FY B Tech Syllabus 2005-2006

8/8/2019 FY B Tech Syllabus 2005-2006

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First Year of B Tech -2005-06(Syllabus) 1/15

FIRST YEAR

Undergraduate Programmes: (Common to All Branches)

Sr.

No.

Course

Code

Course Title L P/

T

T

OT

A

L

Cr Evaluation

weightage

ESE

(Theory)Hours

TWA MST ESE

Semester One

1 100011 Engineering Chemistry I 2 1 3 5 10 15 75 2

2 100021 Engineering Physics I 2 1 3 5 10 15 75 2

3 100031 Engineering Mathematics I 3 2 5 8 10 15 75 3

4 100040 Engineering Graphics 2 4 6 8 20 20 60 4

5 100051 Elements of Engineering I 3 2 5 8 20 20 60 36 100061 Computer Programming I 3 2 5 8 20 20 60 3

7 100071 Workshop Practice I - 3 3 3 100 - - -

TOTAL 15 15 30 45

Semester Two

1 100012 Engineering Chemistry II 2 1 3 5 10 15 75 2

2 100022 Engineering Physics II 2 1 3 5 10 15 75 2

3 100032 Engineering Mathematics II 3 2 5 8 10 15 75 3

4 100080 Engineering Mechanics 4 2 6 10 20 20 60 3

5 100052 Elements of Engineering II 3 2 5 8 20 20 60 3

6 100062 Computer Programming II 3 2 5 8 20 20 60 3

7 100072 Workshop Practice II - 3 3 3 100 - - -

TOTAL 17 13 30 47



First year of Bachelor of Technology All Branches : Semester One

Engineering Chemistry 1

1 Water TreatmentHard and soft water, Hardness- types, units, estimation by EDTA. Softening of

water (principles of external and internal treatment), Boiler problems, Numericals

to calculate hardness from analytical data and EDTA estimation.

2 Polymers, Plastics and Elastomers

Introduction and definition of Polymers, Classification of polymers,

Functionality, Amorphous polymers, Crystallinity in polymers, Structure &

technological functions of polymers, Structure property relationship in polymers,

Applications of polymers, Miscellaneous polymers – sponge rubber, foam rubber,

laminated plywood, laminated plastics, thermocole.

Resins and plastics, classification, compounds of plastics, common thermoplastics

& thermosets – polyethylene, polypropelyne PVC, polytetra fluoro ethylene,polysterene, polyamide, polyster, UF, bakelite.

Strucural requirements of elastomers, natural rubber, cis and trans isomer,

Properties and drawbacks, vulcanization, synthetic rubbers – polyurethane,

styrene & silicone rubber

3 Lubricants

Functions of lubricants, Mechanism of lubrication, Classification, Properties and

testing of lubricating oils.

4 Transition & inner transition elements & their compounds

Electronic configuration of transition elements, spectral and magnetic properties,

complex formation tendency, Chelation and its applications, application of

transition elements

5 Analytical chemistry

Introduction, experimental techniques, spectrophotometry

Practicals:

1 Determination of Total Hardness of water

2 Determination of Chloride in water

3 Determination of Soponification value of an oil

4 Determination of Viscosity by Red Wood Viscometer

5 Determination of flash point by Abel’s apparatus

6 Determination of flash point by Pensky – Martins apparatus

Reference Books:

1 Engineering Chemistry, Jain and Jain.

2 Text Book of Engineering , M.M.Uppal

3 Engineering Chemistry , S.S.Dara



First year of Bachelor of Technology All Branches: Semester One

Engineering Physics I

1 Crystal Structure

Space lattice, atomic basis, crystal lattice and unit cell, Bravais lattices,coordination number, atomic radius, packing factor, monoatomic cubic crystalsystem-SC, BCC and FCC, diatomic crystals,CsCl2,, NaCl, Diamond, Barium

Titanate, Miller Indices, Miller Planes and directions, Ligancy and critical radiusratios of ligancy 3-12.

2 Semiconductors

The band theory of solids, energy gap, classification of solids the energy bandstructure of some typical solids, electron distribution function, Fermi-Diracdistribution function, energy band structure of – conductor, insulator andsemiconductor, intrinsic semiconductor at 0 K and at room temperature, intrinsiccarries, electron and hole concentration, Fermi level in intrinsic semiconductor,intrinsic density, intrinsic conductivity, bipolar junction transistor..

