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MPPSC State Engineering Services 2023 Exam - Dates, Application, Eligibility, Syllabus & Pattern, Result, Cut off
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About MPPSC State Engineering Services 2023
Madhya Pradesh Public Service Commission (MPPSC) conducts the State Engineering Service Exam in three phases - prelims, mains and interview. Candidates between 21 to 40 years of age and must hold a Bachelor's Degree in Engineering from any recognized university can apply for the available posts. The application form of MPPSC State Engineering Service Exam 2023 can be filled by the eligible candidates in online mode only. Along with the filling of the application form, candidates must also pay the application fee of Rs. 1200 (general candidates) and Rs. 600 (SC/ST/OBC/candidates domiciled in MP). MPPSC State Engineering Service Exam 2023 is conducted at various centres in Madhya Pradesh. All those candidates who qualify in the prelims exam of MPPSC State Engineering Service Exam have to appear in the mains examination. The mains qualified candidates have to further appear for an interview which will be marked out of 75. Candidates who qualify in the interview are shortlisted for the final recruitment of MPPSC State Engineering Service. Candidates who qualify for the available post are given a pay of Rs. 15600 - 39100 + 5400 grade pay. Along with this, various allowances are also provided as prescribed by the examination authority.
MPPSC State Engineering Services 2023 Highlights
Full Exam Name | Madhya Pradesh PSC State Engineering Service Exam |
Short Exam Name | MPPSC State Engineering Services |
Conducting Body | Madhya Pradesh Public Service Commission |
Frequency of Conduct | Once a year |
Exam Level | State Level Exam |
Languages | English, Hindi |
MPPSC State Engineering Services Prelims - Duration | 2 Hours |
Number of Seats | 36 Seats |
MPPSC State Engineering Services 2023 Important Dates
MPPSC State Engineering Services (Session 2022)
Upcoming Dates and Events
22 May, 2024
(Target 2022) - Admit Card - Interview | Mode: Online
18 Jun, 2024 - 19 Jun, 2024
(Target 2022) - Interview - Assistant Engineer (Agriculture) | Mode: Online
MPPSC State Engineering Services 2023 Eligibility Criteria
MPPSC State Engineering Services Prelims Eligibility Criteria
Before filling the MPPSC State Engineering Services prelims application form, candidates must ensure that they meet the eligibility criteria. At any stage, if it is found that the information furnished by the candidate is incorrect, their candidature will be nullified. The basic eligibility criteria require the candidate to possess a degree in mechanical/ civil (as per the post they wish to apply for) engineering from a recognized university. Students in the final year of Civil/ Mechanical engineering can also apply for MPPSC State Engineering Services Prelims on provisional basis . The age criteria of MPPSC State Engineering Services Prelims states that candidates must be between 21-25 years. However, the upper age limit has been relaxed up to 5 years for candidates belonging to Madhya Pradesh.
MPPSC State Engineering Services 2023 Application Process
MPPSC State Engineering Services Prelims Application Details
Mode of Application : Online
Mode of Payment : Net Banking | Credit Card | Debit Card
The MPPSC State Engineering Services prelims application form will be available in online mode. Candidates who wish to edit their application forms must meet the eligibility criteria determined by the examination authority. Any rectification will charge Rs. 50 each. Candidates must enter their valid e-mail IDs and phone number while filling the MPPSC State Engineering Services Prelims application form as the commission will contact them regarding various exam details via e-mail and text message.
Given below are the pre-requisites for filling the application form:
Scanned photograph
Scanned signature
Net banking details
Debit card/ credit card
After filling in the correct information and uploading the mandatory documents, candidates must click on 'Submit' to view the popup window displaying their personal and educational details. In case of any mistakes, candidates can click on the ‘Cancel’ button and rectify them. After successfully registering, candidates will receive an application number which must be noted for future reference. Payment of application fees will be the concluding step of filling the MPPSC State Engineering Services prelims application form.
