Syllabus for Core Curriculum

HS 101 Introduction to English Language and Composition 2-1-0-3

Remedial Grammar: It is the basic core for the development of the English language and it can be more enhanced through our mini language lab currently, though in future with computerised language lab containing tense busters and other softwares to develop interests in students to learn language through games.

Content: Articles, Prepositions, Tenses, Active and Passive forms.

Effective comprehension: In this global era effective comprehension is an attempt to develop in technical students to comprehend different topics relative to varied scientific and social myriad happenings in the world thus bridging the gap from the scientific- technical culture from the liberal arts culture.

Content: Passages from News Papers, magazines and short comprehensions from GRE packages

Effective Composition: Liberal space has been devoted to written composition and an overall initiative will be taken to show the students that most effective writing-scientific or literary-adapts certain principles of rhetoric which can be learnt and put into practice through artistic writing.

Content: Discussions on varied topics in tutorials, excerpts from magazines and newspapers.

Pronunciation Skill: One of the important aspects in communication and personality impression of the students. This will be enhanced through the aid of language lab and the instructors own drilling exercises. So that availing such a skill can create great space for themselves and for job in this age of globalisation, where overall developed personality is more easily absorbed.

Content: With the help of language lab and instructors drilling exercises.

PH 101 PHYSICS-I 3-1-3-5

1. Special Theory of Relativity

Frame of Reference, Galilean Transformation, Inertial and Non-inertial frames, Postulates of Special Theory of Relativity, Michelson-Morley Experiment Lorentz transformation of space and time, Length contraction, Time dilation, Simultaneity in relativity theory, Addition of velocities, Relativistic dynamics, Variation of mass with velocity, Equivalence of mass and energy.

2. Thermal Physics

Maxwell-Boltzmann Law of distribution of molecular velocities, Evaluation of r.m.s.velocity and of average and most probable speeds, Mean free path, Transport phenomena.

3. Geometrical Optics

Combination thin lenses, Cardinal points of coaxial optical systems, thick lenses, location and properties of cardinal points, Newton’s formula, graphical construction of images. Eye pieces, Aplantic points. Optical Instruments-Spectrometer (Prism and grating), Sextant.

4. Physical Optics

Interference- Condition of observing interference. Degree of coherence and visibility of fringes. Production of interference fringes and determination of wavelength using Fresnel’s Biprism. Michelson interferometer and its uses. Interference due to thin films. Wedge shaped films. Newton’s rings.

Diffraction- Frasnel’s Diffraction, Fresnel’s Half Period Zone, Zone Plate, Fraunhofer’s diffraction by single slit, double slit. Theory of plane grating. Width of principal maxima. Rayleigh’s criterion of resolution. Resolving power of prism and grating. 7

Polarisation- Unpolarised, polarized and partially polarized lights. Polarisation by reflection. Double refraction by uniaxial crystals, Polaroids, Huygen’s theory of double refraction. Half wave and quarter wave plates. Production and analysis of plane elliptical and circularly polarized light. Optical activity. Fresnel’s theory of optical rotation, Specific rotation, Biquartz and Laurent half-shade polarimeters.

5. Holography

Basic principles Holography and its applications.

6. Laser

Stimulated and spontaneous emission, Einstein’s coefficients, relative contribution of stimulated and spontaneous emissions, population inversion, Laser emission, Ruby and He-Ne lasers, characteristic of Laser light.

7. Acoustics

Production and detection of Ultrasonics, Measurement of Velocity in Liquids, Applications of Ultrasonics. Accoustics of building.

