Kurukshetra Institute of Technology and Management, Kurukshetra
Session 2017-18 ( Even Sem)
Bachelor of Technology (Common for All Branches) SCHEME OF STUDIES/EXAMINATIONS
Semester – II
Course No. Course title Allotment of Marks
The
ory
Sessio
nal
Practi
cal
Total
1 AS-102N Applied Physics-II 75 25 0 100
2 AS-103N Applied Chemistry 75 25 0 100
3 AS-104N Applied Mathematics-II 75 25 0 100
4 HS-101N Technical Communication 75 25 0 100
5 ME-105 Engg. Drawing and
Graphics
75 25 0 100
6 EE-101N Electrical Technology
Fundamentals
75 25 0 100
Kurukshetra Institute of Technology & Management Kurukshetra
Course Plan ( 2nd
Semester) Date: 12-12- 2017
Course No. : AS-102N L T P/D TOTAL
Course Title : Applied Physics-II 4 1 2
Teacher Name: Ms. Upasna Theory: 75 Marks Sessional: 25Marks
Duration of Exam: 03 hours
Course Plan
Topic No. of
Lecture
Planned
No. of
lecture
engaged
First sessional
UNIT 1. Crystal structure 10
1. Crystalline and Amorphous solids, Crystal Structure: lattice
translation vector,
2
2. symmetry operations, space lattice, basis; Unit cell and
Primitive cell,
1
3. Fundamental types of lattices: two-dimensional and three
dimensional Bravais lattices;
1
4. Characteristics of Unit cells: Simple Cubic (SC), Body
Centred Cubic (BCC), Face Centred Cubic (FCC),.
2
5 Hexagonal Close Packed (HCP) structure; Simple crystal
structures: Sodium Chloride,
1
6 Cesium Chloride, Diamond, Cubic Zinc Sulfide; 1
7 Miller Indices, Bonding in Solids, 1
8 Point defects in crystals: Schottky and Frenkel defects 1
UNIT 2. Quantum Theory 10
1. Need and origin of Quantum concept, 2
2. Wave-particle duality, Phase velocity and group velocity, 2
3. Uncertainty Principle and Applications; 2
4. Schrodinger’s wave equation: time-dependent and time –
independent;
2
5. Physical Significance of wave function .
2
Second sessional
Unit 3 Free Electron Theory 10
1 Classical free electron theory: electrical conductivity in
metals, thermal conductivity in metals,
1
2 Wiedemann-Franz law, success and drawbacks of free
electron theory;
1
3 Quantum free electron theory: wave function, 1
4 eigen values; Fermi-Dirac distribution function, Density of
states,
1
5 Fermi energy and its importance, Thermionic Emission
(qualitative).
1
Band theory of Solids
1 Bloch theorem, Kronig-Penney Model (qualitative), E versus
k diagram,
1
2 Brillouin Zones, Concept of effective mass of electron, 1
3 Energy levels and energy bands, 1
4 Distinction between metals, insulators and semiconductors, 1
5 Hall effect and its Applications 1
Third Sessional
Unit-4 Superconductivity 5
1 Introduction, General features of Superconductors, Meissner
effect,
2
2 Types of superconductors, Elements of BCS theory, 2
3 London equations, Applications of superconductivity. 1
Nanomaterials 5
1 Introduction, Synthesis of nanomaterials: 1
2 Top-down and Bottom-up approach, Sol-Gel and Ball Milling
methods,
2
3 Properties of Nanomaterials, 1
4 Applications of Nanomaterials 1
Total No. of Lectures 40
Recommended Books:
Text Books
1. P.K. Diwan, Applied Physics for Engineers, Wiley India Pvt. Ltd.
2. S.P. Taneja, Modern Physics for Engineers, R. Chand & Co.
Upasna Head’s Signature with Date
Assistant Professor
1. ------------------------------
2. ------------------------------
Kurukshetra Institute of Technology & Management Kurukshetra
Course Plan (1st & 2
nd Semester)
Date: 30-1- 2017
Course No. : AS-103N L T P/D TOTAL
Course Title : Applied Chemistry 3 1 2
Teacher Name: Dr. Amita Garg Theory: 75 Marks Sessional: 25Marks
Duration of Exam: 03 hours
Course Plan
Topic No. of
Lecture
Planned
No. of
lecture
engaged
First sessional
UNIT 1. THERMODYNAMICS 9
1. laws of thermodynamics - First, Second, Third, Zeroth law 1
2. Concept of entropy (entropy change for an ideal gas, in
reversible process, in irreversible process, phase transition)
1
3. Free Energy, work function 1
4. chemical potential ,Gibbs Helmholtz Equations 1
5 Clausius – Clapeyron Equations& related numercal problem 1
PHASE RULE
1. Terminology and derivation of Gibbs phase rule equation 1
2. one component system(Water system, Sulphur system) 1
3. Two component system-: Pb-Ag system, Zn-Mg. 1
4. Two component system-:(Na-K) 1
UNIT 2. WATER AND ITS TREATMENT 9
1. Hardness of water & Its determination by EDTA method. 1
2. Alkalinity of water and its determination& related numerical
problems
1
3. Scale and Sludge Formation-Composition, Properties and
methods of prevention
1
4. water softening by Ion Exchange Process 1
5. Desalination –:electrodialysis, reverse osmosis 1
Second sessional Green Chemistry
1 Definition & concept 1
2 Twelve Principle of green Chemistry 1
3 Alternate solvents-Ionic Liquids, super critical fluid (SCF)
system
1
4 Derivatized and immobilized solvent materials 1
Unit 3 CORROSION 9
1 Dry and wet corrosion, Electrochemical theory of corrosion 1
2 Pitting, waterline ,Differential Aeration corrosion 1
3 Stress corrosion, Factors affecting corrosion 1
4 Preventive measure-proper designing & material selection,
cathodic & anodic protection.
1
Third Sessional
LUBRICANTS
1 Mechanism of thin & thick layer lubrication 1
2 Classification of lubricants 1
3 properties of lubricant-:fire point, pour point, viscosity index, 1
4 Saponification number, Iodine value , 1
5 consistency, drop point 1
Unit-4 Engineering Material 6
1 Ceramics-clay, silica, feldspar, porcelain or vitreous enamel 1
2 Cement 1
3 Nanoscale Material, 1
4 Nanocrystal & cluster 1
5 Fullerenes, carbon nanotube 1
6 Dendrimers, nanowires, nanocomposites. 1
Total No. of Lectures 33
Recommended Books:
1. Chemistry for Engineers: WILEY- Dr. Rajesh Agnihotri
2. chemistry for Engineer: Dr. B.K. Ambasta
Amita Garg Head’s Signature with Date
Assistant Professor
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Kurukshetra Institute of Technology & Management, Kurukshetra
Course Plan (2nd
semester)
Course No : AS 104 N L T P/D TOTAL
Course Title : Mathematics 3 1 - 04
Name of Teacher: Dr. Shakuntla Singla Sessional: 25 Marks
Theory: 75 Marks
Sr. No Topic No of Lectures Lecture
Engaged Content for Ist Sessional Unit-I Theory of equations
1 Formation of equation,Relation between roots Coefficient 2 2 Transformation of Equations,Integral calculus 2 3 Beta and Gamma Function,Evaluation of Integral 3 4 Differential Under the Integral sign 2
Total 9
Content for 2nd
Sessional Unit –II Laplace Transform
5 Laplace Transform,Basic Concept,Existence Conditions 7 6 Transform of Integral Functions,Properties of Laplace
Transform,Inverse Transform,Convolution Theorem 7
7 Application of Linear Differential Equation 2 Total 16
Content for 3rd
Sessional Unit -III Ordinary Differential Equations 8 Exact Differential equation 3 9 Equation Reducible to differential Equation 3
10 Application to differential Equation 3 11 Newton Law of Cooling,Heat Flow,Orthogonal Trajectories 2 12 Linear Differential Equation of second and High Order 1 13 Particular Integral,Method of variation of perimeter 1 14 Undetermined Coefficient,Cauchy Equation,Legendre’s
Equations,Simultaneous Linear Equations,Complete Solutions 1
Total 14
Unit –IV Sessional 3rd
Vector Calculus 15 Differentiation of vectors 2 16 Scalar and vector point function 1 17 Gradient of scalar 1 18 Divergence and curl line integral 1 19 Surface Integral 1 20 Greens Theorem 1 21 Gauss Divergence 1 22 Application of Theorem 1
Total 9
Total Lecture - 48 Text Book:E. Kreyszig, Advanced Engineering Mathematics, Wiley India.
