Syllabus Btech Iter (1st-2nd) - 2011-2012
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COURSE STRUCTURE
&
SYLLABUS
For
B.Tech Programme
(1st & 2nd Semester)
(Common for all Branches)
Effective From
Academic Session
2011-12
SIKSH
AOANUSA
NDHAN
SIKSHA O ANUSANDHAN DEEMED TO BE UNIVERSITY(Declared U/S 3 of the UGC Act, 1956)
Bhubaneswar, Odisha, India
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HS101T ENGLISH FOR COMMUNICATION (2-0-0)
Objectives: To enable the students to become aware of their present communication skil ls and the skills
they need to function as successful professional; To encourage them to acquire some of the necessary
skills to manage their personal and professional responsibili ties; and To help buil d their confidence and
competitiveness by projecting a positive image of themselves and their future.
Module-I (9 hrs)
Basics of Communication: Communication as a process. A model of effective communication and itsnecessary elements; Characteristics of four communication skills: Reading-scanning: skimming; W riting-
Narrative and Descriptive: Expository and Argumentative; Listening-passive: active; Speaking-Focussed
and Situationally appropriate: Deviant speaking. Technology bringing in new words with specific meaning;
Language functions - MAK Halliday's model
Module-II (7 hrs)
Language skill acquisition: Plain English Movement, Informal style, Bias-free English-an international need.
Language fundamentals: time expressions, root word, prefixes and suffixes;pro form; durative and
terminative; phrasal verbs.
Module-III (6 hrs)
Perceptive and Cognitive Development: Dynamics of Non-Verbal Communication; Barriers and Filters in
communication
Module-IV (8 hrs)
Ideas and Insights: Communication and cross cultural influences; Case studies of successful communication
Text Books :
1. Basic Communication Skills for Technology - Andrea J.Rutherfoord, Pearson Education
2. Understanding Human Communication-Roodman and Adler, Oxford University Press
HS102T BUSINESS COMMUNICATION (2-0-0)
Objectives: To develop skills of the students required in a modern work environment; To develop in the
students the right approach to f ace interviews and participate in group discussions; To develop proficiency
in areas of information sharing, conversation and negotiation.
Module- I (7hrs)
Essentials of Business Communication: Characteristics of Effective Messages; Structuring of ideas
Finding and Communicating Information; Communication Challenges in Today's Workplace
Module- II (8hrs)
Writ ing at work: Types of business letters; Business reports and proposals; Network etiquet tes
Module- III (6 hrs)
Preparing for a job: Job application, Curriculum Vitae; Job interviews
Module- IV (9 hrs)
Corporate communication: Intercultural sensitiv ity; The multicultural workforce; Meetings; Communicating
information Through Visuals
Text Books
1. Business Communication: Making connections in a digital world- Raymond V Lesikar, Marie E
Slatley, Kathryn Rentz
2. Business Communication Today- Bovee, Thill, Schatzman
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MA101T MATHEMATICS-I (3-1-0)
Objective: The objective of this subject is to acquaint the students about the basic tools and techniques of
mathematics applied in the field of engineering.
Module-I (10 hrs)
Calculus: Vector and scalar functions and fields, Derivatives, Gradient of a scalar field, directional derivatives,
Divergence and Curl of a vector f ield and some basic formulae.
Asymptotes and Curvature (Cartesian, Parametric and Polar forms), Radius of curvature at the origin
Module-II (10 hrs)
Functions of several variables: Limit, continuity, and differentiabili ty of functions of several variables, Partial
derivatives, derivatives of composite and implicit functions. Change of variables. Euler's theorem on
homogeneous functions, Taylor's and Maclaurin's expansions of functions of two and three variables,
Jacobian, Maxima and minima of functions of two and three variables, Lagrange's method of multiplier s
Module-III (12 hrs)
First order Ordinary differential equations: Recapitulation of Basic concepts and ideas. Modeling-separable
equations, Exact differential equations and Integrating factor, Linear differential equations, Bernoulli equation,
Modeling of electric circuits.