3 Acoustics and Ultrasonics

Elementary acoustics, acoustics of building echo and reverberation timeabsorption of sound, Sabine’s formula-- derivation, and drawbacks, cring’sequation, measurement of absorption coefficient-by single double source method,acoustics planning of the auditorium.Ultrasonics: magnetostriction and piezoelectric effects, production of ultrasonicsby production by magnetostriction and piezoelectric method, properties of ultrasonic waves, cavitations effect, flaw detection ultrasonic emulsification,depth sounding, ultrasonic soldering, ultrasonic drilling.

4 Electricity and Magnetism

Concept of potential gradient, equipotential surfaces Lorentz force, motion of

electrons in uniform electric field – parallel, perpendicular, and inclined fields,electrostatics deflection, motion of electrons in the uniform magnetic fields — parallel, perpendicular, and inclined fields, magneto static deflection, electric andmagnetic fields in cross field configuration, velocity filters, electron optics,electron diffraction- Bethe’s law, electrostatic lenses, electron gun, cathode raytube, electrostatic and magneto static deflection system, cathode ray oscilloscope(CRO)-construction working and applications.

Practicals:

1 Study of crystal structure – 1 (Unit Cell)

2 Study of crystal structure – 2 (Miller Indices)

3 Characteristics of PN Junction Diode

4 Characteristics of transistor5 Ultrasonic Interferometer

6 Ultrasonic Flaw Detector

7 Ultrasonic processor and cleaner

8 Cathode Ray Oscilloscope

Recommended Books:

1 Engineering Physics , R.K.Gaur and S.L.Gupta

2 Material Science and Engineering , V. Raghavan

3 A Textbook of Engineering Physics, M.N.Avadhanulu, P.G.Khirsagar

4 Solid State Physics , Kittle



First year of Bachelor of Technology All Branches : Semester One

Engineering Mathematics I

1 Complex NumbersArgand diagram, Cartesian, polar and exponential form of complex

number,

De’Moivres theorem, Power and roots of exponential and trigonometric

functions, Hyperbolic and logarithmic functions, inverse trigonometric

functions.

2 Vector Algebra and Vector Calculus and Solid Geometry

Vector triple product and product of 4 vectors, Differentiation of a vector

function of a single scalar variable. Theorems on derivatives of sum and

product, Curves in space, Serret Frenet formulae curvature, torsion,

osculating plane, normal plane and rectifying plane.

Equation of plane angle between two planes. Equation of straight line

angle between two lines, shortest distance between two lines. Sphere,

section of sphere by a plane, tangent plane. Cone cylinder and quadratic

surfaces or conicoid.

3 Differential Calculus

Successive differentiation of nth derivatives of function such as (ax + b)m

,

(ax + b) -1 eax, Sin (ax + b), cos (ax + b), log (ax + b), e ax sin (bx + c), eax

cos (bx + c), Leibnitz’s theorem, Mean value theorems, Rolles theorem,

Lagrange‘s and Cauchy’s mean value theorem, Idea of convergence and

divergence series, Taylor’s and Maclaurin’s series, Indeterminate forms

and L Hospital rule.4 Partial Differentiation

Partial derivatives of first and higher order, total differentials, composite

functions and implicit functions, Euler’s theorem on homogeneous

functions with two and three independent variables, Errors and

approximations, Maxima and minima of a function of two variables.

Reference Books:

1 Higher Engineering Mathematics, Dr.B.S.Grewal-Khanna Publications

2 A Text Book of Applied mathematics, P.N & J.N.Wartikar - Pune

Vidyarthi Griha

3 Advanced Engineering Mathematics, Erurin Kreyszing – Wiley EasternLimited

4 Applied Mathematics 1, G.V.Kumbhojkar-C.Jamnadas & Co.

5 Applied Mathematics 1, Dr. U.B.Jungam, K.P.Patil



First Year of Bachelor of Technology All Branches : Semester One

All Branches Engineering Graphics-1

1 Introduction

Drawing instruments, symbolic lines, lettering, dimensioning system as per

I. S. conventions, geometrical constructions and tangential arcs (01)

2 Engineering Curves

Ellipse, parabola and hyperbola, by Focus directrix Method & Rectangle Method, Cycloid,

