This section describes whatever you need to know about the Courses and Activities at the K.J. Somaiya College of Engineering, in the categories shown below:

• Affiliations and Course duration
• Eligibility for admission
• List of papers taught yearwise (Electronics)
• List of papers taught yearwise (Production)
• List of papers taught yearwise (Mechanical)
• Method of Assessment
• Curricular / extra curricular activities

 

Affiliations and Course duration

K.J. Somaiya College of Engineering is affiliated to the University of Bombay. The College offers courses in:

• Electronics Engineering
• Production Engineering
• Mechanical Engineering

The duration of the courses is four years culminating in a Bachelor of Engineering Degree awarded by the University of Bombay. The annual intake of students is 60 in each course.

Eligibility for admission

Students seeking admission to any of the courses offered are required to have passed the Higher Secondary Certificate (HSC) examination with a minimum of 50 percent marks in the subjects of Physics, Chemistry and Mathematics. However, due to stiff competition for admission to the Engineering Courses, the students admitted to the K.J. Somaiya College of Engineering usually possess 80 percent and above in Physics, Chemistry and Mathematics at HSC examination.

List of papers (Electronics)

Basic Electricity & Electronics-I (3 hrs./week)

Syllabus:

• Fundamentals of Electricity - Ohm's law, Kirchoft's law, Loop & Nodal analysis
• Elementary Network theorems (for DC circuits only), Star delt transformation, Thevinin's, Nortan's & Minimum power transfer theorem
• Magnetism
• Electrostatics
• Ampere's law, series & parallel magnetic circuits, Fleming's right & left hand rule
• Coulomb's electric flux & flux density, charging discharging of capicator, energy stored.

 

Computer Programming- I (3 hrs./week)

Syllabus:

• Introduction to MS DOS operating system
• Introduction to LOTUS 1-2-3 worksheet
• Introduction to computer programming
• Developing Algorithms & elementary PASCAL programming

 

Applied Mathematics-I (3 hrs./week)

Syllabus:

• Complex variables - Cartesian, Polar exponential form
• Exponential, trignometric, hyperbolic, logarithmic functions
• Vector Algebra and Calculus
• Leibnitz theorem, Rolle's theorem, Lagrange's and Cauchy's mean value theorem, Taylor's and Maclaurin's series
• Partial derivatives of first and higher orders
• Maxima, Minima

Applied Physics-I (2. 5hrs./week)

Syllabus:

• Elements of crystal structure, Miller indices, crystal imperfections
• Energy bands & Classifications of solids, semiconductor diode PNP & NPN transistors (Characteristics) Ultrasonics transducers, Applications like thickness measurement, flow detection, etc.
• Thermoelectric effect - Neutral temperature and Inversion temperature thermocouple, thermistor, motion of charged particles in electric & magnetic fields, CRT, etc.

Basic Electricity & Electronics- II (3 hrs./week)

Syllabus:

• Single Phase A.C. circuits - RLC series parallel circuits, resonance, Bandwidth & quality factor
• Polyphase circuits - Balance star & delta connection, Two wattmeter method for power measurement Single phase Transformers - Basic principle, development of equivalent circuit. O.C. & S.C. test, efficiency & regulation calculation
• Semiconductor electronics - PN junction diode, Rectifier & filter circuits, BJT as amplifier, CE, CB, & CC Configuration

 

Computer Programming-II (3 hrs./week)

Syllabus:

• Flow of control in PASCAL, control statements
• Structured Data types
• Functions & subprograms
• Debugging & testing
• Additional Data Structures pointers, linked lists

 

Applied Mathematics-II (3 hrs./week)

Syllabus:

• Differential Equations - Exact different equations & those which can be made exact, Linear equations & Reducable to linear substitution method
• Linear differential equation
• Elementary applications of above diff. equations in solving engineering problems
• Integral calculus - Double & Triple integrals, Beta and Gamma functions - Differentiation under integral sign

 

Applied Physics-II (2.5 hrs./week)

Syllabus:

• X-rays - theory of production, diffraction, Bragg's law & Mosley's law
• Optics - Interference in thin films, wedge shaped films, anti-refaction films
• Principles of laser - Ruby & Hene laser, loz laser, semiconductor lasers
• Fibre optics - Types, communication through optical fibres
• Dual nature of matter - Uncertainty principle
• Electron microscope
• Nuclear - binding energy, fission, fusion, reactors
• Super conductivity - Basic theory

