Course Of Mechanical Engineering

Sir I am doing B.Tech from the Kanpur University so I need the syllabus for the mechanical engineering as I want to prepare early and well for the exams

[Pathak]

Hey buddy below I am giving you the syllabus for the Kanpur University mechanical engineering you can have a look

B.Tech Mechanical Engineering Syllabus Kanpur University

Semester – wise breakup of courses

I SEMESTER L T P Cr
CHM-S101T Chemistry-I 3 1 0 3
CHM-S101P ChemistryLab-I 0 0 3 2
ESC-S101T Basic Elect. & Elect. Engg. 3 1 0 3
ESC-S101P Basic Elect. & Elect. Engg. Lab 0 0 3 2
MTH-S101 Mathematics -I 3 1 0 4
PHY-S101T Physics -I 3 1 0 3
PHY-S101P Physics Lab–I 0 0 3 2
TCA-S102T Workshop Concept 1 1 0 2
TCA-S102P Workshop Practice 0 0 3 3

II SEMESTER
HSS-S101 Communicative English 3 1 0 4
ISC-S101T Programming and Computing 3 0 0 3
ISC-S101P Programming and Computing Lab 0 0 3 2
MTH-S102 Mathematics-II 3 1 0 4
PHY-S102T Physics-II 3 1 0 3
PHY-S102P Physics Lab-II 0 0 3 2
TCA-S101 Engineering Drawing 2 0 3 5

III SEMESTER
ESC – S201 Engineering Mechanics 3 1 0 4
ESC – S202 Thermodynamics 3 1 0 4
MTH – S201 Mathematics III 3 1 0 4
MEE-S201T Mechanical Design & Drawing 2 0 0 3
MEE-S201P Mechanical Design & Drawing Lab 0 0 3 2
MEE-S202 Basic Solid Mechanics 3 1 0 4

IV SEMESTER
HSS-S201 Industrial Management 3 0 0 4
MEE –S203T Kinematics And Mechanism 3 1 0 3
MEE –S203P Kinematics And Mechanism Lab 0 0 3 2
MEE-S204 Basic Fluid Mechanics & 3 1 0 4
Rate Processes
MEE-S205T Materials & Mechanical Metallurgy 3 0 0 3
MEE-S205P Materials & Mechanical 0 0 3 2
Metallurgy Lab
MEE-S206 Advanced Solid Mechanics 3 1 0 4

V SEMESTER L T P Cr
CHM-S301 Chemistry II / MTH-S301 3 1 0 4
Discrete Mathematics
MEE-S301 Dynamics of Machines & Vibrations 3 0 0 4
MEE-S302 Advanced Fluid Mech. 3 0 0 4
MEE-S303 IC Engines, Steam & Nuclear Power 3 0 0 4
MEE-S304 Lab-1, 0 0 3 4
Appl. Mech., Fluid Mech., Vibrations

VI SEMESTER
MEE-S305 Heat Transfer 3 0 0 4
MEE-S306 Production Processes 3 0 0 4
MEE-S307 Design Of Machine Elements 3 1 0 4
MEE-S308 Lab-2, I C Engines, Heat Transfer 0 0 3 4
Departmental Elective 3 0 0 4
SSM-S302 Seminar 0 0 2 2
HSS-S301 Professional Communication 1 1 1 2

VII SEMESTER
HSS-S401 Industrial Economics 3 0 0 4
MEE-S401T Computer Aided Manufacturing 3 0 0 3
MEE-S401P Computer Aided Manufacturing Lab 0 0 3 2
MEE-S402T Refrigeration & Air-Conditioning 3 0 0 3
MEE-S402P Refrigeration & A.C Lab 0 0 3 2
MEE-S403 Industrial Management & 3 0 0 4
Production System
PRT-S401 B.Tech Project-I 0 0 6 4
SST-S301 Summer Trainning 0 0 2 2

