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Mathematics-I
Subject code:MAT
101
Recommended Class Hours/week:4
Total Hours of class:50 Internal
Assessment Marks:25
Semester Exam. Marks:100
Suggested
selfstudy hours:40
Suggested Text Book:Mathematics I by Sinha Kumar's Text Book Series
I. Analytical Geometry of 3
dimensions: 8hrs
Distance and Division formulae,
Problems, Direction cosines and Direction ratios, Problems, Planes and its
equation, Problems, Straight line and its equation, Problems, Angle between
planes/straight lines, Problems, Shortest distance, Problems
2. Differential Calculus:
9 Hrs
Determination of nth derivative
of 3 Urs 2.7 standard flinctions, Problems, Leibnitz's theorem (without
proof) and applications, Problems, Polar curves-pedal equations, Problems
Angle between radius vector and the tangent, Angle ot intersection of two
curves, Problems
3. Partial
Differentiation:
5 Hours
Eulers Theorem -Total differentiation,Problems,Differentiation of computer
functions,problems,Differentiation of implicit
functions,problems,Jacobians,problems,Errors and approximations,Problems.
4. Integral Calculus:
8Hrs
Evaluation of following
integrals involving the given functions with
standard limits, Reduction Formula for the function sinx^n, Reduction Formula
for the function cosx^n, Reduction Formula for the function sin^nx,cos^mx,
Reduction formula for the function tan^nx,Reduction formula for the function
sec^nx,Reduction formula for the function cosec^nx,Tracing of standard curves
in Cartesian,parametric and polar form & Practice , Problems , Oblique
Asymptotes-application to find area, length and volume of solids of
revolutions.
5 Vector
Differentiation: 6Hrs
Velocity of a vector point function,problems,Acceleration of a vector point
function
Gradient, Divergence and Curl, Problems ,Solenoidal fields and their
properties. Irrotational fields and their properties.
6. Infinite
Series
7 Hrs
Convergence, Divergence and oscillation of an infinite series,P-series
test(WithoutProof)
Cauchy's root test (Without Proof),Problems,D'Alembert's test and Raabe's
test (Without Proof), Cauchy's integral test (Without proof) for series of
positive_terms, Problems
Alternating series,Problems,Absolute and conditional
convergence,problems.Leibnitz's test(without proof),problems, Convergence of
power series, Problems ,Binomial, exponential & logarithmic series,
Problems
7.Differential
Equations: 6Hrs
Solutions
of 1st order and first degree equations,Variable's separable
equations,problems,Homogeneous linear equations,problems,Non homogeneous
equations,problems, Bernoulli's exact differential Equation, Equations
reducible to exact differential equation by using integrating factors,
Problems ,Orthogonal trajectories in cartesian and polar form, Problems.
Subject code:PHY 102/202
Recommended Class Hours/week:4
Total Hours of class:50
Internal Assessment Marks:25
Semester Exam. Marks:100
Suggested selfstudy hours:42
Suggested Text Book:Engg. Physics by Kumar& Kumar Kumar's Text Book
Series
A. MODERN PHYSICS 12 Hrs
1. Radiations. 13 Hours
Review of laws of Black body radiation , Planck's radiation law and
explanation , of radiation curve
2. Photo electric effect: 1 Hour
Photo electric effect (qualitative) , Compton effect (qualitative).
3. Wave Particle Duality:
3 Hrs
Dual nature of matter ,Group velocity and phase velocity , De-Broglie wave
length , Heisenberg's uncertainity principle , Physical significance of
Heisenberg's , uncertainity principle.
4. Wave Mechanics: 5 Hrs
Time independent Schrodinger's wave, equation case of a free particle ,
Physical interpretation of wave function , Nature of eigen values and eigen
functions,Particle in one dimensional potential well of infinite height.
B. MATERIAL
SCIENCE 38Hrs
5. Crystal Structure: 3Hrs
Crystal Structure, Unit Cell , Space lattice and crystal systems , Bravis
lattice , Directions and planes in a crystal lattice , Miller indices ,
Expression for interplanar spacing in terms of Miller indices , Crystal
structure of NaCl, CsCI and ZnS.
6. X-Rays:
3 Hrs
Continuous and characteristic X-rays , Moseley's law and its applications
,X-ray diffraction , Bragg's law and its verification by , Bragg's
spectrometer, Neutron and electron diffraction (Qualitative)
7, Electronic conduction in solids:
2
Hrs
Classical free electron theory of conductivity in metals , Relaxation time
and Mean collision time, Fermi energy~and Fermi factor , Effect of
temperature and impurity on
electrical resistivity of metals .
8. Thermionic
emission:
1Hrs
Failure of classical free electron theory , Quantum free electron theory.
9. Band theory of solids:
1
Hr
Motion of free electron in a periodic lattice (Qualitative approach only)
.
