B.Tech. Mechanical Syllabus

B.Tech (Common to All Branch .)

Unit – IV : Electromagnetics
Ampere’s Law and Displacement Current, Maxwell’s Equations in Integral and Differential Forms, Electromagnetic Wave Propagation in Free Space and Conducting Media, Poynting Theorem. Magnetic Properties of Materials Basic Concept of Para­, Dia and Ferro­Magnetism, Langevin’s Theory of Diamagnetism, Phenomenon of Hysterisis and Its Applications

Unit – V : X­Rays
Diffraction of X­Rays, Bragg’s Law, Practical Applications of X­Rays, Compton Effect. Wave Mechanics : Wave Particle Duality, de Broglie Concept of Matter Waves, Heisenberg Uncertainty Principle, Schrödinger Wave Equation and Its Applications: Particle in a Box and One Dimensional Harmonic Oscillator.

References:

CHEMISTRY
Unit – I

Radius Ratio Rule, Space lattice (only cubes), Type of unit cell, Bragg’s Law, Calculation of Density of unit cell. One & Two Dimensional solids, graphite as two dimensional solid and its conducting properties. Fullerene & its applications.
Unit­II

Unit­III

3. E­Z Nomenclature. Optical Isomerism of organic Compounds containing one chiral center. Examples of optically active compounds without chirality. Conformations of butane.

Unit­IV

Unit­V

References :

MATHEMATICS­I
Unit ­I : Matrices
Elementary row and column transformation, Rank of matrix, Linear dependence, Consistency of linear system of equations, Characteristic equation, Caley­Hamition Theorom, Eigen values and eigen vectors, Diagonalisation, Complex and unitary materices .
Unit ­II : Differential Catculus­Leibnitz theorem, Partial differentiation, Eulers theorem, Curve tracing, Change of variables, Expansion of function of several variables Unit ­III : Differntial Caluculus­Jacobian, , Approximation of errors, Exterma of functions of several variables, Lagranges method of multipliers (Simple applications). Unit ­IV : Multiple Integrals Double and triple integral, Change of order, Change of variables, Beta and Gamma functions, Application to area, volume, Dirichlet integral and applications.
Unit ­V : Vector Calculus
Point functions, Gradient, divergence and curl of a vector and their physical interpretations, Line, Surface and Volume integrals, Greens, Stokes and Gauss divergence theorem.
Fundamentals of Computer
Introduction : Classification of computer and generation, Basic architecture of computer and its building blocks, Input devices, Computer memories. Number System : Binary, Octal, Decimal, and Hexadecimal representation of characters
: ASCII and EBDIC codes, Binary arithmetic and logic circuit. Classification of Computer language : Machine, Assembly and High level language, Brief idea of operating system, Assembler, Compiler and interpreter. Fundamentals of computer programming : Problem solving through computer algorithms and flow chart level of programming. Operating system : Introduction to O.S., Types of operating system, Multiprogramming, Timesharing, Batch, Real time and UNIX Internet : Introduction to internet, Components, Services and working on interne, introduction to protocols, tools.Workshop Practice Study & Perfome on various M/C . Conducting job work by using various M/C, Cutting tools, equipments& hand tools i.e.
files, chisels, hacksaw, right angle, marking tools measuring tools, etc.
Analog Electronics
Turbulent flow through conduits; lift and drag; pipe networks; boundary layer theory; open channel flow; uniform and varied flow; hydraulic jump; elements of sediment transport; introduction to hydrology and hydrological cycle; elements of meteorology; precipitation; mean depth of rainfall over area; evaporation, transpiration and evapotranspiration; interception and infiltration; run off and factors affecting run­off; unit hydrograph; methods of determination of run­off.

Unit – IV : Electromagnetics
Ampere’s Law and Displacement Current, Maxwell’s Equations in Integral and Differential Forms, Electromagnetic Wave Propagation in Free Space and Conducting Media, Poynting Theorem. Magnetic Properties of Materials Basic Concept of Para­, Dia and Ferro­Magnetism, Langevin’s Theory of Diamagnetism, Phenomenon of Hysterisis and Its Applications

Unit – V : X­Rays
Diffraction of X­Rays, Bragg’s Law, Practical Applications of X­Rays, Compton Effect. Wave Mechanics : Wave Particle Duality, de Broglie Concept of Matter Waves, Heisenberg Uncertainty Principle, Schrödinger Wave Equation and Its Applications: Particle in a Box and One Dimensional Harmonic Oscillator.
References:

CHEMISTRY
Unit – I

Radius Ratio Rule, Space lattice (only cubes), Type of unit cell, Bragg’s Law, Calculation of Density of unit cell. One & Two Dimensional solids, graphite as two dimensional solid and its conducting properties. Fullerene & its applications.
Unit­II

Unit­III

3. E­Z Nomenclature. Optical Isomerism of organic Compounds containing one chiral center. Examples of optically active compounds without chirality. Conformations of butane.

