and electricity to determine the Engineering



applications.

List of Experiments



2. Determination of wavelength of prominent colors in mercury spectrum using

a spectrometer.






using diode laser.

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

Disc apparatus.


pendulum


bridge.



bending method.

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

bending method.

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




Total: 45 Hours


U19PPL211 - PYTHON PROGRAMMING LABORATORY

L T P C

0 0 2 1


CO1: implement the algorithms using basic control structures in Python

CO2: develop Python programs to use functions, strings and data structures to

solve different types of problems

CO3: implement persistent storing information through file operations

List of Experiments

1. Draw flowchart using any open source software.

2. Implement programs with simple language features.

3. Implement various branching statements in python.

4. Implement various looping statements in python.

5. Develop python programs to perform various string operations like

concatenation, slicing, indexing.

6. Implement user defined functions using python.

7. Implement recursion using python.

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

9. Implement dictionary and set in python

10. Implement python program to perform file operations.

TOTAL: 30 Hours


U19GE201 - BASIC APTITUDE – II

L T P C

0 0 2 0




CO2: solve problems of greater intricacy than those in BA-I in stated areas of

logical reasoning.



List of Experiments



following topics


b. Partnership

c. Chain rule

d. Ages


f. Geometry

g. Area and volume

h. Data arrangement

2. VERBAL APTITUDE

Demonstrating verbal aptitude skills in English with reference to the following

topics





e. Spotting errors


TOTAL: 24 Hours

Documents

13.12.2019 B.E./B.Tech. Regulations-2019 1 · hyperbola by eccentricity method – Construction of cycloid – construction of involutes of square and circle – Drawing of tangents