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Graduate level lessons of various engineering subjects taught regularly in recognised educational institutions are the subjects that are to be studied while preparing for the exam. Questions related to the lessons from above mentioned subjects would feature in the exam.
The study materials in connection with the above mentioned subjects can be sourced from well-known book stores located across the country. They can be obtained from online book stores and many websites also provide them on their platforms at free of cost or at low cost. Candidates can consider these sources for procuring the study material. The syllabus is provided below for the sake of the candidates:
| Section | Unit | Topic |
|---|---|---|
| Engineering mathematics | Linear algebra | Matrix algebra |
| Systems of linear equations | ||
| Eigen values and Eigen vectors | ||
| Calculus | Functions of single variable | |
| Limit | ||
| Continuity and differentiability | ||
| Mean value theorems | ||
| Evaluation of definite and improper integrals | ||
| Partial derivatives | ||
| Total derivative | ||
| Maxima and minima | ||
| Gradient | ||
| Gradient, divergence and curl | ||
| Vector identities | ||
| Directional derivatives | ||
| Line | ||
| Line, surface & volume integrals | ||
| Stokes, Gauss and Green’s theorems | ||
| Gauss and Green's theorems | ||
| Differential equations | First order equations | |
| Higher order linear differential equations with constant coefficients | ||
| Cauchy's and Euler's equations | ||
| Initial and boundary value problems | ||
| Laplace transforms | ||
| Solutions of one dimensional heat and wave equations and Laplace equation | ||
| Complex variables | Analytic functions | |
| Cauchy's integral theorem | ||
| Taylor and Laurent series | ||
| Probability and Statistics | Definitions of probability and sampling theorems | |
| Conditional probability | ||
| Mean | ||
| Median | ||
| Mean, median, mode & standard deviation | ||
| Random variables | ||
| Poisson, normal & binomial distributions | ||
| Normal and binomial distributions | ||
| Numerical methods | Numerical solutions of linear and non -linear algebraic equations integration by trapezoidal and simpson’s rule | |
| Single and multi-step methods for differential equations | ||
| Structural engineering | Mechanics | Bending moment and shear force in statically determinate beams |
| Simple stress and strain relationship | ||
| Stress and strain in two dimensions | ||
| Principal stresses | ||
| Stress transformation | ||
| Mohr's circle | ||
| Simple bending theory | ||
| Flexural and shear stresses | ||
| Unsymmetrical bending | ||
| Shear centre | ||
| Thin walled pressure vessels | ||
| Uniform torsion | ||
| Buckling of column | ||
| Combined and direct bending stresses | ||
| Structural analysis | Analysis of statically determinate trusses | |
| Arches | ||
| Beams | ||
| Cables and frames | ||
| Displacements in statically determinate structures and analysis of statically indeterminate structures by force/ energy methods | ||
| Influence lines for determinate and indeterminate structures | ||
| Basic concepts of matrix methods of structural analysis | ||
| Concrete structures | Concrete technology | |
| Properties of concrete and basics of mix design | ||
| Concrete designbasic | ||
| Basic working stress and limit state design concepts | ||
| Analysis of ultimate load capacity and design of members subjected to flexure | ||
| Shear, compression and torsion by limit state methods | ||
| Basic elements of prestressed concrete | ||
| Analysis of beam sections at transfer and service loads | ||
| Steel structures | Analysis and design of tension and compression members | |
| Beams and beam | ||
| Columns and column bases | ||
| Simple and eccentric of connections | ||
| Beam-column connections | ||
| Plate girders and trusses | ||
| Plastic analysis of beams | ||
| Geotechnical engineering | Soil mechanics | Origin of soils |
| Soil classification | ||
| Three-phase system | ||
| Fundamental definitions | ||
| Relationship and interrelationships | ||
| Permeability and seepage | ||
| Effective stress principle | ||
| Consolidation | ||
| Compaction | ||
| Shear strength | ||
| Foundation engineering | Scope of sub surface investigations | |
| Drilling bore holes | ||
| Sampling | ||
| Penetration tests | ||
| Plate load test | ||
| Earth pressure theories | ||
| Effect of water table | ||
| Layered soils | ||
| Stability of slopes | ||
| Infinite slopes and finite slopes | ||
| Foundation types | ||
| Foundation design requirements | ||
| Shallow foundations | ||
| Bearing capacity | ||
| Effect of shape | ||
| Water table and other factors | ||
| Stress distribution | ||
| Settlement analysis in sands and clays | ||
| Deep foundation spile types | ||
| Dynamic and static formulae | ||
| Load capacity of piles in sands and clays | ||
| Negative skin friction | ||
| Water resources engineering | Fluid mechanics and hydraulics | Properties of fluids |
| Principle of conservation of mass | ||
| Momentum, energy and corresponding equations | ||
| Potential flow | ||
| Applications of momentum and Bernoulli’s equation | ||
| Laminar and turbulent flow | ||
| Flow in pipes | ||
| Pipe networks | ||
| Concept of boundary layer and its growth | ||
| Uniform flow | ||
| Critical flow and gradually varied flow in channels | ||
| Specific energy concept | ||
| Hydraulic jump | ||
| Forces on immersed bodies | ||
| Flow measurements in channels | ||
| Tanks and pipes | ||
| Dimensional analysis and hydraulic modeling | ||
| Kinematics of flow | ||
| Velocity triangles and specific speed of pumps and turbines | ||
| Hydrology | Hydrologic cycle | |
| Rainfall and its measurement | ||
| Evaporation | ||
| Infiltration | ||
| Stage discharge relationships | ||
| Unit hydrographs | ||
| Flood estimation | ||
| Reservoir capacity | ||
| Reservoir and channel routing | ||
| Well hydraulics | ||
| Irrigation | Duty | |
| Delta | ||
| Estimation of evapo transpiration | ||
| Crop water requirements | ||
| Design of lined and unlined canals | ||
| Canal regulation structure | ||
| Waterways | ||
| Head works | ||
| Gravity dams | ||
| Earthen dam and spillways | ||
| Design of weirs on permeable foundation | ||
| Types of irrigation system | ||
| Irrigation methods | ||
| Water logging and drainage | ||
| Sodic soils | ||
| Environmental engineering | Water requirements | Quality standards |
| Basic unit processes and operations for water treatment | ||
| Drinking water standards | ||
| Water requirements | ||