 

Applied Mathematics-III (3.5 hrs./week)

Syllabus:

• Complex Variables: Functions of complex variable, Analytic function, Couchy Rieman equation, Harmonic functions, Conformal & Bilinear mapping
• Fourier series & Integrals: Sine & Consine functions, orthogonality properties, Even & odd functions, Half range series, Fourier integral & relation to Laplace transform.
• Laplace Transforms: Functions of Bounded variation, unit step function, Heaviside & Dirac functions, Laplace transform of periodic functions, Evaluation of inverse laplace transform initial & boundary value problem solving

 

Electronics-I (6 hrs./week)

Syllabus:

• Application of Diodes as Rectifiers
• Bipolar Junction transistors: Introduction to baising, Modelling, h-parameter model, r-model, hybrid pi-model, low-frequency, Analysis of transistor Amplifier
• BJJ as a switch
• Design of CE single stage amplifier
• Field effect transistor- Biasing circuits, A.C.Equivalent circuit, Analysis of FET amplifier, Design of single stage CS FET amplifier
• Voltage regulators- Series and Shut regulators

Electrical Networks (6 hrs./week)

Syllabus:

• Solution of networks with dependent sources
• Linear graph theory cutset & tieset matrix
• Network equations in time domain, Analysis using Differential Equations
• Application of laplace transform for network analysis.
• Network Functions- Driving point & transfer functions, two port networks, S,Y, & N parameters, transmission parameters, cascade connection
• Representation of network functions- Poles & zeros, Azimuth polynomials, Ladder networks, Chebyshew response, Bode plots
• Fundamental of network synthesis- Passive & reciprocal networks, positive real functions, Bounded real functions, reactance functions, impedance admittance RL, RC Ladder networks

Electrical Technology & Instruments (6.5 hrs./week)

Syllabus:

• D.C. motors principle of operation, torque equation, Methods of speed control, Starting & Braking Threephase Induction Motor principle of operation, development of equivalent circuit, torque equation, torque-slip characteristics, Methods of speed control, starting methods
• Principles of operation & characteristics of single phase induction motor, Different types of single phase induction motors
• Measuring Instruments- Basic Analog Instruments for measurement of voltage, current, power, frequency, energy & power factor, use of CTS & PTS
• Measurement of R,L,C & AC & DC potentiometers & their applications

Numerical Methods (6 hrs./week)

Syllabus:

• Errors in numerical computation & Solution of transcendental and polynomial equations
• Solutions of linear algebraic equation
• Linear & high order interpolation
• Approximation technique
• Numerical differentiation
• Numerical integration
• Solutions to ordinary differential equation
• Numerical optimisation

 

Engineering Materials & Components (3 hrs./week)

Syllabus:

• Materials of resistors, conductors & switches
• Properties of solids
• Soldering, braking & welding process
• Conduction in Semiconductors
• PN Junction, Hall effect & its measurement
• Crystal growth & IC
• Photoconductive & photoemissive materials
• Insulating materials
• Magnetic materials

 

Applied Mathematics-IV (3.5 hrs./week)

Syllabus:

• Complex variables (II)
• * Regions & paths in the S-plane. Inequalities conditions for the path integral, contour integral.
• * Cauchy's theorem, Cauchy's integral formula, Morera's theorem, maximum modules theorem.
• * Taylor's & Laurent's development.
• * Residue theorem.
• Matrices (II)
• * Hermitian % real symmetric matrices, characteristic polynomial, Calcy Hamiton theorem, Minimal polynomial, Diagnable matrix.
• * Quadratic forms, Rank, Index, Signature of a matrix, statement of Bilinear form.
• Vector calculus
• * Directional derivative, Definations of curl & divergence, surface & volume integrals.
• * Green's theorem, Stroke's theorem, Gauss's divergence theorem.
• * Laplace's differential equation in cartesian, spherical polar & cylindrical polar co-ordinates.