Unit­IV

Unit­V

References :

Engineering Graphics
Programming techniques, review of programming languages useful to civil engineering works, structural analysis concepts, modeling of problems, relation between elements and systems, programming with and flexibility and stiffness matrix displacement plain stress/strain problems, eigen value problems, programming for pre and post processor, civil engineering computer projects.
Workshop Practice
Study & Perform on various M/C . Conducting job work by using various M/C, Cutting tools, equipments& hand tools i.e. files, chisels, hacksaw, right angle, marking tools measuring tools, etc.
Thermodynamics
: Fundamental Concepts and Definitions
Definition of thermodynamics, system, surrounding and universe, phase, concept of continuum, macroscopic & microscopic point of view. Density, specific volume, pressure, temperature. Thermodynamic equilibrium, property, state,path, process, cyclic process, Energy and its form, work and heat, Enthalpy. 3
Laws of thermodynamics Zeroth law: Concepts of Temperature, zeroth law. 1 First law: First law of thermodynamics. Concept of processes, flow processes and control volume, Flow work, steady flow energy equation, Mechanical work in a steady flow of process. 2 Second law: Essence of second law, Thermal reservoir, Heat engines. COP of heat pump and refrigerator. Statements of second law. Carnot cycle, Clausius inequality. Concept of Entropy. 3
: Properties of steam and thermodynamics cycles:
Properties of steam, use of property diagram, Steam­Tables, processes involving steam in closed and open systems.Rankine cycle. 4 Introduction to I.C. Engines­two & four stoke S.I. and C.I. engines. Otto cycle, Diesel cycle.
Computer Programming –I (C Language)
1. Introduction :

2. Elements of C

3. Console Input­Output

4. Control Flow :

5. Arrays :
a. Basic Concepts
b. Memory Representation

6. Functions :

7. Pointers :

8. Structure, Union and Enumerated Data Types

9. File Handling :

Engineering Mechanics Force system and Analysis Basic concept: Laws of motion. Transfer of force to parallel position. Resultant of planer force system. Free Body Diagrams, Equilibrium and its equation. Friction: Introduction, Laws of Coulomb friction, Equilibrium of bodies involving dry fiction­Belt Friction. Structure Analysis Beams: Introduction, Shear force and Bending Moment, shear force and Bending Moment Diagram for statically determinate beams. Trusses: Introduction, Simple Trusses, Determination of Forces in simple trusses members, methods of joints and method of section. Center of Gravity Center of Gravity and Moment of Inertia, Polar Moment of Inertia, C.G and M.I of composite section, section modulus

Math­II
Complex numbers, analytic functions, Cauchy’s theorems, elementary functions , function, Series expansions, calculus, of residues and application. Vector space, basis and dimension, transformation, row reduction method and it application t linear system.

Latches, Tip. Flops , R.S.D. J.K.T Flip flops. Master slave flip flops. Counters asyrichronous Registers, Counters.

Mechanics of Solids
Stress and Strain Analysis Simple stress and strain: Introduction, Normal shear stresses, stress­strain diagrams for ductile and brittle materials, Elastic constants, one dimensional loading of members of varying cross sections, strain Energy. 3
Compound stress and strains: Introduction, state of plane stress, Principal stress and strain, Mohr’s stress circle. Pure Bending of Beams: Introduction, Simple Bending theory, Stress in Beams of different cross sections. Torsion: Introduction, Torsion of Shafts of circular section, Torque and Twist, Shear stress due to Torque. Maculies Metrhod Column & Strut Thick & Thin Cylinder
Data Structure & Algorithms
Introduction to software design principles, modularity, abstract data types, data structures and algorithms; Analysis of algorithms; Linear data structures – stacks, arrays, lists, queues and linked representations; Pre­fix, in­fix and post­fix expressions; Recursion; Set operations; Hashing and hash functions; Binary and other trees, traversal algorithms, Huffman codes; Search trees, priority queues, heaps and balanced trees; Sorting techniques; Graphs and digraphs; Algorithmic design techniques; Data structures for external storage, multi­way search and B­trees.
Electrical Science­I
Introduction :­Current, Voltage, Resistance, Effect of Electrical Energy, Ohms’s Law
D.C Circuits :­Series circuit, Parallel circuits, Series­Parallel Circuit, Kirchoff’s Law, Mesh Analysis, Nodal analysis.
Network Theorems :­Superposition Theorem. Delta Star & Star Delta Transformation.
A.C Fundamentals: ­Generation of Alternating Voltage & Current, Basic terms, Average Valve R.M.S Value, Peak Factor, Foam factor
Measuring Instruments:­Electrical Instruments, Essentials of Indicating Instruments, Moving Non Instruments, instrument type Single Phase Energy meters.
Control System Engineering

