14 Engineering Physics

8/19/2019 14 Engineering Physics

1/29EP-1

DELHI TECHNOLOGICAL UNIVERSITY

SCHEME OF EXAMINATION

AND

COURSE CURRICULUM

B.Tech. (ENGINEERING PHYSICS)

with Major in Electronics

CONTENT

Scheme of Examinaon.................................................................................. 2-6

Course Curriculum

First Year........................................................................................................ 7-13

Second Year................................................................................................... 13-19

Third Year...................................................................................................... 19-24Fourth Year.................................................................................................... 24-29


2/29EP-2

SCHEME FOR B.TECH. FIRST SEMESTER (ENGINEERING PHYSICS)

S.No. Course No. Subject L-T-P Evaluaon Total Marks Credit Type

Sessional End

TH1 AM 101 Mathemacs-1 3 1 0 30 70 100 4H

TH2 HU 102 Communicaon skills 2 1 0 30 70 100 3H

TH3 AP 103 Applied Physics-I 4 0 0 30 70 100 4H

TH4 AC 104 Applied Chemistry 3 1 0 30 70 100 4H

TH5 EE 105 Electrical Science 3 1 0 30 70 100 4A

TH6 IT 106 Fundamentals of Informaon Technology 2 1 0 30 70 100 3A

PR1 AP 107 Applied Physics-I Lab 0 0 2 30 70 100 2H

PR2 AC 108 Applied Chemistry Lab 0 0 2 30 70 100 2H

PR3 EE 109 Electrical Science Lab 0 0 2 30 70 100 2A

PR4 IT 110 Fundamental of Informaon Technology Lab 0 0 2 30 70 100 2A

TOTAL 30 hrs 1000 30

SCHEME FOR B.TECH. SECOND SEMESTER (ENGINEERING PHYSICS)


Sessional End

TH1 AM 111 Mathemacs-II 3 1 0 30 70 100 4H

TH2 EN 112 Environmental Sciences 2 0 0 30 70 100 2H

TH3 AP 113 Applied Physics-II 4 0 0 30 70 100 4H

TH4 AP-AC 114 Engineering Materials 4 0 0 30 70 100 4H

TH5 ME 115 Basic Mechanical Engineering 4 0 0 30 70 100 4A

TH6 CO 116 Programming Fundamentals 2 0 0 30 70 100 2A

PR1 AP 117 Applied Physics-II Lab 0 0 2 30 70 100 2A

PR2 CO 118 Programming Lab 0 0 2 30 70 100 2A

PR3 ME 119 Engineering Graphics 0 0 3 30 70 100 3A

PR4 PE 120 Mechanical workshop 0 0 3 30 70 100 3A


A Allied Engineering

C Core (include major project and praccal training also)

H Humanies, Social Studies and Basic Sciences

M Mandatory


3/29EP-3

SCHEME FOR B.TECH. THIRD SEMESTER (ENGINEERING PHYSICS)


Sessional End

TH1 EP 201 Introducon to compung 3 1 0 30 70 100 4C

TH2 EP 202 Mathemacal Physics 3 1 0 30 70 100 4C

TH3 EP 203 Thermal Physics 3 1 0 30 70 100 4C

TH4 EP 204 Digital Electronics 3 1 0 30 70 100 4C

TH5 EP 205 Engineering Mechanics 3 1 0 30 70 100 4A

TH6 EP 206 Basic Engineering Economics 3 0 0 30 70 100 3H

PR1 EP207 Thermal Physics Lab 0 0 2 30 70 100 2C

PR2 EP 208 Digital Electronics Lab 0 0 2 30 70 100 2C

PR3 EP 209 Introducon to Compung Lab 0 0 2 30 70 100 2C

VS1 EP 210 Self Study/Seminar 0 1 0 30 70 100 1C


SCHEME FOR B.TECH. FOURTH SEMESTER (ENGINEERING PHYSICS)


Sessional End

TH1 EP 211 Classical & Quantum Mechanics 3 1 0 30 70 100 4C

TH2 EP 212 Opcs 3 1 0 30 70 100 4C

TH3 EP 213 Signals and systems 3 1 0 30 70 100 4A

TH4 EP 214 Microprocessor & Interfacing 3 0 0 30 70 100 3C

TH5 EP 215 Computaonal Methods 3 1 0 30 70 100 4C

TH6 EP 216 Condensed Maer Physics 3 1 0 30 70 100 4C

PR1 EP 217 Opcs Lab 0 0 2 30 70 100 2C

PR2 EP 218 Solid State Physics Lab 0 0 2 30 70 100 2C

PR3 EP 219 Microprocessor & Interfacing Lab 0 0 2 30 70 100 2C

VS2 EP 220 Self study /Seminar 0 1 0 30 70 100 1C





M Mandatory


4/29EP-4

SCHEME FOR B.TECH.FIFTH SEMESTER (ENGINEERING PHYSICS)

S.No. Course

No.

Subject L-T-P Evaluaon Total

Marks

Credit

TypeSessional End

TH1 EP 301 Atomic and Molecular Physics 3 1 0 30 70 100 4C

TH2 EP 302 Communicaon systems 3 1 0 30 70 100 4A

TH3 EP 303 Electromagnec theory, Antennas and Propagaon 3 1 0 30 70 100 4C

TH4 EP 304 Semiconductor Devices 3 1 0 30 70 100 4C

TH5 EP 305 Biophysics 3 1 0 30 70 100 4A

PR1 EP 306 Advanced Physics Lab 0 0 2 30 70 100 2C

PR2 EP 307 Electromagnec theory, Antenna and Propagaon Lab 0 0 2 30 70 100 2C

PR3 EP 308 Communicaon Systems Lab 0 0 2 30 70 100 2C

PR4 EP 309 Minor Project-I 0 0 4 00 200 200 4M


SCHEME FOR B.TECH. SIXTH SEMESTER (ENGINEERING PHYSICS)

S.No. Course No. Subject L-T-P Evaluaon Total

Marks

Credit

TypeSessional End

TH1 EP 311 Instrumentaon and Control 3 1 0 30 70 100 4A

TH2 EP 312 Fiber opcs and opcal communicaon 3 1 0 30 70 100 4C

TH3 EP 313 Quantum Informaon and Compung 3 1 0 30 70 100 4A

TH4 EP314 Microwave Engineering 3 1 0 30 70 100 4C

TH5 EP 315 Fabricaon and Characterizaon of Nanostructures 3 1 0 30 70 100 4C

PR1 EP316 Fiber opcs and opcal communicaon lab 0 0 2 30 70 100 2C

PR2 EP 317 Microwave Engineering Lab 0 0 2 30 70 100 2C

PR4 EP 318 Minor Project-II 0 0 4 00 200 200 4M

PR3 EP 319 Industrial Training-I 0 0 2 00 100 100 2M





M Mandatory

Note:

• Industrial training of 4 weeks during winter vacaon aer 5th Semester and 8 Weeks during summer vacaon aer

6th Semester.


5/29EP-5

SCHEME FOR B.TECH. SEVENTH SEMESTER (ENGINEERING PHYSICS)

S.No. Course No. Subject L-T-P Evaluaon Total

Marks

Credit

TypeSessional End

TH1 EP 401 Alternate Energy Storage and conversion devices 3 1 0 30 70 100 4C

TH2 EP 402 Mobile and Satellite Communicaon 3 1 0 30 70 100 4C

TH3 EP 403 Department Elecve I 3 1 0 30 70 100 4C

TH4 EP 404 Open Elecve I 3 1 0 30 70 100 4A

TH5 EP 405 Alternate Energy Storage and conversion Devices Lab 2 0 0 30 70 100 2C

PR1 EP 406 Mobile and Satellite Communicaon Lab 2 0 0 30 70 100 2C

PR2 EP 407 Major Project (Part-I) 0 0 6 90 210 300 6M

PR3 EP 408 Industrial Training Viva Voce 0 0 4 30 70 100 4M


SCHEME FOR B.TECH. EIGHTH SEMESTER (ENGINEERING PHYSICS)

S.No. Course No. Subject L-T-P Evaluaon TotalMarks

CreditTypeSessional End

TH1 EP 411 VLSI and FPGA Design Synthesis 3 1 0 30 70 100 4C

TH2 EP 412 Department Elecve II 3 1 0 30 70 100 4C

TH3 EP 413 Open Elecve II 3 1 0 30 70 100 4C

PR1 EP 414 Elecve Lab II 0 0 3 30 70 100 3C

PR2 EP 415 FPGA Design Lab 0 0 3 30 70 100 3C

PR3 EP 416 Major project (Part II) 0 0 10 120 280 400 10M

PR4 EP 417 Seminar / Report 0 0 2 00 100 100 2C





M Mandatory

Note:

• Industrial training of 4 weeks during winter vacaon aer 7th Semester and 8 Weeks during summer vacaon aer

8th Semester.


6/29EP-6

List of Elecves

MINORS:A. Nano Science and Technology

B. Photonics

C. Robocs and Intelligent Systems

D. Nuclear Engineering

(A) MATERIAL SCIENCE AND TECHNOLOGY

EP - 403-1 Nano Science and Technology

EP-412-1 Introducon to Spintronics

EP-412-2 Selected topics in Nano Science and Technology

EP- 414-1 Materials Growth and Characterizaon Lab

(B) PHOTONICS

EP - 403-2 Photonics

EP-412-3 Integrated Opcs

EP-412-4 Selected topics in photonics

EP- 414-2 Photonics Lab

(C) ROBOTICS AND INTELLIGENT SYSTEMS

EP - 403-3 Introducon to Automaon and Moon Control

EP-412-5 Roboc Engineering

EP-412-6 Selected topics in robocs and intelligent systems

EP- 414-3 Robocs Lab

(D) NUCLEAR ENGINEERING

EP - 403-4 Principles of Nuclear Engineering

EP-412-7 Nuclear Materials for Engineering Applicaons

EP-412-8 Selected topics in nuclear engineering

EP- 414-4 Nuclear Applicaons Lab

Departmental Elecve – I Open Elecve – I

EP - 403-1 Nano Science and Technology

EP- 403-2 Photonics

EP- 403-3 Introducon to Automaon and Control

EP- 403-4 Basics of Radiaon Technology and its

prospecve applicaons

EP-404-1 Computer Networking

EP- 404-2 Analog Electronics

EP- 404-3 Human Rights and Human Values

Departmental Elecve – II Open Elecve – II

EP-412-1 Intoducon to Spintronics

EP-412-2 Selected Topics in NanoScience and Technology

EP-412-3 Integrated Photonics

EP -412-4 Selected Topics in Photonics

EP -412-5 Roboc Engineering

EP -412-6 Selected Topics in robocs and intelligent

systems

EP -412-7 Nuclear Materials for Engineering Applicaons

EP -412-8 Selected Topics in Nuclear Engineering

EP- 413-1 Principles of Nuclear Engineering

EP -413-2 Space and Atmospheric Sciences

EP-413-3 Management Principles and Organizaonal

Behavior

Elecve – Lab

EP- 414-1 Materials Growth and Characterizaon Lab

EP -414-2 Integrated opcs

EP-414-3 Robocs Lab

EP-414-4 Nuclear Applicaons Lab

The course structure is designed to award the degree as B.Tech. (Engg. Physics) with major in Electronics and minors in any

one of the following:

• Nano Science and Technology

• Photonics

• Robocs and Intelligent Systems

• Nuclear Engineering


7/29EP-7

AM-101 Mathemacs – IL T P Credits

3 1 0 4

UNIT I

Innite series: Tests for convergence of series (comparison,

rao, root, integral, Raabe’s, logarithmic), Alternang series,

Absolute convergence, Condional convergence.