Electronics-II (6 hrs. /week)

Syllabus:

Low & high frequency Analysis of BJT & FETamplifiers

Analysis of AC coupled amplifiers, Design of two stage RC coupled amplifier

Feedback amplifiers (negative feed back)

* Voltage series & shunt feedback circuits

* Current series & shunt feedback circuits

• Oscillators - Derivation of frequency & condition for maintenance of oscillations for different oscillators circuits
• Basic differential amplifier circuits & its analysis, concept of operational amplifier
• Analysis of class A,B, AB, & C type large signal amplifiers, design of audio frequency class A & B amplifiers
• Schottkey diode, photosensitive devices, Display devices

 

Electronic Instruments (5.5 hrs./week)

Syllabus:

• Electronic voltage - Principles of operation comparision with analog voltmeters, selection, reading different values, different types, digital voltmeters
• Frequency meters- Analog & Digital - Schematic, operation, comparison
• Phase meters - Different types of measurement, advantage, comparison, digital phase meters
• Oscilloscopes - Block diagram, Panel layout & controls, time base measurement of frequency & phase dual trace, multi-trace, Double beam, sampling, storage type, etc. CRD for square wave testing of amplifiers, diode & transistor characteristics
• Signal generators - Requirements, different types

 

Principals of Communication Engineering (5.5 hrs. / week)

Syllabus:

• Signals & their representation
• * Information entropy's of discrete systems, rate of transmission
• * Amplitude modulation techniques- DSB, SSB-SC, SSB, VSB, Spectrum modulators & detectors
• * F.M. Modulators
• * Demodulators
• * Phase modulation
• * Pulse modulation - PAM, PWM, PPM, PCM & Delta modulation
• * FDM & TDM Modulation techniques
• * AM & FM Radio transmitters & receivers

Logic Circuits (5.5 hrs./week)

Syllabus:

• Number System & different codes
• Binary Arithmetic
• Basic Logic Gates & Boolean Algebra
• Combinational logic design, K-maps
• Flip flops & shift registers
• Synchronous & Ashynchrononous sequential circuit design, Modulo N counters

 

Computer Programming (5.5 hrs./week)

Syllabus:

• Features of C, ANSI C, Structure of C program
• Character set, variable names, Data types constants, etc.
• Operators & expressions their evaluation
• Basic input & output
• Control structures - if, if-then-else, looping etc.
• Functions - resting, recursion
• Arrays - one, two, multi dimensional string handling
• Pointers - pointers & functions, pointers & arrays etc.
• Structures & unions
• Dynamic memory management
• File management - Random, sequential access files
• Pre processor - study of standard libraries

 

Logic Circuits (5.5 hrs./week)

Syllabus:

• Number of systems and codes
• Boolean Algebra - Representing, specifying and simplification of logic functions using boolean theorems, K maps
• Combinational circuits - Code conventors, decoders.comparators, adders, substracters, multiplexers, demux, ALU
• Sequential circuits - various types of flip-flops, shift registers, counters - synchronous & asynchronous, sequence generators
• Semiconductor Memories - Types of RAM, ROM

 

Principles of Communication Engineering (5.5 hrs./week)

Syllabus:

• Signals and representation
• Basic information theory
• Modulation Theory - AM, FM, PM and demodulation
• Pulse modulation - sampling, PPM, PWM, PCM, PAM, FDM, TDM
• Transmission and receptions of signals

 

Computer Programming-II (5.5 hrs./week)

Syllabus:

• Programming in Pascal - Basic data types,operators, sequential input output statements, conditional statements, interative statements. Structured data types - arrays. Functions and procedures
• Computational Methods (Numerical) - Solution of linear equations, Transcendental equation. Numerical integration, differentiation, ordinary differential equations, simultaneous equations

 

Design of Electronic Circuits (6 hrs./week)

Syllabus:

• Design of unregulated & regulated power supplied
• BJT, FET based amplifiers
• Power amplifers
• Oscillators, Multivibrators & Firing schemes for UJT, SCR

Microprocessor-I (5.5 hrs./week)

Syllabus:

• A study of 8085 CPU with regards to : architecture, pinconfiguation, system and timing diagrams, assembly language programming using instruction set
• Interfacing of 8085 with external peripherals : Memory interfacing, I/O interfacing using standard controller chips for keyboard display, serial communication, PPI's timers
• Comparison of 8085, Z80 with regards to basic architecture, instruction set

 