VIII SEMESTER
MEE-S404T Measurements and Controls 3 0 0 3
MEE-S404P Measurements and Metrology Lab 0 0 3 2
MEE-S405T Thermal Turbomachinery & 3 0 0 4
Compressible Flows
MEE-S405P Fluid Machinery Lab 0 0 3 2
MEE-S406T Computer Aided Design 3 0 0 3
MEE-S406P Computer Aided Design Lab 0 0 3 2
Departmental Elective 3 0 0 4
PRT-S402 B.Tech Project-II 0 0 6 4

B.Tech Mechanical Engineering Syllabus Kanpur University
List of Departmental Elective Courses
MEE - S501 Robotics 3-0-0-4
MEE - S502 Automobile Engineering 3-0-0-4
MEE - S503 Non Conventional Energy Sources 3-0-0-4
MEE - S504 Operation Research 3-0-0-4
MEE - S505 Unconventional Manufacturing Process 3-0-0-4
MEE - S506 Nuclear Power Engineering 3-0-0-4
MEE - S507 Computer Simulation and Modelling 3-0-0-4
MEE - S508 Metal Forming 3-0-0-4
MEE - S509 Machine Tool Design 3-0-0-4
MEE - S510 Pneumatic Control and 3-0-0-4
Low Cost Automation
MEE - S511 Maintenance Management 3-0-0-4
MEE - S512 Finite Element Methods 3-0-0-4
MEE - S513 Composite Materials 3-0-0-4
MEE – S514 Fracture and Fatigue 3-0-0-4
MEE - S515 Optimization Method 3-0-0-4
MEE - S516 Computational Fluid Dynamics 3-0-0-4
Note:
1. Total No. of Lectures in each course should in the range of
40 to 45 per semester if per week three lectures are
allotted.
Detailed Syllabus of B.Tech program courses
UNIT-I - Atoms and Molecules:
1. Need for wave mechanical picture of atomic structure [Photoelectric effect, de
Broglie concept of matter waves], Derivation of schrodinger wave equation [as
an example particle moving in unidimensional potential well]
2. Chemical Bonding- Orbital concepts in bonding, V.B. and M.O. theory, M.O.
diagrams, Intermolecular interactions.
UNIT-II - Reaction Dynamics:
Order, Molecularity, Rate law, Integrated rate equations, Methods of determining of
order of reaction, Complex reaction kinetics- chain reactions and reversible reactions in
detail, Catalysis and enzyme catalysis
UNIT-III - Electrochemistry:
Arrhenius theory of electrolytic dissociation, Transport number, Kohlrausch’s law,
Solubility product, Redox reaction, Electrochemical and concentration cells.
UNIT-IV- Stereochemistry:
Introduction, Chirality, Enantiomers, Diastereomers, Projection formula of a
tetrahedral carbon, Geometrical isomerism, Conformers
UNIT- V- Spectroscopic Techniques:
General introduction to IR, NMR and Mass spectroscopy
UNIT-VI - Organic Reactions:
Introduction, Electron displacement effects, Organic intermediates, Types of
reactions [addition, elimination and substitution reactions]
UNIT-VII - Photochemistry:
Photoexcitation of organic molecules, Jablonski diagram, Laws of photochemistry
and quantum yield, Some examples of photochemical reactions, Chemistry of vision
and other applications of photochemistry.
UNIT-VIII - Transition Metal Chemistry:
Stucture of coordination compounds corresponding to coordination number up to 6,
Tpes of ligands, Isomerism [geometrical, optical, ionization, linkage and
coordination], Theories of bonding in coordination compounds- crystal field theory,
Valence bond theory, Chelation.
UNIT-IX - Laboratory Practical Classes:
Text Books and References:
Physical Chemistry- 1. P.W. Atkins
2. Puri & Sharma
Organic Chemistry- 1. Morisson & Boyd
2. Bahl and Bahl
Inorganic Chemistry- 1. J.D. Lee
2. R.P. Rastogi
Engineering Chemistry- Shashi Chawla
Course Name: Chemistry Lab- I
Course Details:
Exp. 01. To estimate the strength of the given unknown solution of Mohr’s salt (Ferrous
ammonium sulphate (FeSO4(NH4)2SO4.6H2O) using KMnO4 solution as an
intermediate.
Exp. 02. To prepare a sample of p-nitroacetanilide.