UNIT II

Calculus of single variable: Taylor’s & Maclaurin’s expan-

sion, Radius of curvature, applicaons of denite integral

to area, arc length, surface area and volume (in Cartesian,

parametric and polar co-ordinates).

UNIT III

Calculus of several variables: Paral dierenaon, Euler’s

theorem, total dierenal, Taylor’s theorem, Maxima-Mini-

ma, Lagrange’s method of mulpliers, Applicaon in esma-

on of error and approximaon.

UNIT IV

Mulple Integrals: Double integral (Cartesian and polarco-ordinates), change of order of integraon, triple integrals

(Cartesian, cylindrical and spherical co-ordinates), Gamma

and Beta funcons. Applicaons of mulple integraon in

area, volume, centre of mass, and moment of inera.

UNIT V

Vector Calculus: Connuity and dierenability of vector

funcons, Scalar and vector point funcon, Gradient, Di-

reconal derivave, divergence, curl and their applicaons.

Line integral, surface integral and volume integral, applica-

ons to work done by the force . Applicaons of Green’s,

Stoke’s and Gauss divergence theorems.

Text Books/Reference Books:

1. “Advanced Engineering Mathemacs” by Alan Jeery ;

Academic Press

2. “Calculus and Analyc Geometry” by Thomas/Finney;

Narosa.

3. “Advanced Engineering Mathemacs” by Kreyszig; Wi-

ley.

4. “Advanced Engineering Mathemacs” by Taneja ; I K in-

ternaonal

5. “Advanced Engineering Mathemacs” by Jain/Iyenger;

Narosa.

HU-102 Communicaon Skills L T P Credits2 1 0 3

UNIT I

Funconal English:

(A) Parts of speech; Tense and concord; Condional clauses;

Queson tags & short responses; Punctuaon; Common

errors.

(B) Vocabulary and Usage: Synonyms & Antonyms; One

word substuons; Words oen confused; Idioms / Id-

iomac expressions.

UNIT II

Basics of Wring:

(A) Presentaon of Technical Informaon: Technical descrip-

on of simple objects, tools, appliances; Processes and

operaons; Scienc Principles; Denions ; Interpreta-

on of Visual Data (graph, charts etc)

(B) Wring of: Paragraph; Summary and Abstract; Taking

and Making Notes.

(C) Comprehension of Unseen Passages based on reading

exercises like Skimming, Scanning and Inference making.

UNIT III

Oral Communicaon: Phonecs: Speech Sounds and their

arculaon; Phonemes, syllable, Stress, Transcripon of

Words and Simple Sentences; Presentaon and Seminar;

Language Lab Pracce for Oral Communicaon.

UNIT IV

Texts for Appreciaon and Analysis:

(A) Wings of Fire by APJ Abdul Kalam

(B) The Fortune at the Boom of the Pyramid by C.K. Praha-

lad.(C) The Branded (Uchalya) by Laxman Gaikwad

(D) Geetanjali by Ravindranath Tagore.


1. Day, Robert A. Scienc English: A Guide for Sciensts

and Other Professionals. UP.

2. Maison Margaret, Examine Your English, New Delhi: Ori-

ent Longman.

3. Tikoo M.L., A.E. Subramaniam and P.R. Subramaniam.

Intermediate Grammar Usage and Co mpos it io n.

Delhi: Orient Longman.

4. Weiss, Edmond H. Wring Remedies: Praccal Exercises

for Technical Wring. University Press.5. Lesikar and Flatley. Business Communicaons. New Del-

hi, Biztantra Press.

6. O’Connor, Beer English Pronunciaon, Cambridge:

Cambridge University Press.

7. Gaikwad, Laxman, The Branded, Delhi: Sahitya Akademi.

8. Kalam, APJ Abdul, Wings of Fire, Delhi: University Press.

9. C.K. Prahalad, The Fortune at the Boom of the Pyramid,

Wharton School Publishing.

10. Rabindranath Tagore, Gitanjali, Filiquarian Publishing,

LLC.

AP – 103 Applied Physics - I

L T P Credits

3 1 0 4

UNIT I

Relavity : Review of concepts of frames of reference and

Galilean transformaon equaon, Michelson – Morley ex-

periment and its implicaons, Einstein’s special theory of

relavity, Lorentz transformaon equaons, Law of addion

of velocies, Mass variaon with velocity, Concept of ener-

gy and momentum, Mass energy relaon.


8/29EP-8

UNIT II

Oscillaons, waves : Damped and forced oscillaons, Res-

onance (amplitude and power), Q – factor, Sharpness of

resonance. Equaons of longitudinal and transverse waves

and their soluons, Impedance, Reecon and transmission

of waves at a boundary, Impedance matching between two

medium.

UNIT III

Physical opcs: Interference by division of wave front and

amplitude, Mulple beam interference and Fabry-Perot in-

terferometer, Fresnel diracon through a straight edge,

Fraunhoer diracon, Zone plate, single slit and N-slit /

grang, Resolving power of telescope, prism and grang. Po-

larizaon by reecon and by transmission, Brewster’s law,

Double refracon, ellipcally and circularly polarized light,

Nicol prism, Quarter and half wave plates.

UNIT IV

Opcal Instruments: Cardinal points of co-axial lens sys-

tems, spherical and chromac aberraons and their remov-

al, Huygens and Ramsden’s eyepiece.

UNIT V

Laser opcs: Coherence and coherent properes of laser

beams, Brief working principle of lasers, Spontaneous and

smulated emission, Einstein’s co-ecient, Ruby laser, He-

Ne laser.

UNIT VI

Opcal Fiber: Classicaon of opcal bers, Refracve index

prole, Core cladding refracve index dierence, Numerical

aperture of opcal ber, Pulse dispersion in opcal ber (ray

theory).


1. “Physics of Vibraons and Waves” by H.J. Pain.

2. “Vibraons and Waves” by A.P. French.

3. “Perspecve of Modern Physics” by Arthur Beiser.

4. “Opcs” by A. Ghatak.

5. Berkley Physics Course Vol – 1.

AC-104 Applied ChemistryL T P Credits

3 1 0 4

UNIT I

(a) Convenonal Analysis: Volumetric Analysis, Types of

traons, Theory of indicators.

(b) Spectral Analysis: Electromagnec radiaon,

Lambert-Beer’s Law, UV-VIS, IR, instrumentaon &

applicaons.

UNIT II

Thermal Methods of Analysis: Principle, working and appli-

caons of Thermo-gravimetry, Dierenal thermal analysis

and Dierenal scanning calorimetry.

UNIT III

(a) Polymers: Monomer & polymer, funconality and De-

gree of Polymerizaon. Mechanism of polymerizaon.

Molecular weights of polymers. Methods of polymeriza-

on. Industrial producon of PE and PF resins. Industrial

applicaons of polymers.

b) Bio-molecules: Classicaon, Structure, physical and

chemical properes of Amino-acids, Pepdes and Pro-

teins, Carbohydrates, Cellulose and its derivaves,

RNA, DNA. Introducon to Bio-degradable Polymers.

UNIT IV

Electrochemistry : Electrochemical cells, components,

characteriscs of baeries. Primary and Secondary baery

systems, Zinc-Carbon cells, Lead storage and lithium baer-

ies. Fuel Cells, Electro-deposion, Electrical and chemical re-

quirements. Electroplang bath and linings. Agitaon, Circu-

laon and ltraon equipment. Plang of copper, gold and

rhodium.

UNIT V

Phase Equilibrium: Denions of Phase, component and de-gree of freedom, Gibb’s phase rule. One component systems:

Water and sulphur. Two component systems: Pb-Ag and Cu-

Ni system.

Univ VI

Green Chemistry: Introducon, Goals & Signicance of

Green Chemistry. Reagents, solvents and catalysts for green

synthesis. Principles of Green Chemistry, Evaluaon of feed-

stocks, reacon types and methods. Future trends in Green

Chemistry.


1. “Thermal Analysis” by T. Hatakeyama, F.X. Quinn; Wiley.

2. “ Inorganic Quantave Analysis” by A.I. Vogel.

3. “Instrumental Method of Analysis” by Skoog D.A.; HRW

Internaonal.

4. “Green Chemistry: Theory & Pracce” by P.T. Anastas &

JC Warner; Oxford Univ Press.

5. “Polymer Science and Technology” by Billmeyer; John

Wiley.

6. “Polymer Science and Technology” by Fried; Prence

Hall.

EE – 105 Electrical ScienceL T P Credits

3 1 0 4

UNIT I

Introducon: Role and importance of circuits in Engineering,

concept of elds, charge, current, voltage, energy and there

interrelaonship. V-I characteriscs of ideal voltage and ide-

al current sources, various types of controlled sources. Pas-

sive circuit components: V-I characteriscs and rangs of dif-

ferent types of R, L, C elements. Series and parallel circuits,

power and energy, Kircho’s Laws. Delta-star conversion,

Superposion Theorem, Thevenin’s Theorem, Norton’s the-

orem, Maximum Power Transfer Theorem, Tellgen Theorem.


9/29EP-9

UNIT II

Single Phase AC Circuits: Single phase EMF generaon, av-

erage and eecve values of sinusoids, complex represen-

taon of impedance, series and parallel circuits, concept of

phasor, phasor diagram, power factor, power in complex no-

taon, real power, reacve power and apparent power. Res-

onance in series and parallel circuits, Q-factor, bandwidth

and their relaonship, half power points.

UNIT III

Three-Phase AC Circuits: Three phase EMF generaon, del-

ta and Y connecon, line and phase quanes. Soluon of

three phase circuits: balanced supply voltage and balanced

load, phasor diagram, measurement of power in three

phase circuits.

UNIT IV

Magnec Circuits & Transformers: Amperes circuital law,

B-H curve, concept of reluctance, ux, MMF, analogies be-

tween electrical and magnec quanes soluon of mag-

nec circuits. Hysteresis and eddy current losses, applicaon

of magnec force, mutual inductance and dot convenon.Single phase Transformer construcon, principle of working,

auto transformer and their applicaons.