Homogenous linear equations of second order, Equations with constant coeffic ients, Complex exponential
functions, Cauchy-Euler equation, Non-homogeneous equations, Solution by methods of undetermined
coefficients and variation of parameters
Module-IV (8 hrs)
Laplace Transforms: Laplace transforms, Inverse transforms, Linearity and shifti ng properties, Laplace
transforms of derivativ es and integrals, Unit step function. Second shifting theorem, Dirac Delta function;
Differentiation and integration of transforms, Convolution theorem, Solution of differential, integral and
integro-differential equations by using Laplace transform technique.
Text Books :
1. Advanced Engineering Mathematics by Erwin Kreyszig, John-Wiley & Sons, 8th Edition.(2008)
2. Higher Engineering Mathematics by B.V.Ramana, Tata Mc Graw Hill, (2007)
Reference Book
1. Differential Calculus by Gorakh Prasad, Pothishala Publication
MA102T MATHEMATICS-II (3-1-0)
Objective: The objective of this subject is to acquaint the students about the basic tools and techniques
of mathematics applied in the field of engineering.
Module-I (12 hrs)
Infinite Series and Special Functions: Infinite series and its convergence, Comparison test, ratio test androot test, Power Series Method of solving second order ODEs, Concepts of ordinary points and singularities,
Legendre's Equation. Legendre Polynomials Pn(x), Frobenius Method, Bessel's Equation, Bessel Function
of the first kind Jv(x), Brief i ntroduction of Bessel Function of second kind Yv(x) and Modif ied Bessel
functions Iv(x),Kv(x)
Module-II (8 hrs)
Improper Integrals: Convergence of Improper Integrals, (Tests of convergence ), Beta and Gamma functions,
their elementary properties and relations, differentiation under integral sign, dif ferentiation of integrals with
variable limits -Leibnitz rule,(integrals dependent on a parameter.)
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Linear Algebra: Linear Systems of Equations, Gauss Elimination, Rank of a Matrix . Linear Independence;Vector spaces-linear dependence of v ectors, basis and linear transformations; Solution of linear systems:Existence, uniqueness, general from, Gauss-Jordan Elimination.
Module-III (10 hrs)
Vector Integral Calculus: Line integrals, Independence of path. Double integrals, Green's theorem in theplane, Surfaces and surface integrals, Triple integrals, Divergence theorem of Gauss, Stoke's theorem.
Module-IV (10 hrs)
Matrix Eigenvalue Problem: Eigenvalues and Eigenvectors, Some applications of Eigenvalue problems.Symmetric, Skew-symmetric and Orthogonal matrices, Complex matrices: Hermitian, Skew-Hermitian,Unitary matrices,Similar ity of matrices, Basis of eigenvectors, Diagonalization.
Text Books
1. Advanced Engineering Mathematics, by E. Kreyszig (John Wiley) 8th Edition.
2. Higher Engineering Mathematics by Prof.B.V.Ramanna, Tata McGraw Hill, 2007.
Reference Book
1. Higher Engineering Mathematics- by B.S. Grewal.
PH 101T PHYSICS (3-1-0)
Module -I (10hrs)
Oscillation: Damped oscillation: Equation of motion and its general solution, Energy in damped oscillation,Quality factor, Logarithm decrement, Relaxation time.
Forced oscillation: Equation of motion and its general solution, steady state behavior, Quality fact or,amplitude and velocity resonance, Sharpness of resonance
Optics: Interference, production of coherent sources by div ision of wave front and divi sion of amplitude,Newton's ring experiment. Determination of wavelength and refractive index of l iquid by Newton's ringmethod
Module -II (8 hrs)
Diffraction: Types of diffraction. Fraunhofer diff raction due to a single slit, Diffraction grating and determinationof wavelength of light.
Polarization: Polarized and un-polarized light, Malus law, Brewster's law, Polarization by reflection anddouble refraction. Production and detection of linearly, circularly and ellip tically polarized light.
Module -III (10hrs)
Electromagnetism: No proof of theorems and laws included in this section is expected, statement andinterpretation should suffice.