10.Semi
Conductors: 4Hrs
Distinction between metals, insulators and semiconductors Intrinsic and
extrinsic semi-conductors, Direct and indirect band gap semi-conductor,
Concentration and mobility conductivity of charge carriers, Recombination
process
11.Semi-conducting
materials: 1/2
Hrs
Silicon,Germanium & Gallium Arsenide
12.p-n junction 2 Hrs
Barrier potential,Junction diodes
13.Zener Diodes 1Hrs
V-I Characteristics ,Diode Break down mechanisms,Its applications
14.Hall Effect 1/2Hrs
Hall Effect & its applications.
15.Maganetic Properties of
Solids 4Hrs
Classification of magnetic materials I,Magnetic dipole, Origin of permanent
dipole moment Hysteresis ,Hard and soft maganets, Properties and applications
of Ceramic and metallic magnets
16.Super conductivity 3Hrs
BCS theory (Qualitative), Isotope effect & Meissner's effect ,Type I
& II super conductors-applications.
17.Dielectric Properties of
Solids 3 Hrs
Electrical polarisation mechanism ,Internal fields in liquids and solids,
Static dielectric constant ,Dielectric losses ,Ferro-electric materials and
their properties.
18.Optical Properties of Solids: 2 Hrs
Luminacence & Fluorescence ,Phosphorescence
19. Lasers: 2 Hrs
Condition for laser action ,Ruby Lasers ,He-Ne Laser ,Applications of LASERs.
20. Optical Fibers: 2 Hrs
Types of Optical fibres ,Modes of transmission in Optical fibers ,Application
of Optical Fibers.
Subject code:CHE 102/202
Recommended Class Hours/week:4
Total Hours of class:50
Internal Assessment Marks:25
Semester Exam. Marks:100
Suggested selfstudy hours:45
Suggested Text Book:Engg. Chem by Mishra & Singh
I.SOLID STATE CHEMISTRY: 7Hrs
1.Elementary account of
crystal structure: 2Hrs
Space lattice;Unit cell
,Bravais lattice,Crystal systems,Lattice parameters,Elements of Symmetry and
Center of symmetry,Lattice planes,Miller indices.
2.Conductivity in
solids: 2Hrs
Main differnce between conductors,semiconductors and insulators in terms
of their conductivity,Band structure conductors,semiconductors and insulators.
3.Semiconductors 3Hrs.
Intrinsic semiconductors(Calculation of charge carriers);Extrinsic
semiconductors n -type (Calculation of number of donor
electrons),p-type(Calculation of number of holes);numerical
problems,semconductivity in non elemental materials,Controlled valency semiconductors,Chalcogens-Photocopying
process,preparation of semiconductors,Si and Ge,High temperature
supercondutors preparation of 1:2:3 compound (structure to be dealt with)
II PHASE EQUILIBRIUM:
4.The Phase rule: 3 Hrs
Statement Phases,Components and Degrees of freedom Definition,_explanation
with examples ,Application to one component systems,Water system,Two
component system,condensed system,Eutectrics Pb-Ag system,Desilverisation of
lead
5. Electrode Potential And Battery
Technology: 6Hrs
Electrode potential and cells, Single electrode potential-definition, origin,
sign conventions, Standard electrode potential -definition; Derivation of
Nernest equation, Formation of a cell;EMF of a cell definition, notation and
conventions, Measurement of single electrode potential, Classification of
galvanic cells-Primary -secondary and Concentration cells, Reference
electrodes -calomel electrode Ag/Ag Cl electrode, Ion selective electrodes,
Glass electrodes. Determination of pH using glass electrodes , Numerical
problems.
6. Battery Technology: 4Hrs
Definition of a battery. Importance of batteries ,Commercial batteries
,Primary batteries Working principle , Cell reaction (s);Application and cell
performance of ZnMnO2 cell, Ag-Hg cell; Secondary batteries- Working
principle, Reactions charging /discharging,cell performance,Applications of
Lead-acid battery, Ni- Cd battery, Alkaline storage battery; Fuel
Cells-Concept, description and Working of H2/O2 cell and MeOH/ O2 cell.
7.Corrosion Science: 5 Hrs
Metallic corrosion Definition, inter- related problems Electrochemical
theory of corrosion; Types of Corrosion, Differential metal corrosion,
Differential aeration corrosion (pitting waterline )Stress corrosion ,Factors
affecting the rate of corrosion, corrosion control-Protective coating
Inorganic coatings-anodizing, phosphating; Organic coatings-paints and
enamels; Metal coatings methods of galvanizing,cathodic metal
coating-tinning;Corrosion inhibitors; Cathodic and anodic rotection
8.Metal Finishing: 5 Hrs
Technological importance of metal finishing; Polarization, Decomposition
potential Overvoltage, Electroplating - Process ,Effect of plating variable
on the,properties of electrodeposit; surface preparation; electroplating of
Cr, Ni, Cu Electrol Plating - Distinction between electroplating and
electroless plating, advantages of electrolyses plating, composition of
electrolyses plating; Electrolyses plating of Cu on PCB and Ni on Al.