UNIT V

Measuring Instruments : Analog indicang instruments, de-

vices, Damping devices, PMMC ammeters and voltmeters,

shunt and mulpliers, Moving iron ammeter and voltmeters,

dynamometer type wameters, mulmeters, AC wa-hour

meters. Digital voltmeters, ammeters and wameters.


1. “Basic electrical Engineering” by C.L. Wadhwa, 4th Edi-

on; New Age Internaonal.

2. “Basic Electrical Engineering” by Fitzereld, Higgenboth-

am & Grabel; McGraw Hill Internaonal.

3. “Electrical Engineering Fundamentals” by Vincent

Deltoro; Prence Hall Internaonal (EEI).

4. Relevant Indian Electricity Supply rules & BIS codes.

IT – 106 Fundamentals of Infor-

maon Technology

L T P Credits

2 1 0 3

UNIT I

Fundamental Concepts of Informaon: Denion of infor-

maon, Data Vs Informaon, Introducon to Informaon

representaon in Digital Media, Text, image, graphics, Ani-maon, Audio, Video etc., Need, Value and Quality of infor-

maon

UNIT II

Concepts in Computer & Programming: Denion of Elec-

tronic Computer, History, Generaons, Characterisc and

Applicaon of Computers, Classicaon of Computers,

Memory, dierent types of memory, Computer Hardware-

CPU, Various I/O devices, Peripherals, Firmware and Human-

ware.

UNIT III

Programming Language Classicaon & Program Meth-

odology: Computer Languages, Generaon of Languages,

Translators, Interpreters, Compilers, Flow Charts, Dataow

Diagram, Assemblers, Introducon to 4GL and 5GL.

UNIT IV

Digital Devices and Basic Network Concepts: Digital Funda-

mentals: Various codes, decimal, binary, hexa-decimal con-version, oang numbers gates, ip ops, adder, mulplex-

es, Introducon to Data Transmission.

UNIT V

Data Communicaon & Networks: Computer Networks- In-

troducon of LAN, MAN and WAN. Network Topologies, Cli-

ent-server Architecture.

UNIT VI

Internet and Web Technologies: Hypertext Markup Lan-

guage, DHTML, WWW, HTTP, Gopher, FTP, Telnet, Web

Browsers, Net Surng, Search Engines, Email, Safety of Busi-

ness Transacon on web. Elementary Concepts of E-Learn-ing and E-Commerce, Electronic Payment Systems, Digital

Signatures, Firewall.


1. “Using Informaon Technology: A Praccal Introducon

to Computers & Communicaons” by William Sawyer &

Hutchinson; Publisher: Tata McGraw-Hill.

2. ‘Introducon to Computers’ by Peter Norton; Tata Mc-

Graw-Hill.

3. “Introducon to Computers” by Rajaraman; EPI.

4. “Data Compression” by Nelson; BPB.

5. “Internet, An introducon”by CIS Tems; Tata McGraw

Hill.6. “Informaon Technology: Breaking News” by Curn;

TMH.

7. “Fundamentals of Informaon Technology” by Leon &

Leon; Vikas.

8. “Internet 101” by Lehngart; Addison Wesley.

AP-107 Applied Physics - I LabL T P Credits

0 0 2 02

AC-108 Applied Chemistry LabL T P Credits

0 0 2 02

EE-109 Electrical Science LabL T P Credits

0 0 2 02

IT-110 Fundamental of IT LabL T P Credits

0 0 2 02


10/29EP-10

AM- 111 Mathemacs-IIL T P Credits

3 1 0 4

UNIT I

Matrices: Rank of a matrix, inverse of a matrix using el-

ementary transformaons, consistency of linear system

of equaons, Eigen-values and eigenvectors of a ma-

trix, Cayley-Hamilton theorem, diagonalizaon of ma-trix.

UNIT II

Ordinary Dierenal Equaons: Second & higher order lin-

ear dierenal equaons with constant coecients, General

soluon of homogenous and non- homogenous equaons,

method of variaon of parameters, Euler-Cauchy equaon,

simultaneous linear equaons.

UNIT III

Special Funcons : Power series method, Frobenious meth-

od, Legendre equaon, Legendre polynomials, Bessel equa-

on, Bessel funcon of st kind, Orthogonal Property, Ro-drigues' Formula.

UNIT IV

Laplace Transforms: Basic properes, Laplace transform of

derivaves and integrals, Inverse Laplace transform, Dif-

ferenaon and Integraon of Laplace transform, Convo-

luon theorem, Unit of Step Funcon, Periodic funcon,

Laplace transform to IVP and boundary value problem Ap-

plicaons system of linear Simultaneous dierenal equa-

ons.

UNIT V

Fourier series: Fourier series, Dirichlet condions, Even andodd funcons, half range series, harmonic analysis.

UNIT VI

Fourier Transforms : Fourier Transforms Sine and Cosine

Transforms, Transforms of derivaves and integrals, Appli-

caons to boundary value problem in ordinary dierenal

equaons (simple cases only).


1. “Advanced Engineering Mathemacs” by Greenberg;

Pearson Educaon.

2. “Advanced Engineering Mathemacs” by Kreyszig; Wi-

ley.3. “Advanced Engineering Mathemacs” by Taneja; I K in-

ternaonal.

4. “Advanced Engineering Mathemacs” by Jain/Iyenger;

Narosa.

EN – 112 Environmental ScienceL T P Credits

2 0 0 2

UNIT I

Introducon to Environment: Origin & evoluon of earth,

segments of environment- lithosphere, hydrosphere, atmo-

sphere & biosphere, Biogeochemical cycles- hydrological,

oxygen, nitrogen, carbon & phosphate cycles.

UNIT II

Ecosystems: Concept of ecosystem bioc & abioc compo-

nents, types of ecosystems, funconal components of eco-

system- biodiversity, producvity, food chains & food webs,

material cycling and energy ow, dierent ecosystems- for-

est, grassland, desert, aquac.

UNIT III

Water Polluon: Water quality, physical, chemical & biologi-

cal characteriscs of water & waste water, ground water pol-

luon, water borne diseases.

UNIT IV

Air & Noise Polluon: Primary & secondary air pollutants,

sources, eects & control of- carbon monoxide, nitrogen ox-

ides, hydrocarbons, sulphur dioxide & parculates, Air qual-

ity standards, global warming, acid rain, El Nino, ozone hole.

Classicaon and measurement of noise, eects of noise

polluon on human, control of noise polluon.

UNIT V

Energy & Solid Waste Management: Convenonal energy

resources- coal, thermal, petroleum, hydroelectricity, nu-

clear power, wood, non convenonal sources- solar, biogas,

wind, ocean & dal energy, geothermal energy. Hazardousand non hazardous solid waste management. Environmental

laws and acts.


1. “Environmental Studies” by De Anil Kumar & De Arnab

Kumar; New Age Internaonal (P) Ltd.

2. “Environmental Studies” by Basak Anindita; Pearson Ed-

ucaon South Asia.

3. “A Text Book of Environmental Science” by Subramanian.

V; Narosa Publishing House.

4. “Essenals of Ecology & Environment Science” by Rana.

S.V.S.; EPI Publicaons.

AP – 113 Applied Physics - IIL T P Credits

4 0 0 4

UNIT I

Quantum Physics : Failure of classical physics ,Compton

eect , Pair producon de-broglie relaon, wave funcon,

Probability density, Schrodinger wave equaon, operators,

expectaon values and eigen-value equaon, parcle in a

box, simple harmonic oscillator problem, concept of degen-

eracy.


11/29EP-11

UNIT II

Classical Stascs : Stascal physics : Microscopic-macro-

scopic systems, concept of phase space, basic postulates of

stascal mechanics, Maxwell—Boltzmann distribuon law.

UNIT III

Quantum stascs : Quantum Stascs : Fermi—Dirac and

Bose –Einstein Distribuon, Fermi- Dirac probability func-on, Fermi energy level.

UNIT IV

Nuclear Physics : Nuclear properes, constuent of the nu-

cleus, binding energy, stable nuclei, radioacve decay law

(alpha and beta spectrum), Q-value of nuclear reacon ,

nuclear models-liquid drop and shell model, nuclear ssion

and fusion, elementary ideas of nuclear reactors.

UNIT V

Electrodynamics : Maxwell’s equaons, concept of displace-

ment current, Derivaon of wave equaon for plane electro-

magnec wave, Poynng vector. Poynng theorem, Energy

density, wave equaon in dielectric & conducng media.


1. “Nuclear Physics” by Erwin Kaplan.

2. “Concept of Nuclear Physics” by Cohen.

3. “Electrodynamics” by Grith.

4. “Electricity & magnesm” by Rangawala & Mahajan.

5. “Perspecve of Modern Physics” by Arthur Beiser.

AP-AC 114 Engineering Mate-

rials

L T P Credits

4 0 0 4

SECTION – A (PHYSICS)UNIT I

Crystal Structure: Bravais laces; Miller indices, simple

crystal structures, Dierent kind of bonding.

UNIT II

Metallic Conducon: Energy distribuon of electrons in a

metal, Fermi level, Conducon process.

Semi Conductors: Band theory of solids , P and N type of

semiconductors , Stascs of holes and electrons, Hall eect

, Eect of temperature on conducvity , Life me and re-

combinaon, dri and diusion in PN juncon .

UNIT III

Dielectric and Opcal properes of Materials: Dielectric

polarizaon and dielectric constant, opcal absorpon pro-

cess.

Magnesm and Superconducng Materials: Diapara, Fer-

ro-magnesm, Anferro, Ferro-magnesm ferrites, Super-

conducng materials, Properes, Type of superconducng

materials , Meissner eect, High- Tc superconductor, appli-

caon.

SECTION – B (CHEMISTRY)

UNIT IV

Introducon to engineering materials for mechanical con-

strucon. Composion, mechanical and fabricang charac-

teriscs and applicaons of various types of cast irons, plain

carbon and alloy steels, copper, aluminum and their alloys

like duralumin, brasses and bronzes cung tool materials,

super alloys thermoplascs, thermosets and composite ma-terials.

UNIT V

Composite materials: Introducon, limitaons of conven-

onal engineering materials, role of matrix in composites,

classicaon, matrix materials, reinforcements, metal-ma-

trix composites, polymer-matrix composites, ber-rein-

forced composites, environmental eects on composites,

applicaons of composites.

UNIT VI

Speciality Polymers: Conducng polymers-Introducon,

conducon mechanism, polyacetylene, polyparaphenyleneand polypyrole, applicaons of conducng polymers, Ion-ex-

change resins and their applicaons. Ceramic & Refractory

Introducon, classicaon, properes, raw materials, man-

ufacturing and applicaons.