Coulomb's Law, Gauss divergence theorem, Stoke's theorem, Gauss law of elect rostatics, electric fiel d Eand displacement D. Application of Gauss law to determine the electric field due to an infinite l ine charge,infinite sheet of uniform charge and uniformly charged sphere. Magnetic induction B and magnetic intensityH. Ampere's circuital law, its application to determine H due to an inf inite li ne current; Displacementcurrent, Faraday's law of electromagnetic i nduction
Electromagnetic wave equation in terms of E and B, Wav e equation in free space, transverse nature andspeed
Module -IV (12hrs)
Quantum Physics: Particle nature of Radiation: Black body radiation, photoelectric effect and Comptonscattering, failure of cl assical physics and success of Planck, Einstein and Compton theory (No derivationis necessary)
Wave nature of particles: De Broglie hypothesis, matter waves, Davisson and Germer experiment, Heisenberguncertainty principle: statement, interpretation and examples.
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Formulation and application of Quantum Mechanics: Wave function and its properties, Probability density,Observable and operators, Expectation value, Schrodinger time dependent and time independent equation& its applications to: - Free particle, Infinite deep potential well, potential barrier (one dimension only),Qualitative treatment of harmonic oscillator and hydrogen atom.
Text Books
1. Modern Physics, by Arthur Beisur, Tata McGraw Hill
2. Elements of Electromagnetic, by Matthew N.O. Sadiku, 3rd Edition, Oxford University Press
3. The Physics of Vibration, by H.J. Pain and Waves
Reference Books
1. Introduction to Electrodynamics, by D.J. Grifths, Prentice-Hall
2. Optics, by Ajoy Ghatak, 3rd Edition, Tata Mc Graw Hill
CY101T CHEMISTRY (3-1-0)
Module - I (10hrs)
Quantum Mechanical Approach to Atomic Structure: Failure of Classical Mechanics: (Black body radiation,
Photoelectric effect, wave nature of particles, Atomic spectra), Development of Quantum Mechanics,Heisenberg's uncertainty principle, Schrodinger's wave equation (derivation not required), Interpretation ofwave function.
Co-ordination Chemistry: Werner's work, Nomenclature, Limitations of VBT, Crystal field Theory and splittingof d orbitals in Octahedral &Tetrahedral complexes, CFSE, magnetic properties and colour of metalcomplexes, stability of complexes.
Module -II (11 hrs)
Spectroscopy: Electromagnetic radiati on, Beer-Lambert's Law, UV-VIS., IR & microwav e, Spectroscopy(Basic principles only).
Thermodynamics: Basic concepts, entropy and its significance, entropy change in physical & chemicalchanges, entropy of mixing , free energy concept, criterion for spontaneity, Gibbs - Helmholtz equation,
Maxwell's relations.Module - III (11hrs)
Phase Equilibria: Phase, Component, Degree of Freedom, Phase rule, Application of phase rule t o OneComponent systems (water system, sulphur system) & two component Bi-Cd system.
Electrochemistry: Electrochemical Cell, Electrode Potential, Nernst's equation (derivation), E.M.F, referenceelectrodes, Applications of e.m.f measurement: - determination of pH, Ksp, free energy change andequilibrium constant. Fuel cell, Electrochemical Corrosion
Module-IV (8hrs)
High Polymers: Nomenclature, Classification, Molecular weight determination (only calculation), Degreeof polymerization, crystallini ty, Glass transition temperature, Preparation, properties & uses of some typicalpolymers (Polyethylene, polypropylene, PVC, Polystyrene, PMMA, Teflon, Bakeli te), Natural and Synthetic
rubbers (Neoprene, BUNA-N, BUNA-S). Conducting Polymers
Catalysis: Classification of catalysis, acid-base catalysis, and enzyme catalysed reactions, Michaeli s-Menten mechanism, Industrial applications of catalysts.
Text Books
1. Physical chemistry, Atkins and J. De Paula, 8th Edition, Oxford University Press, 2010.
2. Concise Inorganic Chemistry, J. D. Lee, 4th/5th edition, ELBS
3. Polymer Science, Gowariker, Viswanathan, Sreedhar, New Age International (P) LimitedPublishers, 2010.
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Reference Books
1. Principle of Physical chemistry, Puri, Sharma & Pathania, S. Chand & Co. Publication, 2010.
2. Text book of Physical Chemistry, Soni, Dharmarah and Dash, 22nd Revised Edition, Sultan Chand
& Sons, 2004.