Applied Mathematics (4 hrs./week)

Syllabus:

Bessel functions, Legendre polynomials, Partial differential equations & application to heat flow, elasticity, vibration

 

Industrial Electronics (5.5 hrs./week)

Syllabus:

• SCR & Triac : Construction, Characteristics, ratings, protection circuits, Trigger circuits, applications
• Inverters - Series, parallel types, classification of communication circuits, applications
• Choppers - Principle of working, application
• Ignitrons - Construction, Characteristics, ratings, weldign control circuits
• Timers - AC and DC, synchronous, Sequential timers
• High frequency Heating - Induction and dielectric heating

 

Signals and Systems (3 hrs./week)

Syllabus:

• Signal representation, classification,types of signals
• Systems representation, classification types of systems properties
• Transform Theory - Laplace, Fourier, 2-transform
• Time domain theory of representation & anaylsis using differential, difference equation
• State space theory

 

Microprocessor-II (6 hrs./week)

Syllabus:

• Interfacing of 8085
• * Memory interfacing
• * Interrupt Controller interfacing
• * Direct Memory access controller interfacing
• * ADC & DAC interfacing
• * UART, USART interfacing
• * Floppy disc controller
• * Printer controller
• * CRT controller

• Case studies

• * Temperature controller
• * Speed control of motors

Integrated Circuits and Applications (Digital) (6.5 hrs./week)

Syllabus:

• TTL, ECL - Study of TTL & its subfamilies (74 xx) characteristics & analysis. Study of MECL ICs in terms of characteristics and analysis
• CMOS - Study of CMOS and its sub families in terms of characteristics & analysis
• Interfacing CMOS, TTL & ECL with each other
• Applications - MSI IC's representing combinational & sequential ckts

 

Integrated Circuits and Applications (Analog) (6.5 hrs./week)

Syllabus:

• IC Fabrication - Silicon planar process, Thick & Thin film IC's, Monolithic & Hybrid circuits
• Design consideration for linear IC's
• Study of opamps & its linear and nonlinear applications
• Study of IC's for waveform generation, regulator, timers, phase locked loop, Power & phase control, ADC'c & DAC'c.

 

Integrated Circuits Design Technology (5 hrs./week)

Syllabus:

• Review of physics of diodes, BJT, MOSFET, Resistors, Capacitors
• Planer silicon process
• Parastic effects in IC's Design Consideration for linear IC's Logic and Circuit design for LSI, VLSI, IC's, CAD Tools for Design and Layout
•  

Digital Communication (6 hrs./week)

Syllabus:

• Probability theory and Random variables
• Sampling, PCM, companding, Multiplexing, Delta modulation
• Modulation techniques - PSK, FSK, ASK techniques, study of types, comparisons
• Optimum filter, Matched filter, detectors for PSK, FSK

 

Electronic Instrumentation (6 hrs./week)

Syllabus:

• Transducers for displacement, Strain, pressure, force, temperature - construction and analysis
• Signal processing - instrumentation amplifiers, filters, linear & nonlinear applications of OPAMP, isolation amplifiers, signal conditioning circuits
• Data Acquisition and logging - SIH, ADC, DAC, NUX estimation & design of a DAS
• Display Devices - analog meters, recorders, printers electroluminescent displays

 

Computer Organization (3 hrs./week)

Syllabus:

• General organization, Architecture of a deigial computer
• Instruction sequencing formats, sequencing control signals, microinstruction, hardwired control
• Memory organization, classification, technology
• Memory organization, classification, technology
• Concept of I/O organization, various methods of data transfer in a system
• Systems programming - loaders, linkers, assemblers. Study of DOS & Unix

 

Computer Aided Design of Electronic Circuits (6.5 hrs./week)

Syllabus:

• Device modelling (BJT, diode, FET) - Toplogical approach, matrix method
• Computer aided design of circuits like - amplifiers - biasing, stability etc. - multivibrators - op - amplifiers
• Elements of computer graphics

 

Elements of Microwave Engg. Fibre Optics (6 hrs./week)

Syllabus:

• Microwave generators & amplifiers, solid state devices
• Waveguides, resonators, direction couplers, isolators, mixers, detectors, circulators
• Microwave measurements
• Optical transmission theory, construction, characteristics of various optical sources, detectors, fibres, waveguides and couplers
• Principles of optical communication - Transmission & reception