Reference Books

1. Mechanics-D.S.Mathur

2. Optics-A.K.Ghatak

3. Heat and Thermodynamics-Brijlal & Subramanium

4. Thermal Physics-B.K.Agarwal

4. Physics of Oscillations and Waves-R.B.Singh

5. Engineering Physics-A.S.Vasudeva

List of Experiments

Minimum ten experiment to be completed out of the following-

To determine the co-efficient of viscosity of water by capillary flow.
To determine the co-efficient of viscosity of liquid by rotating cylinder method.
To determine the surface tension of water by capillary rise.
To determine the surface tension of water by Jager’s Method.
To determine the co-efficient of thermal conductivity of good conductor by Searle’s method.
To determine the co-efficient of thermal conductivity of bad conductor by Lee’s method.
To determine the co-efficient of thermal conductivity of rubber.
To determine the value of mechanical equivalent of heat by Callender’s & Barne’s method.
To determine the height of building by Sextant.
To determine the focal length of combination of two thin lenses by Nodal slide assembly and its verification.
To determine the wavelength of light by Fresnel’s biprism.
To determine the wavelength of light by Newton’s ring method.
To determine the wavelength of light by Diffraction Grating.
To determine the dispersive power of the given material of the prism.
To determine the specific rotation of canesugar using Polarimeter.

CH 101 Chemistry 3-1-2, Credit:5

Chemical Bonding

Valence bond theory, molecular orbital theories of bonding in metals and semi-conductors (Band theory), imperfection in solids (6)

Polymers

Classification of polymers, types of polymerisation and their principles, structure property relationship, polymer materials of industrial importance, biopolymers. (6)

Phase rule

Derivation of the phase rule, application of phase rule to one component system (2)

Chemical kinetics

Reaction rates, order and molecularity of reactions, factors influencing reaction rates, complicating factors in reaction kinetics- opposing reactions, consecutive reactions, side reactions and surface reactions. (4)

Water Chemistry

Sources and nature of impurities, characteristics of natural water, water treatment processes, boiler feed water. (6)

Fuels

Classification, calorific value, analysis of solid fuels, carbonisation of coal, gaseous fuels including LPG and natural gases, liquid fuels and its properties, power alcohol, knocking and octane, rating, anti-knocking agents, diesel as a fuel, cetane number. (6)

Corrosion

Theories of corrosion, types of corrosion and its protective measures, detailed account of paints, varnishes and resins. (6)

Lubricants

Definition, functions, mechanisms and classification of lubricants, properties and testing of lubricating oils. (4)

Reference Books

A Text Book of Engineering Chemistry, S.Chawla, Dhanpat Rai & Co., New Delhi, 2004.

Engineering Chemistry: Theory & Practices, J.N.Gurtu and N.Singhal, Pragati Prakashan, Meerut, 2004.

Engineering Chemistrty, Jain & Jain, Dhanpat Rai & Co., New Delhi, 2000.

MA 101 Mathematics-I Credit: 4 3-1-0

Quadric surfaces in three dimensions, Sequences and series, Power series, Limit , Continuity, Differentiability, Mean value theorem, Taylor’s theorem for functions of one and two variables, Transformation of one system of coordinates into another system, Extrema of functions of multi-variables, Definite integrals, Trapezoidal and Simpson rule, Improper integrals, Applications, Vector calculus- Gradient , Directional derivatives, Curl and divergence, Double, triple, line and surface integrals, Green, Gauss, Stoke’s theorems and applications.

References:

Thomas and Finney, Calculus and Analytic Geometry, Narosa Pub. House
N. Piskunov, Differential and Integral Calculus, Vol I $ II, Mir Pub, Moscow
Jain and Iyenger, Advanced Engineering Mathematics, Narosa Pub. House
T. Mazumdar, Engineering Mathematics, New Central Book Agency.
Jaggi and Mathur, Higher Engineering Mathematics, Khanna Publishers.