NOTE: Two hrs per week load for Applied Physics Depart-

ment.

Two hrs per week load for Applied Chemistry Department.

Text Books/Reference Books (PHYSICS):

1. “Solid State Physics”, 7th edion by Kiel; J. W .& Sons

Publicaon.

2. “Solid State Physics” by Wahab M.A.; Narosa PublishingHouse.

3. “Solid State Physics” by Ali OmerM; Pearson Educaon

(Singapore) pvt. Ltd. India branch, New delhi.

4. “Engineering Materials: Properes and Selecon”, 7th

edion by Kenneth G. Budinski, Budinshi; Pearson Singa-

por (Prence Hall).

5. “Solid State Physics” by Pillai S.O.; New Age Internaonal

Publicaon.

Text Books/Reference Books (CHEMISTRY)

1. “Essenals of Material Science and Engineering “ by

Donald R. Askeland, Pradeep P. Phule; Thomson.

2. “Speciality Polymers “ by R.W.Dyson; Chapman and Hall,New York, USA.

3. “Polymer Composites “ by A.P.Gupta, M.C.Gupta; New

Age publicaon.

4. “Engineering Chemistry “ by R.N.Goyal, H.Goel; Ane

Books India.

5. “Engineering Chemistry” by S.S.Dara; S.Chand.

6. “Engineering Chemistry” by Raghupa Mukhopadhyay,

Sriparna Daa; New Age Internaonal.

7. “Engineering Chemistry” by P.C.Jain, Monica Jain; Dhan-

pat Rai.


12/29EP-12

ME 115 Basic Mechanical Engi-

neering

L T P Credits

4 0 0 4

(PART A)

UNIT I

Introducon to Thermodynamics, Concepts of systems, con-

trol volume, state, properes, equilibrium, quasi-stac pro-cess, reversible & irreversible process, cyclic process. Zeroth

Law and Temperature, Ideal Gas. Heat and Work.

UNIT II

First Law of Thermodynamics for closed & open systems.

Non Flow Energy Equaon. Steady State, Steady Flow Ener-

gy Equaon.

Second Law of Thermodynamics – Kelvin and Planck’s State-

ments, Clausius inequality, Denion of Heat Engine, Heat

pump, Refrigerator. Concept of Entropy and availability.

Carnot Cycle; Carnot eciency, Oo, Diedel, Dual cycle and

their eciencies.

UNIT III

Properes & Classicaon of Fluids, Ideal & real uids,

Newton’s law of viscosity, Pressure at a point, Pascal’s law,

Pressure variaon in a stac uid, Introducon to Bio-uid

Mechanics General descripon of uid moon, stream lines,

connuity equaon, Bernoulli’s equaon, Steady and un-

steady ow. Turbines and pumps.

(PART-B)

UNIT IV

Introducon to Manufacturing processes for various ma-

chine elements. Introducon to Casng & Welding process-es. Fabricaon of large & small components and assemblies-

example Nuts and Bolts, Water turbine rotors, Large Electric

Generators, introducon to turning, milling, shaping, drilling

& boring processes.

UNIT V

Introducon to quality measurement for manufacturing pro-

cesses; standards of measurements, line standards and, end

standards, precision measuring instruments and gauges:

vernier calipers, height gauges, micrometers, comparators,

dial indicators, and limit gauges.

Text Books/Reference Books

1. “Engineering Thermodynamics” by P. K. Nag.

2. “Fundamentals of Classical Thermodynamics” by G. J.

Van Wyle and R. E. Santag.

3. “Introducon to Fluid Mechanics and Fluid Machines” by

S. K. Som and G. Biswas.

4. “Fluid Mechanics” by V. L. Streeter and E. B. Wylie.

5. “Fluid Mechanics and Hydraulic Machines” by R. K. Ban-

sal.

6. “Manufacturing Processes” by Kalpakjian.

7. “Workshop Praccs” by A. K. Hazara Chowdhary.

8. “Workshop Technology” by W. A. J. Chapman.

9. “Producon Engineering” by P.C. Sharma.

10. “Producon Engineering” by R. K. Jain.

COE– 116 Programming Funda-

mentals

L T P Credits

2 0 0 2

UNIT I

Introducon: Concepts of algorithm, ow chart, Introduc-

on to dierent Programming Languages like C, C++, Java

etc.

Elementary Programming: Data types, assignment state-

ments, condional statements and input/output statements.

Iterave programs using loops.Concept of subprograms.

Coding style: choice of names, indentaon, documentaon,

etc.

UNIT II

Arrays: Array representaon, Operaons on array elements,

using arrays, muldimensional arrays.

Structures & Unions: Declaraon and usage of structures

and Unions.

Pointers: Pointer and address arithmec, pointer operaons

and declaraons, using pointers as funcon argument.

File: Declaraon of les, dierent types of les. File input/

output and usage.

UNIT III

Object Oriented Programming: Funconal and data decom-

posion, Characteriscs of Object-Oriented Languages: Ab-

stracon, Encapsulaon, Informaon hiding, abstract datatypes,

Classes and Objects: Concept of Object & classes, aributes,

methods, C++ class declaraon, private and public member-

ships, Constructors and destructors, instanaon of objects.

Introducon to Class inheritance and operator overload-

ing.

UNIT IV

Files: Streams and les, error handling, over view of Stan-

dard Template Library.


1. “Problem Solving and Program Design in C” by Jeri R.Hanly, Elliot B. Koman; Pearson Addison-Wesley, 2006.

2. “A Structured Programming Approach Using C” by Beh-

rouz A.Forouzan, Richard F. Gilberg; Thomson Computer

Science- Third Edion [India Edion], 2007.

3. “C++: The Complete Reference” by Schildt Herbert; Wi-

ley DreamTech, 2005.

4. “Object Oriented Programming using C++” E. Balagu-

rusamy, TMH. R. Lafore; BPB Publicaons, 2004.

5. “Object Oriented Programming with C++” by D . Para-

sons; BPB Publicaon, 1999.


13/29EP-13

6. “The Art of Programming Computer Science with C++”

Steven C. Lawlor; Vikas Publicaon, 2002.

AP 117 Applied Physics - II LabLaboratory Praccal Based on course

work corresponding AP113

L T P Credits

0 0 2 2

COE 118 Programming LabLaboratory Praccal Based on course

work corresponding COE-116

L T P Credits0 0 2 2

ME– 119 Engineering GraphicsL T P Credits

0 0 3 3

General: Importance, Signicance and scope of engineering

drawing Leering, Dimensioning, Scales, Sense of Propor-

oning, Dierent types of Projecons, B.I.S. Specicaon,

line symbols, rules of prinng.

Projecons of Points and Lines: Introducon of planes ofprojecon, Reference and auxiliary planes, projecons of

points and lines in dierent quadrants, traces, inclinaons,

and true lengths of the lines, projecons on auxiliary planes,

shortest distance, intersecng and non-intersecng lines.

Planes Other than the Reference Planes: Introducon of

other planes (perpendicular and oblique), their traces,

inclinaons etc., projecons of points lines in the planes,

conversion of oblique plane into auxiliary plane and soluon

of related problems.

Projecons of Plane Figures: Dierent cases of plane g-

ure (of dierent shapes) making dierent angles with oneor both reference planes and lines lying in the plane gures

making dierent given angles (with one or both reference

planes). Obtaining true shape of the plane gure by projec-

on.

Projecon of Solids: Simple cases when solid is placed in dif-

ferent posions, Axis, faces and lines lying in the faces of the

solid making given angles.

Isometric and Orthographic: First and Third angle of system

of projecon sketching of Orthographic views from pictorial

views and vice –versa principles and type of seconing.

Development of Surface


1. “Engineering Graphics” by Narayana, K.L. and Kannaiah,

P.; Tata McGraw Hill, New Delhi

2. “Elementary Engineering Drawing” by Bha N.D.; Charo-

tar Book Stall, Anand

3. “Engineering Graphics” by Lakshminarayaan, V. and

Vaish Wanar, R.S.; Jain Brothers, New Delhi

4. “Engineering Graphics” by Chandra, A.M. and Chandra

Sash; Narosa

PE 120 Mechanical WorkshopL T P Credits

0 0 3 3

Fing shops, Welding shops, Foundry Shops, Sheet Metal

Shop, Smithy Shop.

EP201 Introducon to

compung

L T P Credits

3 1 0 4

UNIT I

Introducon to Matlab: Advantages and disadvantages,

Matlab environment: Command window, Figure window,

Edit window, Variables and Arrays: Inializing variables in

Matlab, Muldimensional arrays, Subarrays.

UNIT II

Special values, Displaying output data, Data le, Scalar and

array operaons, Hierarchy of operaons, Built-in-Matlab

funcons, Introducon to plong: 2D and 3D plong.

Branching Statement and Program design: Introducon to

top-Down design Technique, Use of pseudo code, Relaonaland logical operators, Branches, addional plong features

of Matlab .

UNIT III

Loops: The while loop, for loop, details of loops operaons,

break and connue statement, nesng loops, Logical arrays

and vectorizaon, User Dened Funcons: Introducon to

Matlab funcons.

UNIT IV

Variable passing in Matlab, Oponal arguments, Sharing

data using global memory, preserving data between calls

to a funcon, funcon funcons, Subfuncon and privatefuncon.

UNIT V

Complex Data and Character Data: Complex data, String

funcons, Muldimensional arrays, Addional 2D plots,

three dimensional plots. Input/Output Funcon: Textread

funcon, load and save commands.

UNIT VI

An introducon to Matlab le processing, le opening and

closing, Binary I/O funcons, Formaed I/O funcons,

comparing binary and formaed funcons, le posioning

and Status funcons, Numerical methods and developing

the skills of wring the program


1. Stephen J. Chapman, MATLAB Programming for

Engineers, CL-Engineering; 4 edion (November 8, 2007)

2. Rudra Pratap, Geng Started with MATLAB: A Quick

Introducon for Sciensts and Engineers, Oxford

University Press, USA (November 16, 2009)

3. Duane C. Hanselman, Mastering MATLAB 7, Prence

Hall; 1 edion (November 1, 2004)


14/29EP-14

4. Stormy Aaway, Matlab: A Praccal Introducon to

Programming and Problem Solving, Buerworth-

Heinemann; 1 edion (February 16, 2009)

5. Amos Gilat, MATLAB: An Introducon with Applicaons,

Wiley; 3 edion (January 2, 2008

EP202 Mathemacal PhysicsL T P Credits

3 1 0 4

UNIT I:

Review of Vector Analysis: Scalar and vector elds,

Dierenaons, divergence and curl, Integraons,

Applicaons of Greens, Gauss’s and stokes theorem,

Equaon of connuity and its applicaons.