 

TV & Video Systems (5.5 hrs./week)

Syllabus:

• Basic principles of a TV system
• TV cameras & Picture tubes - construction & characteristics
• TV transmitter & receivers - Detailed analysis of all functional units of a TV receiver, antennas, TV signal generation & transmission
• Study of various test signals & their uses
• Study of video recorders functionally
• Introduction to cable & satellite TV

 

Microprocessor System Design (Elective) (6.5 hrs./week)

Syllabus:

• Single chip microcontrollers 8031, 8048; architecture and assembly language programming
• Study of Bit slice processor
• Detailed study of 8086 CPU : Architecture, modes of operation, assembly language programming, math coprocessor 8087
• Detailed study of IBM PC : layout, organisation, interfacing of peripherals with the motherboard

 

Advanced Microprocessor & Systems (6.5 hrs./week)

Syllabus:

• Detailed study of IBM PC
• Single chip microcontrollers 8031 & 8096
• Organizational, architecture and programming of 80286/80386/68000/ CPU's
• Local area network - Layout, topologies and networking PC's

Digital Design (6.5 hrs./week)

Syllabus:

• Review of Digital SSI, MSI IC's interfacing consideration
• Realization of logic functions using Mux & Demux as decoders
• Simplification using ROM, PLA
• Design of sequental logic functions counters, shift registers

List of papers (Mechanical)

Engineering Drawing-I (7hrs./week)

Syllabus:

• Lettering and Lines
• Geometrical constructions and plane curves
• Projections of points, lines, planes and solids
• Sections of solids
• Multiview of orthographic projections and sections (First angle and third angle projection)
• With Term work

 

Engineering Drawing- II (7 hrs./week)

Syllabus:

• Development of lateral surfaces of solids
• Intersections of solids
• Isometric and oblique projections
• Primary auxiliary view
• Reading of orthographic projections
• Free hand sketch of various machine elements

 

Basic Workshop Practice (4-5 hrs/week)

Syllabus:

• Fitting
• Carpentry
• Welding
• Sheet metal working and brazing
• Forging/Smithy
• Study of Machines & Machining Processes

 

Applied Mathematics- III (3.5 hrs./week)

Syllabus:

• Complex Variable
• Functions of complex variables with mapping
• Fourier series and integrals
• Complex form of Fourier series
• Laplace Transforms
• Matrices

 

Strength of Materials (6 hrs./week)

Syllabus:

• Shear force and Bending Moment
• Simple theory of bending
• Shear stress in beams
• Simple theory of torsion
• Bending moment combined with axial loads
• Principal stresses
• Deflection of beams
• Struts strain energy
• Riveted and welded joints under axial load cylinders and spheres

 

Electrical Engg. and Applied Electronics (5.5 hrs./week)

Syllabus:

• DC Motors
• Three phase induction motors
• Single phase motors
• Rectifiers
• Variable speed drive systems
• Single phase rectifiers with motor load
• With term work
• Speed control by AC Power Controllers and slip-energy recovery

 

Machine Drawing (6 hrs./week)

Syllabus:

• Introduction of unit assembly drawing
• Free hand sketches and preparation of working drawing
• Joints
• Keys and couplings
• Bearings
• Pulleys
• Pipe joints
• Valves
• Simple Steam and I.C. Engine parts
• Gears
• Preparation of assy. and detail working drawing of jigs and fixture
• IS limits, fits, tolerance and its terminoloty

 

Production Process-I (3 hrs./week)

Syllabus:

• Classification of Manufacturing processes
• Pattern making and Foundry
• Drawing, Smithy, Forging, Metal surface and Slotting Machines
• Milling machines
• Grinding
• Finishing operations

 

Applied Thermodynamics-I (3.5 hrs./week)

Syllabus:

• Thermodynamics concept
• First law of Thermodynamics (Applied to flow process)
• Second law of Thermodynamics
• Entropy
• Real Gases
• Properties of steam
• Mixture of gases and vapours
• Availability

 

Workshop Practice-III (4.5 hrs./week)

Syllabus:

• Jobs on - Plain and Taper Turning
• Screw cutting
• Shaping machine
• Forging of cutting tools on lathes
• Welding (Simple exercise)