6. Bali and Iyengar, Engineering Mathematics, Khanna Publishers

ME 101 Introduction to Manufacturing Processes

L T P 2 0 2

Introduction to Materials and Manufacturing: Introduction to engineering materials such as metals and alloys and their applications. Art of manufacturing; Classification of manufacturing processes, Guide to processing of metals and alloys. 4

Machining Processes and Machine Tools: Classification of machining processes and machine tools; Construction and working of lathe, Drilling machine, Shaper, Slotter and Planer, Boring Machine, Milling Machine, Grinding Machine, Brief introduction of Newer Machining Processes such as EDM, ECM, USM, LBM, WJM etc. 8

Casting Processes: Elements of Sand Mould, Method of preparation of Sand Mould, Introduction of casting defects. 3

Press Working Operations: Classification of press working operations, Construction of Power Presses, Press working terminology, Types of dies and their operations. 3

Fabrication Processes: Classification of welding operations, Types of joints and welding positions. Brief description of arc, Resistance and gas welding techniques. Brazing and Soldering. 4

Modern Trends in Manufacturing: Automation, Concept of CAD, CAM and CIM; Concept of Micro manufacturing and nano-technology 2

Introduction to Profession

CS101 L T P Credits

2 0 2 3

Information Technology portion:

MS WINDOWS xxxx commands, editing and saving files, word processing, file management.

LINUX Commands, editors, Files & Directories, UNIX tools.

Internet and World Wide Web : Introduction to Internet, www, Internet browsers Netscape & Explorer, Introduction of PINE/ELMN, FTP, Telnet, Search Engines.

Hypertext Markup Language, HTML Tags, Frames, Creating HYML documents, DHTML.

Books & References

“D.S.Yadav” , “Foundation of Information technology” New age International 2003
S. Dash ,”Introduction to unix,” TMH

PH 201 PHYSICS II 3-1-3-5

1. Electrostatics

Background of vector calculus, Quantization and conservation of charge, Coulomb’ law (vector form) and superposition principle, concept of electric field lines, flux of E-field, Gauss flux law (Integral and differential form). Simple cases of charge distributions. Energy of charge Distribution, Energy as an integral over the field of uniformly charged spherical surface and volume. 6

2. Electric Current

Current Density Vector, Equation of Continuity, Ohm and Joule’s Laws(Integral and differential forms). 2

3. Magneto statics

Ampere’s Law, Biot Savart’s Law, Law of Force in magnetic Field on currents and Charged Particles. Magnetic Field due to a Straight Infinite Wire. Magnetic Field due to Circular Loop and Solenoid at Axial points, Variation of Magnetic field with distance along the axis of Helmholtz galvanometer. Vector potential and its Evaluation for Uniform magnetic field and for Straight Infinite Wire. Divergence and curl of B. Distant Field due to Loop of Current. Magnetic Moment. Magnetic materials and magnetization. Magnetic Current Field H, Curl of H and calculation of H. 10

5. Time Varying Fields

Displacement Current, Curl H, Faraday’s Law(Integral and Differential forms). Self and Mutual Inductances. Energy of Coupled Circuits and Current Distribution. Energy as an Integral over the Magnetic field. Energy of a Solenoid.

6. Electromagnetic Waves in Free-Space

Maxwell equations. Plane Polarized Plane Wave Solution. Characteristics of these Electromagnetic waves. Poynting’s Theorem. 3

7. Atomic & Nuclear Physics

X-rays-Characteristic and continuous X-ray spectra, Mosley’s law, X-ray absorption X-ray diffraction, Bragg’s law, Laue Spots Bragg’s Spectrometer. Compton effect. 4

Magnetic Properties of Materials- Ferro, Para, Dia, Antiferro and Ferri Magnetic Materials. Hysteresis curve and their uses. Larmor’s Theory and Diamagnetic Susceptibility. Langevin’s Theory and Curie-Weiss Law. Magnetic Circuits.

Quantum Concepts-Particle nature of radiation, Wave nature of Particles. De-Broglie Waves, Davission-Germer experiment, Wave Packets, Phase velocity and group velocity, Heisenberg’s Uncertainty Principle and its applications, one-dimensional Schrodinger’s wave equation and concept of probabilities, amplitude, application to one-dimensional potential well.