Exp. 03. To prepare a sample of Aspirin.
Exp. 04. Preparation of Tris (Thiourea) Copper (I) sulphate.
Exp. 05. Preparation of Hexamine Nickel (II) chloride [Ni(NH3)6]Cl2.
Exp. 06. Estimation of commercial caustic soda: Determination of the amounts of sodium
carbonate and sodium hydroxide present together in the given commercial caustic
soda.
Exp. 07. Estimation of calcium ions present in tap water.
Exp. 08. To determine the partition coefficient of acetic acid between n-butanol and water.
Exp. 09. To study the photochemical reduction of a ferric salt (Blue printing).
Exp. 10. To determine the viscosity of a given liquid (30% sugar solution) at room
temperature using Ostwald’s viscometer.
Exp. 11. To separate Ag(I), Hg (I) and Pb (II) ions by paper chromatography and calculate
their RF values.
Exp. 12. Understanding reaction kinetics and calculating the rate and order of a reaction.
Exp.13. To study the kinetics of methyl acetate hydrolysis catalyzed by 0.5N HCl
solution.
Course Name: Basic Electrical & Electronics Engineering
Course Details:
Unit – I
Sinusoidal steady state circuit analysis, voltage, current, sinusoidal & phaser presentation single
phase AC circuit – behavior of resistance, inductance & capacitance & their combination,
impedance concept of power, power factor. Series & parallel resonance – band width & quality
factor. Three phase circuits – phase voltage & current, line & phase quantities, phasor diagram,
balanced & unbalanced loads, Measurement of R, L, and C.
Unit –II
Network Theory: Network theorems – Thevenin’s, Norton, maximum power transfer theorem,
star delta transformation, circuit theory concept – mesh & nodal analysis.
Unit – III
Magnetic circuit concepts: self inductance , magnetic coupling analysis of single tuned & double
tuned circuit involving mutual inductance , introduction to transformer.
Unit – IV
Basic Instruments, electrical measurement – measurement of voltage , current , power & energy,
voltmeters & ammeter , wattmeter , energy meter , three phase power measurement , electronics
instrument – multimeter, CRO(analog & digital),An overview of voltage regulator.
Unit – V
Introduction to basic electronics devices – junction diode, BJT, amplifier, op-amps &
instrumentation amplifier with mathematical operation.
Number System: Introduction to binary, octal, decimal & hexadecimal systems, representation of
negative numbers, 1’s, 2’s, 9’s, 10’s complement and their arithmetic.
Text Books and References:
1. W.H.Hayt & J.E. Kemmerly : Engg. Circuit Analysis , Mc Graw Hill.
2. N.N. Bhargava : ‘Basic Electronics’,Tata McGraw Hill.
3. Malvino, A.P. / “Electronics Principles” / Tata McGraw-Hill / 6th Ed.
4. Morris Mano, “Digital Computer Design” PHI
5 Del Toro : Principles of Electrical Engg. – PHI
6 Boylstad & Neshishkey, “Electronic devices & circuits” , PHI
1. Malvino & Leech “Digital Principle and application”, TMH
Course Name: Basic Electrical & Electronics Engineering Lab
Course Details:
1. Familiarization with the Electronic Instruments.
2. Familiarization with electronic components and Bread board.
3. To verify the Thevenin theorem.
4. To verify the Superposition theorem.
5. Measurement of voltage and frequency with CRO.
6. To study half wave rectifier.
7. To study full wave bridge rectifier.
8. To study full wave bridge rectifier with filter.
9. To study and verify the truth table of different logic gates using digital IC.
10. To study different type of transformer and there operation.
11. To study basic wiring and design a switchboard/extension board.
12. To study the polarity test of a single phase transformer.