| Basic unit operations and unit processes for surface water treatment | ||
| Distribution of water | ||
| Sewage and sewerage treatment | ||
| Quantity and characteristics of waste water | ||
| Primary and secondary are tertiary treatment of wastewater | ||
| Sludge disposa | ||
| Effluent discharge standards | ||
| Domestic waste water treatment | ||
| Quantity of characteristics of domestic waste water | ||
| Primary and secondary treatment | ||
| Unit operations and unit processes of domestic waste water | ||
| Sludge disposal | ||
| Air pollution | Types of pollutants and their sources and impacts | |
| Air pollution meteorology | ||
| Air pollution control | ||
| Air quality standards and limits | ||
| Municipal solid wastes | Characteristics | |
| Generation | ||
| Generation, collection and transportation of solid wastes | ||
| Engineered systems for solid waste management | ||
| Noise pollution | Impacts of noise | |
| Permissible limits of noise pollution | ||
| Measurement of noise and control of noise pollution | ||
| Transportation engineering | Highway planning | Geometric design of highways |
| Testing and specifications of paving materials | ||
| Design of flexible and rigid pavements | ||
| Traffic engineering | Traffic characteristics | |
| Theory of traffic flow | ||
| Intersection design | ||
| Traffic signs and signal design | ||
| Highway capacity | ||
| Basic concept on airport planning | Runway design | |
| Harbour and railway | ||
| Surveying | Importance of surveying | |
| Principles and classifications | ||
| Mapping concepts | ||
| Coordinate system | ||
| Map projections | ||
| Measurements of distance and directions | ||
| Leveling | ||
| Theodolite traversing | ||
| Plane table surveying | ||
| Errors and adjustments | ||
| Curves |
| Section | Unit | Topic |
|---|---|---|
| Engineering mathematics | Linear algebra | Matrix algebra |
| Systems of linear equations | ||
| Eigen values and Eigen vectors | ||
| Calculus | Functions of single variable | |
| Limit | ||
| Continuity and differentiability | ||
| Mean value theorems | ||
| Evaluation of definite and improper integrals | ||
| Partial derivatives | ||
| Total derivative | ||
| Maxima and minima | ||
| Gradient | ||
| Gradient, divergence and curl | ||
| Vector identities | ||
| Directional derivatives | ||
| Line | ||
| Line, surface & volume integrals | ||
| Stokes, Gauss and Green’s theorems | ||
| Gauss and Green's theorems | ||
| Differential equations | First order equations | |
| Higher order linear differential equations with constant coefficients | ||
| Cauchy's and Euler's equations | ||
| Initial and boundary value problems | ||
| Laplace transforms | ||
| Solutions of one dimensional heat and wave equations and Laplace equation | ||
| Complex variables | Analytic functions | |
| Cauchy's integral theorem | ||
| Taylor and Laurent series | ||
| Probability and Statistics | Definitions of probability and sampling theorems | |
| Conditional probability | ||
| Mean | ||
| Median | ||
| Mean, median, mode & standard deviation | ||
| Random variables | ||
| Poisson, normal & binomial distributions | ||
| Normal and binomial distributions | ||
| Numerical methods | Numerical solutions of linear and non -linear algebraic equations integration by trapezoidal and simpson’s rule | |
| Single and multi-step methods for differential equations | ||
| Applied mechanics and design | Engineering mechanics | Free body diagrams and equilibrium |
| Trusses and frames | ||
| Virtual work | ||
| Kinematics and dynamics of particles and of rigid bodies in plane motion | ||
| Including impulse and momentum and energy formulations and impact | ||
| Strength of materials | Stress and strain | |
| Stress-strain relationship and elastic constants | ||
| Mohr's circle for plane stress and plane strain | ||
| Thin cylinders | ||
| Shear force and bending moment diagrams | ||
| Bending and shear stresses | ||
| Deflection of beams | ||
| Torsion of circular shafts | ||
| Euler's theory of columns | ||
| Strain energy methods | ||
| Thermal stresses | ||
| Theory of machines | Displacement, velocity and acceleration analysis of plane mechanisms | |
| Dynamic analysis of slider-crank mechanism | ||
| Gear trains | ||
| Flywheels | ||
| Vibrations | Free and forced vibration of single degree of freedom systems | |
| Effect of damping | ||
| Vibration isolation | ||
| Resonance | ||
| Critical speeds of shafts | ||
| Design | Design for static and dynamic loading | |
| Failure theories, Mohr’s circle(stress), deflection of beams | ||
| Fatigue strength and the S-N diagram | ||
| Principles of the design of machine elements such as bolted | ||
| Riveted and welded joints | ||
| Shafts | ||
| Spur gears | ||
| Rolling and sliding contact bearings | ||
| Brakes and clutches | ||
| Balancing of machines | Reciprocating and rotary masses | |
| Inline engine | ||
| V-engine | ||
| Fluid mechanics and thermal sciences | Fluid mechanics | Fluid properties |
| Fluid statics | ||
| Manometry | ||
| Buoyancy | ||
| Control-volume analysis of mass | ||
| Momentum and energy | ||
| Fluid acceleration | ||
| Differential equations of continuity and momentum | ||
| Bernoulli's equation | ||
| Viscous flow of incompressible fluids | ||
| Boundary layer | ||
| Elementary turbulent flow | ||
| Flow through pipes | ||
| Head losses in pipes and bends | ||
| Heat-transfer | Modes of heat transfer | |
| One dimensional heat conduction | ||
| Resistance concept | ||
| Electrical analogy | ||
| Unsteady heat conduction | ||
| Fins | ||
| Dimensionless parameters in free and forced convective heat transfer | ||
| Various correlations for heat transfer in flow over flat plates and through pipes | ||
| Thermal boundary layer | ||
| Effect of turbulence | ||
| Radiative heat transfer | ||
| Black and grey surfaces | ||
| Shape factors | ||
| Network analysis | ||
| Heat exchanger performance | ||
| LMTD and NTU methods | ||
| Thermodynamics | Zeroth, first and second laws of thermodynamics | |
| Thermodynamic system and processes | ||
| Carnot cycle | ||
| Irreversibility and availability | ||
| Behaviour of ideal and real gases | ||
| Properties of pure substances | ||
| Calculation of work and heat in ideal processes | ||
| Analysis of thermodynamic cycles related to energy conversion | ||
| Applications | Power engineering | Steam Tables |
| Rankine | ||
| Brayton cycles with regeneration and reheat | ||
| I.C. Engine | Air standard Otto | |
| Diesel cycles | ||
| Refrigeration and air-conditioning | Vapour refrigeration cycle | |
| Heat pumps | ||
| Gas refrigeration | ||
| Reverse Brayton cycle | ||
| Moist air | ||