3. Engineering chemistry, Jain & Jain, 15th Edition, Dhanpat Rai Publishing Co., 2010.
EE101T INTRODUCTION TO ELECTRICAL ENGINEERING (3-1-0)
Objective: As a First Course in Electrical it is intended to give an easy understanding of the W orld of
electrical engineering.
Module - I (12 hrs)
DC Networks: Concept of voltage sources and current sources, Source conversion, Kirchhoff's laws,
Mesh and Nodal analysis, Delta-Star and Star-Delta transformations, Superposition principle, Theveni n's
and Norton's theorem.
Magnetic circuits: Magnetomotive force, Permeability and Reluctance, comparison between magnetic and
electric circuit, solution of series and parallel magnetic circuits, B-H Curves, Hysteresis loss.
Module - II (8hrs)
Single Phase AC Circuits: Single phase EMF generation, Average and effective values of sinusoids, square,
triangular and rectified signals, Form f actor, Peak f actor, j operator, complex representation of phasor
quantities, A.C through R, L, C, RL, RC, and RLC, Phasor diagrams, Power factor, Power in A.C. circuits,
Solution of series-parallel circuits, Resonance, Q-factor and bandwidth in series RLC circuit.
Module - III (10hrs)
Three Phase AC Circuit: Three-phase EMF generation, Delta and Star connections, Line and Phase
quantities, Solution of 3-phase circuits with balanced load. Power in 3-phase circuit, measurement of
three-phase power by 2-watt meter method for balanced load
Electrical Measuring Instruments: Introduction to electrical measuring instruments (Ammeter, Voltmeter,
Wattmeter and Energy meter). Extension of range of ammeter and voltmeterPower System: Basic idea of power generation, transmission and distribution
Module - IV (10 hrs)
Transformers: Construction and Principle of operation of single phase transformer, E.M.F. equation, Phasor
diagram at no load for ideal transformers, Auto-Transformer and i ts advantages.
DC Machines: Construction, DC generator - Principle of operations, E.M.F. equation and Types. DC motor
- Principle of operations, back E.M.F., Types, torque and speed equation, Speed control (Armature and
field) of D.C. shunt motor
Three phase Induction Motor: Construction and principle of operation, types, slip.
Text Books
1. Basic Electrical Engineering by V.N. Mittle/ Arvind Mittal., TMH
2. Electrical & Electronics Technology, by Edward Hughes (revised by Lab McKenzie Smith) Pearson
Education Ltd. Indian Reprint 2002.
Reference Books
1. Basic Electrical Engineering by S. N. Singh, PHI
2. A Textbook of Electrical Technology by B.L. Theraja and A.K.Theraja, S.Chand.
3. Fundamentals of Electrical Engineering by Ashfaq Husain, Dhanpat Rai and Co.
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EC101T INTRODUCTION TO ELECTRONICS (3-1-0)
Objective: As a First Course in Electronics it is intended to give an easy understanding of the Worl d of
Electronics.
Module - I (14 hrs)
Semiconductor Diode: p-n junction, Forward - Bias Condition, Reverse - Bias Condition, V-I Characteristi c,
Diode Equation, Zener region, DC Resistance levels, AC Resistance, Simplifi ed Equivalent Circuits of aDiode, application of Diode as Rectifier, Clamper, Clipper.
Bipolar Junction Transistor, Transistor Operation; Common-Emitter Configuration, V-I Characteristics,
Biasing, Load Line DC analysis, Transistor Testing, Small Signal equivalent circuit (hybrid parameter
models), Simple Analysis of CE Amplifier. Frequency response of an R.C. Coupled amplifi er (elementary
treatment)
Module - II (8hrs)
Field - Effect Transistors: Structure and principle of JFET. V-I Characteristics. DC - Biasing, (only fixed
biasing) Load - line. DC Analysis. Principle of MOSFET, application of MOSFET as a switch. Small Signal
Equivalent Circuit Model. Common - Source amplif ier Simple analysis.
Module - III (10 hrs)
Feedback Amplif iers: Principles of feedback amplif ier, Advantages of Negative feedback, Barkhausen Criterion
of Oscillation, R.C. phase shift oscillator.
Operational Amplifiers: The ideal OP Amp, Inverting and non-inverting Configurations, OP Amp application
in integration, Differentiation and Summing Circuits.