9. Energy: 6 Hrs
Introduction to energy, Definition of fuels ,Classification of
fuels,Importance of hydrocarbons as fuels; Calorific value-definition ,Types
of calorific value Units of clorific values (SI), Experimental determination
of solid fuels by bomb calorimeters and gaseous fuels by Buoy's method, Numerical
problems Petroleum products for automobiles ,Cracking ,fluidized catalytic
cracking ; reformation of petrol;Knocking-Mechanism, octane number, cetane
number ,prevention of knocking-, antiknocking agents, unleaded petrol
,Nuclear energy-Nuclear reactors components and their functions ,Production
of fission grade U235; Breeder reactor, multiplication_factor, criticality
factor, critical size,waste disposal of nuclear reactors.
10.Environmental Chemistry: 4Hrs
Introduction to environment, Types of pollution, Air Pollution-Chemical
aspects of air pollution,types of air pollutants,Particulate
matter,automobile exhaust - oxides of nitrogen and sulphur sources, ill
effects and prevention, Ozone depletion and Green house effect,water
pollution-Chemical aspects of water pollutants, sources, sewage treatment
,Biological oxygen demand,chemical oxygen demand.
11.High
Polymers: 4Hrs
Definition,classification into
i)natural and -synthetic
ii) addition and condensation with examples, Polymerization-Definition,
types- -Addition and condensation with examples Methods of
polymerization-Bulk solution, suspension and emulsion polymerzation Mechanism
of polymerization - Free Ladical mechanism Degree of polymerization Weight
average and number average molecular weight Glass transition temperature,
structure-property relationship
11.A Resins and plastics: 2Hrs
Distinction between resins and plastics, Thermoplastics and thermosetting
plastics Compounding of plastics manufacture, properties and applications
HDPE and LDPE Polystyrene & Teflon,Plymethymethacrylates,Polyurethane's
& Polycarbonates,Phenolformaldehyde,Brief account of polymer blends &
alloys.
11.B Elastomers: 2Hrs
Deficiencies in natural rubber,Advantages of synthetic rubber,Manufacture and
applications of Buna-S.Neoprene and Butyl rubber.
11.C Adhesives: 1Hrs
Manufacturing and applications of epoxy resin.
Subject code:MES 104/204
Recommended Class Hours/week:4
Total Hours of class:47
Internal Assessment Marks:25
Semester Exam. Marks:100
Suggested selfstudy hours:43
Suggested Text Book:Mech Engg. by Kumar
1.Steam and its
Properties:
5Hrs
Formation of steam ,States of steam-Wet steam , Dryness fraction of steam ,
Saturated steam, Super heated steam , Enthalpy of steam ,Latent Heat ,Use of
steam table Simple problems
2.Boilers: 2
Hrs
Function of Boilers,Classification Construction and working , of Boilers , Babcock
and Wilcox boiler , Lancashire Boiler , Comparison of Water tube and Fire
tube Boiler Mountings and Accessories , Functions of Mountings and
Accessories.
3.Steam Turbines:
2 Hrs
Working principle of Impulse and reaction type Steam Turbines ,Comparison of
Impulse & reaction turbines ,Advantages of steam Turbines over other
prime movers.
4.Internal Combustion Engines:
6 Hrs
Classification of Internal Combustion Engines,Two stroke and Four-stroke
petrol , engine Two Stroke and Four Stroke diesel engine, Comparison of two
stroke and Four stroke engines, Comparison of petrol and diesel engines. IP,
BP, Indicated thermal efficiency, 60 mm 4.6 Brake thermal efficiency and
mechanical efficiency. Simple calculations.
5.Refrigeration:
6
Hrs
Refrigeration concepts ,Principle of Refrigeration ,Functions of various
parts of , Refrigerator COP of Refrigerator , Types of Refrigeration systems
, Vapour compression Refrigeration stystems, Vapour absorption Refrigeration
system,Properties of good Refrigerants. Principle of Air conditioning.
6.Beariags And Lubrication: 3
Hrs
Necessity of Bearings ,Types and properties of Lubricants , Methods of
lubrication ,Simple journal bearing and their applications ,Ball and roller
bearing and their applications.
7.
Transmission:
2 Hrs
Belt, Chain and Gear drives , Speed ratio and belt tension , Simple
Numericals on speed ratio and, belt tension
8. Couplings:
2
Hrs
Rigid or Muff Couplings ,Flange coupling , Flexible coupling (Pin Bush type
Coupling)
9.Lathe: 3 Hrs
Principle of working ,Parts of lathe ,Specifications of lathe , Turning
operations-plane turning, taper , turning ,Thread cutting.
10.Milling Machine: 3 Hrs
Principle of milling , Construction and working features of horizontal
machines, Construction and working features of vertical milling machines
Different milling operations-Slab milling, Slot milling.