| Psychrometric chart | ||
| Basic psychrometric processes | ||
| Turbomachinery | Pelton-wheel | |
| Francis and kaplan turbines | ||
| Impulse and reaction principles | ||
| Velocity diagrams | ||
| Manufacturing and industrial engineering | Engineering materials | Structure and properties of engineering materials |
| Heat treatment | ||
| Stress strain diagrams for engineering materials | ||
| Metal casting | Design of patterns | |
| Moulds and cores | ||
| Solidification and cooling | ||
| Riser and gating design | ||
| Design considerations | ||
| Forming | Plastic deformation and yield criteria | |
| Fundamentals of hot and cold working processes | ||
| Load estimation for bulk and sheet metal forming processes | ||
| Principles of powder metallurgy | ||
| Joining | Physics of welding | |
| Brazing and soldering | ||
| Adhesive bonding | ||
| Design considerations in welding | ||
| Arc welding | ||
| Spot welding | ||
| Submerged arc welding | ||
| Tig | ||
| Mig | ||
| Gas welding | ||
| Machining and machine tool operations | Mechanics of machining | |
| Single and multi-point cutting tools | ||
| Tool geometry and materials | ||
| Tool life and wear | ||
| Economics of machining | ||
| Principles of non traditional machining processes | ||
| Principles of work holding | ||
| Principles of design of jigs and fixtures | ||
| Metrology and inspection | Limits, fits and tolerances | |
| Linear and angular measurements | ||
| Comparators | ||
| Gauge design | ||
| Interferometry | ||
| Form and finish measurement | ||
| Alignment and testing methods | ||
| Tolerance analysis in manufacturing and assembly | ||
| Computer integrated manufacturing | Basic concepts of CAD/CAM and their integration tools | |
| Production planning and control | Forecasting models | |
| Aggregate production planning | ||
| Scheduling | ||
| Materials requirement planning | ||
| Inventory control | Deterministic and probabilistic models | |
| Safety stock inventory control systems | ||
| Operations research | Linear Programming | |
| Simplex and duplex method | ||
| Transportation | ||
| Assignment | ||
| Network flow models | ||
| Simple queuing models | ||
| PERT and CPM |
| Section | Unit | Topic |
|---|---|---|
| Engineering mathematics | Linear algebra | Matrix algebra |
| Systems of linear equations | ||
| Eigen values and Eigen vectors | ||
| Calculus | Functions of single variable | |
| Limit | ||
| Continuity and differentiability | ||
| Mean value theorems | ||
| Evaluation of definite and improper integrals | ||
| Partial derivatives | ||
| Total derivative | ||
| Maxima and minima | ||
| Gradient | ||
| Gradient, divergence and curl | ||
| Vector identities | ||
| Directional derivatives | ||
| Line | ||
| Line, surface & volume integrals | ||
| Stokes, Gauss and Green’s theorems | ||
| Gauss and Green's theorems | ||
| Differential equations | First order equations | |
| Higher order linear differential equations with constant coefficients | ||
| Cauchy's and Euler's equations | ||
| Initial and boundary value problems | ||
| Laplace transforms | ||
| Solutions of one dimensional heat and wave equations and Laplace equation | ||
| Complex variables | Analytic functions | |
| Cauchy's integral theorem | ||
| Taylor and Laurent series | ||
| Probability and Statistics | Definitions of probability and sampling theorems | |
| Conditional probability | ||
| Mean | ||
| Median | ||
| Mean, median, mode & standard deviation | ||
| Random variables | ||
| Poisson, normal & binomial distributions | ||
| Normal and binomial distributions | ||
| Numerical methods | Numerical solutions of linear and non -linear algebraic equations integration by trapezoidal and simpson’s rule | |
| Single and multi-step methods for differential equations | ||
| Electrical engineering | Electric circuits and fields | Network graph |
| KCL | ||
| KVL | ||
| Node and mesh analysis | ||
| Transient response of DC and AC networks | ||
| Sinusoidal steady-state analysis resonance | ||
| Resonance | ||
| Ideal current and voltage sources | ||
| Thevenin’s | ||
| Norton’s and superposition and maximum power transfer theorems | ||
| Two-port networks | ||
| Three phase circuits | ||
| Gauss Theorem | ||
| Electric field and potential due to point, line, plane and spherical charge distributions | ||
| Ampere’s and biot savart’s laws | ||
| Inductance | ||
| Dielectrics | ||
| Capacitance | ||
| Electrical machines | Single phase transformer | |
| Equivalent circuit | ||
| Phasor diagram | ||
| Tests, regulation and efficiency | ||
| Connections of three phase transformers | ||
| Parallel operation | ||
| Auto transformer | ||
| Energy conversion principles | ||
| Types of dc machines | ||
| Windings | ||
| Generator characteristics | ||
| Armature reaction and commutation | ||
| Starting and speed control of motors | ||
| Principles, types and performance characteristics of three phase induction motors | ||
| starting and speed control | ||
| single phase induction motors | ||
| Performance, regulation and parallel operation of generators | ||
| Regulation and parallel operation of generators | ||
| motor starting | ||
| characteristics and applications | ||
| Servo and stepper motors | ||
| Power systems | Basic power generation concepts | |
| Transmission line models and performance | ||
| Cable performance | ||
| Insulation | ||
| Corona and radio interference | ||
| Distribution systems | ||
| Per unit quantities | ||
| Bus impedance and admittance matrices | ||
| Load flow | ||
| Voltage control | ||
| Power factor correction | ||
| Economic operation | ||
| Symmetrical components | ||
| Fault analysis | ||
| Principles of over current | ||
| Differential and distance protection | ||
| solid state relays and digital protection | ||
| Circuit breakers | ||
| System stability concepts | ||
| Swing curves and equal area criterion | ||
| HVDC transmission and FACTS concepts | ||
| Control systems | Principles of feedback | |
| Transfer function | ||
| Block diagrams | ||
| Steady-state errors | ||
| Routh and Niquist techniques | ||
| Bode plots | ||
| Root loci | ||
| Electrical and electronic measurements | Bridges and potentiometers | |
| PMMC | ||
| Moving iron | ||
| Dynamometer and induction type instruments | ||
| Measurement of voltage | ||
| Current | ||
| Power | ||
| Energy and power factor | ||
| Instrument transformers | ||
| Digital voltmeters and multimeters | ||
| Phase, time and frequency measurement | ||
| Q-meters | ||
| Oscilloscopes | ||
| Potentiometric recorders | ||
| Error analysis | ||
| Analog and digital electronics | Characteristics of diodes, BJT, MOSFET | |