Involute by various methods including their tangents and normals (02/20)

3 Projections

Projections of points and lines to both the reference planes including HT and VT (

excluding application problems), Projection of planes inclined to both the reference planes(

excluding H.T and V.T)

4 Projections of Right Regular Solids

Cube, prism, pyramid, tetrahedron, cylinder & cone with inclined to both H.P and V.P.(excluding spheres, hollow and composite solids)

5 Orthographic Projections

Multi-view orthographic projections of simple machine parts by first angle method of

projection( 02/20)

6 Sectional View

Sectional view of simple machine parts ( full section, half section, offset section, partial

section, removed and revolve sections) (01/10)

7 Isometric Views

Practicals

All the drawings should be prepared during the practical class hours using half imperial

drawing sheets.1 Engineering Curves (01)

2 Projections of solids (01)

3 Sections of solids (01)

4 Development of Lateral Surfaces (01)

5 Orthographic Projections & Sections (02)

6 Isometric Views (01)

7 Reading of Orthographic Projections & Sections (02)

8 Building Plan & Section (01)

Recommended Text Books:

1 Engineering Drawing – Plan & Solid Geometry by N.D.Bhat, Charotal Pub. House

2 Machine Drawing by N.D.Bhat

3 Engineering Drawing by M.B. Shah & B.C. Rana. Pearson Education

4 Engineering Drawing 1 & 2 by N.H. Dubey Nandu Book House

Reference Books

1 Engineering Graphics by Glesecke & others Macmilan Publishers

2 Engineering Graphics by Thomas E. French & others – McGraw Hiel Publishers

3 Fundamentals of Engineering Drawing by Warren J Luzadder. Prentice Hall of India.




All Branches Elements of Engineering -1

1 Introduction

Effect of temperature on resistance, Resistance temperature coeff, Work, Powerenergy and relationship between Thermal, mechanical and electrical units.(problems based on above topics)

2 D.C. Networks

Star-delta transformation, series-parallel combination of network, Kirchoff’s law,Loop and nodal analysis, Superposition Theorem, Thevenin’s & Noratons theorem,

maximum power transfer theorem.

3 Magnetic Circuits

BH Curve, expression for eddy current loss, series-parallel magnetic circuits,

Inductance, self inductance, mutual inductance and emf induced due to self and

mutual inductance, coeff of coupling energy stores.

4 A.C. CircuitsSinusoidal voltage and current waveforms , RMS and average value, R-L,R-

C,RLC series parallel circuits, phaser diagram, power & power factor, series and

parallel resonance

5 Three Phase Balanced System

Three phase voltage generators and waveform, star and delta balanced systems.

Relationship between phase and line quantities, phase diagram power in a threephase circuit

6 Generation of Electricity

Basic concepts about thermal, hydro & nuclear power stations

7 Single phase transformer

Construction, principle of operation, emf equation8 Three phase induction motor

Construction, principle of operation

Practicals

1 Verification of Kirchoff’s Current and Voltage Law

2 Verification of Superposition theorem

3 Verification of Thevenin’s Theorem and Norton’s Theorem

4 Study of Single Phase series and parallel circuits

5 Verification of voltage and current relationship of Balanced Star and Delta

networks

6 Study of series Resonance

Reference Books

1 Principle of Electrical Engineering , A.Vincent Deltoro PHI

2 Principles in Electrical Engineering, S.Parker Smith. Oxford university




All Branches Computer Programming-1

1 Programming paradigms

Role of programming languages, Programming paradigm, Algorithm, Programmingconstraints: Selection, Looping, Sequence. Language evaluation criteria, Practices and

attributes of good programming languages

2 Data Types

Character set, variable names, data types, constants and declaration.

3 Operators

Operators & expressions, precedence of operators.

4 Basic input and output

Basics input and output, formatted input and output

5 Control Structure

Concept of a block statement, if, if – else, switch, looping structures – For, Do, While

6 Functions

Parameter passing, Use of pointers, Recursion7 Arrays

One dimensional, Two dimensional and multi dimensional arrays, their limitations, their

initialization & manipulation

8 Strings

String processing

9 Structure and Unions

Basic of structures, initialization

10 File Management

Low level file access error handling

Practicals

Each candidate shall submit a journal in which the candidate has recorded at least 15programs based on the topics given below. The programs can be implemented in Turbo

C/Microsoft ANSI C.