State variable analysis : Z Transform and stale,state variable and stale Model­solution of state equation . Concepts of Controllability & operability.

Maths­III
Differential Equations:­Eigen­values and eigen­vectors. Inner product space and orthonormal bases. Elementary differential equations. Hypergeometric equations, lengendre polynomials. Bessel functions, Fourier series, Strum­liouville tems of first order equations. Laplace transformation and applications to differential equations one dimensional wave equation, one dimensional heat equation and equation in rectangular form.
Hydraulics & Fluid Mechanics

Syllabus Electrical Science­II

A.C Circuit :­A.C Through Pure R, L& C Circuit, RL Circuit RC Circuit, RlC Circuit Series Resonance Parallel Resonance, Q Factor.

Induction Machine :­Introduction Principle of D.C Generator and Motor, Construction, Types of D.C Machine, EMF Equation.

Synchronous Machine:­Introduction, Principle of Synchronous Speed of Number of Poles, Construction, advantages of Rotating field system over Stationary field System.
Transformer :­Basic Principle of Transformer, E.M.F Equation, Construction, Types of T/F Transformer on No Load, Transformer on Load.
Introduction to Environmental Engineering
Introduction, environmental pollution, noise, noise pollution, water pollution, air, air pollution, water quality management, pollution caused by an industry, selection of site of an industry, assessing environmental impact, case studies, computer applications, laboratory tests. Water Treatments, sSolids Waste Management, Composting

Fundamental of Surveying
Introduction, different types of surveying instruments, measurement of length and area, chain surveying, obstructions in chaining and its remedy, measurement of horizontal and vertical angles, height of an object, dumpy level and its application, standard bench mark, reduced level, measurement of reduced level of a point and ground, reduced level at different locations of theodplite, plane table ground for construction of road, building, pond and other structures, field tests.
Principles of Management

Semester Vth

BTME 231
2. Applied Thermodynamics
Thermodynamics of power developing and power absorbing reciprocating machines; vapour, gas and refrigeration cycles; regeneration, reheat, compound cycle modifications, combined gas turbine­vapour cycle, binary systems; thermodynamic relations; reactive systems; combustion, adiabatic flame temperature, dissociation, equilibrium. Text ref. 1. Thermodynamics by A. Cengle
2. Thermodynamics by wein wely
Sem. V
Design of Machine Element­1st

Fundamentals and principles of design; design and selection of machine elements such as shafts, bearings and gears etc; design of mechanisms. Design analysis for additional machine elements; retainment of bearings and design of machine housing; introduction to techniques of optimisation reliability and value analysis; exercises in detail design; design solutions to meet specified functional requirements. Text Ref. 1. Design of mk element by R.S. Khusmi
2. MK Design by A. Sengle
BTME 341 Sem. V
3. Theory of Machine­1st

Dynamic force analysis in mechanisms; determination of flywheel size; balancing of rotating & reciprocating masses; whirling of shafts; forced vibration & vibration isolation; multi­degree freedom systems; systems with distributed mass & elasticity. Text. Ref. TOM by P.L Ballaney
BTME 351 Sem.V I.C.Engine
Internal combustion engines; vehicle performance; analysis and design of vehicle components. Experimental or theoretical investigation of problems selected from the field of automotive vehicles.
BTME 361 Sem. V
Production Technique

Analysis, economics and quality control of metal cutting, plastic working of metals, joining and casting processes, laboratory exercises in metal cutting, plastic working of metals, testing and inspection of weldments and castings
BTME371 Vth Sem.
Steam and Gas Turbines

Cohn H. Rogers, G.F.C. and servanamutto. H.I.H., "Gas Turbine Theory," Longman scientific and Technical, Third Edition, 1987. Salisbury,J.K. "steam turbines and their Cycles." John Wiley and Sons, 1950. Horlock, H.H. "Axial Flow Turbines," butterworths, London, 1966.
Optimization of steam and gas cycles, current technology. Turbines: Nozzle analysis, state characteristics, losses and performance; blade design, blade selection and stage design; multistage turbines, wet steam stages and turbines. Compressors: centrifugal and axial flow compressors for gas turbines; selection of profiles, design and performance. Combution chambers for gas turbines: classification and characteristics; introduction to jet and rocket propulsion.