| BJT | ||
| FET | ||
| Amplifiers | ||
| Biasing, equivalent circuit and frequency response | ||
| Oscillators and feedback amplifiers | ||
| Characteristics and applications of operational amplifiers | ||
| Simple active filters | ||
| VCOs and timers | ||
| Combinational logic circuits | ||
| Schmitt trigger | ||
| Multivibrators | ||
| Sample and hold circuits | ||
| A/D and D/A converters | ||
| Architecture | ||
| Programming and interfacing | ||
| Power electronics and drives | Semiconductor power diodes | |
| Transistors | ||
| Thyristors | ||
| Triacs | ||
| GTOs | ||
| MOSFETs and IGBTs | ||
| Static characteristics and principles of operation | ||
| Triggering circuits | ||
| Phase control rectifiers | ||
| Fully controlled and half controlled of bridge converters | ||
| Principles of choppers and inverters | ||
| Basis concepts of adjustable speed dc and ac drives |
| Section | Unit | Topic |
|---|---|---|
| Engineering mathematics | Linear algebra | Matrix algebra |
| Systems of linear equations | ||
| Eigen values and Eigen vectors | ||
| Calculus | Functions of single variable | |
| Limit | ||
| Continuity and differentiability | ||
| Mean value theorems | ||
| Evaluation of definite and improper integrals | ||
| Partial derivatives | ||
| Total derivative | ||
| Maxima and minima | ||
| Gradient | ||
| Gradient, divergence and curl | ||
| Vector identities | ||
| Directional derivatives | ||
| Line | ||
| Line, surface & volume integrals | ||
| Stokes, Gauss and Green’s theorems | ||
| Gauss and Green's theorems | ||
| Differential equations | First order equations | |
| Higher order linear differential equations with constant coefficients | ||
| Cauchy's and Euler's equations | ||
| Initial and boundary value problems | ||
| Laplace transforms | ||
| Solutions of one dimensional heat and wave equations and Laplace equation | ||
| Complex variables | Analytic functions | |
| Cauchy's integral theorem | ||
| Taylor and Laurent series | ||
| Probability and Statistics | Definitions of probability and sampling theorems | |
| Conditional probability | ||
| Mean | ||
| Median | ||
| Mean, median, mode & standard deviation | ||
| Random variables | ||
| Poisson, normal & binomial distributions | ||
| Normal and binomial distributions | ||
| Numerical methods | Numerical solutions of linear and non -linear algebraic equations integration by trapezoidal and simpson’s rule | |
| Single and multi-step methods for differential equations | ||
| Electronics and communication engineering | Network | Network graphs |
| Matrices associated with graphs | ||
| Incidence | ||
| Fundamental cut set and fundamental circuit matrices | ||
| Solution methods | ||
| Nodal and mesh analysis | ||
| Network theorems | ||
| Superposition | ||
| Thevenin and norton’s maximum power transfer | ||
| Wye-delta transformation | ||
| Steady state sinusoidal analysis using phasors | ||
| Linear constant coefficient differential equations | ||
| Time domain analysis of simple RLC circuits | ||
| Solution of network equations using Laplace transform | ||
| Frequency domain analysis of RLC circuits | ||
| 2-port network parameters | ||
| Driving point and transfer functions | ||
| State equations for networks | ||
| Electronic devices | Energy bands in silicon | |
| Intrinsic and extrinsic silicon | ||
| Carrier transport in silicon | ||
| Diffusion current | ||
| Drift current | ||
| Mobility and resistivity | ||
| Generation and recombination of carriers | ||
| P-N junction diode | ||
| Zener diode | ||
| Tunnel diode | ||
| BJT | ||
| JFET | ||
| MOS capacitor | ||
| MOSFET | ||
| LED | ||
| P-i-n and avalanche photo diode | ||
| Basics of LASERs | ||
| Device technology | ||
| Integrated circuits fabrication process | ||
| Oxidation | ||
| Diffusion | ||
| Ion implantation | ||
| Photolithography | ||
| N-tub, p-tub and twintub cmos process | ||
| Analog circuits | Small signal equivalent circuits of diodes | |
| Bjts, mosfets and analog cmos | ||
| Simple diode circuits | ||
| Clipping | ||
| Clamping | ||
| Rectifier | ||
| Biasing and bias stability of transistor and FET amplifiers | ||
| Amplifiers | ||
| Single and multi stage | ||
| Differential and operational | ||
| Feedback and power | ||
| Frequency response of amplifiers | ||
| Simple op-amp circuits | ||
| Filters | ||
| Sinusoidal oscillators | ||
| Criterion for oscillation | ||
| Single transistor and op-amp configurations | ||
| Function generators and waveshaping circuits | ||
| 555 Timers | ||
| Power supplies | ||
| Digital circuits | Boolean algebra | |
| Minimization of Boolean functions | ||
| Logic gates | ||
| Digital ic families | ||
| Combinatorial circuits of arithmetic circuits | ||
| Code converters | ||
| Multiplexers | ||
| Decoders | ||
| PROMs and PLAs | ||
| Sequential circuits | ||
| Latches and flip flops | ||
| Counters and shift registers | ||
| Sample and hold circuits | ||
| Adcs | ||
| Dacs | ||
| Semiconductor memories: RAM, ROM, storage devices, printer, connectors, floppy drives, organization of computer, simple programme | ||
| Microprocessor 8085 | ||
| Architecture | ||
| Programming | ||
| Memory and i/o interfacing | ||
| Signals and systems | Definitions and properties of Laplace transform | |
| Continuous-time and discrete-time fourier series | ||
| Continuous-time and discrete-time fourier transform | ||
| DFT and FFT | ||
| Z transform | ||
| Sampling theorem | ||
| Linear time invariant systems | ||
| Definitions and properties | ||
| Causality | ||
| Stability | ||
| Impulse response | ||
| Convolution | ||
| Poles and zeros | ||
| Parallel and cascade structure | ||
| Frequency response | ||
| Group delay | ||
| Phase delay | ||
| Signal transmission through LTI systems | ||
| Control systems | Basic control system components | |
| Block diagrammatic description | ||
| Reduction of block diagrams | ||
| Open loop and closed loop systems and stability analysis of these systems | ||
| Signal flow graphs and their use in determining transfer functions of systems | ||
| Transient and steady state analysis of LTI control systems and frequency response | ||
| Tools and techniques for LTI control system analysis | ||
| Root loci | ||
| Routh-hurwitz criterion | ||
| Bode and Nyquist plots | ||
| Electronic measurements and instrumentation | Basic concepts, standards and error analysis | |
| Measurements of basic electrical quantities and parameters | ||
| Electronic measuring instruments and their principles of working | ||
| Analog and digital | ||
| Comparison | ||
| Characteristics | ||
| Application | ||
| Transducers | ||