11.Drilling
Machine: 3 Hrs
Introduction to drilling ,Types of drilling machines , Bench drilling machine
Radial drilling machine, Drilling operations-Boring. Counter boring, Counter
sinking etc.
12.Griding: 3Hrs
Introduction to grinding, Common abrasives and bonding materials, Methods of
grinding Surface grinding, Cylindrical grinding and centerless grinding.
13. Metal Fabrication: 3 Hrs
Soldering and Brazing, Welding and its types, Gas Arc and Resistance welding.
14.Fasteners:
3 Hrs
Threaded Fasteners Screw and screw thread ,Basic profiles of screw thread
,ISO-V Thread profile , ISO-Square Thread profile, Bolts and Nuts.
Subject code:CCP 104/204
Recommended Class Hours/week:4
Total Hours of class:50
Internal Assessment Marks:25
Semester Exam. Marks:100
Suggested selfstudy hours:45
Suggested Text Book:Computer Concepts & C Prog.T.S.B.Sudarshan
I COMPUTER CONCEPTS
1. Introduction to Digital Computer:
2hrs
System logical organization, Von Neumannconcept , Physical organization
,Central processing unit (CPU) ,Arithmetic logic unit , Control unit, Main
memory, Input and output units.
2.
Hardware: 5Hrs
Input devices-Keyboar Mouse, Lightpen, Joystick, Scanner, Digitizer. Output
devices-Various types of printers, Plotters. Secondary storage devices.
Floppy disk, Hard disk, CD-ROM, Optical disks. Specification ot peripherals
& computer system.
3.Software:
3Hrs
System software Machine language, Assembly language, Higher level programming
languages Assemblers and Compilers,Editors .Operating system,Application
software
4.Computing Environments:
Type of computers, Personal Computers, Mini, Mainframe and Super computers,
Networks, E-mail, Internet. LAN,WAN ,Batch processing, Time-sharing and real
time Systems, DOS and Windows Commands and file system
II. C PROGRAMMING
5. Overview of C: 2
Hrs
Introduction ,lmportance of C , Sample C Programs,Basic structure of C
programs Programming style Executing a C-Program.
6. Constants, Variables, and Data Types:
2 Hrs
C tokens ,Keywords and identifiers ,Constants, Variables, Data types
,Declaration of variables, Assigning values to variables , Defining symbolic
constants.
7. Operators and Expression:
4 Hrs
Arithmetic Operators ,Relational operators ,Logical operators,Assignment
operators,Increment and decrement operators ,Conditional operators , Bitwise
operators ,Special operators,Arithmetic expressions ,Evaluation of
expressions ,Precedence of arithmetic operators, Some computational
problems,Type conversions in expressions, Operator precedence and
associativity ,Mathematical functions.
8.Managing input and output
operators 3Hrs
Reading a character , Writing a character, Formatted input , Formatted
output.
9. Decision Making, Branching &
Looping: 6 Hrs
Decision making with IF statement , Simple lF statement,The IF ELSE statement
, Nesting ofIF...ELSE statements , The ELSE IF ladder ,The switch statement
The ?: Operator ,The GOTO statement , The WHILE statement ,The DO.... WHILE
statement ,The FOR statement , Jumps in loops.
10. Arrays:
4
Hrs
One-dimensional arrays , Two-dimensional arrays,lnitializing two-dimensional
arrays, Multidimensional arrays.
11. Handling of Character Strings:
3
Hrs
Declaring and initializing string variables, Reading strings from terminal
Writing,strings to screen ,Arithmetic operations on characters, Putting
strings together , Comparison of two strings , String-hundling functions.
12.User-Defined functions:
4
Hrs
Need for user-defined functions ,A multi-function program The form of C
functions, Return values and their types,Calling a function , Category of
functions, No arguments and no return values , Arguments but no return values
,Arguments with return values ,Handling of non-integer functions , Nesting of
functions , Recursion. Functions with arrays.
13.Structures and Unions:
4
Hrs
Structure definition, Giving values to numbers ,Structure intialisation,
comparison of structure variables Arrays as structures , Arrays within
structures , Structures within structures. ,Unions
14.Pointers:
3
Hrs
Understandingpointers ,Accessing the address of a variable , Declaring and
initializing pointers,Accessing a variable through its pointer
Subject code:ELE 105/205
Recommended Class Hours/week:4
Total Hours of class:50
Internal Assessment Marks:25
Semester Exam. Marks:100
Suggested selfstudy hours:42
Suggested Text Book:Electrical Science by Nisha & G.K.Lal
1.Electrostatics
3Hrs
Electric charges,Coulomb's law,Electric field and potential,Capacitance and
Capacitor Parallel Plate and Composite Capacitor , Energy stored in capacitor
, Equivalent capacitance of series connection. Equivalent capacitance of
Parallel Connection
2.Eletromagnetism:
5 Hrs
Faraday's laws of electromagnetic , induction Lenz's law ,Concept of
inductance ,Self and mutual Induction, Energy stored in inductor , Magnetic
circuits in series and parallel.
