B. Tech. Electronics & Communication Engineering Batch-2013-17

B. Tech. Electronics & Communication Engineering Batch-2013-17

SEMESTER-I

ENGINEERING GRAPHICS ME 103

Intro to AutoCAD Basic commands

Orthographic Projections Theory, techniques, first and third angle projections, Multi view drawing from pictorial views.

Isometric Drawing Theory of isometric drawing, construction of isometric from orthographic.

Spatial geometry Projection of points; lines, true lengths, inclinations, shortest distance; planes

Geometrical solids and sections Construction of solids; section planes and sectional view.

Development of surfaces Radial line, parallel line

Interpenetration of Solids Vertical interpenetration, horizontal interpenetration drawing of profile at entry and exit

Text Book:

D.M. Kulkarni, A.P. Rastogi and A. K. Sarkar., Engineering Graphics with Auto CAD,PHI Learning Private Limited, New Delhi.

Reference Book:

Dhananjay A. Jolhe, Engineering Drawing with an Introduction to AutoCAD, Tata McGraw-Hill Education Private Limited, New Delhi

WORKSHOP PRACTICE ME 104

Fitting Fitting tools and equipment, basic fitting operations, fabrication of a metal job using fitting skills

Welding Welding tools and equipment, common types of welding, welding techniques, fabrication of joints using arc welding and gas welding

Smithy Smithy tools and equipments, smithy operations, preparation of a simple job using hot forging skills

Sheet metal Sheet metal tools, sheet metal operations, development and fabrication of a job using sheet metal operations

Carpentry Carpentry tools and equipments, preparation of a wooden job using various joints

Machining on lathe Main parts of a centre lathe, work holding devices, cutting operations on a centre lathe, machining of a metal job using a centre lathe

Machining on shaper Main parts of a shaper, work holding devices, machining of a simple metal job using a shaper

Machining on milling and planer Main parts of milling and planner, milling cutters, practice of a simple metal job on a milling machine

Grinding Types of grinding machines and their main parts, demonstration of simple grinding on centre less, surface, cylindrical, and tool & cutter grinder

CNC machining CNC fundamentals, demonstrations on CNC turning and milling centers

Metrology Common measuring instruments used in workshop, experiments to find the angle of a dovetail, angle of a taper and the radius of a circular surface

Foundry Common foundry tools and equipment, preparation of a green sand mould

Rolling Objective of rolling, rolling process, practical on two high rolling mill

Electroplating Electro plating a given job

Text Book:

Sangwan K S ,Rao C R and Daiya K G, Practical Manual for Workshop Practice, EDD, BITS Pilani.

B S Nagendra Parashar and R K Mittal, Elements of Manufacturing Processes, Prentice Hall of India, 2006, 4th print.

Reference Book:

Campbell J.S., Principles of Manufacturing Materials and Processes, Tata Mc-Graw-Hill, New Delhi, 23rd reprint 2006.

THERMODYNAMICS ME 105

Some concepts & definitions Introduction, thermodynamic systems, properties & state, process & cycle, force, energy, pressure, specific volume, zeroth law.

Properties of pure substances Phase equilibrium, independent properties, and equations of state, compressibility factor.

Properties of pure substances Tables of thermodynamic properties & their use.

Work and heat Definition of work and its identification, work done at the moving boundary Concept of heat, comparison of heat and work, Engineering Applications

First law for control mass First law for a cycle as well as for a change of state; internal energy & enthalpy Specific heats; internal energy, enthalpy & specific heat of ideal gases; first law as a rate equation; problem analysis & solution technique, Engineering Applications

First law for control volume Conservation of mass in control volume; first law for control volume; SS process; examples of SS processes Transient processes; examples, Engineering Applications

Second Law of Thermodynamics Limitations of first law & need for the second law; Reversible process; heat engine, heat pump, refrigerator; Carnot cycle; Two prepositions regarding efficiency of Carnot cycle; energy‐conversion efficiency and COP, Kelvin‐Planck & Clausius statements, The ideal gas Carnot Cycle, Engineering Applications

Entropy Concept of entropy; the Need of entropy definition of entropy; entropy of a pure substance; entropy change of a reversible & irreversible processes; principle of increase of entropy, thermodynamic property relation; problem analysis & solution technique

Second law for control volume Second law for control volume; SS & Transient processes; SSSF process; principle of increase of entropy Understanding efficiency and related problems; problem analysis & solution technique, Engineering Applications

Irreversibility and availability Available energy, reversible work & irreversibility for control mass and control volume processes; second law efficiency, Engineering Applications

Thermodynamic relations Clapeyron equation, Maxwell relations, Thermodynamic relation for enthalpy, internal energy, and entropy, expansively and compressibility factor, equation of state, generalized chart for enthalpy and entropy change, developing tables of property from experimental data

Text Book:

Sonntag R.E. and Claus B., “Fundamentals of Thermodynamics”, John Wiley & Sons, 2009, 7th ed.