Algebraic problem – Newton Raphson, quadratic roots etc.

Array based searching sorting – binary search, bubble sort.

Matrix manipulations using real and complex elements.

Banking applications – fixed deposit interest calculations, loans repayments.

Text processing – extracting of words, searching sorting of words.

Enumerated data types and sets.

Recursion – factorial calculation, quick sort algorithm.

Study of internal and external Dos commands.

Reference Books1 Programming Language, B.W.Kernighan, D.M.Ritchie - PHI

2 Computer Programming UNIX &C , M.P.Bhave, S.A.Patekar, Nandu

3 Programming With C , Schaum’s - TMH

4 Fundamentals of Programming Language, V.Rajaram, PHI

5 C The Complete Reference, Herbert Schildt - TMH



First Year of Bachelor of Technology All Branches : Semester One and Two

All Branches Workshop Practice I and II

1 Fitting

Use and setting of fitting tools for marking, center punching,chipping, cutting, filing, drilling, tapping

Term work to include one simple job involving above mentioned

operations

2 Carpentary

Use and setting of hand tools like hack saw, jack plane, chisels and

gauges for construction of various joints

Term work to include one simple job involving a joint

Demonstration for wood turning and report writing

3 Forging (smithy)

At least one job for change of cross sectional area like round intorectangular or making a ring from a round bar

4 Welding

Edge preparation

Term work to include one simple job having lap or butt welding of

plates or fillet welding

5 Plain turning

Operations: simple turning, step turning, taper turning

Term work to include one simple job involving above mentioned

operations

6 Electrical board wiring

House wiring, staircase wiring, go-down wiring, three-phase wiring7 Printed circuit boards

Layout drawing, +ve and -ve film making, PCB etching and

drilling, tinning and soldering techniques

8 Sheet metal and brazing

Use of sheet metal working hand tools, cutting, bending and spot

welding

9 Plumbing

Use of plumbing tools, spanners, wrenches, threading dies,

demonstration of preparation of a domestic plumbing line involving

fixing of a water tap and use of coupling, elbow, tee, tee and unionetc.

10 Masonry

Use of mason's tools like trowel, hammers, spirit level, square,

plumb, line and pins etc.

Demonstration of mortar making, single and one and half brick

masonry, english and flemish bonds, block masonry, pointing and

plastering



First Year of B Tech … Semester Two … Syllabus 9/15

First Year of Bachelor of Technology All Branches : Semester Two

Engineering Chemistry - II

1 Corrosion and its Control

Introduction to corrosion, cause & effect of corrosion, chemical or dry corrosion, electrochemical or wet

corrosion, types of electro chemical corrosion (galvanic corrosion, pitting, soil, crevice corrosion,differential aeration corrosion, water line corrosion, under ground corrosion, microbial corrosion),

Corrosion control: Prevention of corrosion by material selection and design, cathodic protection, use of protective coatings (metals & paints)

2 Fuels

Definition & classification of fuels, characteristics of good fuel, calorific value: high and low C.V. Units,Dulong’s formula with numerical problems

Coals, analysis of coal: proximate and ultimate with significance, carbonization of coal, types of

carbonization of coal

Gaseous fuels: composition and properties of natural gas, LPG and coal gas

Other sources of energy: wind power, water power, geothermal power, tidal power

3 Petroleum & PetroChemistry

Petroleum, refining of crude petroleum oil, fuels for IC engines, Petrol, Diesel, Octane Number, Cetane

number, Aviation gasoline, Cracking – thermal & catalyticPetrochemicals Alkanes – Alkenes, Cycloalkanes, benzene & its homologous derived from petroleum & its

fraction and their important related uses

4 Electro Chemistry

Electrolytes, Industrial Insulators, electric Cells, primary Cell, Secondary cell (battery) , fuel cells