| Electronic measurements of non electrical quantities like temperature pressure and humidity etc | ||
| Basics of telemetry for industrial use | ||
| Electromagnetic | Elements of vector calculus | |
| Gradient, divergence and curl | ||
| Gauss’ and stokes’ theorems | ||
| Maxwell's equations | ||
| Differential and integral forms | ||
| Wave equation | ||
| Poynting vector | ||
| Plane waves | ||
| Propagation through various media | ||
| Reflection and refraction | ||
| Phase and group velocity | ||
| Skin depth | ||
| Transmission lines | ||
| Characteristic impedance | ||
| Impedance transformation | ||
| Basics of Antennas | ||
| Dipole antennas | ||
| Radiation pattern | ||
| Antenna gain | ||
| Communications | Random signals and noise | |
| Probability | ||
| Random variables | ||
| Probability Density Function | ||
| Autocorrelation | ||
| Power spectral density | ||
| Analog communication systems | ||
| Amplitude and angle modulation and demodulation systems | ||
| spectral analysis of these operations | ||
| Super heterodyne receivers | ||
| Elements of hardware | ||
| Realizations of analog communication systems | ||
| Signal to noise ratio of calculations for amplitude modulation and frequency modulation for low noise conditions | ||
| Fundamentals of information theory and channel capacity theorem | ||
| Digital communication systems | ||
| Pulse code modulation pcm | ||
| Differential pulse code modulation dpcm | ||
| Digital modulation schemes | ||
| Amplitude, phase and frequency shift keying schemes | ||
| Matched filter receivers | ||
| Bandwidth consideration and probability of error calculations for these schemes | ||
| Basics of TDMA, FDMA and CDMA and GSM | ||
| Fundamentals of wireless propagation environment | ||
| Colour tv transmission and reception systems | ||
| Basics of dth, hdtv, plasma and lcd | ||
| Optical sources | ||
| Detectors | ||
| Fibres | ||
| Optical network components | ||
| Optical measurements | ||
| Basics of optical networks | ||
| Microwave engineering | Microwave tubes and solid state devices | |
| Microwave generation and amplifiers | ||
| Waveguides and other microwave components and circuits | ||
| Microstrip circuits | ||
| Microwave antennas | ||
| Microwave measurements | ||
| Masers | ||
| Lasers | ||
| Microwave propagation | ||
| Microwave communication systems terrestrial and satellite based | ||
| Computer engineering | Number systems | |
| Data representation | ||
| Programming | ||
| Elements of a high level programming language c/c++ | ||
| Use of basic data structures | ||
| Fundamentals of computer architecture | ||
| Processor design | ||
| Control unit design | ||
| Memory organisation | ||
| I/o system organization | ||
| Microprocessors | ||
| Architecture and instruction set of microprocessors 8085 and 8086 | ||
| Assembly language programming | ||
| Microprocessor based system design and typical examples | ||
| Personal computers and their typical uses | ||
| Micro controller 8051 family architecture | ||
| Programming and interface |
| Section | Unit | Topic |
|---|---|---|
| Engineering mathematics | Linear algebra | Matrix algebra |
| Systems of linear equations | ||
| Eigen values and Eigen vectors | ||
| Calculus | Functions of single variable | |
| Limit | ||
| Continuity and differentiability | ||
| Mean value theorems | ||
| Evaluation of definite and improper integrals | ||
| Partial derivatives | ||
| Total derivative | ||
| Maxima and minima | ||
| Gradient | ||
| Gradient, divergence and curl | ||
| Vector identities | ||
| Directional derivatives | ||
| Line | ||
| Line, surface & volume integrals | ||
| Stokes, Gauss and Green’s theorems | ||
| Gauss and Green's theorems | ||
| Differential equations | First order equations | |
| Higher order linear differential equations with constant coefficients | ||
| Cauchy's and Euler's equations | ||
| Initial and boundary value problems | ||
| Laplace transforms | ||
| Solutions of one dimensional heat and wave equations and Laplace equation | ||
| Complex variables | Analytic functions | |
| Cauchy's integral theorem | ||
| Taylor and Laurent series | ||
| Probability and Statistics | Definitions of probability and sampling theorems | |
| Conditional probability | ||
| Mean | ||
| Median | ||
| Mean, median, mode & standard deviation | ||
| Random variables | ||
| Poisson, normal & binomial distributions | ||
| Normal and binomial distributions | ||
| Numerical methods | Numerical solutions of linear and non -linear algebraic equations integration by trapezoidal and simpson’s rule | |
| Single and multi-step methods for differential equations | ||
| Instrumentation engineering | Control systems | Feedback principles |
| Signal flow graphs | ||
| Transient Response | ||
| Steady-state errors | ||
| Routh and Nyquist criteria | ||
| Bode plot | ||
| Root loci | ||
| Time delay systems | ||
| Phase and gain margin | ||
| State space representation of systems | ||
| Mechanical | ||
| Mechanical, hydraulic and pneumatic system components | ||
| Servo and step motors | ||
| State variable feedback control | ||
| Time domain and frequency domain | ||
| Compensation | ||
| Non-linear control system | ||
| Process control | On off | |
| Cascade | ||
| P | ||
| P-i | ||
| P-i-d | ||
| Feed forward and derivative controller | ||
| Plc and dcs | ||
| Ratio control | ||
| Heat exchanger | ||
| Distillation column | ||
| Analytical, optical and biomedical instrumentation | Mass spectrometry | |
| UV | ||
| Visible and IR spectrometry | ||
| X-ray and nuclear radiation measurements | ||
| Optical sources and detectors | ||
| LED | ||
| Laser | ||
| Photo-diode | ||
| Photoresistor and their characteristics | ||
| Interferometers | ||
| Applications in metrology | ||
| Basics of fiber optics | ||
| Biomedical instruments | ||
| Eeg | ||
| Ecg and emg | ||
| Clinical measurements | ||
| Ultrasonic transducers and Ultrasonography | ||
| Principles of Computer Assisted Tomography | ||
| Transducer and measurement | Resistive | |
| Capacitive | ||
| Inductive and piezoelectric transducers and their signal conditioning | ||
| Measurement of displacement | ||
| Velocity and acceleration | ||
| Force | ||
| Torque | ||
| Vibration and shock | ||
| Measurement of pressure | ||
| Flow | ||
| Temperature and liquid level | ||
| Measurement of pH | ||
| Conductivity | ||
| Viscosity and humidity | ||
| Circuit theory | Kirchhoff's laws | |
| Mesh and nodal analysis | ||
| Circuit theorems | ||
| One port and two port Network Functions | ||
| Static and dynamic characteristics of Measurement Systems | ||
| Error and uncertainty analysis | ||