Reference Book:

Booklet on Thermodynamic Tables, Figures & Charts.

CHEMISTRY-I Theory CHEM 107T

Quantum Theory Origins of Quantum Mechanics, Black body radiation, Wave function, Schrodinger Equation, Uncertainty, Simple Applications.

Atomic Structure and Spectra Hydrogenic Atom: Energy Levels and Wave functions, Orbitals, Spectral Transitions, Many-electron Atoms: Pauli Principle, Orbital Approximation, Aufbau Principle, Term symbols, Spin-orbit Coupling.

Chemical Bonding: Valence Bond and Molecular Orbital Theories

VB Theory: Electron Pair Bond, Hybridization, Resonance. MO Theory: LCAO, Bonding and Antibonding Orbitals, Diatomic Molecules

Vibrational and Electronic

Spectroscopy General Features Vibrational Energy Levels and Spectra and applications; Electronic Spectra: Franck-Condon Principle, Types of Transitions.

Nuclear Magnetic Resonance Principles, Chemical Shift, Fine Structure, Spin Relaxation

Thermodynamics: The First, second and third laws Thermodynamic Systems, State Functions, Thermal Equilibrium and Temperature, Work, Internal Energy and Heat Transfer, Heat Capacity, Entropy and thermochemistry

Sponteniety and equilibrium Applications of entropy, Gibbs' energy in chemical reactions

Chemical Kinetics: Experimental Methods, Reaction Rates, Temperature Dependence

Rate Laws, Order, Rate Constants, Arrhenius Equation, Rate-determining step, Steady-state Approximation.

Conformations Rotation around sigma bonds, conformational analysis of butane, cyclohexane, and substituted cyclohexanes.

Stereochemistry Isomerism, chirality, origin of optical activity, stereochemistry of cyclic compounds, resolution.

Substitution reactions Nucleophilic substitution reactions (both SN1 and SN2) of alkyl halides.

Elimination reactions Elimination reaction of alkyl halides; Hoffmann and Cope Elimination.

Addition reactions Addition reactions to >C=C< bond

Aromaticity and aromatic compounds Structure and reactivity of benzene and other aromatic compounds.

Some Concepts in Inorganic Chemistry & Introduction to Coordination compounds Latimer and Frost diagrams; Double salts and coordination compounds. Werner’s work; Identification of structure by isomer counting. Effective Atomic No. concept.

VB theory and Crystal field theory for octahedral complexes Explanation for the stability of complexes according to crystal field theory

Jahn-Teller distortions; Square planar and Tetrahedral complexes How do geometrical distortions stabilize the system? Stability in other geometries

Chelates & Isomerism Different types of ligands and stabilization due to entropy factors and electron delocalization in the rings.

Text Book:

P.W. Atkins and Julio de Paula, Elements of Physical Chemistry: 5th Edition, Oxford University Press, Oxford 200

T. W. Graham Solomons and Craig B. Fryhle, Organic Chemistry, 8th Edition, John Wiley & Sons, Inc.New York, 2004.

J. D. Lee, Concise Inorganic Chemistry, 5th Edition, Blackwell Science, Oxford, 1999

CHEMISTRY-I Practical CHEM 107P

As per BU Chemistry Lab Manual

MATHEMATICS-I MATH 109

The curvilinear coordinate systems like polar coordinates can be more natural than Cartesian coordinates many a times. Polar coordinates, graphing, polar equations of conic sections, Integration using polar coordinates.

Review of real valued functions of one variable. Properties of limits, infinity as a limit, continuity

Study of vector valued functions of one variable, motion and its path in space. Limit continuity & differentiability of vector function, arc length, velocity unit tangent vector.

The relation between the dynamics and geometry of motion. Curvature, normal vector, torsion and TNB frame, tangential and normal components of velocity and acceleration

Motions in other coordinate systems. Polar and cylindrical coordinates

Limits and continuity of functions of several variables is more intricate. Functions of several variables, level curves, limits, continuity.

Difference between derivative and partial derivative. Partial derivatives, differentiability, chain rule.

Generalizations of partial derivatives and their applications. Directional derivatives, gradient vectors, tangent planes & normal lines, linearization

How to optimize (maximize or minimize) functions of several variables locally as well as globally. Maximum, minimum & saddle points of functions of two or three variables, Lagrange multipliers

Evaluation of area of planar regions and volumes using iterated integrals. Double integrals, area, change of integrals to polar coordinates

Volumes of solids in space using suitable curvilinear coordinate system. Triple integrals, integral in cylindrical and spherical coordinates, substitution in integrals.