5 Metallurgy & Alloys

Ore concentration, smelting, refining, metal extraction by electrolysis, metals as reducing agents in

extraction process

Alloys: Steel & alloy steels, duralumin, magnalumin, Solder alloys

6 Environmental Chemistry

Air pollution, water pollution, radio active Pollution, Solid waste materials, pollution by motor cars and air

crafts, pollution by noise, e - waste

Practicals:

1 Estimation of iron in plain carbon steel2 Determination of zinc in brass

3 Nickel in steel alloy

4 Determination of lime in cement

5 Nitrogen in fuel

6 Transport fuel adulteration

Recommended books:

1 Engineering Chemistry, Jain and Jain

2 Text book of Engineering Chemistry, M M Uppal

3 Engineering Chemistry, S S Dara




First Year of Bachelor of Technology All Branches: Semester Two

Engineering Physics – II

1 Interference

Superimposition of waves, constructive & destructive interference, generalconditions of interference, interference at parallel thin films – reflected andtransmitted light rays, antireflection coating, highly reflective coating,interference at wedge shaped film – reflected & transmitted rays, Newton’s rings,testing of optical flatness of surface

2 Diffraction

Fraunhofer and Fresnel, Fraunhofer diffraction at single slit, double slit andmultiple slit, diffraction grating, characteristic of diffraction grating and itsapplication

3 Optical fiber

Total internal reflection, importance of total internal reflection, acceptance angle& acceptance cone, numerical aperture, Single mode fiber, step index multimode

fiber, graded index multimode fiber, applications4 X Rays

Production of x rays, properties of x-rays, Characteristics and continuous rays,continuous spectrum. Characteristic of x- ray spectrum, origin of the continuousx- rays, origin of the line spectra, Moseley’s law, Bragg’s law, Bragg’s x- rayspectrometer, determination of crystal structure, applications of x – rays

5 Laser

Induced absorption, spontaneous emission, stimulated emission, Active medium,population, thermal equilibrium, Einstein coefficient, condition for lightamplification, requisite for laser system, properties, population inversion,

condition for laser action, pumping & lasing, solid state laser, ruby laser, helium – neon laser, holography

6 Nuclear PhysicsIsotopes, the nuclear force, Nuclear density, atomic mass unit, mass defect,binding energy, natural radioactivity, activity of radioactive substance, radiationdetector, artificial radioactivity, Q value, nuclear fission & fusion

Practicals:

1 Newton’s rings

2 Wedge shape method

3 G M Counter – I (inverse square law)

4 G M Counter – II (optical activity)

5 LASER diffraction

6 Study of fibre optics

7 Fibre optics educator

Recommended books:1 A text book of optics, N Subramanyam and Brij Lal

2 A textbook of engineering, M N Avadhanulu and P G Kshirsagar

3 Fundamental of optics, Jenkins and White

4 Nuclear Physics, Kaplan




First Year of Bachelor of Technology All Branches : Semester Two

Engineering Mathematics – II

1 Improper integrals

Beta and gamma functions

Error functionDifferentiation under integral sign

2 Integral calculus

Curve tracing, Rectification of plane curves

Double and triple integration Jacobian, properties of Jacobian

Uses of Jacobian for evaluating integrals with transformation

Evaluation of double integration by changing order of integration, changing

to polar form

Applications of double and triple integration to area, mass and volume

computations

3 Differential equations

Differential equations of first order and first degree, exact differentialequation and those that can be reduced to exact by use of integrating factors.

Linear differential equation, Bernoulli’s equation and equations reducible to

liner equations, linear differential equations of higher order with constant

coefficients, complimentary functions, particular integrals

Generalized rule and P.I. for equation of type f(D)y = X where X = eax,

sin(ax+b), cos(ax+b), xm, e

axV,

xV where V is a function of x only.

Cauchy’s linear homogeneous equation and Legendre’s differential equation.

Method of undetermined coefficients and variation of parameter method.

4 Partial Differential equations

Formation of partial differential equation

Methods to solve the first order partial differential equations of the type:F(p,q)=0, F(p,q,z)=0, F1(x,p)=f 2(y,q), Lagrange’s form Pp+Qq=R

Transformation of variables, Method of multipliers, method of grouping,

Homogeneous linear equations, short method to find P.I., (1/F(D,D’)(eax+by

),

(1/F(D2,DD’,D’

2), cos or sin( ax+by), (1/F(D,D’)(x

ry

r), Non homogeneous

linear equation

Recommended Books:

Higher Engineering Mathematics, B S Grewal

A Text book of Applied Mathematics, P N Wartikar and J N Wartikar

Applied Mathematics, G V Kumbhojkar, -C.Jamnadas & Co.