 

Applied Mathematics-IV(3.5 hrs./week)

Syllabus:

• Complex variables - II
• Matrices - II
• Vector Calculus

 

Advanced Strength of Materials- (3.5 hrs./ week)

Syllabus:

• Axial force, Shear force and Bending moment
• Deflection of beams
• Influence lines for beams
• Analysis of indeterminate beams
• Unsymmetrical bending
• Springs

 

Kinematics of Machinery (5.5 hrs./week)

Syllabus:

• Gas Power Cycles
• Vapour Power Cycles
• Thermodynamics of Fluid Flow (One dimensional)
• Air compressors
• Boilers
• Direct energy conversion
• Combustion of reactive mixtures

 

Kinematics of Machinery (5.5 hrs./ week)

Syllabus:

• Basic Kinematics
• Kinematic pair and its classifications
• Kinematic chain and Mechanisms
• Four bar chain
• Straight line generating mechanisms
• Study of special mechanisms
• Velocity Acceleration analysis of simple mechanisms
• Chain mechanisms
• Spur Gear mechanisms Cam mechanisms

Materials Technology (3.5 hrs./week)

Syllabus:

• Solid crystalline structure
• Lattice Imperfections
• Deformation
• Strain Hardening
• Fracture
• Fatigue Failure
• Creep
• Theory of Alloying
• Important Alloys

 

Programming in C & Applications (4.5 hrs./week)

Syllabus:

• Introduction to Object Oriented Programming
• Arrays
• Objects and Classes
• Operator Overloading
• Turbo C
• Graphics
• Pointers
• Applications

 

Workshop Practice- IV (5.5 hrs./week)

Syllabus:

One composite, job consisting of minimum four parts employing operations on lathe, precision turning, screw cutting, boring, etc. and involving the use of shaping, milling and grinding operations.

 

Applied Matyhematics-V (3.5 hrs./week)

Syllabus:

• Statistics
• Partial Different Equations
• Laplace Transforms

Dynamics of Machinery-I (6 hrs./ week)

Syllabus:

• D' Alembert's Principle Clutches
• Brakes and dynamometers
• Flywheel
• Gyroscope
• Intertia Force Analysis
• Static Force Analysis

 

Engineering Metallurgy (6 hrs./week)

Syllabus:

• Alloys and their characteristics
• Heat Treatment
• Surface Treatment and diffusion coating
• Effect of Alloying elements
• Strengthening of mechanisms
• Theory of Metal Joining
• Non-destructive testing
• Metallurgy of tool steels

 

Fluid Mechanics (6 hrs./week)

Syllabus:

• General description
• Fluid Statics Differential Analysis
• Pipe flow
• Dimensional Analysis and Dynamic similitude
• Boundary Layer Theory
• Potential Flow
• Fluid Flow Measurement
• Wing Theory

 

Heat and Mass Transfer (6 hrs./week)

Syllabus:

• Introduction
• Conduction
• Convection
• Radiation
• Heat Exchanges
• Mass Transfer

 

Production Process-II (6 hrs./week)

Syllabus:

• Sheet Metal working
• Rolling and Forming of Metals
• Design of Jigs and Fixtures
• Welding and Joining processes
• Plastics moulding

 

Elements of Machine Design (6 hrs./week)

Syllabus:

• Mechanical Properties of Materials
• Basic Principle of Machine Design
• Design of Machine Elements
• Design of Pin Joints, Bolts, Riveted and Welded joints
• Theories of Failure
• Endurance Diagrams
• Design of shafts, couplings and springs

 

Fluid Machinery (6 hrs./week)

Syllabus:

• Application of Momentum Equation
• Inward and Outward Flow Turbines
• Centrifugal radial, axial and mixed flow pumps
• Centrifugal compressor

 

Internal Combustion Engines (6 hrs. /week)

Syllabus:

• Cycle Analysis of IC Engines
• Fuels
• Lubricants
• General constructional features
• SI Engines
• CI Engines
• Two stroke cycle
• Cooling systems
• Supercharging
• Performance characteristics
• Exhaust Gas Analysis and Pollution
• Gas Turbines Wankel Engine

 

Mechanical Engineering Measurements and Control (5.5 hrs./week)

Syllabus:

• Significance
• Basic Terms
• General performance characteristics
• Transducers
• Measurement of Displacement, Strain, Force
• Torque, Acceleration, Velocity, Pressure, Temperature Flow, etc.
• Control Systems

 

Dynamics of Machinery-III (5.5 hrs./week)

Syllabus:

• Balancing (Static & Dynamic)
• Free Vibrations
• Damped Vibrations
• Forced Vibrations
• Critical Speed
• Vibration Measurement and Instrumentation

 

Production Process- III (5.5 hrs./week)

Syllabus:

• Design of Cutting Tools
• Metrology
• Metal cutting and tool engineering
• Measurement of cutting forces
• Tool life
• Coolants
• Economics and metal cutting
• Milling
• Drilling

Machine Design- I (6 hrs./week)

Syllabus:

• Design with Wear, Thermal and Corrosion considerations
• Design of power transmission drives
• Design of Spur, Helical, Bevel and Worm gears
• Design of Hydrodynamic and Rolling element bearings
• Design of Pressure Vessels and Machine frames

 

Thermal Engineering (5 hrs./week)

Syllabus:

• High pressure and heavy duty boilers
• Steam nozzles
• Rankine cycle
• Steam turbines
• Steam condensers

 

Industrial Engineering and Management (5 hrs. /week)

Syllabus:

• Elements of Management Process
• Organisation
• Communication
• Leadership
• Motivation
• Quality Control
• SQC
• Work study
• Methods study
• Work Measurement
• Time study
• Work sampling and production studies

 

Machine Design- II (5 hrs./week)

Syllabus:

• Introduction to Methodology, Morphology of design process
• Standardisation
• Ergonomic design
• Design of complete assay
• Introduction to Computer Aided Design

 

Refrigeration and Air Conditioning (5 hrs./week)

Syllabus:

• Refrigeration
• Thermodynamics properties
• Psychorometry
• Air Distribution
• Cold Storages
• Construction layouts
• Applications
• Testing of AC plants

 

Engineering Economics (5 hrs./week)

Syllabus:

• Basic concepts in economics
• Problems of economic growth and development
• Alternative economic systems
• Capital
• Choice of technology
• Analysis of cost
• Alternative investment
• Depreciation

 

List of papers (Production)

Engineering Mechanics (6 hrs./week)

Syllabus:

• Statics and dynamics of particles and rigid bodies
• Determination of loads on members
• Base level course leading to advanced design courses

 

Engineering Chemistry (2.5 hrs./week)

Syllabus:

• Study of chemicals and materials from an engineering point of view
• Steels, fuels, cement glass
• Effects of corrosion

Communication Skills (2.5 hrs./week)

Syllabus:

• Business communication
• Personal communication

 

Strength of Materials (6 hrs./week)

Syllabus:

• Basic course in stress and strain analysis
• Shear force and bending moment diagrams
• Theory of bending and torsion
• Combined stress
• Deflections

Production Processes (5 hrs./week)

Syllabus:

• Basic production process and machine tools
• Metal forming processes
• Rolling
• Casting
• Machining process
• Press tools
• Sheet metal processing and joining processes
• Limits and fits and a study of measuring tools

 

Metrology Instrumentation and Quality Control (5 hrs./week)

Syllabus:

• Study of measurement standards for various mechanical components
• Comparators
• Measuring devices and statistical quality control methods
• Linear and angular measurements
• Screw thread and gear measurements
• Use of the optical dividing head
• Inspection of jigs and fixtures

 

Machining Science and Technology (6 hrs./week)

Syllabus

• Metal cutting theory
• Tool Materials
• Coolants and a detailed study of cutting tools (Single and Multi point)
• Mechanics of metal cutting
• Merchant's circle
• Tool life
• Surface finish
• Economics of machining

 

Design for Production Tooling (4.5 hrs./week)

Syllabus:

• Study of jigs and fixtures
• Locating and clamping systems
• Drill and tool guide bushes
• Various types of drill jigs
• Planning, shaping, milling fixtures
• Fixtures for profiling and broaching

 

Mould Forming Technology (4.5 hrs./week)

Syllabus:

• Design of mould patterns
• Mould design
• Casting design
• Moulds for plastic materials
• Study of various furnances- cupola, electric and induction
• Die casting, die casting machines
• Principles of powder metallugy