3.D. C.
Circuits: 4
Hrs
Concept of an electric circuit, Kirchhoff's laws , Analysis of DC circuits by
the network ,reduction method including star-delta ,transformation,Kirchoff's
laws and mesh current method.
4. A.C.
Circuits:
10 Hrs
A. SINGLE-PHASE CIRCUITS:
Generation of alternating voltage , Average and effective values of sine
,wave Form factor and Peak factor ,Phasor representation , Voltage, Current
and Power relations in R-L,R-C circuits,Voltage, Current and Power relations
in R-L-C circuits.Analysis of series, parallel and series- parallel circuits.
B. Three-Phase Circuits:
Advantages of three phase systems , Star and delta connections ,Relationship
between line and phase values,Measurement of three phase power using two
wattmeter Effect of power factor on wattmeter readings
5. D.C. Machines: 6 Hrs
A. D.C. GENERATOR:
Basic principle of working, Constructional features Lap and wave windings
,EMF equation ,Types of generators and characteristics , Applications of
generators
B. D.C. MOTOR:
Principle of operation, Back EMF, Torque equation ,Types of motors and their
characteristics , Applications , Necessity of starters ,Three point starter
(design to be excluded
6. Transformers: 5 Hrs
Principle of operation of single phase , transformers Construction of single
phase , Power losses and efficiency, Voltage regulation ,Auto transformer and
its uses
7. Three Phase Induction Motors:
6 Hrs
Squirrel cage and Slip Ring induction motor Constructional features Principle
of operation Slip, Torque-slip chacteristics , Losses and efficiency ,Direct
on line starters and star-delta
8.
Alternators:
3 Hrs
Constructional features of alternators , Principle of operation of
alternators, Winding factor (excluding derivation) ,EMF equation ,Definition
of voltage regulation Synchronization of altemators
9. Measuring Instruments 5Hrs
Moving iron meters -Construction & Principle of operation Moving coil
meters- Construction & Principle of operation ,Extension of ranges ,
Other Measuring Instruments: Dynamometer type wattmeter ,Induction type
energy meter, Megger , Concept of current and potential transformers.
10. Domestic
Writing
3 Hrs
Different types of wiring , Specification of wires ,Two way and Three way
control of lamps , Working principle of fluorescent lamp , Sodium vapourlamp
, Concept of Earthing
Subject code:ELN 105/205
Recommended Class Hours/week:4
Total Hours of class:50
Internal Assessment Marks:25
Semester Exam. Marks:100
Suggested selfstudy hours:35
Suggested Text Book:Basic Electronics by Nisha
1.Introduction to Semiconductor
Theory: 5Hrs
Energy bands , Classification of materials based on energy band
theory,Conduction of solids ,Semiconductor doping , Effects of heat and
light, Drift and diffusion currents.
2(a) PN-Jundion and its
Applications: 6 Hrs
The PN-Junction ,Junction characteristics,Diode equation (Without derivation)
, PN-Junction as a half-wave rectifier , PN-Junction as a full-wave rectifier
, PN-Junction as a bridge rectifier circuit ,Derivation of expressions for
Vdc, Idc ripple factor and efficiency Filters and thetr Need,Operation of
Capacitor filter with expression for ripple factor (Without derivation)
(b) Zener diode: 2 Hrs
Characteristics and Mechanism of Zener and Avalanche breakdown, Basic Zener
voltage regulator
3.Working of Bipolar Junction
Transistor: 8Hrs
Input and Output volt ampere characteristics of BJT in CB, CE and CC
configurations. Relationshii, between alpa dc and beta dc,Qualitative
treatmeni of transistor as an amplifier Operating point selection Biasing
load line , Need and different methods of Coupling of Amplifiers Two-state
RC-Coupled amplifier Gain and frequecny response (derivation not included)
4.Theory of Sinusoidal Oscillators:
4 Hrs
Working of RC phaseshift, Colpiff's and Hartely's Oscillator using BJT's
Expressions for frequency of oscillation (Derivation Excluded)
5.Integrated
Circuits:
5 Hrs
The differential amplifier , Operational Amplifier as differential ,
amplifier Ideal characteristics of Operational Amplifier ,OP-amp microA 741
and its typical characteristics (only qua!itative treatment), Application of
micro A 74l as inverting and Non -inverting amplifiers, adder,integrator, differntiator
and voltage follower
6.Introduction to Communication
Systems: 5Hrs
Basic block diagram of communication systems, Need for modulation ,Definition
of AM and FM. Expression for AM and its waveform , Expression for FM and its
waveform,Comparison between AM and FM .