Application Fees
Category | Quota | Mode | Gender | Amount |
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General | Online | Transgender, Male, Female | ₹ 500 | |
ST, SC, OBC | Online | Transgender, Male, Female | ₹ 250 |
MPPSC State Engineering Services 2023 Syllabus
MPPSC State Engineering Services Prelims Syllabus
General studies
History culture and literature of Madhya Pradesh |
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Important historical events and major dynasties of Madhya Pradesh |
Contribution of Madhya Pradesh in the independence movements |
Art, architecture, and culture of Madhya Pradesh |
Main tribes and dialects of Madhya Pradesh |
Main festivals, folk music, and folk art of Madhya Pradesh |
Important literary figures of Madhya Pradesh and their literature |
Main tourist places of Madhya Pradesh |
Important personalities of Madhya Pradesh |
Geography of the Madhya Pradesh |
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Forest, mountain, and rivers of Madhya Pradesh |
Climate of Madhya Pradesh |
Natural and mineral resources of Madhya Pradesh |
Energy resources: Conventional and non-conventional |
Main irrigation and power projects of Madhya Pradesh |
Politics and economy of Madhya Pradesh |
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Political system of Madhya Pradesh (governor, cabinet, legislative assembly) |
Panchayati Raj in Madhya Pradesh |
Social system of Madhya Pradesh |
Demography and census of Madhya Pradesh |
Economic development of Madhya Pradesh |
Main industries of Madhya Pradesh |
Agriculture and agri based industries in Madhya Pradesh |
Current events of international, national, and Madhya Pradesh |
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Important contemporaneous events |
Famous sports competitions; awards and sports institution of the state and country |
Welfare schemes of Madhya Pradesh state |
Famous personalities and places |
Information and communication technology |
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Electronics, computers, information, and communication technology |
Robotics, artificial intelligence, and cyber security |
E-governance |
Internet and social networking site |
E-commerce |
MPPSC State Engineering Services Mains Syllabus
Civil engineering
Structural analysis |
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Stress, plane stress, strains, plane strain, Mohr’s circle of stress and strain, elastic theories of failure, principal stresses, bending, shear, and torsion, determinate and indeterminate structures, degrees of freedom, static and kinematic indeterminacy |
Principal of superposition, virtual work, energy theorem, deflection of trusses, redundant frames |
Steel structural design |
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Factors of safety and load factors |
Riveted and welded connections of members, design of tension, compression and flexural members, built-up beams and plate girder slab and gusseted bases for columns, design of roof trusses, purling and coverings, structural steel tubes and their connection |
Plastic design of continuous beams and frames |
Reinforced concrete design |
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Working stress and limit state methods for design of rectangular, T and L beams, slabs, and columns isolated and combined footing, raft foundation |
Overhead, resting on ground and underground water tanks, method and system of prestressing, anchorages losses in prestress, design of prestressed concrete beams |
Principles of prestressed concrete design including materials and methods; earthquake resistant design of structures; design of masonry structure |
Construction planning and management |
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Construction materials, detailed estimates, specifications, analysis and rates of various works in civil engineering, construction activity, scheduling through CPM and PERT analysis, cost optimization through network construction, float times, bar charts |
Cost analysis and resource allocation, types of tenders and contract conditions, analysis of rates of various types of works; quality control, productivity, operation cost; land acquisition; labour safety and welfare |
Environmental engineering |
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Water demand-per capita demand, population estimation methods, water quality criteria for various uses viz, domestic and non-domestic, irrigation effects and significance of important parameters and permissible concentration as per relevant standards |
Transmission of water |
A.C. pressure pipes, corrosion of pipes types and methods of control systems of distribution and layouts of distribution |
Unit processes and operation of water treatment viz, objectives and design criteria of sedimentation, coagulation flocculation, chemical sedimentation |
Filtration (slow sand and rapid sand), disinfection and softening |
Quantity and characterization of domestic sewage significance of BOD, COD, DO, solids, TOC, effluent standards, river standards, sewage system-design of sewers and storm sewer, design of screens, grit chambers, design of primary sedimentation tanks |
Design of biological treatment units viz., trickling filters, activated sludge treatment and secondary sedimentation tank, water stabilization ponds aerobic, anaerobic and facultative ponds, design criteria, and principles |
Sludge treatment-digestion and sludge disposal, septic tanks-design criteria and working, self-purification of streams-oxygen sag curve, types of pollution-sources and effects of various pollution viz., water, air, land, and noise, relevant standards |
Rural sanitation, solid waste-collection and disposal |