UNIT II:

Tensors: Denion- Contravariant and Covariant tensors-

Dummy sux notaon-Addion, substracon, Contracon,

inner product, outer product, Quoent law, symmetric

and an-symmetric tensors-applicaon of tensor theory to

strain, thermal expansion, piezo-electricity and converse

piezo-electric eect

UNIT III:

Complex Variables: Introducon, Funcons of complex

variables, limit, connuity, Analyc funcon, Cauchy-

Reimann equaons, Harmonic funcon, Singular points and

classicaon, Cauchy theorem, Cauchy’s integral formula,

Taylor’s and Laurent’s series, Residues, Calculaons of

residues, Residue theorem-evaluaon of denite integrals.

UNIT IV:

Paral Dierenaal Equaons: Laplace equaon – Method

of separaon of variables- Soluon of Laplace Equaon in

two dimensions- Applicaon of Laplace equaon to two

dimensional steady state of heat ow in a thin rectangular

plate- D’alemberts soluon of vibrang string-applicaon to

the vibraon of a rectangular membrane.

UNIT V:

Numerical analysis: Introducon to Numerical analysis,

Forward and backward dierences, Relaon between the

operators, Concept of Interpolaon and Extrapolaon

UNIT VI:

Numerical analysis: Newton-Gregory formula for forward

and backward interpolaon, Soluon of ordinary dierenal

equaons of rst order using Runge-Kua Method


1. M. R. Spiegel, Vector Analysis, Schaum’s outline series

Tata McGraw Hill

2. Harry Lass, Vector and Tensor analysis, Internaonal

Student edion, McGraw-Hill

3. I.S. Sokolnikof, Tensor Analysis, John Wiley & Sons, Inc.

4. Physical properes of crystals, J.F. Nye, Schaum’s outline

series, Oxford University Press

5. M. J. Ablowitz, A.S. Fokas, Complex variables, Cambridge

University Press, First South Asian paperback edion.

6. J.W. Brown and R.V. Churchill, Complex variable and

applicaons, 6th ed., McGraw Hill Internaonal

7. Erwin Kreyszig, Advanced Engineering Mathemacs,

New Age Internaonal (p) Limited.

EP 203 Thermal PhysicsL T P Credits

3 1 0 4

UNIT IThermal equilibrium, zeroth law and concepts of

temperature. First law and its consequences, reversible,

irreversible and quasi-stac processes. Path Dependence

and Heat capacies.

UNIT II

Calculaons of Work and heat; Isothermal, adiabac,

Isobaric, Isochoric, Enthalpy.

Second law: heat engines, basic inequality, Extension to

Non-Isolated systems, Carnot’s cycle, concept of entropy

and its stascal interpretaon, thermodynamic potenals,

Maxwell's relaons.

UNIT III

Gibbs free energy, Helmholtz free energy.Chemical

equilibrium, stability, elements of chemical thermodynamics.

Thermodynamic funcons, Clausius-Clapeyron equaon..

UNIT IV

Maxwell-Boltzmann’s molecular speed distribuon and heat

capacies, Canonical

ensemble: Boltzmann’s factor, paron funcon

UNIT V

Phase transion: Joule Kelvin eect, rst order and

connuous transions, crical exponents, applicaons tomagnesm, super uidity and superconducvity

UNIT VI

Chemical potenals; grand canonical ensembles; gas-liquid

phase transion, photon gas: Black body radiaon.


1. M.W. Zemansky and R. H. Diman, Heat and

Thermodynamics (7th ed.), McGraw Hill

2. H. B. Callen, Thermodynamics and an Introducon to

Thermostascs (2nd ed.), John Wiley

3. ter Haar and H. Wergeland, Elements of Thermodynamics,

Addison- Wesley

4. H. E. Stanley, Phase Transion and Crical Phenomenon,Cambridge University Press

EP-204: Digital ElectronicsL T P Credits

3 1 0 4

UNIT I

Minimizaon Techniques: Boolean postulates and laws

– De-Morgan’s Theorem-Principle of Duality - Boolean

expression - Minimizaon of Boolean expressions ––


15/29EP-15

Minterm – Maxterm - Sum of Products (SOP) – Product

of Sums (POS) – Karnaugh map Minimizaon – Don’t care

condions, Implementaon of Logic Funcons using gates,

NAND–NAND and NOR-NOR implementaons. BCD and XS3

Addion, Gray Codes, 1’s complement and 2’s complement

subtracon.

UNIT II

Introducon to the circuits for Arithmec UNIT: Designprocedure – Half adder – Full Adder – Half subtractor – Full

subtractor - Parallel binary Adder/Subtractor –Serial Adder/

Subtractor - BCD adder – 2’s complement adder/subtractor,

Mulplexer, Demulplexer, Decoder, Encoder, Latches,

Flip-ops - SR, JK, D, T, and Master-Slave – Characterisc

table and equaon –– Edge triggering – Level Triggering –

Realizaon of one ip op using other ip ops. Registers –

shi registers - Bidireconal shi registers, serial and parallel

conguraons.

UNIT III

Shi register counters – Ring counter, Johnson counter,

Asynchronous Ripple or serial counter –Asynchronous Up/Down counter - Synchronous counters – Synchronous Up/

Down counters – Programmable counters .

UNIT IV

Design of Synchronous counters: state diagram- State

table– State minimizaon –State assignment - Excitaon

table and Circuit implementaon - Modulo–n counter,–

Non-Sequenal Counter Design using JK, D and T-design.

Introducon to VHDL-Behavioural Modeling, Dataow

Modeling, Structural Modeling, Applicaon in Digital System

Designs.

UNIT VDigital to analog converter: Binary Weighted Resistors,

Analog to digital converter-Successive Approximaon

Method, Logic gates, DTL, TTL, ECL, I2L, CMOS Gates and

their parameters and comparisons.

UNIT VI

Classicaon of memories – ROM - ROM organizaon

- PROM – EPROM – EEPROM – EAPROM, RAM – RAM

organizaon – Write operaon – Read operaon, memory

expansion – Stac RAM Cell-Bipolar RAM cell – MOSFET

RAM cell – Dynamic RAM cell


1. Thomas L. Floyd , Digital Fundamentals, Pearson

Educaon Asia (1994)

2. Digital Integrated Electronics by H.Taub & D.

Schilling(TMH).

3. Digital Principles and Applicaon by Malvino & Leach

(TMH).

4. Digital Electronics And Logic Design by M.Mano (EPI)

5. Switching And Finite Automata Theory by Z. Kohavi

(TMH).

6. Modern Digital Electronics by R. P. Jain (TMH).

EP 205 : Engineering MechanicsL T P Credits

3 1 0 4

UNIT I

Rigid body stac: Equivalent force system. Equaons

of equilibrium, Free body diagram, Reacon, Stac

indeterminacy and paral constraints, Two and three force

systems.

UNIT II

Structures: 2D truss, Method of joints, Method of secon.

Frame, Beam, types of loading and supports, Shear Force

and Bending Moment diagram, relaon among load-shear

force-bending moment.

UNIT III

Fricon: Dry fricon (stac and kinemacs), wedge fricon,

disk fricon (thrust bearing), belt fricon, square threaded

screw, journal bearings (Axle fricon), Wheel fricon, Rolling

resistance.

UNIT IV

Center of Gravity and Moment of Inera: First and second

moment of area and mass, radius of gyraon, parallel axis

theorem, product of inera, rotaon of axes and principal

M. I., Thin plates, M.I. by direct method (integraon),

composite bodies.Virtual work and Energy method:

Virtual Displacement, principle of virtual work, mechanical

eciency, work of a force/couple (springs etc.), Potenal

Energy and equilibrium, stability.

UNIT V

Kinemacs of Parcles: Reclinear moon, curvilinear

moon rectangular, normal tangenal, polar, cylindrical,

spherical (coordinates), relave and constrained moon,space curvilinear moon.

UNIT VI

Kinecs of Rigid Bodies: Translaon, xed axis rotaon,

general planner moon, work-energy, power, potenal

energy, impulse-momentum and associated conservaon

principles, euler equaons of moon and its applicaon.


1. I. H. Shames, Engineering Mechanics: Stacs and

dynamics, 4th Ed, EPI, 2002.

2. P. Beer and E. R. Johnston, Vector Mechanics for

Engineers, Vol I - Stacs, Vol II

3. Dynamics, 3rd Ed, Tata McGraw Hill, 2000.4. R. C. Hibbler, Engineering Mechanics, Vol I and II, Pearson

Press, 2002.

5. Andy ruina and Rudra Pratap, Introducon to Stacs and

Dynamics


16/29EP-16

EP 206 : Basic Engineering

Economics

L T P Credits

3 0 0 3

UNIT I

Introducon: Nature and signicance of economics, Goods

and Ulity, Basic Concept of Demand and Supply, Elascity

of Demand- Price Elascity of Demand, Cross Elascity of

Demand, Producon – Producon Funcon, ProduconProcess and Factors of Producon, Market – Introducon to

Monopoly, Perfect Compeon, Oligopoly and Monopolisc

Compeon, Cost Concepts, E-commerce.

UNIT II

Money – its evaluaon and funcon, Bank- Commercial Bank

and Central Bank and brief idea about funcon of banking

system. Tax and Subsidy, Type of Tax- Direct and Indirect,

Monetary and scal policy, Inaon and Business cycle,

IPR & WTO, Internaonal trade, terms of Trade, Gain from

Internaonal Trade, Free Trade vs. Protecon, Dumping,

Balance of Payment

UNIT III

Role of Science, Engineering and Technology in economic

development: Some of the burning problems of rural and

slum areas in Indian and how engineering and technology

may be used to alleviate them, example of Green Revoluon

and White revoluon. Reasons for their success and can we

replicate them. Sustainable development.

UNIT IV

Elementry Economics Analysis; Interest formulas and their

Applicaons; Calculaons of economic equivalence, Bases

for Comparison of Alternaves: Present Worth Method,

Future Worth Method, Annual Equivalent, Internal Rate ofReturn; Evaluang Producon Operaons, Business Risk

Management.


G.J. Thuesen, & W.J. Fabrycky, Engineering Economy,

Prence-Hall of India Private Limited, New Delhi.

William G. Sullivan, James A. Bontadelli &Elin M. Wicks,

Engineering Economy, Pearson Educaon Asia, First Indian

reprint.

Donald G. Newnan, Jerome P. Lavelle & ted G. Eschenbach,

Engineering Economic Analysis, Engineering press, Ausn,

Texas.

Seema Singh, Economics for Engineering Students, IK

Internaonal Publishing House Pvt. Ltd.