Head’s Signature with Date
1. ………………………
Kurukshetra Institute of Technology & Management Kurukshetra
Course Plan (1st & 2
nd Semester)
Date: 12-12- 2017
Course No. : HS-101N L T P/D TOTAL
Course Title : Technical Communication 3 1 0
Teacher Name: Ms. Ritika Theory: 75 Marks Sessional: 25Marks
Duration of Exam: 03 hours
Course Plan
Topic No. of
Lecture
Planned
No. of
lecture
engaged
First sessional
UNIT 1. Introduction: 6
1. Meaning, Types 2
2. Role of Communication 2
3. Barriers to Communication 2
UNIT 2. Communicative Skills: 16
1. i) Listening: Traits of a good listener; Barriers 4
2. ii) Speaking: Achieving confidence, clarity and fluency;
Paralinguistic features
4
3. iii) Reading Skills:Vocabulary; Scanning; Skimming; the
SQ3R Reading Technique
4
4. iv) Writing: Characteristics; Language; Techniques for
effective writing
4
Unit 3 Professional Speaking: 8
1 i) Group Discussion 4
2 ii) Oral Presentation 2
3 iii) Job Interview 2
Unit-4 Technical Writing 6
i) Technical letters 2
1 ii) Job Application and Resume 2
2 iii) Technical articles 2
Total No. of Lectures 36
Recommended Books:
Text Books
1. Meenakshi Raman and Sangeeta Sharma, Technical Communication: Principles and Practice, Oxford
University Press
2. M. Ashraf Rizvi, Effective Technical Communication, McGraw Hill
Ritika Head’s Signature with Date
Assistant Professor
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Kurukshetra Institute of Technology & Management Kurukshetra
Course Plan (2nd
Semester)
Dated: 05th
December, 2017
Course No. : ME-105-N
Course Title : Engineering Graphics and Drawing.
Name of Teacher : Er. Yogesh Gupta
Theory: 75 Marks
Sessional: 25 Marks
S.No. Topic No. of
Lectures
planned
No. of
Lectures
engaged
1.
UNIT-I (For First Sessional)
- Introduction of Engg. Drawing Equipment
- Elements of Engg. Drawing
- Types of Lines
- Various types of projections.
- First and Third angle Systems of
Orthographic Projections
04
2.
Sheet No-1
- Types of Scales 07
3.
Sheet No. 2
- Projections of points in different quadrants 04
4.
Sheet No -3
- Projections of Straight lines
- Parallel to one or both reference planes
- Contained by one or both reference planes
- Perpendicular to one of the planes
- Line parallel to one plane and inclined to the other plane
04
5.
Sheet No-4 (For Second Sessional)
- Projections of Straight lines
- Line inclined to both the planes
- True length, true inclinations of a line
- Traces of a line
06
S.No. Topic No. of
Lectures
planned
No. of
Lectures
engaged
Sheet No-5
- Introduction , Types of Planes
- Projection of Plane by change of position method only
- Projection of Plane perpendicular to both the reference planes
- Perpendicular to one plane and parallel to the other plane
- Projection of plane perpendicular to one plane and inclined to the
other plane.
04
6.
Sheet No-6
- Projections of Polyhedra solids and solids of revolution - in simple
positions with axis perpendicular to a plane
- With axis parallel to both planes.
04
7.
Sheet No- 7 (For Third Sessional)
- Projections of solids with axis parallel to one plane and
inclined to the other
03
8.
Sheet No – 8
- Development of surfaces of various simple solid such as
cubes, cylinders, prisms, pyramids etc.
03
9.
Sheet No- 9
- Conversion of pictorial views in to orthographic views
(Three orthographic views of solids)
03
10.
Sheet No- 10
- Profile of screw threads, Orthographic views of Nuts and Bolts 03
11
AUTOCAD basics: Cartesian and Polar Co-ordinate system, Absolute and
Relative Co- ordinates systems. Basic Commands: Line, Point, Rectangle,
Polygon, Circle, Arc, Ellipse, Polyline
Basic editing Commands: Basic Object Selection Methods, Window and
Crossing Window Erase, Move, Copy, Offset, Fillet, Chamfer, Trim,
Extend, Mirror Display Commands: Zoom, Pan, Redraw, and Regenerate
Simple dimensioning and text, simple exercises.
03
Total No. of Lectures 48
Reference Books:
1. N.D. Bhatt & V.M. Panchal, Engineering Drawing: Plane and Solid Geometry, Charotar Publishing House.
2. P.S.Gill, Engineering Graphics and Drafting, S.K. Kataria & Sons.
Er. Yogesh Gupta
Name & Sign of Teacher Head’s Signature with Date
1. ………………………
2. ………………………
3. ………………………
Kurukshetra Institute of Technology & Management, Kurukshetra
Course Plan (2nd
semester)
Course No : EE 101- N L T P/D TOTAL
Course Title : Electrical Technology 4 1 02 07
Name of Teacher: Er. Veenu Sessional: 25 Marks
Theory: 75 Marks
S.No. Topic
No. of
Lectures
Planned
No. of
Lectures
Delivered
Contents for First Sessional Test
UNIT I
1.