Particle Physics-Classification of elementary Particles

Reference Books

1. Electricity & Magnetism-Brijlal & Subramanium

2. Electricity & Magnetism-K.K.Tiwari

3. Introduction to Electrodynamics-David J.Griffths

4. Modern Physics-Beiser

5. Engineering Physics-A.S.Vasudeva

6.Physics for Engineers-M.R.Srinivasan

7. Quantum Mechanics- Gasirowicz

List of Experiments

Minimum ten experiment to be completed out of the following-

1. To determine the specific resistance of wire by Carry-Foster’s Bridge.

2. To determine the reduction factor of Helmholtz Galvanometer.

3. To determine the E.C.E. of copper using voltameter..

4. To convert a galvanometer into a voltmeter of 3 volts.

5. To convert a galvanometer into an ammeter of 200 milliamperes.

6. To determine the variation of magnetic field along the axis of current carrying coil.

7. To determine e/m by magnetic focussing.

8. To Verify Stefan’s law.

9. To study the non-Ohmic behavior of the filament of an electric bulb.

10. To compare the illuminating power of two electric bulb by photometer.

11. To find the resistance of a galvanometer using P.O.Box.

12. To find the internal resistance of a cell using P.O.Box.

13. To find the current sensitivity of a galvanometer using P.O.Box.

14. To calibrate a moving coil galvanometer using P.O.Box.

15. To calibrate an ammeter and voltmeter using Potentiometer.

MA-201 Mathematics-II Credit: 4 3-1-0

Linear vector spaces, Linear transformation and matrices, Determinants, Linear simultaneous algebraic equations, Special matrices, Quadratic forms, Diagonalisation and canonical forms, First order ODE, IVP/BVP, Existence and uniqueness questions, System of linear equations, Higher order ODE, Solutions of homogeneous and non-homogeneous ODE, Variation of parameters, Undetermined coefficients, Laplace transforms and application to solutions of ODE, Series solutions, Strum-Liouville problem, Orthogonal polynomials, Fourier series, Fourier integrals, Generalized Fourier series.

References:

E. Kreyszig, Advanced Engineering Mathematics, 8^th Edition, Wiley Eastern
Jain and Iyengar, Advanced Engineering Mathematics, Narosa Pub. House
Jaggi and Mathur, Higher Engineering Mathematics, Khanna Publishers.
B.S.Grewal, Higher Engineering Mathematics, Khanna Publishers.
Hoffman and Kunj, Linear Algebra, Prentice Hall

6. Bali and Iyengar, Engineering Mathematics, Khanna Publishers

EX 201 Electrical and Electronics Engineering 3-1-2-5

A. Electrical Engineering

Introduction to Electrical Energy

Generation: Types of power Plant, Functional Block diagram of Generating stations (Hydel & Thermal Stations)

Transmission: Standards (AC & DC), Substations, Grids

Distribution: Industrial, Commercial and Domestic Standards.

Utilization: Types of loads, UPS and domestic inverters.

Domestic Wiring: Materials, accessories & ratings of the wiring materials, types of wiring: stare case, fluorescent tube and simple domestic wiring layout, earthing and electricity rules. 6

Steady-state analysis of AC circuits: Sinusoidal and phasor representation of Voltage & current, single phase ac circuit behavior of R, L and C. Combination of R, L and C in series and parallel. Resonance.

Three Phase AC circuits: Line and phase voltage/current relationship for star & delta connections. 5

Measuring Instruments: Types of instruments, working principles of Ammeter, Voltmeter, Wattmeter & Energy meter. 3

Transformer & Rotating Machines: Principle of operation and construction of single-phase transformer, phasor diagram and equivalent circuits, efficiency and voltage regulation. Principle of electromagnetic energy conversion, Starting and speed control of DC and AC motors 6

B. Electronics Engineering

Junction Diode : p-n junction, v-i characteristics, diode resistance, capacitance, switching time, diode applications. Breakdown mechanism, Zener and avalanche, break down characteristics, Zener diode and its applications voltage regulator. 4

Bipolar -junction Transistor : Bipolar junction transistor, CE, CB and CC configurations and characteristic curves, Requirement of biasing, types of biasing. 4