EP 207: Thermal Physics LabL T P Credits

0 0 2 2

Based on EP 203

EP 208: Digital Electronics LabL T P Credits

0 0 2 2

Based on EP 204

EP 209: Introducing to

Compung Lab

L T P Credits

0 0 2 2

Based on EP 201

EP 210 Self Study / Seminar - IL T P Credits

0 1 0 1

EP 211 Classical and Quantum

Mechanics

L T P Credits

3 1 0 4

Classical Mechanics

UNIT I

Basic Principles of classical dynamics: Central forces:

Denion and properes, The equaons of moon, theequivalent one dimensional problem and classicaon of

orbits.

UNIT II

Constraints of moon : Generalised coordinates : Hamilton’s

variaonal principle: D’Almbert Principle : The Lagrangian

funcon,Lagrange’s equaons of moon: derivaon and

applicaons , Conservaon theorems

UNIT III

The Hamiltonian (H), Hamilton’s Canonical equaons

of moon, Physical Signicance of H, Cyclic coordinates

Derivaon of Hamilton’s equaons from a variaonalprinciple, Applicaons of Hamilton’s equaons of moon

Quantum Mechanics

UNIT IV

Review of Schrödinger equaon. Simple potenal problems-

peneteraon of a potenal barrier, Bra and ket notaons,

Angular momentum algebra

UNIT V

Approximaon techniques in quantum mechanics :

Variaonal Method, Applicaons of variaon method – (i)

Ground state of hydrogen atom and (ii) helium atom.

UNIT VI

Wentzel Kramers Brillouin (WKB) approximaon, Principle of

WKB approximaon, connecon formulae for penetraon

of barrier.

Applicaon of WKB Approximaon method – (i) Transmission

through a barrier (ii) Theory of alpha decay.

Time dependent perturbaon theory, perturbaon theory

for non degenerate case, stark eect of the plane rotator


17/29EP-17


1. H. Goldstein, Classical Mechanics, Addison Wesley, 2nd

ed.

2. S. Gasiorowicz, Quantum Physics, John Wiley , Asia

3. P.W. Mathews and K. Venkatesan, A textbook of Quantum

Mechanics, Tata McGraw Hill

4. Schwabl, Quantum Mechanics, Narosa

5. L.I. Schi, Quantum Mechanics, McGraw Hill

6. Merzbacher, Quantum Mechanics,John Wiley , Asia

7. B.H. bransden and C. J. joachain,Introducon to Quantum

Mechanics, Longman

Theory Paper II

EP 212 OpcsL T P Credits

3 1 0 4

UNIT I

Wave nature of light, Coherence: Spaal and temporal

coherence, spectral resoluon of a nite wave train, Opcal

Beats, Coherence me and line width via fourier analysis,

Fourier transform spectroscopy.

UNIT II

Theory of interference and interferometers: Interference of

two monochromac waves, two beam interference, mulple

beam interference, fabry perot interferometer, chromac

resolving power, Channeled spectra

UNIT III

Theory of diracon: Introducon, The Huygens –Fresnel

principle, Kirchho’s diracon theory, the integral theorem

of Kirchho, Fraunhofer and Fresnel diracon.

UNIT IV

Spaal frequency ltering, resolving power of prism and

grang, diracon paerns with sound and microwaves.

UNIT V

Opcs of crystals: the dielectric tensor of an anisotropic

medium, the structure of a monochromac plane wave in

an anisotropic medium, Opcal properes of uniaxial and

biaxial crystals.

UNIT VI

Measurements in crystal opcs, Stress birefringence and

form birefringence, Absorbing crystals, Introducon toLasers


1. G. B. Fowles, Introducon to Modern Opcs, Holt

Reinhart and Winston

2. A.Ghatak, Introducon to Opcs, Tata McGraw Hill.

3. M. Born and E. Wolf, Principles of Opcs, McMillan

4. S. C. Lipson and H. Lipson, Opcal Physics, Cambridge

University Press

Theory Paper III

EP 213 Signals and SystemsL T P Credits

3 1 0 4

UNIT I

Basic signal in connuous and discrete form, linearity,

causality, stability, linear me-invariant (LTI) systems,convoluon integral for connuous-me systems,

convoluon sum for discrete me systems, properes

of linear me-invariant systems, system described by

dierenal and dierence equaons.

UNIT II

Fourier series representaon of periodic signals:

Representaon of periodic signals by trigonometric and

exponenal series, properes of connuous me Fourier

series, discrete me Fourier series and its properes,

connuous and discrete me ltering.

UNIT III

Connuous me Fourier transform: Denion of Fouriertransform and its inverse, properes of the transform,

common transform pairs, convoluon and mulplicaon

theorems.

Discrete me Fourier transform: Denion and properes,

Convoluon theorem, frequency response corresponding to

dierence equaons.

UNIT IV

Laplace Transform: Denion, region of convergence,

properes, analysis of LTI systems, soluon of dierenal

equaons, system funcons, poles and zeros, stability.

UNIT V

Transform: denion, region of convergence, inversion,

basic properes, soluon of dierence equaons, system

funcons, poles and zeros and stability.

UNIT VI

Discrete Fourier transform: Properes of discrete Fourier

transform, relaon between discrete Fourier transform, Z

and Laplace transform. Convoluon of sequences, circular

convoluon theorem, overlap add and overlap save methods

of convoluon.

Sampling: Uniform sampling, sampling theorem, aliasing,

decimaon, interpolaon.


1. “Signals & Systems” by Oppenheim, Willsky and Nawab.

2. “Signal & systems” by Simon Haykins; PHI

3. “Fundamentals of Signal & Systems using the Web and

Matlab”, By Kamen : Pearson

4. “Digital Signal Processing”, by Proakis : Pearson.


18/29EP-18

Theory Paper IV

EP-214- Microprocessors and

Interfacing

L T P Credits

3 0 0 3

UNIT I : Basic Concepts of Microprocessors, Introducon

to 8086 Microprocessor, its internal architecture, Concept

of address, data and control buses, 8086 hardwarespecicaons: pin-outs and the pin-funcons, Real Mode

Memory Addressing, Introducon to protected mode

memory addressing, Memory Address Space Organizaon,

Minimum and Maximum mode.

UNIT II : Programming model of 8086-general purpose

registers, special purpose registers and segment registers.

Physical address generaon, data addressing modes,

program memory addressing modes, stack memory

addressing modes, data transfer instrucons, arithmec and

logic instrucons, ag control instrucons, program control

instrucons, Input/Output instrucons, Bus Cycle Timing

Diagrams.

UNIT III : Types of Interrupts, interrupt instrucons, hardware

interrupt interface, soware interrupts, NMI interrupt.

UNIT IV

Programmable Interrupt Controller – 8259, Programmable

Peripheral Interface (PPI) - 8255, Programmable

Direct Memory Access (DMA) Controller - 8237/8257,

Programmable Interval Timer - 8253.

UNIT V : Introducon to PIC Microcontrollers, PIC

microcontroller overview and features, PIC 16F877: ALU,

CPU registers, pin diagram, PIC reset acons, PIC oscillator

connecons, PIC memory organizaon, PIC 16F877

instrucons, Addressing modes, I/O ports.

UNIT VI

Interfacing applicaons of Microcontroller-interfacing of 7

segment display, LCD interfacing, ADC and DAC interfacing.

Texts/References :

1. Y. Liu and G. A. Gibson, Microcomputer Systems: The

8086/8088 Family, 2nd Ed., Prence Hall of India.

2. Douglas Hall, Microprocessors Interfacing, Tata McGraw

Hill.

3. Barry B. Brey, The Intel Microprocessors, 7th Ed., Prence

Hall of India.4. Walter A. Treibel and Avtar Singh, The 8088 and 8086

Microprocessors, Prence Hall of India.

5. Raquzzaman, Microprocessors, Prence Hall of India.

6. A.K.Ray, K.M.Bhurchandi, Advanced Microprocessors

and Peripherals (Second edion), TMH.

7. Microcontroller and Embedded systems- M.A.Mazadi,

J.G.Mazadi & R.D.McKinlay - Pearson PHI.

8. Embedded Design with Microcontrollers by Marn Bate

EP 215 Computaonal MethodsL T P Credits

3 1 0 4

UNIT I

Errors in numerical calculaons: Introducon, Number

and their accuracy, Errors and their analysis, Absolute,

Relave, Percentage and Maximum probable error, Physical

signicance of errors, General error formula, Error inseries approximaon, Interpolaon: Introducon, Errors

in polynomial Interpolaon, Finite dierences, Detecon

of errors by use of dierence tables, Dierences of a

polynomial, Newton’s formulae for interpolaon, Central

dierence interpolaon formulae, Praccal interpolaon,

Divided dierences and their property, Inverse interpolaon,

Double Interpolaon.

UNIT II

Soluon of numerical algebraic and transcendental

equaon: Roots of equaons, Direct method and iteraon

method, Bisecon method, Regula Falsi Method or Method

of False posion, Secant or Chord method, Newton-Raphsonmethod, Soluon of simultaneous linear algebraic equaon:

Gauss-eliminaon method, Gauss-Jordon eliminaon

method, Power method, Jacobi method for nding eigen

values, Rotaon Matrix, Method of triangularizaon,

Relaxaon Method

UNIT III

Curve ng: Introducon, Least square curve ng

procedures, ng a straight line, nonlinear curve ng,

curve ng by a sum of exponenals, Data ng with cubic

splines, governing equaons and end condion, errors

in the cubic Spline derivaves, error analysis of the cubic

Spline, Approximaon of funcon, Chebyshev polynomials,Economizaon of power series

UNIT IV

Numerical Dierenaon and Integraon: Cubic Spline

method, maximum and minimum values of a tabulated

data, Numerical integraon, trapezoidal method, Simpson’s

1/3-rule, Simpson’s 3/8-rule, Boole’s and Weddle’s Rule,

Romberg integraon, Newton-cotes integraon formulae,

Euler-Maclaurin formula, Gaussian integraon, Numerical

double integraon

UNIT V

Numerical soluon of ordinary dierenal equaons:

Introducon, soluon by Taylor’s series, Picard’s methodof successive approximaon methods, Euler’s method,

modied Euler’s method, Runge-Kua method, predictor-

corrector method, Cubic Spline method, Boundary value

problem.

UNIT VI

Numerical soluon of paral dierenal equaon:

Introducon, Finite dierence approximaons to derivaves,

Laplace’s equaon, Jacobi’s method, Iterave method for

soluon of equaon.


19/29EP-19


1. Steven C. Chapra and Raymond P Canale, Numerical

Methods for Engineers, McGraw New York

2. T.R. McCalla, Introducon to Numerical Methods and

Fortran Programming, John Wiley, N.Y.

3. William Press et al, Numerical Recipes in Fortran/C,

Cambridge University Press

4. Tao Pang, An Introducon to Computaonal Physics,

Cambridge University Press

5. S.E. Koonin, Computaonal Physics, Benjamin

EP 216 Condensed Maer

Physics

L T P Credits

3 1 0 4

UNIT I

Introducon to crystal physics, Symmetry operaons;

Bravais laces; Point and Space groups; Miller indices and

reciprocal lace; Brillouin zones; Defects in crystals; Point

and line defects. Interplanar spacing, Ionic bonding, Bond

dissociaon energy, Calculaon of lace energy of ionic

crystals, Madelung constant of ionic crystals, Covalent,Metallic and Intermolecular bonds; X-ray diracon.