D.C. circuits excited by independent
voltage/current source (steady state): Ohm’s Law,
junction & node, circuit elements classification:
Linear & nonlinear, active & passive, lumped &
distributed, unilateral & bilateral with examples.
02
2
KVL, KCL, Loop analysis of resistive circuit in the
context of dc voltages & currents, Node-voltage
analysis of resistive circuit in the context of dc
voltages & currents.Star-Delta transformation for set
of pure resistors. Relevant D.C. circuit analytical
problems for quantitative analysis.
04
3.
Network Theorems: Superposition, Thevenin’s and
Norton’s theorems all in the context of dc voltage and
current sources acting in a resistive network,maximum
power transfer theorem, Relevant D.C. circuit
analytical problems for quantitative analysis.
05
UNIT II
4.
AC Fundamentals: Mathematical representation of
various wave functions. Sinusoidal periodic signal,
instantaneous & peak values, polar & rectangular form
representation of impedances & phasor quantities.
Addition & subtraction of two or more phasor
sinusoidal quantities using component resolution
method.
03
5.
RMS & average values of various waveforms
including clipped, clamped, half wave rectified& full
wave rectified sinusoidal periodic waveforms etc.
Generation of alternating emf (dynamo). Relevant
analytical problems for quantitative analysis.
03
Contents for Second Sessional Test
S.No. Topic
No. of
Lectures
Planned
No. of
Lectures
Delivered
6.
A.C. Circuits: Behavior of various components fed
by A.C. source. (steady state response of pure R, pure
L, pure C, RL, RC, RLC series with waveforms of
instantaneous voltage, current & power on
simultaneous real axis scale and corresponding phasor
diagrams),P.F.active, reactive & apparent power.
04
7.
Frequency response of Series & Parallel RLC circuit
including resonance, Q factor, cut-off frequency &
bandwidth. Relevant A.C. circuit analytical problems
solutions using ‘j-omega’ operator method.
02
UNIT-III
8.
Balanced Three Phase Systems: Necessity &
advantage of three phase system, mode of generation
of 3 phase supply. Phase and line voltages & currents,
power. Measurement of 3-phase power by two
wattmeter method for various types of star & delta
connected balanced resistive, inductive & capacitive
loads including phasor diagrams at various power
factors. Phase sequence significance. Relevant
problems for quantitative analysis.
04
9.
Electromagnetism & Magnetic circuits (Qualitative
analysis only): Laws of EMI, statically &
dynamically induced emf, self & mutual induction,
dot notation, RH Screw rule, Fleming’s RH & LH
rules. MMF, Relation between magnetic flux, m.m.f.
and reluctance, magnetic fringing. Hysteresis & Eddy
current losses & their minimization
03
10.
Single Phase Transformer (Qualitative analysis
only): Principle, construction & emf equation. Phasor
diagram for ideal case and at no load. Winding
resistance & leakage reactance. Actual transformer at
resistive, inductive & capacitive loads with phasor
diagrams. Losses & Efficiency, condition of
maximum efficiency, regulation. OC & SC test, direct
load test, equivalent circuit, concept of auto
transformer.
06
Contents for Third Sessional Test
UNIT-IV
S.No. Topic
No. of
Lectures
Planned
No. of
Lectures
Delivered
11.
Prime mover, Stator-Rotor, Field–Armature,
necessity of a starter.
D.C. Machines: Principle, general construction &
working. Split ring /Commutator working in DC
generator & motor, generated emf equation, Torque
Equation. Types of DC Machines, speed control of
DC Shunt motor.
03
12.
A.C. Machines: 3-phase Induction motor: Concept
of rotating magnetic field, principle, types, general
construction and working. Concept of slip & its
significance.
Synchronous Generator (alternator): Principle,
general construction & working.
Synchronous motor: Principle, general construction
& working.
04
13.
General comparison amongst squirrel cage I.M.,
phase wound rotor type I.M. & DC motor. General
comparison between alternator & DC generator. 02
Total 45
TEXT BOOKS:
8. Vijay Kumar Garg, Basic Electrical Engg: A complete Solution, Wiley India Ltd.
9. Rajendra Prasad, Electrical Engg. Fundamentals, PHI Pub.
REFERENCE BOOKS:
1.S.K. Sahdev, Basic Electrical Engg., Pearson Education
1. PV Prasad, Basic Electrical Engg, Sivangaraju, Cengage Learning Pub.
2. Bobrow, Electrical Engg. Fundamentals, Oxford Univ. Press
3. Kulshreshtha, Basic Electrical Engg., McGraw Hill Pub.
Name & Sign of Teacher Head’s Signature with Date
3. ………………………
4. ………………………
5. ………………………