Applied Mathematics, Dr U B Jangam, K P Patil and N M Kumthekar

Advanced Engineering Mathematics, H.K. Das, S. Chand Publications





Engineering Mechanics

1 System of Coplanar Forces

Resultant of Concurrent force system, moment of force about any point, Couple,Varignon’s theorem, distributed forces in plane, Resultant of Parallel force system

and General force system

2 Equilibrium of System of Co-planar Force

Condition of equilibrium for 1.Concurrent force system. 2. Parallel force system. 3.

General force system, Type of supports, Determination of reactions at supports for

various types of determinate structures, (without internal hinge), centroid of plane

area, center of gravity of wires bent in different shapes, Area Moment of Inertia and

mass Moment of Inertia, Analysis of pin jointed plane truss by method of joints and

method of sections, introduction to Graphic static’s.

3 Friction

Laws of friction, equilibrium of bodies on inclined plane. Application to problemsinvolving wedge and ladders, screws and belt friction – only simple problems

involving tension on both sides of pulley to be covered.

4 Principle of Virtual Work and Forces in Space

Principle of Virtual Work – application to link systems with single degree of freedom

only, Forces in Space – 1. Resultant and equilibrium of concurrent force system. 2.

Moment of force about a point and about an axis.

5 Kinematics of particles

Rectilinear motion, uniform acceleration, non-uniform acceleration, displacement

time, acceleration time and velocity time curves and their applications

Velocity and acceleration in Cartesian and polar co-ordinate system, motion along a

plane curved path, tangential and normal components of acceleration,Projectile motion, Simple harmonic motion, Relative velocity

6 Kinematics of rigid bodies

Translation, pure rotation and plane motion of rigid bodies

Instantaneous center of zero velocity and zero acceleration for bodies in plane motion

7 Kinetics of particles and rigid bodies

D’Alembert principle, equation of dynamic equilibrium in linear and curvilinear

motion

Linear momentum, impulse momentum principle, Principle of conservation of

momentum

Impact of solid bodies, elastic impact, semi-elastic impact, plastic impact

Work done by force, potential and kinetic energy and work-power energy equation,principle of conservation of energy

Practicals

1 Simple Roof Truss

2 Bell Crank Lever

3 Simple Beam

4 Simple Jib Crane

5 Link Chain




6 Screw Jack (Friction)

7 Shear Leg Apparatus

8 ‘g’ by falling weight method

9 Plane motion of bodies

10 M.I. of fly wheel

11 Compound pendulum12 Torsional pendulum

13 Principle of conservation of energy (connected bodies with flywheel)

14 Stiffness of spring

Reference books:

1 Mechanics for Engineers, Beer and Johnston, McGraw Hill

2 Engineering Mechanics, Mclean and Nelson, Schaum Outline Series

3 Engineering Mechanics, R C Hibbeler, Pearson Education

4 Engineering Mechanics, A K tayal, Umesh

5 Engineering Mechanics, Timoshenko and Young, McGraw Hill

6 Engineering Mechanics,, Singer, McGraw Hill





Elements of Engineering II

1 Fundamental Concepts and Definitions

Thermodynamics system, surroundings & boundary, thermodynamic properties, processes& cycles, Units & dimensions, energy, power, work, heat, Zeroth law of thermodynamics,

temperature & temperature scale, Macro & microscopic approach

2 Laws of Thermodynamics

Principles of conservation of mass & energy, continuity equation, first law of

thermodynamics, Joule’s exper iment, application of first law of flow & non flow

processes & cycles, Concept of internal energy & enthalpy, Applications of steady flow,

energy equation to nozzles, turbines & pumps

3 Power producing Devices

Boilers & Steam turbines, reciprocating IC engines, gas turbines, hydraulic turbines,

compressed air motor (theoretical study using schematic diagrams, no numericals)

4 Power absorbing Devices

Reciprocating pumps & compressors, centrifugal pumps, rotary compressors, blowers,

study of household refrigerators & window air conditioners using schematic diagrams