| Statistical analysis of data and curve fitting | ||
| Analog electronics | Characteristics of diode | |
| BJT | ||
| JFET and MOSFET | ||
| Diode circuits | ||
| Transistors at low and high frequencies | ||
| Amplifiers | ||
| Single and multi stage | ||
| Feedback amplifiers | ||
| Op-rational amplifiers | ||
| Characteristics and circuit configurations | ||
| Instrumentation amplifier | ||
| Precision rectifier | ||
| V-to-i and i-to-v converter | ||
| Op-amp based active filters | ||
| Oscillators and signal generators | ||
| Digital electronics | Combinational logic circuits | |
| Minimization of Boolean functions | ||
| IC families | ||
| TTL | ||
| MOS and CMOS | ||
| Arithmetic circuits | ||
| Comparators | ||
| Schmitt trigger | ||
| Timers and mono-stable multi-vibrator | ||
| Sequential circuits | ||
| Flip flops | ||
| Counters | ||
| Shift registers | ||
| Multiplexer | ||
| S/H circuit | ||
| Analog to Digital and Digital to Analog converters | ||
| Basics of number system | ||
| Microprocessors | ||
| Microcontrollers | ||
| Memory and io interfacing | ||
| Signals and systems | Periodic and a periodic signals | |
| Impulse response | ||
| Transfer function and frequency response of first and second order systems | ||
| Convolution | ||
| Correlation and characteristics of linear time invariant systems | ||
| Discrete time system | ||
| Impulse and frequency response | ||
| IIR and FIR filters | ||
| Amplitude and frequency modulation and demodulation | ||
| Sampling theorem | ||
| Frequency and time division multiplexing | ||
| Amplitude shift keying | ||
| Pulse shift keying for digital modulation | ||
| Electrical and electronic measurements | Bridges and potentiometers | |
| Measurement of r, l and c | ||
| Measurements of voltage, current and power | ||
| Power factor and energy | ||
| A.C and D.C current probes | ||
| Extension of instrument ranges | ||
| Digital voltmeter and multi-meter | ||
| Time, phase and frequency measurements | ||
| Cathode ray oscilloscope | ||
| Serial and parallel communication |
| Section | Unit | Topic |
|---|---|---|
| Engineering mathematics | Linear algebra | Matrix algebra |
| Systems of linear equations | ||
| Eigen values and Eigen vectors | ||
| Calculus | Functions of single variable | |
| Limit | ||
| Continuity and differentiability | ||
| Mean value theorems | ||
| Evaluation of definite and improper integrals | ||
| Partial derivatives | ||
| Total derivative | ||
| Maxima and minima | ||
| Gradient | ||
| Gradient, divergence and curl | ||
| Vector identities | ||
| Directional derivatives | ||
| Line | ||
| Line, surface & volume integrals | ||
| Stokes, Gauss and Green’s theorems | ||
| Gauss and Green's theorems | ||
| Differential equations | First order equations | |
| Higher order linear differential equations with constant coefficients | ||
| Cauchy's and Euler's equations | ||
| Initial and boundary value problems | ||
| Laplace transforms | ||
| Solutions of one dimensional heat and wave equations and Laplace equation | ||
| Complex variables | Analytic functions | |
| Cauchy's integral theorem | ||
| Taylor and Laurent series | ||
| Probability and Statistics | Definitions of probability and sampling theorems | |
| Conditional probability | ||
| Mean | ||
| Median | ||
| Mean, median, mode & standard deviation | ||
| Random variables | ||
| Poisson, normal & binomial distributions | ||
| Normal and binomial distributions | ||
| Numerical methods | Numerical solutions of linear and non -linear algebraic equations integration by trapezoidal and simpson’s rule | |
| Single and multi-step methods for differential equations | ||
| Chemical engineering | Fluid flow operations and mechanical operations | Fluid static and its application |
| Fluid flow phenomena | ||
| Basic equations of fluid flow | ||
| Flow of incompressible fluids in conduits and thin layers | ||
| Flow of compressible fluids | ||
| Flow past immersed bodies | ||
| Transportation and metering of fluid | ||
| Dimensional analysis | ||
| Solids and its flow properties | ||
| Size reduction | ||
| Enlargement | ||
| Screening | ||
| Fluidization and conveying | ||
| Filtration and sedimentation | ||
| Mixing and Agitation | ||
| Thickening and classification | ||
| Chemical process industries | Water | |
| Unit processes and applications | ||
| Coal | ||
| Industrial gases and carbon | ||
| Inorganic chemical industries and inorganic acid | ||
| Cleaner production technology and its uses and applications and processing | ||
| Chlor alkali and heavy inorganic industry | ||
| Natural products industries | ||
| Paints | ||
| Pigments | ||
| Biotechnology and its Application | ||
| Nitrogenous fertilizer industry | ||
| Process calculations and chemical engineering thermodynamics | Basic chemical calculations | |
| Material balance with and without chemical reactions | ||
| Energy balance | ||
| Conservation of energy and first law of thermodynamics | ||
| Properties of pure substances | ||
| Heat effects | ||
| Second law of thermodynamics | ||
| Thermodynamic properties of fluids | ||
| Thermodynamics of flow process | ||
| Phase equilibrium | ||
| Chemical equilibrium | ||
| Introduction to statistical thermodynamics and prediction method | ||
| Fugacity | ||
| Heat transfer | Conduction convection and radiation | |
| General laws of heat transfer | ||
| Natural convection | ||
| Heat transfer with phase change | ||
| Evaporation | ||
| Heat exchange equipments | ||
| General constructions | ||
| Extended surface equipment | ||
| Industrial furnaces | ||
| Mass transfer | Molecular and eddy diffusion in fluids | |
| Inter phase mass transfer | ||
| Gas absorption | ||
| Liquid-liquid extraction and leaching | ||
| Distillation | ||
| Humidification and dehumidification | ||
| Adsorption and ion exchange | ||
| Drying | ||
| Crystallization | ||
| Momentum | ||
| Momentum, heat and mass transfer analogies | ||
| Membrane separation techniques | ||
| Instrumentation and process control | Laplace transforms | |
| Response of first and second order systems | ||
| The control systems | ||
| Controllers and final control elements | ||
| Closed loop transfer functions | ||
| Stability | ||
| Control system design by frequency response | ||
| Controller mechanism | ||
| Setting of different modes of controllers | ||
| P and i process of instrumentation diagrams | ||
| Measurement of process variables | ||
| Sensors and their dynamics transfer functions and dynamic | ||
| Chemical reaction engineering | Kinetics of homogenous reactions | |
| Interpretation of kinetic data single and multiple reactions in ideal reactors | ||