Semester VIth

BTME 312 Sem. VI
Theory of Machine­II

Theory of Belt, Cam Design, Flywheel , Gear Mechanism, Revited Jointed, Bolted Jointed Welded Joints, Acceleration Mechanism and its applications

BTME 322 Sem VI
Design of Machine Element­II

Concept of system design; modeling of structural and kinematic systems, and determination of system characteristics; reliability of systems; design of machine elements for specified reliability; concepts of optimization; techniques of design optimization for linear and non­linear problems.
BTME 332 Sem. VI
Heat & Mass Transfer

Heat conduction with unsteady boundary conditions; recent advances in natural and forced convection; condensation and boiling phenomena; heat transfer in high speed flows; liquid metal heat transfer, radioactive metal heat­transfer between surfaces in absorbing media; complex problems involving simultaneous conduction, convection and radiation.
Text Ref. HMT by J.P. Holman
BTME 342 VI
Machine Tool Engineering

Design principles of machine tools; stiffness and rigidity of separate construction elements and their combined behaviour under load; design of stepped and stepless drives; electrical, mechanical and hydraulic drives; design of bearings and sideways; machine tool controls; machine tool dynamics; recent developments in machine tool design.
BTME 352 Sem. Power Plant Engineering
Classification of power plants. Components and layout of; thermal, nuclear, hydro electric power plants. Site selection for various power plants. Combined cycle power plants. Magneto Hydro Dynamics (MHD) systems. Economics of power generation, economic loading of power stations. Load curve analysis; load factor, diversity factor. Power plant instrumentation and controls. Text ref. Power Plant Engg. By Arora & S. Domkundwar
BTME 362
Materials Science Sem VI

Study of the basic properties of materials in relation to their molecular structure; emphasis on the structure of metallic, polymeric and ceramic materials in relation to their mechanical, electrical, electronic and chemical properties, methods of imparting desirable properties to materials by inducing changes in molecular structure; property requirements and material selection, criteria for widely ranging service conditions. Text. Ref. 1. Material Science by O.P Khanna
BTNE 382 Sem VI
Operation Research

Correlation & regression analysis, queueing theory, deterministic & probabilistic inventory systems, simulation, decision theory, sampling, design of experiments & analysis of variance, non parametric tests, Markov analysis. Text. Ref. OR by Kantt, Swaroop, Gupta
Semester VIIth

BTME 372
CAED (Mech. Engg.) Computer Aided Drafting and tools for graphics; mathematical tools; convergence criteria; design tools like modelling, simulation, spread sheets and use of specialised packages etc.; students will be required to do projects, specialised works for which a pool of guides will be drawn from several disciplines
BTME 421 VII
Production Planning & Control

Generalized model of production systems; types of production flows; life cycle concepts; facilities location and layout planning; aggregate and batch production planning; inventory systems; materials requirements planning; elements of monitoring & production control.

BTME 431 Sem.VII
Computer Aided Manufacturing Introduction, features of NC machine tools, NC part programming, CAM system devices, interpolators for manufacturing systems, control loops of NC systems, computerized numerical control, adaptive control systems, CAD to CAM, CAPP, industrial robots, computer aided production planning & control, computer aided inspection and quality control, CIM systems.
BTME 441 Sem. VII
Quality Control, Assurance & Reliability Basic concepts of probability and probability distributions, standard probability distribution, sampling and sampling distributions, confidence intervals, testing significance, statistical tolerance, various types of control charts, statistical process control techniques, value analysis, defect diagnosis and prevention, basic concepts of reliability, reliability design evaluation and control, methods of applying total quality management, production process.
BTME 451 Sem. VII Refrigeration & Air Conditioning
Principles, thermodynamic analysis, load estimates and design of various refrigeration and air conditioning systems for comfort and industrial applications. Theoretical or experimental
Smester VIIIth