Sewage collection and disposal; plumbing systems |
Components and layout of sewerage system; planning and design of domestic wastewater disposal system; sludge management including treatment, disposal and re-use of treated effluents |
Industrial waste waters and effluent treatment plants including institutional and industrial sewage management |
Water resource engineering |
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Water resources in the globe, available fresh water |
Need for optimum use of available water, schemes for drinking, irrigation, hydro power, and multipurpose schemes |
Irrigation: Necessity, scope, benefits, and effects. Methods and systems of irrigation, their efficiencies, water distribution and scheduling techniques. Crop water requirements, evapotranspiration, consumptive use, duty, delta, base period their relation |
Irrigation: Quality of irrigation water |
Hydrology: Hydrological cycle, precipitation-types, measurement, rain gauge network, analysis of precipitation data, unit hydrograph, summation and synthetic hydrograph, design flood by UH and frequency studies |
Ground water: Classes and availability of soil moisture. Aquifers-confined and unconfined. Open and tube wells, radial flow in wells, Dupuit's theory, Darcy's law, seepage analysis using flow nets, yield of wells determination |
Storage schemes: Reservoir planning, capacity, yield life, gravity and earthen dams. Forces acting, modes of failures, stab criteria, design. Spillway, types, design of ogee and syphon spillway, energy dissipation devices, stilling basins |
Diversion schemes: Structures on pervious formations, Bligh’s and Khosla’s theory, hydraulic jump, design of vertical drop weir, and barrage |
Distribution system: Canals-classification, layout alignment, capacity, design of canals, silt theories, canal regulation structures, design of head and cross regulators, canal falls, cross drainage works and outlets, escapes |
Water logging: Causes, effects, remedial measures, losses in canals, canal lining, types. Advantages, conjunctive use of surface and groundwater |
River training: Objective and methods, concepts of hydropower projects |
Fluid mechanics |
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Fluid properties; dimensional analysis and modeling; fluid dynamics including flow kinematics and measurements; flow net; viscosity, boundary layer and control, drag, lift, open channel flow, pipe flow, principles in open channel flow, flow controls |
Hydraulic jump; surges; pipe networks |
Railways engineering |
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Permanents way, sleepers, rail fastenings, ballast, points and crossings, different types of turn and outs |
Signals and interlocking river crossing |
Maintenance of track, super-elevation, creep of rails, ruling gradients, track resistance |
Tractive efforts, curve resistance |
Highways and airports |
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Principles of highway planning, highway alignments |
Geometrical design, cross-section |
Camber, super-elevation |
Horizontal and vertical curves, classification of roads |
Design and construction of flexible and rigid pavements for highway and airfields |
Evaluation of pavement failure and strengthening drainage of roads |
Traffic engineering: Traffic surveys, highway capacity, intersections, rotary design elements, signs, signals and markings |
Selection of airport sites, wind rose diagram and runway orientation |
Runway and taxiway geometric and lightning |
Bridge engineering: Selection of sites design data collection, hydraulic design, scour depth for bridge foundation, economies span. Type of road and railway bridge, design load and forces |
Geotechnical engineering |
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Index properties of soil, classification of soils, clay minerals |
Capillary water, permeability, factors affecting permeability, lab and field methods, permeability of stratified soil deposits |
Seepage pressure, quick sand condition, flow nets, its properties, and uses |
Stress distribution in soils, Boussinesq’s theory |
Newmark’s chart, consolidation and settlement: Terzaghi’s theory, consolidation test. Settlement computation. Time settlement curves |
Compaction tests and their significance, factors affecting compaction |
Shear strength parameters, shear tests, Mohr coulomb’s failure theory, Skempton’s pore pressure coefficients |
Earth pressure at rest, active and passive pressure, Rankine and coulomb's theory |
Bearing capacity, Terzaghi's analysis, factors affecting bearing capacity, plate load test |
Stability of slopes, swedish slip circle method and Bishop's simplified method |
Stability number |
Subsurface exploration method, sampling, SPT, DCPT, and static cone penetration test, electrical resistivity and seismic method |
Essential features of foundations |
Types, design, criteria, rafts, pile foundation, types of piles, pile capacity, pile load test, and group action |
Static/ dynamic formulae |
Ground improvement techniques, sand drains, soil stabilization, geotextiles |
Mechanical engineering
Engineering mechanics and mechanics of solids |
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Resultant of a force system; free body diagram and equilibrium; analysis of axially loaded components; stress and strain in two dimension; Mohr's circle; stress-strain-temperature relations; shear force and bending moment diagrams; stresses in beams |
Torsion of circular shaft; basic equations of elasticity; deflection of beams; buckling of column using Euler's theory; theories of failure; thin pressure vessels |
Theory of machines |