Digital Electronics: Binary Arithmetic, Hexa - Decimal Numbers and their conversion. Logic Gates: AND,
OR, NAND, NOR, EX - OR. General idea about Adder. Subtractor and Multipl ier (two bit), Multipl exer.
Basic Principle of Operation of FF
Module - IV (8 hrs)
Principle of Communication: Basic Principles of Modulation and Demodulation - AM (waveform only, no
mathematical derivation). Brief description of an analog Communication Systems
Principles of Digital Communication Techniques: Sampling Quantization, encoding and decoding. Brief
description of a Digital Communication System
Electronics Instruments: Principles of Oscill oscope and its simple application. Principles of operation of a
Digital Multimeter.
Text Books
1. Electronics Devices Circuit Theory, Rober L. Boylestand, Louis Nashelsky, K. Lal Kishore, 2006,
PHI.
Reference Books
1. Microelectronics Circuits by Abdel S. Sedra & Kenneth C. Smith, 5th Edition Oxford University
press.
2. Essential of Electrical and Computer Engineering, David V. Kerns, Jr. & J. David Irwin: Pearson
Education, Selected portions of Ch. 8 to 14 (Electronics Section.)
3. Digital Design by Moris Mano, 3rd Edition, Pearson Education.
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ME101T ENGINEERING MECHANICS (3-1-0)
Objective: To develop, a strong base and sound understanding of the fundamental principles that applies
to many practical engineering problems. While learning the chapters, the students will develop capabi lity
to understand a problem, analyze the criti cal aspects and apply correct method to solve practical problems.
Module - I (10hrs)
Introduction to statics: Basic concepts, scalars & vectors, conventions for equations & diagrams, working
with vectors, units, primary standards, problem solv ing in statics.
Force Systems: Forces (external and internal effects, principle of transmissibility, force classification,
action & reaction, vector components)
2-D force systems: Rectangular components: - Conventions for describing vector components, determining
the components of a force.
Moment:-Moment about a point, the cross product, Varignon's theorem.
Couple: Concept, vector algebra method, equivalent couples, force-couple system.
Resultants: Algebraic method, princi ple of moments.
3-D Force Systems: Rectangular components: Specification by two points on the line of action of f orce,
specification by two angles which orient the line of action of the force, dot product & its application.
Moment & Couple: Moments in 3-D, cross product & its evaluation, moment about an arbitrary axis,
Varignon's theorem in 3-D, Couples in 3-D.
Resultants: Concurrent forces, parallel forces, coplanar forces, wrench resultant.
Module - II (10hrs)
Equilibrium in 2-Dimension: System isolation & Free Body Diagram, equilib rium conditions, categories of
equilibrium, 2 & 3 force members, alternative equilibrium equations, constraints & statical determinacy,
approach to solving problems.
Friction: Types of friction, dry friction (Mechanism, static friction, kinetic friction, fricti on angles, factors
affecting friction, Coulomb's laws of friction, types of friction problems, application of friction in machines
(wedges, belts, screws)
Plane Truss: Basic concept, analysis, method joint, i nternal & external redundancy, special conditi ons,
Method of sections.
Module - III (10hrs)
Centre of Mass and Centroids: CM vs. CG vs. centroid, centroids of lines & areas by integration method,
composite lines and figures, theorems of pappus
Area Moments of Inertia: Rectangular and polar moment of iner tia, determination by integration, radius of
gyration, transfer of axes (parallel axi s theorem), composite areas.
Virtual Work: Work of a force, work of couple, dimensions of work, virtual work, equilibrium of ideal systems
of rigid bodies, principle of vi rtual work, degree of freedom, application.
Module-IV (10hrs)
Kinematics of Particles: Rectilinear Motion: Displacement, velocity and acceleration, graphical interpretation,
analytical method.
Plane Curvilinear Motion: Displacement, velocity, acceleration, rectangular coordinates, vector
representation, projectile motion, normal & tangential coordinates, polar coordinates.
Kinetics Particles:- Force, mass and acceleration, Newton's laws of motion, equation of motion & solution
of problems (only rectilinear motion), D Alembert's principle, work, energy, impulse, momentum, impact.