| Non ideal reactors | ||
| Residence time distribution | ||
| Single parameter model | ||
| Non isothermal reactors | ||
| Mixing of fluids | ||
| Kinetics and design for non catalyzed | ||
| Heterogeneous system | ||
| Fluid fluid reactions | ||
| Fluid particle reactions | ||
| Solid catalyzed reactions | ||
| Fixed bed reactors | ||
| Slurry reactors | ||
| Industrial application | ||
| Plant design and economics | Process design aspects | |
| Selection of process equipments | ||
| Process auxiliaries | ||
| Process utilities | ||
| Plant location and layout | ||
| Cost estimation | ||
| Estimation of total product | ||
| Depreciation | ||
| Profitability | ||
| Cost indexes | ||
| Rate of return | ||
| Pay back period | ||
| Discounted cash flow | ||
| Optimization in design | ||
| Economic considerations in process and equipment design | ||
| Environment and safety | Various types of environmental pollution in general and in chemical and allied industry in particular | |
| Sources and causes of environmental pollution | ||
| Effect of pollution on environment | ||
| Methodologies for environmental pollution prevention | ||
| Fire and explosion hazards rating | ||
| Hazop and hazan | ||
| Petroleum refining and petrochemicals | Types of crude | |
| Evaluation of oil stocks and refinery product | ||
| Properties of crude and products | ||
| Processing of petroleum | ||
| Crude and refinery products | ||
| Thermal and catalytic cracking processes employed in refineries | ||
| Atmospheric and vacuum distillation | ||
| Treating operations of petroleum products | ||
| Oil fields and refineries in india | ||
| Manufacturing process of chemicals from c1, c2, c3, c4 compounds | ||
| Aromatics | ||
| Polymers | ||
| Engineering problems | ||
| Polymer technology | Monomers | |
| Functionality, degree of polymerizations | ||
| Degree of polymerizations | ||
| Classification of polymers | ||
| Glass transition | ||
| Melting transition | ||
| Criteria for rubberiness | ||
| Polymerization methods | ||
| Addition and condensation and their kinetics | ||
| Metallocene polymers and other newer techniques of polymerization, copolymerization, monomer reactivity ratios and its significance | ||
| Copolymerization | ||
| Monomer reactivity ratios and its significance | ||
| Kinetics | ||
| Kinetics, different copolymers, random, alternating, azeotropic copolymerization | ||
| Random | ||
| Alternating | ||
| Azeotropic copolymerization | ||
| Block and graft copolymers | ||
| Techniques for copolymerization-bulk | ||
| Solution | ||
| Suspension | ||
| Emulsion | ||
| Polymer compounding-need and significance | ||
| Different compounding ingredients for rubber and plastics | ||
| Crosslinking and vulcanization | ||
| Vulcanization kinetics | ||
| Polymer processing | Compression molding | |
| Transfer molding | ||
| Injection molding | ||
| Blow molding | ||
| Reaction injection molding | ||
| Extrusion | ||
| Pultrusion | ||
| Calendaring | ||
| Rotational molding | ||
| Thermoforming | ||
| Rubber processing in two roll mill | ||
| Internal mixer |
| Section | Unit | Topic |
|---|---|---|
| Engineering mathematics | Linear algebra | Matrix algebra |
| Systems of linear equations | ||
| Eigen values and Eigen vectors | ||
| Calculus | Functions of single variable | |
| Limit | ||
| Continuity and differentiability | ||
| Mean value theorems | ||
| Evaluation of definite and improper integrals | ||
| Partial derivatives | ||
| Total derivative | ||
| Maxima and minima | ||
| Gradient | ||
| Gradient, divergence and curl | ||
| Vector identities | ||
| Directional derivatives | ||
| Line | ||
| Line, surface & volume integrals | ||
| Stokes, Gauss and Green’s theorems | ||
| Gauss and Green's theorems | ||
| Differential equations | First order equations | |
| Higher order linear differential equations with constant coefficients | ||
| Cauchy's and Euler's equations | ||
| Initial and boundary value problems | ||
| Laplace transforms | ||
| Solutions of one dimensional heat and wave equations and Laplace equation | ||
| Complex variables | Analytic functions | |
| Cauchy's integral theorem | ||
| Taylor and Laurent series | ||
| Probability and Statistics | Definitions of probability and sampling theorems | |
| Conditional probability | ||
| Mean | ||
| Median | ||
| Mean, median, mode & standard deviation | ||
| Random variables | ||
| Poisson, normal & binomial distributions | ||
| Normal and binomial distributions | ||
| Numerical methods | Numerical solutions of linear and non -linear algebraic equations integration by trapezoidal and simpson’s rule | |
| Single and multi-step methods for differential equations | ||
| Environmental engineering | Gravimetric analysis, titrimetric analysis and instrumental analysis | Significance of ph |
| Solids | ||
| Acidity | ||
| Aklanity | ||
| Cod | ||
| Do | ||
| Bod | ||
| Hardness | ||
| Sulphate | ||
| Fluoride | ||
| Chloride | ||
| Turbidity | ||
| Spectrophotometry | ||
| Colorimetry | ||
| Chromatography | ||
| Water supply and sewage system | Design of water distributions system | |
| Sources of water and it’s quality | ||
| Water supply and sewage system | Design of sewage collection system | |
| Water and wastewater treatment | Primary, secondary and tertiary treatment | |
| Screens | ||
| Grit chamber | ||
| Coagulation | ||
| Flocculation | ||
| Sedimentation | ||
| Biological treatments of wastewater | ||
| Aidsorption | ||
| Water and wastewater treatment | Disinfection | |
| Filtration | ||
| Water softening | ||
| Reverse osmosis | ||
| Ion exchange method | ||
| Sludge treatment and disposa | ||
| Air pollution | Sources and effects of air pollutants | |
| Criteria air pollutants | ||
| Effects of meteorological parameters on ambient air quality | ||
| Thermal inversion | ||
| Control of particulates | ||
| Ambient air quality standards and limits | ||
| Noise pollution | Noise as a pollutant | |
| Measurement of noise | ||
| Units of expressions | ||
| Effects of noise | ||
| Permissible limits | ||
| Environmental impact assessment and legislation | Sustainable development | |
| Eia as a four step activity | ||
| Need for eia | ||
| Eia notification 2006 and its requiremen | ||
| Epa 1986 | ||
| Water act 1974 | ||
| Air act 1986 hazardous | ||
| Waste management rules | ||
| Environmental audit | ||
| Industrial water pollution | Principles of water pollution control | |
| Reduction of strength and volume | ||
| Neutralization | ||
| Equalization | ||
| Discharge standards | ||
| Effluent standards | ||
| Stream standards | ||
| Effluent quality and treatment flow sheet for dairy industry | ||