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Introduction to different types of mechanisms; analysis of displacement, velocity and acceleration (maximum four bar links); inversion of mechanisms; power transmission by belt, drive; analysis of simple band brakes; gears: Nomenclature, law of gearing |
Gears: Tooth profiles, interference; epicyclic gear trains; cam and followers; balancing of rotating and reciprocating masses; free and forced vibration of single degree of freedom system with damping; whirling of shafts |
Gyroscopic stability of shafts, ships and aeroplane |
Design of machine elements |
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Fundamentals of machine design: Design for static loading, design for dynamic loading, and low and high cycle fatigue; design of bolted, riveted, and welded joints; design of shafts; design of helical springs; design of rigid and flexible couplings |
Fundamentals of machine design: Design of clutch for uniform pressure and uniform wear |
Production engineering |
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Chip formation mechanism, chip types, chip control; tool geometry of single point cutting tool, merchant's circle force analysis; cutting tool wear and tool life, wear mechanisms, wear criterion, Taylor's tool life equation, variables affecting tool life |
Machinability and Its measures, economics of machining; advanced machining processes such as abrasive jet machining (AJM), ultrasonic machining (USM), electrochemical machining (ECM), electro-discharge machining (EDM) |
Electron beam machining (EBM) and laser beam machining (LBM); limits, fits, and dimensional and geometrical tolerances; computer vision system based measurement, coordinate measuring machines; surface roughness terminology |
Different methods of surface roughness measurement |
Production management |
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Production planning and control: Functions, forecasting/ routing, operations planning; gantt chart, work order, dispatching and follow-up; CPM and PERT techniques; inventory control: Purchasing and storing, economic lot size, ABC analysis |
Different types of models, formulation of linear programming problems (LPPS), simplex algorithm, assignment models: Transportation problems; simple queuing problems; control charts for variables and attributes |
Thermodynamics |
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Basic concepts; First law of thermodynamics for open, and closed system; thermodynamic properties; second law of thermodynamics; entropy and entropy generation; availability and energy; gas power cycle; vapor power cycle |
Fluid mechanics machines |
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Basic concepts; continuity, momentum and energy equations; flow through pipes; velocity distribution in laminar and turbulent flow; non dimensional numbers; boundary layer on a flat plate; adiabatic and isothermal flow of compressible fluids |
Hydraulic turbines; impulse and reaction turbine; velocity diagram of hydraulic turbines; specific speed |
Heat transfer, refrigeration, and air conditioning |
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Basic laws of heat transfer; overall heat transfer coefficient, heat conduction through walls and pipes; critical conduction; heat transfer through fins of different types; dimensionless numbers; lumped body heat transfer; free and forced convection |
Radiation heat transfer; concept of black and gray body; view factor; heat exchanger classification, effectiveness of parallel counter and cross flow heat exchanger, LMTD and NTU approach; fouling factor |
Energy conversion systems |
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Theories of combustion in compression ignition and spark ignition engines; octane number and cetane number; abnormal combustion and shooting; carburetion and fuel injection; emission from engine and their control; modern trends in IC engines |
Classification of steam turbines; and gas turbines; pressure and velocity compounding; nuclear power plant; renewable energy sources |
Computer aided engineering |
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Introduction to CAD, 2D, and 3D drawing concepts; computer aided manufacturing NC and CNC machines, methods of part programming, elements of robotics and automated material, handling systems; FMS and expert systems |
Electrical engineering
Circuit theory |
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Circuit components, network graphs, Kirchhoff's current law (KCL), Kirchhoff's voltage law (KVL), circuit analysis methods: Nodal analysis, mesh analysis, basic network theorems; transient analysis: RL, RC, and RLC circuits |
Sinusoidal steady state analysis, resonance, quality factor, balanced three-phase circuit analysis |
Frequency domain analysis, Laplace's transform, Fourier series (trigonometric and exponential) |
Two-port networks and their various parameters; poles and zeros driving point and transfer function |
Passive filter design |
Electromagnetic field theory and materials |
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Electrostatic and magnetostatic field, Laplace's, and Poisson's equations, boundary value problems and solutions; Maxwell's equation, electromagnetic wave propagation: Reflection and refraction of plane waves |
Poynting vector, wave propagation through dielectrics and band-theory; intrinsic and extrinsic semiconductors, p-n junction; solar cells, superconductivity |
Dielectric behavior of materials: Polarization phenomena; piezoelectric phenomena |
Magnetic material, superconductivity |
Measurement and instrumentation |