JFET and MOSFET: The JFET and MOSFET action; characteristics. 2

Linear IC and its applications 3

Digital Electronics: Number systems, conversion of bases, Boolean Algebra, logic gates, Concept of universal gate, Flip-Flops and counter. 4

Electronics Instruments : Oscillators, Digital Multimeter and its applications, CRO and its applications. 4

MC-101/201 Engineering Graphics (2-0-4), Credit 4

General: Importance, significance and scope of engineering graphics, dimensioning, scales, different types of projections, orthographic projections, 2

Projection of Points and lines in different quadrants, traces, inclinations, and true lengths of the lines, projections on auxiliary planes, shortest distance, intersecting and non-intersecting lines. 2

Planes other than reference planes: Perpendicular and oblique planes, their traces, inclinations etc. projections of points and lines lying in the planes, conversion of oblique plane into auxiliary plane and solution of related problems. 3

Projections of plane figures: Different cases of plane figures (of different shapes) making different angles with one or both reference planes and lines lying in the plane figures making different given angles ( with one or both reference planes). Obtaining true shape of the plane figure by projection. 3

Projection of solids: Simple cases when solid is placed in different positions, axis, faces and lines lying in the faces of the solid making given angles. 2

Development of Surfaces: Development of simple objects with or without sectioning.

Machine Drawing:

Basic Concepts: IS drawing conventions, line symbols, Kinds of line, drawing sheet layout, rules of printing, preferred scales. 1

Projections: Perspective, orthographic, isometric and oblique projections, sketching of orthographic views from pictorial views, precedence of lines. 3

Shape Description (internal): Importance of sectioning, principles of sectioning, types of sections, cutting plane representation, section lines, and conventional practices. 3

Size Description: Dimensioning, size and location dimensioning, Principles and conventions of dimensioning, dimensioning exercises. 2

Screwed Fasteners: Introduction, Screw Thread nomenclature, Forms of Screw Threads, Thread series, Multi-start threads, Right hand and left hand threads, Representation of threads, Bolted Joints, Locking arrangements for nuts, foundation bolts. 3

Computer Graphics: Basic Concepts and use. Methods of constructing objects in computer aided design softwares. 2

Books:

Narayanan, KL and Kanniah, P, “ Engineering Graphics”, Tata McGraw Hill, New Delhi, 1988

Bhatt, ND, “Elementary Engineering Drawing”, Charotar Book Stall, Anand, 1998.

Laxminarayanan, V, and Vaish Wanar, RS, “Engineering Graphics”, Jain Brothers, New Delhi, 1998.

French and Vireck, “ The fundamental of Engineering Drawing and Graphic Technology”, McGraw Hill, 4^th Edition, 1978.

“IS 696 (1972) Code of practice for general engineering drawing”, ISI New Delhi.

PS Gill, “ A Text book of Machine Drawing”, Katson Publishing House, Ludhiana, 1980.

Giesecke, Mitchell, Spener, Hill and Dygon, “ Technical Drawing”, McMilla &Co., 7^th Ed, 1980.

Computer Programming

CS201 L T P Credits

2 1 2 4

Writing a Simple Program: Learning the form of a C program, Declaring variables, designing program flow and control, defining and using functions, using standard terminal I/O functions.

Fundamental Data Types and Storage Classes: Character types, Integer, short, long, unsigned, single and double-precision floating point, storage classes, automatic, register, static and external.

Operators and Expressions: Using numeric and relational operators, mixed operands and type conversion, Logical operators, Bit operations, Operator precedence and associativity.

Conditional Program Execution: Applying if and switch statements, nesting if and else, restrictions on switch values, use of break and default with switch.

Program Loops and Iteration: Uses of while, do and for loops, multiple loop variables, assignment operators, using break and continue.

Modular Programming: Passing arguments by value, scope rules and global variables, separate compilation, and linkage, building your own modules.