| Textile process house and distillery | ||
| Municipal solid waste management | Municipal solid waste characteristic and quantities | |
| Composition and generation | ||
| Engineered system for solid waste management | ||
| Secured landfill site | ||
| Energy recovery |
| Section | Unit | Topic |
|---|---|---|
| Engineering mathematics | Linear algebra | Matrix algebra |
| Systems of linear equations | ||
| Eigen values and Eigen vectors | ||
| Calculus | Functions of single variable | |
| Limit | ||
| Continuity and differentiability | ||
| Mean value theorems | ||
| Evaluation of definite and improper integrals | ||
| Partial derivatives | ||
| Total derivative | ||
| Maxima and minima | ||
| Gradient | ||
| Gradient, divergence and curl | ||
| Vector identities | ||
| Directional derivatives | ||
| Line | ||
| Line, surface & volume integrals | ||
| Stokes, Gauss and Green’s theorems | ||
| Gauss and Green's theorems | ||
| Differential equations | First order equations | |
| Higher order linear differential equations with constant coefficients | ||
| Cauchy's and Euler's equations | ||
| Initial and boundary value problems | ||
| Laplace transforms | ||
| Solutions of one dimensional heat and wave equations and Laplace equation | ||
| Complex variables | Analytic functions | |
| Cauchy's integral theorem | ||
| Taylor and Laurent series | ||
| Probability and Statistics | Definitions of probability and sampling theorems | |
| Conditional probability | ||
| Mean | ||
| Median | ||
| Mean, median, mode & standard deviation | ||
| Random variables | ||
| Poisson, normal & binomial distributions | ||
| Normal and binomial distributions | ||
| Numerical methods | Numerical solutions of linear and non -linear algebraic equations integration by trapezoidal and simpson’s rule | |
| Single and multi-step methods for differential equations | ||
| Metallurgical engineering | Thermodynamics and rate processes | Laws of thermodynamics |
| Activity | ||
| Equilibrium constant | ||
| Applications to metallurgical systems and solutions | ||
| Phase equilibria | ||
| Ellingham and phase stability diagrams | ||
| Thermodynamics of surfaces | ||
| Interfaces and defects | ||
| Adsorption and segregation | ||
| Basic kinetic laws | ||
| Order of reactions | ||
| Rate constants and rate limiting steps | ||
| Principles of electro chemistry | ||
| Single electrode potential | ||
| Electro-chemical cells and polarizations | ||
| Aqueous corrosion and protection of metals | ||
| Oxidation and high temperature corrosion characterization and control | ||
| Heat transfer conduction | ||
| Convection and heat transfer coefficient relations | ||
| Radiation | ||
| Mass transfer diffusion and fick’s laws | ||
| Mass transfer coefficients | ||
| Momentum Transfer Concepts of Viscosity | ||
| Shell balances | ||
| Bernoulli's equation | ||
| Friction factors | ||
| Extractive metallurgy | Minerals of economic importance | |
| Comminution techniques | ||
| Size classification | ||
| Flotation | ||
| Gravity and other methods of mineral processing | ||
| Agglomeration | ||
| Pyro-hydro and electrometallurgical processes | ||
| Material and energy balances | ||
| Principles and processes for the extraction of non ferrous metals aluminium, copper, zinc, lead, magnesium, nickel, titanium and other rare metals | ||
| Role structure and properties of slags | ||
| Metallurgical coke | ||
| Blast furnace | ||
| Direct reduction processes | ||
| Primary and secondary steel making | ||
| Ladle metallurgy operations including deoxidation | ||
| Desulphurization | ||
| Sulphide shape control | ||
| Inert gas rinsing and vacuum reactors | ||
| Secondary refining processes including aod, vad, vod, var and esr | ||
| Ingot and continuous casting | ||
| Stainless steel making | ||
| Furnaces and refractories | ||
| Physical metallurgy | Crystal structure and bonding characteristics of metals | |
| Alloys | ||
| Ceramics and polymers | ||
| Structure of surfaces and interfaces | ||
| Nano crystalline and amorphous structures | ||
| Solid solutions | ||
| Solidification | ||
| Phase transformation and binary phase diagrams | ||
| Principles of heat treatment of steels, cast iron and aluminum alloys | ||
| Surface treatments | ||
| Recovery | ||
| Recrystallization and grain growth | ||
| Industrially important ferrous and non ferrous alloys | ||
| Elements of X-ray and electron diffraction | ||
| Principles of scanning and transmission electron microscopy | ||
| Industrial ceramics | ||
| Polymers and composites | ||
| Electronic basis of thermal and optical, electrical and magnetic properties of materials | ||
| Electronic and opto-electronic materials | ||
| Mechanical metallurgy | Elasticity, yield criteria and plasticity | |
| Defects in crystals | ||
| Elements of dislocation theory types of dislocations | ||
| Slip and twinning | ||
| Source and multiplication of dislocations | ||
| Stress fields around and dislocations | ||
| Partial dislocations | ||
| Dislocation interactions and reactions | ||
| Strengthening mechanisms | ||
| Tensile | ||
| Fatigue and creep behaviour | ||
| Super-plasticity | ||
| Fracture griffith theory | ||
| Basic Concepts of Linear Elastic and elasto plastic fracture mechanics | ||
| Ductile to brittle transition | ||
| Fracture toughness | ||
| Failure analysis | ||
| Mechanical testing tension | ||
| Compression | ||
| Torsion, bending and flexural shear of thin-walled sections | ||
| Hardness | ||
| Impact and creep | ||
| Fatigue | ||
| Fracture toughness and formability | ||
| Manufacturing processes | Metal casting patterns and moulds including mould design involving feeding | |
| Gating and risering | ||
| Melting | ||
| Casting practices in sand casting | ||
| Permanent mould casting | ||
| Investment casting and shell moulding | ||
| Casting defects and repair | ||
| Hot, warm and cold working of metals | ||
| Metal forming | ||
| Fundamentals of metal forming processes of rolling | ||
| Forging and extrusion | ||
| Wire drawing and sheet metal forming | ||
| Defects in forming | ||
| Metal joining | ||
| Soldering | ||
| Brazing and welding | ||
| Common welding processes of shielded metal arc welding | ||
| Gas metal arc welding | ||
| Gas tungsten arc welding and submerged arc welding | ||
| Welding metallurgy | ||
| Problems associated with welding of steels and aluminium alloys | ||
| Defects in welded joints | ||
| Powder metallurgy | ||
| NDT using dye penetrant | ||
| Ultrasonic | ||
| Radiography | ||
| Eddy current | ||
| Acoustic emission and magnetic particle methods |
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