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HS 101P COMMUNICATION PRACTICE LAB (0-0-3)(Any 10 activities are to be conducted)
1 . Getti ng to know you
2. 10 seconds response(Grammar visit)
3. When words become unclear(Pictures have thousand words)
4. Debate
5 . Finding meaning
6. Reflective thinking and speaking
7. Formal - Informal practice writ ing
8. Retention and analysis(using documentaries)
9. Listening to sounds of English(CD-ROM aided)
10. 1- minute talk on the dais(quotes)
11. Question-answer session
12. Teacher - student discussion(Alfred C.Boucher)
13. Multiple choice question-answer session
14. Hour simulated end term test
15. Bias free and plain English practice
HS102P BUSINESS COMMUNICATION PRACTICE LAB (0-0-3)(Any 10 activities are to be conducted)
1. Collect information about two important personalities and prepare speeches introducing
them.
2. Make f ive minutes presentat ion on:
(i) How body language communicates in an interview
(ii) Participants' responsibility in a meeting
(iii) Using visual aids in a presentation
3. Multiple choice question answer session(questions on the contents of the syllabus)
4. Business letter writing(serialized distribution among the students)
5. Group discussion(six in a group)
6. Quest ion-Answer session
7. Making a checklist on given assignments
8. Cel l phone violations
9. Establish your credibi li ty
10. Display popular types of visual aids
11. Electronic presentations: test your knowledge12. Composing and shaping business messages
13. Develop an Audience Profile
14. Your task: informal analytical report
15. Your task: informal informational report
16. Focusing on Ethics
17. Create your answer for interview questions
18. CV/Resume writ ing
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PH101P PHYSICS LABORATORY (0-0-3)(Any 10 experiments are to be conducted)
1. Determination of young's modulus by Searle's method.
2. Determination of young's modulus by bending beam.
3. Determination of rigidity modulus using Barton's apparatus.
4. Determination of rigidity modulus using Maxwell's needle / Torsional pendulum.
5. Surface tension by capillary rise method.
6. Viscosi ty by Stoke's method.
7. Wave length of l ight by Newton's ring method
8. Wavelength of l ight using a transmission grating.
9. Thermal conductivity of bad conductor by Lee's method.
10. E.m.f of cell using potentiometer and standard cell
11. Resonance in an LCR circuit.
12. Frequency of a tuning fork by drawing (n~l) graph
13. Characteristics of a p-n junction diode.
14. Characterist ics of a PNP transistor.
15. Bridge rectif ier.
16. Planck's constant by photoelectric method.
17. Study of Hall ef fect
18. Determination of the wavelength of a laser source.
19. Measurement of amplitude and frequency of A.C source using an oscilloscope.
CY101P CHEMISTRY LABORATORY (0-0-3)
(Any 10 experiments are to be conducted)
1. Determination of amount of sodium hydroxide (NaOH) and sodium carbonate (Na2 CO3) in a
mixture.
2. Est imat ion of Calcium in lime stone.
3. Determination of total hardness of water by EDTA method.
4. Determination of percentage of available chlorine in a sample of bleaching powder.
5. Determination of dissolved oxygen in a sample of water.
6. Determination of rate constant for hydrolysis of methyl acetate in acidic medium.
7. Determination of 2nd order rate constant of ethyl acetate in basic medium.
8. Determination of Viscosity of Lubricating oil by Redwood Viscometer.
9. Determination of flash point and fire point of given oil by Pensky- Martein's closed cup flash
point apparatus.
10. Determination of partition coefficient of iodine between CCl4 and Water.
11. Conductometric titration: determination of concentration of Cl- ion by using standard solution
of AgNO3.
12. Determination of acid value of lubricating oil.
13. Conductometric titration: determination of strength of a given HCl solution by titration against
a standard NaOH solution.
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EE101P INTRODUCTION TO ELECTRICAL ENGINEERING LAB (0-0-3)
(Any 10 experiments are to be conducted)
1. Study of R-L-C Series Resonance Circuit.
2. Measurement of current, voltage and power in R-L-C Series Circuit excited by single phase AC
supply.