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Error analysis, measurement of current, voltage, power, energy, power factor, resistance, inductance, capacitance, and frequency analysis of bridges |
Electronic measuring instruments: Multimeter, Cathode ray oscilloscope (CRO), digital voltmeter, frequency counter, Q-meter transducers, measurements of non-electrical quantities by electrical methods, measurement of displacement, temperature |
Electronic measuring instruments: Velocity, pressure, signal conditioning, data acquisition system |
Analog and digital electronics |
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Characteristics and equivalent circuits (for small and large signals concept for diode, bipolar junction transistor (BJT), junction gate field-effect transistor (JFET), and metal-oxide-semiconductor field-effect transistor (MOSFET) clipping |
Clamping and rectifier circuits, biasing and bias stability |
Amplifiers: Single and multi-stage, differential, operational, feedback, and power. Analysis of amplifiers; frequency-response of amplifiers. Operational amplifier (OPAMP) circuits |
Filters; sinusoidal oscillators: Criterion for oscillation; single-transistor and OP AMP configurations |
Function generators and wave-shaping circuits |
Power supplies |
Boolean algebra, Boolean function minimization |
Logic gates, combinatorial circuits: Arithmetic circuits, code converters, multiplexers and decoders, sequential circuit: Latches and flip flops, counters, shift registers, comparators, timers, multivibrators, sample and hold circuits, ADCs and DACs |
Semiconductor memories, logic implementation using programmable devices (ROM, PLA etc) |
Power electronics |
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Semiconductor power devices: Diode, transistor, silicon controlled rectifier (SCR), triac, gate turn-off thyristor (GTO), MOSFET and Insulated-gate bipolar transistor (IGBT), triggering circuits, gate driver circuits |
Phase control rectifiers, inverters, and DC-DC converters, bridge convertors: Fully controlled and half controlled, principles of choppers and inverters |
Signals and systems |
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Representation and classification of signals and systems; linear time invariant (LTl) systems; convolution, impulse response; time-domain analysis of LTl systems based on convolution and differential equations, Fourier transform, Laplace transform |
Z transform, transfer function, sampling of signals, discrete Fourier transform (DFT), fast Fourier transform (FFT), processing of analog signals through discrete time systems |
Control system |
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Fundamental of control systems, block diagram algebra, signal flow graph and Mason's gain formula, linear-time invariant (LTl) systems; time-domain and frequency-domain response |
Proportional, proportional-integral (PI) and proportional-integral-derivative (PID) control strategies |
Stability analysis; Routh-Hurwitz criterion, Nyquist criterion, design of lead-lag compensators, state space models, controllability and observability |
Principles of discrete control systems |
Microprocessors and microcomputers |
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8 bit microprocessor 8085: Architecture, instructions set, CPU, module design, memory interfacing and I/O, interrupts, PPI 8255 |
Electromechanical energy conversion, industrial drives, and utilization |
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Principles of electromechanical energy conversion, torque and electromotive force (EMF) in rotating machines, characteristics and performance analysis of D.C. machines and their starting and speed control |
Transformers: Principles of operation and analysis, regulation, three-phase transformer, three-phase induction machines, and synchronous machines: Their characteristics and performance analysis, speed control |
Special machines: Stepper motors, brushless D.C. motors, switched reluctance motors, permanent magnet motors, single phase induction motor (fractional-horsepower motor (FHP) motors): Performance and analysis |
Basic concepts of speed control D.C. and A.C. motor drives |
Applications of variable speed drives V/f control, quadrant operation of drives, concept of cycloconverter and dual converter fed A.C. and D.C. drive |
Rating and characteristic of traction motors, dielectric, and induction heating |
Power systems analysis and control, switchgear and protection |
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Performance evaluation of overhead transmission lines and cables, fundamentals of active and reactive power transfer, voltage control and power factor correction, bus admittance and impedance matrices, load flow study, economic operation of power system |
Symmetrical components, analysis of symmetrical and unsymmetrical faults, concept of stability, swing curve and equal area criterion, static volt-ampere reactive (VAR) systems, basic concepts of high voltage direct current (HVDC) transmission |
Series and shunt compensation, flexible alternating current transmission system FACTS, speed control of generators, tie line control and frequency control |
Principle of over current, differential and distance protection, concept of solid state relays and circuit breakers of various protection schemes for transmission lines, generator and transformer |
Protection against surges |
Power engineering
Fluid mechanics, machinery, and theory of machines |
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Introduction: Concept of fluids, continuum; density, viscosity, surface tension, vapour pressure. Fluid statics, kinematics, flow and measurements, viscous incompressible, internal viscous and principle of similarity |