Arrays: Array notation and representation, manipulating array elements, using multidimensional arrays, arrays of unknown or varying size.

Structures: Purpose and usage of structures, declaring structures, assigning of structures.

Pointers to Objects: Pointer and address arithmetic, pointer operations and declarations, using pointers as function arguments, Dynamic memory allocation, defining and using stacks and linked lists.

Unions: Components in overlapping memory, declaring and using unions .h vs. private .c files, Hiding private variables and functions.

Controlling Devices: Bit access and masking, pointing to hardware structures.

Operating System Interaction: Reading command line arguments, creating and accessing files, file opening modes, formatted disk I/O.

The Standard C Preprocessor: Defining and calling macros, utilizing conditional compilation, passing values to the compiler.

The Standard C Library: Input/Output : fopen, fread, etc, string handling functions, Math functions : log, sin, alike Other Standard C functions.

Books and references:

Herbert Schield, Complete reference in C,” TMH
Yashwant Kanetkar,” Let US C”, BPB
Balaguruswamy, “Programming in ANSI C,” TMH
Yashwant Kanetkar Pointers in C

AM 201                                ENGINEERING MECHANICS            (3-1-0) Credit -4

1.            INTRODUCTION:

               Idealisation of Mechanics, concept of Rigid Body, External Forces (Body forces & surface forces), Laws of Mechanics.                                                           -1

2.            FORCE SYSTEMS AND EQUILIBRIUM

               Introduction to vector, Statically Equivalent Force systems (Planar and Spatial), Free Body Diagram, Equations of equilibrium and their applications to various system of forces.                                                                                            -4

3.            STRUCTURES AND MACHINES

               Plane Trusses, Space Trusses, Method of Joints, Method of Section, Graphical Method, Method of tension coefficients, Frames and Machines.                                                                                                    -6

4.            DISTRIBUTED FORCES AND MOMENT OF INERTIA

               Centroid of Composite figures, Area Moment of Inertia, Mass Moment of Inertia, Principle axes and Principle Moment of Inertia.                                 -5

5.            FRICTION

               Introduction of friction, Laws of friction, wedge, screw, belt, rolling friction.                                                                                             -4

6.            BEAMS

               Different support & load conditions, SFD, BMD                  -4

7.            KINEMATICS AND KINETICS OF RIGID BODIES

               Velocity and acceleration, Rotation of Rigid bodies, Rolling motion, Plane motion of rigid bodies, Effective Forces on a rigid body, D'Alembert's Principle, Force, Mass and Acceleration, Work and Energy, Impulse and Momentum.             -12

8             THREE DIMENSIONAL DYNAMICS OF RIGID BODIES

               Introduction, Kinematics and Kinetics, General Motion         -4                                                                                        -4

                Total Lectures 40

Texts / References

1.            Engineering Mechanics (Statics and Dynamics)      J.L. Merriam and L. G. Kraige.

2.            Mechanics for Engineers- (Statics and Dynamics)  F.B. Beer & E.R. Johnston.

3.            Engineering Mechanics  I.M. Shames

4.            Engineering Mechanics- S. Timisheno & T. Yong

5.            Engineering Mechanics- Singer

6.            Engineering Mechanics- Statics Vol-I & Dynamics Vol-Il       by V.S. Mokashi. (Tata McGraw-Hill)

7.            Engg. Mechanics-Statics & Dynamics by Dr. A.K. Tayal.

               Umesh Publication, Delhi.