3. Comparison of intensity, of incandescent lamps connected in series, parallel and series-parallel.
4. Connection and measurement of power consumption of a fluorescent tube with voltage variation.
5. Measurement of resistance, for armature, shunt field, series field of a DC compound machine
and a filament l amp in both Cold and Hot conditions.
6. Power Measurement by using
(a) 3-Voltmeter method.
(b) 3-Ammeter method.
7. Connection and testing of single phase energy meter.
8. Study of fan motor (Electronic speed control and resistance speed control) and measure voltage,
current and power. Also plot voltage vs. speed characteristics.
9. Study of B-H curve and measurement of hysteresis loss.
10. Using earth tester measure earth resistance of pipe earthing.
11. 3-Phase power measurement by 2-Wattmeter method.
12. Study of Megger and measurement of insulation resistance for different electrical machines.
13. Current-time characteristics of a fuse wire.
14. Study of Star-Delta conversion using different resistors.
15. Measurement of inductance and resistance of choke coil.
EC101P INTRODUCTION TO ELECTRONICS LAB (0-0-3)
(Any 10 experiments are to be conducted)
1. Familiarity with different types of electronic components - Resistors, Capacitors, Inductors,Semiconductor Diodes, Transistors, ICs.
2. Familiarity in the usage of Oscilloscope, Digital Multimeter, Function Generator & Power Supply.
3. V- I Characteristics of a PN junction diode. Determination of DC and AC resistance. Reverse
biasing.
4. Diode as a half wave & full wave rectifier calculation D.C. Current & Ripple Factor to a resistive
load, capacitive load.
5. Diode as Clamper & Cl ipper.
6. V- I Characteristics of Transistor. Load line.
7. Common Emitter Transistor amplifier. Measurement of Linearity Characteristic. Measurement
of Gain of a 1 KHz signal.
8. OPAMP as a Summing Amplif ier & Differentiator.
9. Determination of Truth Table of AND, OR, NAND, NOR & EX -OR Gates.
10. Study of a Multiplexer & De-multiplexers IC.
11. Use of Oscilloscope for Phase, Frequency and Amplitude measurement of a signal.
12. Design of a Simple R-C coupled Amplifier to operate in audio band. Measurement of its Gain -
frequency response. Study the effect of series feedback.
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ME101P WORKSHOP PRACTICE (0-0-3)
1. Introduction to welding; soldering & brazing, study of related equipments.
2. To prepare a welded joint by gas and arc welding process.
3. Study of tools and instruments used in fitting operation. Process planning for a given fitting
job.
4. To produce a fitting job as per drawing to the dimensional specification.
5. Introduction to machining. Study of a lathe and tools/accessories used. Process planning for
a turning job.
6. To produce a simple job on lathe involving elementary operation.
ME1 02P ENGINEERING DRAWING AND COMPUTER GRAPHICS (0-0-3)
1. Familiarization with 2D computer drafting tools. Use of limit & unit settings. Use of dimension
tools & dimension settings. Lecture on use of and templates, how to print a file & maintain the
lab records.
Use of draw commands: Line (in absolute, polar & relative co-ordinate systems), circle. Arcs,
rectangles, text, points, polygon
Use of modified commands: parallel, trim, erase, extend, mirror, array, fillet & chamfer.
Distinction between single entity & multi-entity objects, use of explode, Edit commands 9file
copy & clip board copy)
Assignm ents: drawing of th ree di ff erent c losed loops consisting of straight l ines using polar
coordinate system, relative coordinate system and absolute coordinate system. Evaluation of
each corresponding assignments
2. Lecture on projection of points, straight line & plane.
Assignments: Solving of at least three problems from projection of points, projection of straight
lines & projection of planes, preparation of planning recordings and drawing in 2D computer
drafting screen. Evaluation of each corresponding assignments
3. Lecture on orthographic projections, isometric projections, development of solids and
intersection of solids.
Assignment: solv ing at least three problems from orthographic projections, isometric projections,
and development of solids and intersection of solids. Preparation of planning records and
drawing in 2D computer drafting screen
CS101P COMPUTER FUNDAMENTALS AND 'C' PROGRAMMING LAB (0-0-3)
(Assignments provided below are guidelines only)
Assignment -I
1) Getting started with computer operations, Operating System Commands.
2) Introduction to v i edi tor.
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