UNIT II

Lace vibraon and thermal properes: Einstein and

Debye models; connuous solid; linear lace; acousc and

opcal modes; dispersion relaon; aenuaon; density of

states; phonons and quanzaon; thermal conducvity of

metals and insulators.

UNIT III

Free electron theory of metals; Electronic moon in a

one and three dimensional potenal well; Fermi energy,

total energy, Density of states, Wave equaon in a periodicpotenal and Bloch theorem; Kronig-Penny model; band

theory; Disncon between metal, semiconductor and

insulators; band gap.

UNIT IV

Dielectrics: Polarizaon mechanism and types, dielectric

constant, Polarizability, Clausius Mosso equaon,

Behaviour of polarizaon under impulse, Dielectric loss,

ferroelectric and piezoelectric materials, applicaon of

dielectric materials.

UNIT V

agnesm: concept of magnesm, classicaon of dia-, para-

, ferro-, anferro magnesm and ferrimagnesm (Ferrites),

Hysteresis, Hard and So magnec materials, magnec

storage and surfaces, Applicaon of magnec materials,

GMR.

UNIT VI

Superconducvity: Introducon and historical

developments; Meissner eect and its contradicon to the

Maxwell’s equaon; Crical parameters; Thermal properes,

energy gap, Isotope eect, London equaons, Penetraon

depth, Coherence length; BCS theory; Cooper pair, ground

state, Josephson eect and tunnelling, Applicaons of

superconductors.


1. H. P. Myers, Introducon to Solid State Physics, Viva

books (1998).

2. M. A. Omar, Elementary Solid State Physics, Addison-

Wes ley (1975).

3. C. Kiel, Introducon to Solid State Physics, John Wiley

(1996).

4. A. J. Dekker, Solid State Physics, Macmillan (1986).

5. N. W. Ashcro and N. D. Mermin, Solid State Physics,

HBC Publ. (1976).

6. S. O. Pillai, Soild State Physics, New Age Internaonal

publicaon.

EP 217 Opcs LabL T P Credits

0 0 2 2

Laboratory experiments will be set in consonance with the

material covered in opcs course

EP 218 Solid State Physics LabL T P Credits

0 0 2 2


material covered in opcs course

EP 219 Microprocessor &

Interfacing Lab

L T P Credits

0 0 2 2


material covered in microprocessor course

EP 220 Self Study / Seminar - IIL T P Credits

0 1 0 1

EP301 Atomic and Molecular

Physics

L T P Credits

3 1 0 4

UNIT – I

Bohr-Sommerfeld theory of Hydrogen Atom, Quantum

mechanics of Hydrogen atom: Angular momentum & parity,

Magnec dipole moments, Electron spin and vector atom

model, Spin orbit Interacon: Hydrogen ne structure,idencal parcles & Pauli’s principle.

UNIT - II

Helium Atom & its spectrum, Mulelectron atoms; Hartree’s

eld: Atomic ground states & periodic table, Spectroscopic

terms: L-S & j-j couplings, spectra of alkali elements, spectra

of alkaline earth elements, The Zeeman eect, The stark

eect, Hyperne structure of spectral lines, The Breadth of

Spectral lines, X-ray spectra.


20/29EP-20

UNIT – III

Rotaonal spectroscopy:Rigid rotor, Rotaonal spectra of

diatomic Molecules, Rotaon levels of polyatomic molecules:

spherical, symmetric, and asymmetric tops.

UNIT – IV

Vibraonal spectroscopy: Vibraon of diatomic molecules.

Harmonic and anharmonic oscillator, Vibraonal-rotaonal

couplings,Vibraon of polyatomic molecules, Solvent eectson vibraon spectra.

UNIT – V

Electronic spectroscopy of molecules: Electronic absorpon

specta of diatomic molecules. Molecular orbital and term,

symbols, Dissociaon and pre-dissociaon in the spectra

of diatomics, Electronic absorpon spectra of polyatomic

molecules, uorescence. Raman eects.


1. Molecular Spectra and Molecular Structure by G.

Herzberg

2. B. H. Bransden and C. J. Joachain, Physics of Atoms andMolecules, Pearson Educaon

3. H. Haken and H. C. Wolf, The Physics of Atoms and

Quanta, Springer

4. E. U. Condon and G. H. Shortley, The Theory of Atomic

Spectra, Cambridge

5. J. M. Bla and V. F. Weisskopf, Theorecal Nuclear

Physics, John Wiley

6. H. E. White, Introducon to Atomic Spectra, McGraw-Hill

EP 302 Communicaon SystemsL T P Credits

3 1 0 4

UNIT I

Introducon:Block diagram of an electronic communicaon

system, electromagnec spectrum-band designaons and

applicaons, need for modulaon.

Concept of Noise: External noise, internal noise, signal to

noise rao, noise factor, noise temperature, Friss formula.

UNIT II

Amplitude modulaon: modulaon index, frequency

spectrum, generaon of AM (balanced modulator),

Amplitude Demodulaon (diode detector), Other forms of

AM: Double side band suppressed carrier, DSBSC generaon(balanced modulator), Single side band suppressed

carrier, SSBSC generaon (lter method), SSB detecon,

Introducon to other forms of AM (Pilot Carrier Modulaon,

Vesgial Side Band modulaon).

Angle modulaon: Frequency and Phase modulaon,

modulaon index and frequency spectrum, equivalence

between FM and PM, Generaon of FM (direct methods),

FM detector (slope detector, PLL).

UNIT III

Pulse Analog Modulaon: Sampling theorem, Errors in

Sampling. Pulse Amplitude Modulaon (PAM), Time Division

Mulplexing (TDM). Pulse Width Modulaon (PWM) and

Pulse Posion Modulaon (PPM). Generaon and detecon

of PAM, PWM, PPM.

Pulse Code Modulaon: Need for digital transmission,

Quanzing, Uniform and Non-uniform Quanzaon,Quanzaon Noise, Companding, Coding, Decoding,

Regeneraon, Transmission noise and Bit Error Rate.

Dierenal Pulse Code Modulaon, Delta Modulaon,

Adapve Delta Modulaon.

UNIT IV

Digital Carrier Modulaon Techniques: Informaon capacity,

Bit Rate, Baud Rate and M-ary coding. Amplitude Shi Keying

(ASK), Frequency Shi Keying (FSK), Phase Shi Keying (PSK),

Binary Phase Shi Keying (BPSK) and Quadrature Phase Shi

Keying (QPSK). QPSK, Amplitude modulaon, bandwidth

eciency, carrier recovery – squaring loop, Costas loop,

DPSK.Text Books/Reference Books

1. Electronic Communicaons: Modulaon and

Transmission by Robert J. Schoenbeck, Prence Hall of

India

2. Electronic Communicaons by D.Roddy and J.Coolen,

Pearson Educaon

3. Electronic Communicaons by Kennedy, Pearson

Educaon

4. Digital and Analog Communicaon Systems by

L.W.Couch, Pearson Educaon

5. Communicaon Systems by Haykins, Prence Hall of

India

EP 303: Electromagnec theory,

Antennas and Propagaon

L T P Credits

3 1 0 4

UNIT I :

Transmission lines: transmission line equaon in me and

frequency domain, losses and dispersion, reecon from an

unknown load; quarter wavelength, single stub and double

stub matching; Smith Chart and its applicaons. distoron

– distoron less transmission line – The telephone cable –

Inductance loading of telephone cables.

Input impedance of lossless lines – reecon on a line not

terminated by Zo - Transfer impedance – reecon factorand reecon loss.

UNIT II:

Maxwell’s equaons, constuve relaons, wave equaon,

plane wave funcons, rectangular waveguide, circular

waveguide, dielectric slab waveguide, surface guided waves.

Characteriscs of TM and TE Modes, Impossibility of TEM

waves in waveguides, Wave impedances, characterisc

impedance, Excitaon of modes, Cuto wavelength and

phase velocity.


21/29EP-21

UNIT III:

Introducon to Antennas, Antenna parameters: Radiaon

intensity. Direcve gain. Direcvity. Power gain. Beam

Width. Band Width. Gain and radiaon resistance of current

element, radiaon from simple dipole and aperture, horn

antenna, microstrip antenna, parabolic disc antenna. Concept

of antenna arrays, end re and broadside arrays, Expression

for electric eld from two and three element arrays. Uniform

linear array. Method of paern mulplicaon. Binomial

array. Use of method of images for antennas above ground.

UNIT IV:

Basic types of propagaon; ground wave, space wave and

sky wave propagaon.

Sky wave propagaon: Structure of the ionosphere.

Eecve dielectric constant of ionized region. Mechanism

of refracon. Refracve index. Crical frequency. Skip

distance. Maximum usable frequency. Fading and Diversity

recepon. Space wave propagaon: Reecon from ground

for vercally and horizontally polarized waves. Reecon

characteriscs of earth. Resultant of direct and reected rayat the receiver. Duct propagaon. Ground wave propagaon:

Aenuaon characteriscs for ground wave propagaon.

Calculaon of eld strength at a distance.


1. Advanced Engineering and Electromagnecs By

C.A.Balanis.

2. Antennas and Wave Propagaon by J.D.Kraus,

R.J.Marhea and A.S.Khan

3. Electromagnecs for Engineers by S.E.Schwarz

4. Introducon to Electrodynamics by David J.Griths

5. Electromagnec Waves and Radiang Systems by E.C.

Jordan & K.G. Balmain

EP 304 Semiconductor DevicesL T P Credits

3 1 0 4

UNIT I:

Introducon to the Quantum theory of solids: Allowed

and forbidden Energy bands, Electrical conducon in solids,

density of state funcon, Semiconductor in Equilibrium:

Equilibrium carrier concentraon, Intrinsic semiconductor,

Extrinsic semiconductor, Posion of Fermi energy level.

UNIT II:Carrier transport phenomenon: Random moon, Dri and

diusion, Graded Impurity distribuon, Excess carriers:

Injecon level, Lifeme, Direct and indirect semiconductors,

P-N Juncon: Device structure and fabricaon, Equilibrium

picture, DC forward and reverse characteriscs, Small-signal

equivalent circuit, Generaon – Recombinaon currents,

Juncon Breakdown, Tunnel diode.