7. Digital
Electroitics: 12
hrs
Digital computer and digital systems Binary numbers ,Number base conversion ,
Octal and hexadecimal numbers complements. Binary addition and subtraction
using l's and 2's complement Binary logic symbols for different gates ,Basic
Theorems and properties of Boolean algebra Venn Diagram Boolean functions
Digital logic gates Introduction to microprocessor
8.Introduction to Cathode Ray
Oscilloscope: 3Hrs
Basjc block diagram , Use of CR0 for measurement of amplitude, frequency and
phase.
Subject code:SL 107
Recommended Class Hours/week:4
Total Hours of class:50
Internal Assessment Marks:25
Semester Exam. Marks:100
Suggested selfstudy hours:36
Suggested Text Book:Workshop Manual
1.Fitting
Shop: 8Hrs
Study of fitting tools,study of fitting operation joints, Mininium 2 jobs
involving filing, drilling
2.Carpentry Shop: 10Hrs
study of Carpentry tools,study of Carpentry operation and joints,minimum two
jobs involving -operation of Dove tail joint ,Tenon-mortise joint.
3.Welding Shop: 4Hrs
Study of welding equipment,Minimum 2 models involving welding of lap
joints,Butt joint,T joint and L joint.
4.Sheet Metal ANd Soldering
: 14Hrs
Study of sheet metal and soldering tools,minimum 2 models involving,
development of soldering of cylinder (base closed), cubical box, simple
funnel (made of frustums of cones/cylinder) and Rectangular Tray.
SCHEME OF EXAMINATION
(I) Fitting of Carpentry Model - 60 Marks.
(2) Welding or soldering Model. - 20 Marks.
(3) Oral. - 20 Marks.
GROUPlNG OF MODELS IN EXAMINATION:
Group I : Models in fitting shop and soldering shop.
Group 2: Models in carpentry shop and soldering shop.
Subject code:CPL 107
Recommended Class Hours/week:4
Internal Assessment Marks:25
Semester Exam. Marks:100
Suggested Text Book:Computer Prog.LAb Manual
1.(a)Using word create a document given to you.Documant has 3 paragraph
with some spelling mistakes.Enter the Paragraph.
1Hrs
(i) With a given left margin and right margin.
(ii) Centre the heading and make it bold.
(iii) Underline the specified words in the document and change them into
italics.
(iv) Change the size of fonts such that the whole document is just a page.
(v) Conduct spell check & correct them suitably
(vi) Exchange paragraph 2 & 3 using cut & aste facility. Put suitable
header &
(vii) Take printout of your document.
1. (b) Design a visiting card for your friend with at least 7 lines.
2. (a) Using word create a document given to you. Use numbering,
bullets (different types) as used in the document. Enter the - paragraph with
some spelling mistakes.1hrs
i) With a given left margin & right margin.
ii) Centre the heading & put it in italics.
(iii)Conduct spell check & correct all spelling mistakes.
(iv)Change left margin & Right margin Count number of words and lines.
(v) Adjust the fonts to access~date in I page.
(vi)Exchange top 10 items with bottom 10 items using cut and paste. Put
suitable headers & footers.
(vii)Take print out of your document.
2. (b) Designa bill format for a Company with atleast 15 lines.
3. Using spread sheet create a document having following format:
ABC COLLEGE OF ENGINEERING TABULATION OF MARKS FOR 1 SEMESTER
Roll
nos
Name Marks
Scored for max of 100
math phy chem
total percentage
(i) Total and class average in each subject and for each student.
(ii) Draw the graph of roll numbers vs. Total marks.
(iii) Draw bar graph of roll numbers vs. Percentage. Graphs should have
suitable headings & legends.
(iv) List the names of students who have scored above the class average.
4. Using spread-sheet create a document 1 Hr.
ABC
MANUFACTURING COMPANY
JAN FEB MAR
APR MAY JUNE TOTAL.
SALES
EXPENSE
Raw Material
Labour
Rent
Electr.
Advert.
Total Exo.
Total Profit/ Loss
1)Calculate total expenditure and total profit/loss for each month &
total profit/Loss for six months.
(ii) Draw a pie cbart for differertt kinds of expenditure i.e., raw material,
labour etc., of the TOTAL expenditures.
(iii)Draw a bar of month (Jan, February etc.) vssales and total Expenditures.
(Graph should have suitable heading & legends).
5.(a) Find all roots of a quadratic equation Ax2 + Bx + C = 0 for any
non zero coefficients A,B & C else report error.
5. (b)Find the value of Pi using series Pi sqrt (6/12 + 6/22 + 6/32 +
) to a Ch. 9 given accuracy.
6.(a) Calculate the value of sin(x) for 5 different 6 values of x in
degrees using the series.Sin (x) =x-x3/3!+x5/5!-x7/7!+.....
(i) to a given accuracy
(ii)using n terms
(iii)also print sin(x) value using library function
6. (b) Find the GCD of 2 integer numbers.
7. (a) Generate and print prime nos. upto an integer N. Print also the
number of prime nos.