(elementary treatment only, no numerical)

5 Conventional & non conventional energy sources

Thermal, geothermal, hydraulic, nuclear, wind, solar, tidal waves, biogas, ocean thermal

energy, biomass, fuel cells (schematic of plant layout)

6 Heat Transfer

Basic modes of heat transfer, conduction, convection & radiation, Fourier’s law of heat

conduction, Newton’s law of cooling, Stephen – Boltzmann law of radiation, heat transfer,

emissivity & its value for practical interpretation, Conducting & insulating materials &

their properties, description of type of heat exchangers

7 Introduction to metal cutting processes

Lathe, drilling, grinding & power saw machines, lathe machine, center lathe (basic

elements, working principles & types of operations) drilling machine; study of pillar

drilling machine (operation only), introduction to NC / CNC machines

8 Introduction to metal joining processes

Welding, soldering & brazing methods and applications

9 Mechanical Devices

Drives: Individual & group drives, belt, rope, chain, gear drives & friction clutches &

brakes (types & applications only)

Machine elements: power transmission shafts, axles, keys, couplings, bush & ball

bearings, flywheel & governor (types & applications only)

10 Impact of environment on engineering activities, concept of sustainable development

Practicals:

1 I C Engine

2 Domestic refrigerator

3 Window air conditioner

4 Shell and tube heat exchanger5 Solar water heating system

6 NC / CNC machine

7 Power transmitting elements: coupling, gear, shaft

Recommended Books:

1 Basic Mechanical Engineering, G Shanmugam, Tata McGraw Hill

2 Basic Mechanical Engineering, K Venugopal, New Age Publication

3 Elements of Mechanical Engineering, Mathur S B and Domkundwar S, Dhanpat Rai & Co





Computer Programming – II1 C++ fundamentals (moving from C to C++)

Data types, preprocessor directives, input and output, manipulators (endl, setw(), setprecision),

control structures, functions, arrays, difference between C and C++

2 Objects and classes

Data hiding and encapsulation, private and public members, member functions, accssing classmembers, object as function parameters, static data and member functions, friend functions andfriend classes

3 Object installation and cleanup

Constructors, parameterized constructors, destructors, constructor overloading, constructors with

default arguments, default constructors and copy constructors

4 Function and operator overloading

Function overloading, functions with default arguments, inline functions, unary operatoroverloading, operator returning value, binary operator overloading such as arithmetic, relational

and assignment operators, overloading of insertion and extraction operators.

5 Inheritance

Derived and base class, protected members, overriding functions, private, protected and public

inheritance, derived class constructors, types of heritance, virtual base class and inheritance

relationship6 Pointers

Pointer concepts, pointer variable, address operator, referencing and de-referencing, void

pointers, pointer to functions and objects, THIS pointer, pointers and memory management, Newand Delete operators, dynamic memory allocation, linked lists, (single block and many small

blocks of memory)

7 Virtual functions and polymorphism

Polymorphism and its types, need for virtual functions, pointer to derived class object, pure

virtual functions, abstract classes, dynamic or late binding

8 Graphics

Text mode graphics, graphic mode graphics, colors and pallets, use of setting, drawing, fillingand text functions, drawing various shapes, animation using Getimage and Putimage functions,

storing image on the disk

9 File handlingFiles and streams, opening and closing a file, text and binary files

10 Object oriented system development

Programming language before object orientation and advantages of object oriented analysis,design and implementation, case study

Practicals:

1 Simple programs to implement object passing and returning object

2 Class for complex variables

3 Data manipulation classes

4 Matrix manipulation class with operator overloading

5 String class

6 Programs on inheritance and its types

7 Programs on graphics and animated graphics

Text Book:Object Oriented Programming with C++, M P Bhave and S A Patekar, Pearson Education

Reference Books:

1 The annotated C++: reference manual, ANSI base document, M A Ellis and B Stroustrap,

Pearson Education

2 Programming with C++, J R Hubbard, Schaum’s outline series, McGraw Hill

3 Object oriented programming with C++, E Bslguruswamy, Tata McGraw Hill

4 The complete reference: C++, H Scildt, Tata McGraw Hill

FY B Tech Syllabus 2005-2006

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