UNIT III:

Bipolar Juncon Transistor: History, Device structures

and fabricaon, Transistor acon and amplicaon, low

frequency, common- base current gain, Small-signal

Equivalent circuit, Ebers-Moll model MOS Juncon: C-V

characteriscs, threshold voltage, body eect Metal Oxide

Field Eect Transistor: History, Device structures and

fabricaon, Common source DC characteriscs

UNIT IV:

Small-signal equivalent circuit, Dierences between a

MOSFET and a BJT Juncon FET and MESFET: Basic pn

JEFT & MESFET operaon, Device characteriscs, Recent

Developments: Hetero-juncon FET, Hetro-juncon bipolar

transistor Opcal Devices: Solar Cells, Photodectectors, LEDs


1. Physics of Semiconductor Devices by Ben G. Streetman

2. Physics of Semiconductor Devices by M.Shur

3. Semiconductor Devices by Kiel

4. Integrated Electronics by Millman and Helkias]

EP 305 BiophysicsL T P Credits

3 1 0 4

UNIT I:

Background of membrane biophysics, Basic structure and

composion of membrane, Donnan equilibrium, GHK, Ion

transport system overview, Whole cell behavior: cardiac,

Integraon: from channels to whole cell, Whole cell

behavior: currents, gang, kinecs, control, Measurement

approaches, Automacity and pacemakers, Excitaon-

contracon coupling (cardiac and neuro), Cardiac EC

coupling, structure and funcon, NMJ

UNIT II:

Ion channel structure and gang funcon, Common elements

organized to make specic funcon, Protein structure, pore

formaon, charge eld, Control of channel funcon, voltage

acvaon, ligand acvaon, signaling, gang kinecs, Ion

selecvity, Ion channel types and characterizaon, Channel

types, structure, funcon, Same channels in dierent

cell types, Molecular biology in ion channels, Sample

channelopathies

UNIT III:

Modeling and simulaon of channels, Stochasc processes,

State transion mechanics and modeling, Examples ofdisease modeling, Whole cell behavior: neuron, Integraon,

Propagaon, saltatory conducon, Neuron synapse,

synapc plascity, Structure of the synapse, Electrochemical

transducon, Postsynapc integraon and informaon

processing.

UNIT IV:

Modeling and simulaon of whole cell EP, Review of HH

formalism; modern extensions, Mathemacal formulaon,

numerical implementaon, examples of soware,


22/29EP-22

Strengths and limitaons of simulaon, Cardiac cell-to-cell

communicaon, Gap juncon structure, funcon


1. Biophysics: An Introducon by Roland Glaser

2. Molecular and Cellular Biophysics by Meyer B. Jackson

3. Introductory Biophysics: Perspecves on the Living State

by J.R. Claycomb and Jonathan Quoc P. Tran

4. Quantave Understanding of Biosystems: An

Introducon to Biophysics by Thomas M. Nordlund

EP 306 Advanced Physics LabL T P Credits

0 0 2 2


material covered in theory courses 1 and 4.'

EP 307 Electromagnec theory,

Antenna and Propagaon Lab

L T P Credits

0 0 2 2

Laboratory experiments will be set in consonance with

the material covered in Electromagnec Antennas and

Propagaon course

EP 308 Communicaon Systems

Lab

L T P Credits

0 0 2 2


material covered in communicaon systems course

EP 309 Minor Project -IL T P Credits

0 0 4 4

EP 311 Instrumentaon and

Control

L T P Credits

3 1 0 4

UNIT-I

Instrumentaon: Transducers, classicaon & selecon

of transducers, strain gauges, inducve & capacive

transducers, piezoelectric and Hall-eect transducers,

thermisters, thermocouples, photo-diodes & photo-

transistors, encoder type digital transducers, signal

condioning and telemetry, basic concepts of smart sensors

and applicaon.

UNIT II

Control System:Linear, Non Linear, Time Varying and

Linear Time Invariant System, Servomechanism, Historical

Development of Automac Control and Introducon to

Digital Computer Control, Mathemacal Models of Physical

Systems, Dierenal Equaons of Physical Systems, Transfer

Funcons, Block Diagram Algebra and Signal Flow Graphs.

Feedback and Non-feedback Systems Reducon of

Parameter Variaons By Use of Feedback Control Over

System Dynamics By Use of Feedback Control of Eects of

Disturbance Single By Use of Feedback and Regenerave

Feedback.

UNIT 3

Time and frequency response Analysis: Standard test

signals, Time responseof First order Systems, Time Response

of Second-Order Systems, Steady-State Error and Error

Constants, Eect of Adding a Zero to a System, P, PI and PID

Control Acon and Their Eect, Design Specicaons of

Second-Order Systems and Performance Indices.

Correlaon Between Time and Frequency Response, Polar

Plots, Bode Plots, and All Pass and Minimum-Phase Systems.

UNIT 4

The Concept of Stability, Necessary Condions for Stability,

Hurwitz Stability Criterion, Routh Stability Criterion and

relave Stability Analysis. The Root Locus Concept,

Construcon of Root Loci, Root Contours, Systems

with Transportaon Lag, Sensivity of the Roots of the

Characterisc equaon, Mathemacal Preliminaries,

Nyquist Stability Criterion, Denion of Gain Margin and

Phase Margin, Assessment of Relave Stability Using Nyquist

Criterion and Closed-Loop Frequency Response.

Text Books/Reference Books1. Modern Electronic Instrumentaon and Measurement

Techniques by Helfrick and Cooper; Prence- Hall of

India, Reprint1988.

2. Electrical Measurement and Measuring Instruments by

Golding, E.W., 3rd Edion; Sir Issac Pitman and Sons,

1960.

3. Control Systems Engineering by Nagrath & Gopal; New

Age Internaonal. Publishers

4. Instrumentaon Measurement and Feedback” by Jones,

B.TECH.; Tata McGraw-Hill, 1986.

5. Modern Control Engineering by Ogata

6. Linear Control Systems by Scheultz & Melsa.

EP 312 Fiber opcs and opcal

communicaon

L T P Credits

3 1 0 4

UNIT I

Introducon to vector nature of light, propagaon of light,

propagaon of light in a cylindrical dielectric rod, Ray model,

wave model. Dierent types of opcal bers, Modal analysis

of a step index ber..

UNIT II

Signal degradaon on opcal ber due to dispersion and

aenuaon, Pulse dispersion in graded index opcal bers,

Material dispersion, Proagaon characteriscs of step index

ber, Propagaon characteriscs of graded index bers,

Waveguide dispersion and design consideraons

UNIT III

Fabricaon of bers and measurement techniques like

OTDR. Opcal sources - LEDs and Lasers, Photo-detectors -

pin-detectors, detector responsivity, noise, opcal receivers.

Opcal link design - Power and Rise me Budget, BER

calculaon, quantum limit, power panelies.


23/29EP-23

UNIT IV

Opcal switches - coupled mode analysis of direconal

couplers, electro-opc switches., Opcal ber ampliers –

EDFA: Gain spectrum and gain band width, EDFAs for WDM

transmission. Measurement methods in opcal bers


1. “Fibre Opc communicaon”, 2nd Edion, 1992 by

J.Keiser; McGraw-Hill.2. “Opcal communicaon systems” by J.Gowar; Prence

Hall India, 1987.

3. “Integrated opcs” by T. Tamir, (Topics in Applied Physics

Vol.7); Springer-Verlag,

4. 1975.

5. “Opcal bers for transmission” by J.E. Midwinter; John

Wiley, 1979.

6. “Opcal bres telecommunicaons” by S.E. Miller and

A.G. Chynoweth, eds.; Academic

7. Press, 1979.

8. “Nonlinear bre opcs” by G.Agrawal; Academic Press,

2nd Ed. 1994.

9. “Fiber opc Communicaon Systems” by G. Agrawal;

John Wiley and sons, New York,

10. 1992

11. “Fiber Opcs Handbook for engineers and sciensts” by

F.C. Allard; McGraw Hill, New York

EP 313 Quantum Informaon

and Compung

L T P Credits

3 1 0 4

UNIT I:

Introducon to Turing machines-classical probabilisc and

determinisc Turing machines, Quantum Turing machines;

introducon to computability, complexity, classicalcomplexity and quantum complexity classes-Quantum

Physics and Computers.

UNIT II:

Review of Quantum Mechanics- state vectors, superposions,

UNITary operators, hermian operators, Schrödinger

equaon, Hamiltonian evoluon, the concept of quantum

measurement, the concept of qubits, quantum registers

and quantum gates Quantum Algorithms. Introducon to

quantum algorithms, Deutsch’s algorithm, Shor’s algorithm

and Grover’s search Algorithm, Physical implementaon of

simple quantum gates.

UNIT III

Quantum Cryptography and Quantum Teleportaon,

real physical systems and technological feasibility

Heisenberg uncertainty principle, polarizaon states of

photons, quantum cryptography using polarized photons,

entanglements.

UNIT IV:

Introducon to the EPR paradox, BELL’s theorem, Bell basis,

teleportaon of a single qubit, review of some current

experiments and candidate physical systems, technological

feasibility of a quantum computer and the limitaons

imposed by noise.


1. Introducon to Quantum Computaon and Informaon

By Hoi-Kwong Lo, Tim Spiller, Sandu Popescu (World

Scienc 1998).

2. The Quantum Computer by Jacob West (April 28, 2000)

EP 314 Microwave EngineeringL T P Credits

3 1 0 4

UNIT I:

Introducon and review of transmission lines, Applicaons

of Microwaves. Waveguide components and applicaons-

Coupling Mechanisms – Probe, Loop, Aperture types.

Waveguide Disconnuies – Waveguide irises, Tuning

Screws and Posts, Matched Loads. Waveguide Aenuators –

Resisve Card, Rotary Vane types; Waveguide Phase Shiers

– Dielectric, Rotary Vane types. Waveguide MulportJuncons – E plane and H plane Tees, Magic Tee, Hybrid

Ring; Direconal Couplers – 2 Hole, Bethe Hole types.

UNIT II:

Ferrites– Composion and Characteriscs, Faraday

Rotaon; Ferrite Components – Gyrator, Isolator, Circulator.

Scaering Matrix– Signicance, Formulaon and Properes.

S Matrix Calculaons for – 2 port Juncon, E plane and H

plane Tees, Magic Tee, Direconal Coupler, Circulator and

Isolator. MICROWAVE SOLID STATE DEVICES: Introducon,

Classicaon, Applicaons. TEDs – Introducon, Gunn

Diode – Principle, RWH Theory, Characteriscs, Basic Modes

of Operaon, Oscillaon Modes. Avalanche Transit Time

Devices – Introducon, IMPATT and TRAPATT Diodes.

UNIT III:

MICROWAVE TUBES – I: Limitaons and Losses of

convenonal tubes at microwave frequencies. Microwave

tubes – O type and M type classicaons. O-type tubes :

2 Cavity Klystrons – Structure, Reentrant Cavies, Velocity

Modulaon Process a

14 Engineering Physics

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Transcript of 14 Engineering Physics