AM 301 Material Science and Engineering

L T P

3 1 2

Introduction

§ Structure and properties relationship of Engineering Materials 1

§ Structure of Crystalline Solids: Crystal structures and Systems, Unit Cells, Metallic Crystal Structures, Crystallographic directions and Planes, Density Computations, 4

§ Characterization of Materials: Crystallography, Reciprocal Lattice, Stereographic projections, Diffraction methods, Electron microscopy, Metallography, Thermal analysis. 6

§ Imperfections in Crystals: Point defects, Dislocations, Interfacial Defects, Bulk defects 3

§ Diffusion: Mechanisms, steady state and non steady state Diffusion, factors influencing diffusion 3

§ Multiphase Structures, Phase Transformations: Uniary, Binary, Equilibrium Phase Diagrams, Eutectic, Eutectoid Peritectic and Peritectoid Reactions, Iron Carbon Diagram, 4

§ Mechanical Behaviour of Materials: Elastic and Plastic properties, Creep, Fracture, Heat treatment of steels 6

§ Ceramic Materials: Ceramic Structures, Properties 3

§ Electric and Electronic materials: Electrical Conduction, Classification of semiconductor materials, Materials and Technology for integrated circuits, Photonic materials, super conductivity and special super-conducting materials, Ferrites. Quartz crystal, Dielectric materials. Piezoelectric and Ferro-electric materials, Electromechanical materials, Mechanism of polarization, Its measurements 8

§ Magnetic Properties for Applications; Diamagnetism, Paramagnetism, ferromagnetism, Antiferromagnetism, Ferrimagnetism, Soft and hard magnetic materials magnetic storage. 2

§ Optical properties: Optical properties of Metals and Nonmetals, Luminescence, photoconductivity, Optical Fibers in communications 3

Books & References:

Callister J , “Material science for Engineers”
Van Vlack, “ Material Science”
Raghavan V, “ Material Science”
Guy , “ Physical Metallurgy”

Computer Based Numerical & Statistical Techniques

CS311 L T P Credits

1 1 2 4

Introduction: Errors in numerical computation, Mathematical preliminaries, Errors and their analysis, Machine Computations, Computer Software.

Algebraic and Transcendental Equations: Bisection method, Iteration method, Method of False Position, rate of convergence, Method for complex root, Muller’s Method, Quotient Difference method, Newton-Raphson Method.

Interpolation: Introduction, Errors in Polynomial interpolation, Finite differences, Decision of errors, Newton’s formula for interpolation, Gauss, Sterling, Bessel’s, Everett’s Formula, Interpolation by unevenly spaced points, Lagrange interpolation formula, Divided Difference, Newton’s General interpolation Formula.

Curve Fitting, Cubic Spline & Approximation: Introduction, Method of Least Square curve fitting procedures, Fitting a straight line, Curve fitting by sum of exponential, Data fitting with cubic splines, Approximation of functions.

Numerical Integration and Differentiation: Introduction, Numerical differentiation, Numerical integration, Trapezoidal rule, Simpson 1/3 rule, Simpson 3/8 rule, Booles & Weddles rule, Euler-Maclariaun formula, Gaussian Formula, Numerical evaluation of singular integrals.

Statistical Computations: Frequency Chart, Regression Analysis, Least Square fit, Polynomial fit, Linear and Nonlinear Regression, Multiple Regression, Statistical Quality Control Methods.

Books and References:

Balaguruswamy, “Numerical methods”, TMH
Shastri, “ Introductory methods of numerical analysis”, PHI
V. Rajaraman, “Introduction to Numerical Methods”, TMH

MA-301 Mathematics-III Credit: 4 3-1-0

First order PDE, Complete general and particular solutions, Second order linear PDE,

Interior and exterior BVP, Functions of a complex variable, The complex plane, Analytic functions, Elementary functions, Multivalued functions, Singularities, Complex integration, Conformal mapping, Probability theory, Axiomatic definition of probability, Conditional probability, Random variables Distribution function, Expectation, Moments, Moment generation function, Special types of Probability distributions, Normal approximation to Binomial distribution.

References:

E. Kreyszig, Advanced Engineering Mathematics, 8^th Edition, Wiley Eastern
Jain and Iyengar, Advanced Engineering Mathematics, Narosa Pub. House
Jaggi and Mathur, Higher Engineering Mathematics, Khanna Publishers.
B.S.Grewal, Higher Engineering Mathematics, Khanna Publishers.