7.(b)Check if the given nos. is prime or not.
8. Input N followed by N non-repeated numbers (real/mt) Sort the
numbers in ascending order using bubble sort, conduct a binary search for a
given number and report success or failure. In case of success report number
of probes.
9. Read matrix A(MxN) and find the following using function.
(i) Sum of elements of each of M rows.
(ii) Sum of elements of each of N columns.
(iii)Find sum of all elements of matrix using function in (i)
10. (a)Read 2 integer mimbers n & r. Write a function to calculate
factorial of a number. Using the function calculate: n!/(n-r)!
(ii)n'./(n-r)!r!
I 0.(b) Read values for the 3 sides of a trianglecheck if the traingle
is isosceles and report else output suitable message
11 For a given sentence write a program to replace lower case letter
by upper case and vice versa.
11. (b) Input n numbers. Conduct a linear search for a given key
number and report success or failure.
12. (a) Write a program to read M and N Of the matrix A(MxN) and P and
Q of matrix B(PxQ). Check if A and B are multiplicable. If : C so read the
elements of A and B. multiply and print the result else print as Not
Multiplicable". Calculate trace of the resultant matrix in (a) if it
exists else output suitable message
13. (a) It is required to input n integers and sort them using
selection sort. Write the following functions and use them in selection sort.
i)Find the max of n elements.
(ii) Exchange two elements.
13. (b) Input 10 names each of length at least 8 characters Sort; the
alphabetical_order
14. (a) Input 10 integers (+ve, -ve and zero) Find the sum of negative
numbers, sum of +ve numbers and print them. Also find the average of all
numbers and numbers above average and below average (Use arrays).
14 (b) Check ifthe given array of N elements is sorted. If the vector
is sorted in ascendmg order or descending order print suitable C messages
accordingly. Otherwise print'Vector C not sorted".
15 (a) Write a program to solve a system for simultaneous equations (3
unknowns) using C Cramer's rule.
15 (b) Input N real/integers and find average.
Guide Lines For Conducting The Practical Classes And Examinations.
1. Student should solve all the problems individually and independently in
the regular lab classes.
2. 'For practical examination all the questions in the question bank should
be included. The students will pick one question from the lot and he has to
execute all parts of the questions independently, in the environment
specified. No change of questions is permitted.
3. Viva-Voce Questions should pertain to the practical questions and theory
syllabus only.
Subject code:PHY 108/208
Recommended Class Hours/week:4
Internal Assessment Marks:25
Semester Exam.
Marks:100
Suggested Text Book:Engineering Physics Lab Manual
1. Biprism
2. Newton's Rings.
3. Air-Wedge.
4. Diffraction Grating.
5. Ultrasonic Interferometer.
6. Charging and Discharging of a condenser (Measurement of Dielectric
Constant)
7. Viscosity by Poiseuilles Method.
8. Verification of Kirchoff's laws.
9.Y-by Searle's Method/uniform bending
10.Poisson's Ratio by - Catheto meter/Searle's' Double Bar Method.
11. Helrnholtz Resonator.
12. Sonometer (Frequency of' Ac)
13. I-V Chracteristic of Transistor.
14. I-V Characteristic of Zener Diode.
15. Energy gap of Semiconductor.
16. Determination of Work function (Photo electric effect)
17. Torsional Pendulum
18. Counter.
19. Series and Parallel Resonance.
20. Magnetic Hystersis using C R O/ Hall, effect.
Subject code:CHEL 107
Recommended Class Hours/week:4
Internal Assessment Marks:25
Semester Exam. Marks:100
Suggested Text Book:Chemistry Lab Manual
PART-A
1.Preparation of std EDTA solution and determination of total Hardness of
water
2.Prepation of std EDTA solutions by determinations of calcium Oxide
in the given sample of cement(Rapid EDTA method)
3.Determination of percentage of copper in brass using std sodium thio
sulpahte solution(brass solution to be prepared by weighing the brass).
4.Preparation of std potassium dichromate solution and determination
of iron in the given sample of haematite or solution
5.Determination of manganese in pyrolusite using standard potassium
permanganate solution
6.Determination of chemical oxygen demand (COD) of the industrial
waste water sample.
7.Detemination of nitrogen ammonia in a given sample of
fertilizerusing standard hydrochloric acid solution.
PART-B
1.Determination of pKa value of a weak acid using pH meter.
2.Potentiometric titration-Estimation of FAS using standard K2Cr2O7
solution.
3.Calorimetric determination of copper.
4.Claorimetric determination of Iron.
5.Estimation of HCL using Standard NaOH conductometrically
6.Determination of viscosity coefficient of a given liquid using
Ostwalds viscometer.