Different integrals of vector fields on objects in space; applications to flow, flux, work etc.; their mutual relationship via Green’s theorem generalizing the fundamental theorem of integral calculus. Line integrals, work, circulation, flux, path independence, potential function, conservative field, Green’s theorem in plane

Divergence theorem and Stokes’ theorem further generalize Green’s theorem. Surface area & surface integral, Gauss’ divergence

Differentiate clearly between three types of series convergence with examples & counter examples. Convergence of sequences and series of real numbers, different tests of convergence, series of non negative terms, absolute & conditional convergence, alternating series

Approximating functions with polynomials. Power series, Maclaurin series, Taylor series of functions

Text Book:

M. D. Weir, J. Hass and F. R. Giordano : Thomas’ Calculus, 11th edition, Pearson Educations, 2008.

Reference Book:

(i) E. Kreyszig : Advanced Engineering Mathematics, 8th Edition John Wiley and sons 1999.

(ii) T. M. Apostol : Calculus Vols I and II, 2nd Edition, John Wiley and sons, 1967 and 1969.

PHYSICS-I Theory PHY 111T

Foundations of Newtonian mechanics Applications of Newton’s laws, everyday forces of Physics

Momentum Dynamics of a system of particles, conservation of momentum

Momentum Impulse and restatement of the momentum relation, flow of mass, momentum transport

Work and energy Eqn. Of motion in 1-dimension and several dimensions, work energy theorem and application

Work and energy Potential energy, force, small oscillations in bound system, non-conservative forces, power, conservation laws and particle collisions

Angular momentum Angular momentum, torque, fixed axis rotation

Angular momentum Dynamics of pure rotation, physical pendulum, motion involving both translation and rotation

Non inertial systems Galilean transformations, uniformly accelerated systems, principle of equivalence

Non inertial systems Physics in a rotating frame, the corriolis force.

Simple harmonic motion (SHM) The basic mass-spring system, solving SHM equation using complex exponentials, examples of simple harmonic motions, the decay of free vibrations

Forced oscillator Un damped oscillator with harmonic forcing, forced oscillator with damping

Forced oscillator (contd.) Power absorbed by a driven oscillator ,resonance

Coupled Oscillations Two coupled oscillators, normal modes, normal frequencies, forced vibration for coupled oscillators

Coupled Oscillations Many coupled oscillators, normal modes of N coupled oscillators

Vibrations of Continuous system The free vibrations of stretched strings, normal modes of a stretched string, forced vibration of a stretched string

Progressive waves Progressive waves in one dimension, superposition, wave pulses

Text Book:

An introduction to mechanics, by Kleppner and Kolenkow, Tata McGraw-Hill Indian edition1999.

Vibrations and waves, by A.P. French, CBS Publishers and Distributors, Inc., first Indian edition1987.

Reference Book:

R1: Physics, Vol.1, by Halliday, Resnick, &Krane, 5th Edition, John Wiley & Sons, Inc., 2002

R2: The Physics of Waves and Oscillations by N K Bajaj, Tata McGraw-Hill 1984.

Physics-I Practical PHY 111P

As per BU Physics Lab Manual

SEMESTER-II

COMPUTER PROGRAMMING-I COMP 102

To understand the basic structure of the computer What is computer, generation of computer, Classification of computers and computer languages. Basic building block of the computer (Memory, Control, Processor, I/O)

Numeric data representation Number Systems, Number representations, Conversions and Arithmetic & Logic operations on bits.

Digital logic structure Logic Gates and Combinational Logic. Demorgan’s Law

Problem solving using computers: Introduction to Algorithms Concept of an algorithm and its design using Flow charts, Programming Paradigms. Top design

Introduction to C History of C, importance of C, basic structure of C program and C Keywords.

Representing and Manipulating Data Constants, Variable and Data Types.

Operators and expressions Types of Operators, expressions and their evaluation.

Managing input and output operations Reading and writing a character, formatted and unformatted input output

Decision making and branching IF, IF ELSE, nesting of IF ELSE statements, ELSE IF, SWITCH statements and GOTO statement.

Decision making and Looping WHILE, DO-WHILE and FOR loop and jumps in LOOPS.

Arrays One and two dimensional array, initialization and declaration

Character arrays and string Introduction, declaring and initializing string variables, reading and writing strings and string handling functions.

User defined functions Introduction, need declaration and definition of a function, recursion.

User defined Data types Structures and Unions

Introduction to pointers Understanding pointers, Accessing the address of a variable, Declaration and Initialization of Pointer Variables.

File Handling Introduction. Defining and Opening a File, Closing a File. Input/ Output Operations on file.

The Preprocessor Macros and File Inclusion.

Text Books

(T1) E. Balagurusamy: Programming in ANSI C

(T2) Anita Goel: Computer Fundamentals, Pearson Education

Reference Book:

(R 1) Fundamentals of computers, V Rajaraman PHI, 4th Edition, 2004

(R 2) Introduction to Computing Systems (From bits and gates to C and beyond), Yale N Patt and Sanjay J Patel McGraw Hills International, 3rd Edition, 2004

(R 3) Yashwant Kanetkar - Let us C, BPB Publication.

(R 4) How to solve it by computer, R G Dromey PHI, 3rd edition, 2004.