Classification of fluid machines, rotodynamic machines, pumps, reciprocating machines, air compressors, mechanisms and machines, ink, kinematic pair (sliding/ rolling), classification, four bar mechanisms, inversion-slider crank |
Scotch yoke and oscillating cylinder mechanisms, velocity and acceleration analysis, balancing, critical speeds and vibrations, gyroscopes, cams, gears, gaynors, mechanics of deformable bodies |
Engineering thermodynamics and heat transfer |
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Fundamental concepts of system, control volume, state properties, equilibrium, processes |
Laws of thermodynamics, heat and work; state postulate; P-V-T behaviour of simple compressible substances; phase rule, equations of state; compressibility factor, internal energy and enthalpy, heat engine, heat pump, thermal efficiency, COP; Carnot cycle |
Maxwell equations; clapeyron equation; Clausius-Clapeyron equation, Joule Thomson coefficient; compressibility and expansion coefficient |
Compression of air and gases, air standard engine cycles, gas turbine cycles, vapour cycles, reversed Carnot cycle, binary vapour cycles |
Cogeneration cycles, psychometrics, combustion analysis, heat transfer: Conduction, convection, and radiation, heat exchangers: Types, parallel and counter flow types, introduction to LMTD |
Correction factors, fouling factor |
E-NTU method for heat exchangers |
Mathematics |
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Fourier series and transformation, calculus of complex variables, probability and statistics, graph theory |
Elements of electronics and electrical engineering |
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Digital electronics and integrated circuits (microprocessors and microcontrollers), electrical machines, circuit theory and network, electrical and electronic measurements, electrical equipment in power station, power transmission and distribution |
Control systems, high voltage engineering |
Thermal power plants |
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General layout of modem thermal power plant, site selection, presents status of power generation in India |
Rankine cycle-improvisations, layout of modern coal power plant, super critical boilers, FBC boilers, turbines, condensers, steam and heat rate, subsystems of thermal power plants-fuel and ash handling, draught system, feed water treatment |
Binary cycles and cogeneration systems |
Diesel, gas turbine, and combined cycle power plant |
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Otto, diesel, dual and Brayton cycle-analysis and optimization |
Components of diesel and gas turbine power plants |
Combined cycle power plants |
Integrated gasifier based combined cycle systems |
Hydro power plant |
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Fundamentals, potential of hydropower in India-its development and future prospect |
General hydrology-hydrological cycle, precipitation, run-off and its measurement, hydrography, unit hydrograph, flow duration and mass curve |
Site investigations |
Classification of hydroelectric power plants |
Pondage and storage |
Operating principles of different types of hydropower plants like run-off-the-river type |
Storage reservoir plant-pumped storage plant |
Design, construction and operation of different components: Dams spillways, canals, penstocks, surge tanks, draft tubes etc; power-house structure |
Selection of prime mover, speed and pressure regulation, methods of governing, starting and stopping of water turbines, operation of hydro turbines |
Machine loading and frequency control maintenance of hydropower plants |
Nuclear power plants |
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Basics of nuclear engineering, nuclear fusion and fission, chain reaction, nuclear fuels layout and subsystems of nuclear power plants, working of nuclear reactors: Components of nuclear reactor, classification of reactors, pressurized water reactor |
Working of nuclear reactors: Boiling water reactor, gas cooled reactor, CANDU reactor, fast breeder reactor, nuclear waste and its disposal, safety measures for nuclear power plants, nuclear power plants in India |
Power from renewable energy |
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Hydroelectric power plants-classification, typical layout and associated components including turbines |
Principle, construction and working of wind, tidal, solar photovoltaic (SPV), solar thermal, geothermal, biogas, and fuel cell power systems |
Energy, economics, and environmental issues of power plants |
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Power tariff types, load distribution parameters, load curve, load curves, load duration curves, connected load, maximum load, peak load, base load and peak load power plants, load factor, plant capacity factor, plant use factor, demand factor |
Diversity factor, cost of power plant, comparison of site selection criteria, relative merits and demerits, capital and operating cost of different power plants |
Performance and operating characteristics of power plant |
Pollution control technologies including waste disposal and management |
Production engineering
Engineering mathematics |
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Linear algebra, calculus: Differential equations-ordinary and partial, complex variables, probability and statistics, numerical methods |
General engineering |
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Applied mechanics: Engineering mechanics-equivalent force systems, free body concepts, equations of equilibrium; trusses; strength of materials-stress, strain and their relationship; failure theories, Mohr's circle (stress), deflection of beams |