Mathematics-II
Subject code:MAT 101
Recommended Class Hours/week:4
Internal Assessment Marks:25
Semester Exam. Marks:100
Suggested Text Book:Engg Mathematics-II
DIFFERENTIAL CALCULUS:
14 Hrs
Derivatives of arcs - in Cartesian, Parametric, Polar & Pedal form. ,
Derivatives of curvature in Cartesian, Parametric, Polar and Pedal form,
Centre of Curvature and circle of curvature Evaluate Indeterminate forms ,
Evalutation by L'Hospital rule , Rollestheorem, Lagranges and Cauchy's mean
Value theorem { Taylor's and macalurins series expansion for single variable
, Taylor's theorem for flinction oftwo variables (without proof) - I f simple
illustrative examples maxima and minima-method of ,undetermined multipliers
(with one subsidiary condition).
2.Integral Calculus 8Hrs
Multiple integrals evaluation by change of order of integration ,Change of
variables ,Application to area and volume,Beta and Ganirna functions
3. Differential Equations: 10 Hrs
Differential equations of second and higher order Linear differential equations
with constant coefficients Inverse differential operator , Method of
variation of parameters and undetermined coefficients solutions of Cauchy's
homogeneous linear equations legendre's Linear equations -
4. Laplace Transformation: 10 Hrs
Defintions ,Transforms of elementary functions , Transforms of Derivatives
and IntegralsMultiplication by the and division by Periodic functions Inverse
transform Step function,convolution theorem , Application of laplace
transforms to , differential equations Vibrations of string,Undamped
vibrations ,Deflection of beams Resonance , Damped vibrations ,LRC -
Circuits(Differential equations not to be derived) Simultaneous differential
equations.
5.Vector Integration: 8 Hrs
Vector integration Green's theorem Gauss Divergence theorem Stoke's
theorem-simple problems Orthogonal curvilinear Co-ordinates Cylindrical and
Speherical co-ordinates.
Subject code:SOM 203
Recommended Class Hours/week:4
Internal Assessment Marks:25
Semester Exam. Marks:100
1. Simple Stresses And Strains: 4Hrs
Concept of stress and strain ,Concept of St. Venant's Principle stress strain
diagrams Hookeslaw Young's modulus Ultimate stress & yield stress working
stress and factor of safety Poissons ratio Principle of superposition
Rigidity modulus and bulk modulus of elasticity ,Relationships between
elastic constants , Bars of varying cross sections, Compound bars-stepped
variation and tapering bars of circular and regular sections with constant
thickness Temperature stresses.
2. Bending Moments And Shear 6 Hrs
Forces In Beams: Relation between bending moment, shear force and load
intensity ,Bending moment and shear force diagrams for statistically
determinate , beams subjected to transverse loads.
3. Bending Moments And Shear Forces In Beams: -6Hrs
Simple bending theory ,Moment of resistance Sections Section modulus of
different cross sectional shapes , Variation of bending and shear stresses
across the section :
4. Deflection Of Beams: 6 Hrs
Relationship between deflection, slope and bending moment , Deflection of
statically determinate beams by Mecaulay's Method.
5. Torsion Of Shafts 5Hrs
Torsion equation for circular shafts,Strength and stiffness of solid and
hollow, circular shafts (uniform cross sections) Transmission of power.
6. Compound Stresses: 5Hrs
Principle stresses for the two .Dimensional stress system,Mohr's circle.
7. Thin And Thick Cylinders: 4 Hrs
Stresses in thin and thick cylinder ,subjected to fluid pressures ,Lame's
equations.
8.Elastic Stability Of Columns 4 Hrs:
Euler's formula for different end conditions,Effective length ofcolumns
Slenderness ratio , Rankine, Gordon formula , Application of secant formula.
Subject code:GRA 206
Recommended Class Hours/week:4
Internal Assessment Marks:25
Semester Exam. Marks:100
1. Introduction : 6 Hrs
Instruments and their uses B.S.I and I.S.O. Conventions Layout of drawing
sheets Border lines, Title block-Folding of drawing sheets , Lettering,
material representation ,Dimensioning , Scales-Plain vernier and diagonal
scales ,Geometrical constructions.
2. Principle Of Orthographic Projections: 10Hrs
Concepts of principle views,Principle plane of projections and
first angle method of projection Projection of points and lines in simple
positions Projection of line inclined to both the planes of Projections, True
length and true inclinations of a line .
3. Projection Of
Planes: 8 Hrs
Projections of regular laminae in different positions:
(i) change of position method
(ii)Auxiliary method.
4.Projection Of Solids: 9Hrs
Right regular prisms and pyramids ,Right cylinders and cones,Tetrahydra
by change of position method and auxiliary method.
5.Development Of Lateral Surfaces: 9Hrs
(a) Right regular prisms and right cylinders by parallel line method.
(b)Right regular pyramids and cones by radial line method.
(c) Transition pieces and trays by triangulation method.
6.Isometric Projections: 8Hrs
Introduction,Isometric Projections of solids like right regular
prisms,Cylinders,Cones,Sphere and their frustums.
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