5. J.N. Kapur, Mathematical Statistics, S.Chand & Co.

6. Zill and Cullen, Advanced Engineering Mathematics, C.B.S.Publishers.

EC 301 Electronic Devices and Circuits 3-1-2-5

1. Transport phenomenon in semiconductors. [4]

2. Junctions Diode: its working, analysis and applications. [6]

3. BJT : Action, configuration, biasing, stability, HF & LF small signal model and analysis. [12]

4. JFET & MOSFET : Action characteristics biasing LF & HF small signal model and applications. [8]

5. Feed back amplifier: concept, classification characteristics and effects. [6]

7. Power amplifier : Class A, B & C amplifiers. [4]

Reference Books

1. Semiconductor Devices & Circuits - B.P. Singh

2. Electronics Devices and Circuits - Allen Mottershead

3. Intigrated Electronics - Millman & Halkias

4. Solid state Electronics Devices : B.G. Streetman

EE-301 Network and systems 3-1-2-5

Network classification & Introduction to continuous time signals and systems:

Unit Step, ramp and impulse signals, Example of each signal, Differential Equation Formulation of linear time invariant continuous system, Responses for unit ramp, square pulse and impulse function

Review of Laplace Transform:

Initial value and Final Value Theorem, Properties and solution of differential equation using LT, Time domain analysis of LTI network using Laplace transform, Waveform Synthesis, LT of Complex waveforms, Concept of Transform Impedance, voltage ratio, transfer function, Relation between impulse response and system function.

Networks Theorems:

Maximum power transfer Theorem, Superposition, Telligen’s, Milliman’s, Thevenin’s and Norton’s Theorem, Concept of poles and zeros, Relation between location of poles, time response and stability,

Two port networks :

Two port network parameters (z, y, T, T’, h, g), Symmetrical & Reciprocal networks, Inter-conversion of two port network parameters, Interconnection of two port networks, ,Ladder networks, T-p transformation, Image & characteristic impedance. Network functions: Driving point and Transfer functions

Positive real function:

Definition and properties, Synthesis of LC, RL & RC circuits using Cauer and Foster’ s first and second form

Books Recommended:

1 M.E. Van Valkenberg, ‘Network Analysis’ Prentice Hall

2 M.E. Van Valkenberg, ‘Network Synthesis’ Prentice Hall

3 D. Roy Choudhary, ‘Networks & Systems’

4 W. H. Hayt & J. E. Kemmerly, Engineering circuit Analysis, TMH

5 A Chakrabarti & S. Bhadra, ‘Networks & Systems’ Dhanpat Rai & Co.

CE 301 Environmental and Ecology

UG (All branches)

L3 T1

Introduction and scope (2)

Conservation of natural resources i.e. forest resource, water resource, mineral resource, energy resource, land resource etc. Role of individual for resource conservation and sustainable development. (7)

Ecosystem and its basic concept, Structure and function of an ecosystem, Producers, consumers and decomposers, Energy flow in the ecosystem, Ecological succession, Food chains, food webs and ecological pyramids. Examples of ecosystems. (7)

Biodiversity and its conservation: Introduction - Definition: genetic, species and ecosystem diversity, National and global scenario. (3)

Environmental Pollution, Definition, Causes, effects and control measures of:Air pollution, Water pollution, Soil pollution, Marine pollution, Noise pollution, Thermal pollution, Nuclear hazards (7)

Sustainable development, Urban problems related to energy, Water conservation, rain water harvesting, watershed management, Environmental ethics: Issues and possible solutions, Climate change, global warming, acid rain, ozone layer depletion, nuclear accidents and holocaust Case studies, Wasteland reclamation, Consumerism and waste products, Environmental Management through Acts (7)

.Human Population and the Environment: Environment and human health, Role of Information Technology in Environment and human health, Case studies

(5)

Total 38

Field Work

· Visit to a local area to document environmental assets-river/forest/grassland/hill/mountain

· Visit to a local polluted site- Urban/Rural/Industrial/Agricultural

· Report submission on field visit