13. To study the open & short circuit test of a transformer and calibration losses.
14. To study the load test and efficiency of a single phase transformer.
Course Name: Mathematics-I
Course Details:
Unit I
Applications of Integrals : Areas between curves, Methods of finding volume : Slicing, Solids
of revolution, Cylindrical shell, Lengths of plane curves, Areas of surface of revolution,
Moments and Center of mass, Improper integrals .
Unit II
Sequences: Definition, Monotonic sequences, Bounded sequences, Convergent and Divergent
Sequences.
Series: Infinite series, Oscillating and Geometric series, their Convergence, Divergence. Tests of
Convergence: nth Term test of divergence, Integral test, Comparison Test, Limit Comparison
test, Ratio test, nth root test (Cauchy root test), Alternating series, Absolute and Conditional
convergence.
Power Series: Power series and its convergence, Radius and interval of convergence, Term by
term differentiation, Term by term integration, Product of power series, Taylor and Maclaurin
series, Convergence of Taylor series, Error estimates, Taylor’s Theorem with remainder .
Unit III
Vector Calculus: Vector valued functions, Arc length and Unit Tangent vector, Curvature,
Torsion and TNB frame .
Partial Derivatives: Function of two or more variables (Limit, Continuity, Differentiability ,
Taylors Theorem ) , Partial derivatives, Chain Rule, Partial Derivatives of higher orders, ,
Maxima and Minima and Saddle Point, Lagrange Multipliers, Exact differential, Leibniz
Theorem.
Directional derivatives, Gradient Vectors, Divergence and Curl, Tangent planes .
Unit III
Multiple Integrals: Double and triple integral, Change of order, Jacobian, Change of variables,
Application to area and volume, Dirichlet integral and Applications.
Line, surface integrals , Path independence, Statement and problems of Green’s, Stoke’s and
Gauss divergence theorems (without proof).
Text Books and Reference :
1. G.B.Thomas and R.L.Finney : Calculus and Analytical Geometry, 9th edition,
Pearson Educaion
2. B.S. Grewal, Higher Engineering Mathematics, Khanna Publishers, 2005.
Course Name: Physics-I
Course Details:
Unit-I: Newton’s laws and their applications, Friction, conservative forces and potentials, Work
energy theorem, conservation of energy and linear momentum, variable mass system
(rocket), impulse, system of particles and collision, Elementary rigid body kinematics,
rotation motion, moment of inertia, and Gyroscopic motion.
Unit-II:Rigid body motion, angular momentum, fundamental of classical mechanics, Lagrangian
and Hamiltonian formulation.
Unit-III:Motion in non-inertial frames, fractious forces, special theory of relativity, central
forces, Gravitation motion under central forces and Kepler’s Laws.
Unit-IV:Simple harmonic motion (SHM), small oscillations and resonance; Wave particle
duality, de-Broglie matter’s waves, Phase and group velocities, Davisson-Germer
experiment, Heisenberg uncertainty principle and its applications.
Unit-V:Wave function and its significance, Schrödinger equations (time dependent and
independent), Schrödinger’s wave equation for particle in one dimensional box,
diffraction of X-rays by crystal planes, Bragg’s spectrometer, Compton’s effect.
Text Books and References:
1. Mechanics: D. S. Mathur
2. A textbook of Mechanics: J. C. Upadhyay
3. Concept of physics (I & II): H. C. Verma
4. Introduction to Mechanics: R. D. Kleppner and J. Kolenkow
5. Physics: Resnick, Halliday and Krane
6. Vector analysis: M. R. Spiegel
7. Classical Mechanics: Goldstien
8. Modern Physics: Author Beiser

more syllabus detail attached a pdf file;