Applied mechanics: Bending and shear stress, Euler's theory of columns |
Theory of machines and design: Analysis of planar mechanisms, cams and followers; governors and flywheels; design of bolted, riveted, and welded joints; interference/ shrink fit joints; design of shafts, keys, spur gears, belt drives |
Theory of machines and design: Brakes and clutches; pressure vessels |
Thermal and fluids engineering: Fluid mechanics-fluid statics, Bernoulli's equation, flow through pipes, equations of continuity and momentum, capillary action, contact angle and wetting; thermodynamics-zeroth, first, and second law of thermodynamics |
Thermal and fluids engineering: Thermodynamic system and processes, calculation of work and heat for systems and control volumes; air standard cycles; heat transfer-basic applications of conduction, convection, and radiation |
Engineering metallurgy |
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Engineering materials: Structure and properties correlation; engineering materials (metals, ceramics, polymers, and composites) properties and applications, mechanical metallurgy: Stress-strain behavior of metals and alloys; iron-carbon phase diagram |
Mechanical metallurgy: Heat treatment of metals and alloys, its influence on mechanical properties, mechanical testing-tension, compression, torsion, hardness, impact, creep, fatigue, fracture toughness, and formability |
Manufacturing processes-I |
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Casting: Types of casting processes and applications; patterns-types and materials; allowances; moulds and cores-materials, making, and testing; casting techniques of cast iron, steels, and nonferrous metals and alloys |
Casting: Analysis of solidification and microstructure development; design of gating and riser; origin of defects |
Metal forming: Stress-strain relations in elastic and plastic deformation; concept of flow stress; hot and cold working-forging, rolling, extension, and wire drawing; sheet metal working processes-blanking, bending, and deep drawing |
Metal forming: Ideal work and slab analysis; origin of metalworking defects |
Joining of materials: Principles of fusion welding processes (manual metal arc, MIG, TIG, plasma arc, submerged arc welding processes)-different heat sources (flame, arc, resistive, laser, electron beam), and heat transfer and associated losses |
Joining of materials: Flux application, feeding of filler rod; principles of solid state welding processes (friction, explosive welding, ultrasonic welding processes); principles of adhesive, brazing and soldering processes; origins of welding defects |
Powder processing: Production of metal/ ceramic powders, compaction and sintering of metals and ceramic powders |
Polymers and composites: Plastic processing-injection, compression, and blow molding, extrusion, calendaring, and thermoforming; molding of composites |
Manufacturing processes-II |
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Machine tools and machining: Basic machine tools like centre lathe, milling machine, and drilling machine-construction and kinematics; machining processes-turning, taper turning, thread cutting, drilling, boring, milling, gear cutting, thread production |
Machine tools and machining: Grinding; geometry of single point cutting tools, chip formation, cutting forces, specific cutting energy and power requirements, merchant's analysis; basis of selection of machining parameters; tool materials |
Machine tools and machining: Tool wear and tool life, economics of machining, thermal aspects of machining, cutting fluids, machinability; Jigs and fixtures-principles, applications, and design |
Advanced manufacturing |
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Non-traditional manufacturing: Principles, applications, effect of process parameters on MRR and product quality of non-traditional machining processes-USM, AJM, WJM, AWJM, EDM and Wire cut EDM, LBM, EBM, PAM, CHM, ECM |
Computer integrated manufacturing: Basic concepts of CAD-geometric modeling, CAM-CNC and robotics-configurations, drives, and controls, group technology and its applications-CAPP, cellular manufacturing, and FMS |
Metrology |
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Metrology and inspection: Limits, fits, and tolerances, gauge design, interchangeability, selective assembly; linear, angular, and form measurements (straightness, squareness, flatness, roundness, and cylindricity) by mechanical and optical methods |
Metrology and inspection: Inspection of screw threads and gears; surface finish measurement by contact and non-contact methods; tolerance analysis in manufacturing and assembly |
Quality and reliability |
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Quality management: Quality-concept and costs; quality assurance; statistical quality control, acceptance sampling, zero defects, six sigma; total quality management; ISO 9000 |
Statistical quality control: Process capability, control charts for attributes and variables (X-bar, R-chart, P-chart), reliability and maintenance: Reliability, availability, and maintainability; distribution of failure and repair times |
Reliability and maintenance: Determination of MTBF and MTTR, reliability models; determination of system reliability; preventive maintenance and replacement |
Operations research |
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Operation research: Linear programming-problem formulation, simplex method, duality, and sensitivity analysis; transportation and assignment models; network flow models, constrained optimization and Lagrange multipliers; Markovian queuing models |