 

Metal Forming Technology and Analysis (4.5 hrs./week)

Syllabus:

• Analysis of various metal forming processes- rolling, forging, extrusion, drawing
• Rollpass design
• Material flow
• Stress and load calculations in processes like rolling and forging

 

Methods Engineering and a Link Measurement (5 hrs./week)

Syllabus:

• Time and motion studies
• Work measurement and allied areas
• Process and activity charts, various types of graphs
• Time study rating
• Work and sampling procedures

 

Process Engineering and Tooling (4.5 hrs./week)

Syllabus:

• Preparation of process charts
• Tool layouts and in process gauging
• Tolerance charts
• Work piece control
• Tooling for NC CNC units
• Heat treatment processes and furnances

 

Welding Technology (4.5 hrs./week)

Syllabus:

• Detailed study of all types of welding processes and joint preparation techniques
• Heat sources
• Heat and mass flow in welding
• Arc and gas welding
• Soldering
• Brazing
• Thermal cutting

 

Machine Tool Design (4.5 hrs./week)

Syllabus:

• Detailed study of Machine Tools
• Design of various machine tool components- gear boxes, clutches, slideways, bearings, brakes
• Machine tool beds and columns
• Acceptance tests
• Machine tool control
• Modern trends in the industry

 

Operation Research (5 hrs./week)

Syllabus:

• Linear and nonlinear programming
• Optimisation
• Resource allocation
• Materials Management
• Replacement and reliability of capital equipment
• Queing theory

Production Management - (4.5 hrs./week)

Syllabus:

• Production planning and control
• Forecasting methods, inventory planning and scheduling
• Machine capacity
• Locating and balancing inventory control
• ABC analysis
• Scheduling and control of production
• PERT CPM techniques and GANIT charts

 

Automation and Control Engineering (4.5 hrs./week)

Syllabus:

• Study of control systems
• Automatic control devices
• Transducers
• Pumps, Motors, Actuators
• Automation of machining
• NC Control
• Position and displacement transducers
• Strain gauges
• Optical transducers
• Interlocking and overload protection devices

Management Science and Systems (3 hrs./week)

Syllabus:

• Management of human resources
• Industrial relations
• Unions and management and allied areas
• Employee selection, development and growth
• Interpersonal relationships
• Leadership styles and conflict management

 

Production System and Productivity Engg. (5 hrs./week)

Syllabus:

• Study of production systems
• Product design
• Plant layout
• Transfer lines and value engineering
• Selection of Process and equipment
• Influence of materials
• Economic analysis
• Profit volume charts
• Group technology
• Flexible manufacturing systems

 

Accounting, Costing and Financing (4.5 hrs./week)

Syllabus:

• Determination of cost
• Cost planning, reduction and control
• Business finance
• Operating costs
• Overheads analysis
• Unit costing
• Job costing and depreciation

 

Non Traditional Machining Technology (5 hrs./week)

Syllabus:

• Study of non traditional machining methods
• Electro discharge machining
• Electron beam machining
• Laser beam, plasma beam machining and allied processes
• Other processes like ultrasonic machining abrasive jet machining
• Chemical machining

 

CAD/CAM/CIM (6 hrs./week)

Syllabus:

• Computer hardware and software
• Computer aided design and manufacturing
• Part programming
• Standard software packages
• Auto CAD
• Computer aided process planning
• Computer Aided Quality Control
• Manufacturing resources planning

 

Sales and Marketing Management (4.5 hrs./week)

Syllabus:

• Marketing strategy
• Marketing behaviour
• Product policy
• Advertising and selling
• Inventory policy
• Packaging
• Branding
• Channels of distribution
• Pricing methods and objectives

 

Method of Assessment

The method of assessment followed by the College is semester-wise. At the end of each semester, the student's theoretical and practical knowledge is assessed by way of written examinations, practical work and oral examinations.

Curricular / extra curricular activities

Many co-curricular and extra-curricular activities are organised to help the students in achieving an integrated personality. Seminars, conferences, and industrial visits are often arranged. Extra-curricular activites like blood donation camps, cultural programmes, yoga classes and sports are organised regularly. Inter-collegiate badminton and table tennis tournaments are held in the college every year.