Operation research: Dynamic programming; simulation-manufacturing applications |
Engineering economy and costing: Elementary cost accounting and methods of depreciation; break-even analysis, techniques for evaluation of capital investments, financial statements, time-cost trade-off, resource leveling |
Industrial engineering and operations management |
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Product life cycle; standardization, simplification, diversification, value engineering and analysis, concurrent engineering, work system: Taylor's scientific management, Gilbreth's contributions, work measurement, ergonomics |
Facility design: Location, layout, assembly line balancing, material handling systems, production control: Forecasting techniques-causal and time series models, moving average, exponential smoothing, trend and seasonality; aggregate production planning |
Production control: Master production scheduling; MRP and MRP-II; routing, scheduling and priority dispatching; push and pull production systems, concept of JIT manufacturing system; logistics, distribution, and supply chain management |
Production control: Inventory-functions, costs, classifications, deterministic inventory models, quantity discount; perpetual and periodic inventory control systems |
Project management-PERT and CPM |
Metallurgical engineering and materials science
Engineering mathematics |
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Linear algebra, calculus, vector calculus, ordinary differential equations, partial differential equations, data analysis, and interpretation |
Thermodynamics, rate, and kinetic of processes |
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Fundamentals of thermodynamics, basic kinetic laws, order of reactions, rate constants, and rate limiting steps |
Principles of electrochemistry, characterization, and control |
Heat transfer-conduction, convection, and heat transfer coefficient relations, radiation, concepts of viscosity, shell balances, Bernoulli's equation, friction factors; homogeneous reactions |
Ideal batch reactors, continuous stirred tank reactors, plug flow reactors |
Residence time and RTD |
Mixing |
Design of reactors, elements of mass transfer, diffusion in fluids, ordinary and Knudsen diffusion, pore size distribution |
Adsorption: Physical vs. chemical, adsorption isotherms, BET method |
Surface reactions and their kinetics |
Extractive and process metallurgy |
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Minerals of economic importance, comminution techniques, size classification, flotation, gravity etc; agglomeration, pyro-, hydro-, and electro-metallurgical processes; material and energy balancers |
Principles and processes for the extraction of non-ferrous metals; separation techniques |
Iron and steel making, concepts in process metallurgy such as calcination, gas producers and heat balance |
Material balance of slag, flux, and concentrates |
Physical metallurgy |
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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 |
Principles of heat treatment of steels, cast iron and aluminium alloys; surface treatments; recovery, recrystallization and grain growth; structure and properties of industrially important ferrous and non-ferrous alloys; ceramics; polymers, and composites |
Mechanical metallurgy |
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Elasticity, yield criteria, and plasticity; defects in crystals; theory of dislocation; strengthening mechanisms; tensile, fatigue and creep behaviour; superplasticity; fracture-Griffith theory |
Basic concepts of linear elastic and elasto plastic fracture mechanics, ductile to brittle transition, fracture toughness; failure analysis; mechanical testing |
Manufacturing processes |
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Metal casting, forming, and joining |
Solidification, powder metallurgy |
Characterization techniques |
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X-ray diffraction, spectroscopic techniques like UV-vis, IR, Raman |
Optical and electron microscopy, DTA, TGA, DSC, their working principles and applications |
Structure of materials |
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Metals, alloys, intermetallics, oxide and non-oxide ceramics, polymers, composites, semiconductors |
Atomic, molecular, crystal structures, and microstructure of materials |
Crystals (single and polycrystalline) and amorphous materials |
Structure-property correlations in materials |
Elements of crystal symmetry, point defects, dislocations, grain boundaries, surface energy and equilibrium shapes of crystals |
Processing of materials: Powder synthesis, sintering, chemical methods, crystal growth techniques, zone refining, preparation of nanoparticles and thin films, phase diagrams |
Properties of materials |
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Mechanical properties, electronic properties, magnetic properties, thermal properties, optical properties |
Elements of quantum mechanics and statistical mechanics |
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Postulates of quantum mechanics; uncertainty principle; Schrödinger equation; one-, dimensional potential problems; particle in a box, transmission through one dimensional potential barriers, harmonic oscillator, hydrogen atom; microstates and microstates |
Phase space; ensembles; partition function; Maxwell-Boltzmann distribution, Bose-Einstein statistics and Fermi-Dirac distribution |
Automobile engineering
Introduction to I.C. engines |
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Classification of I.C. engines, parts of I.C. engine and their materials, cycle of operation in four stroke and two-stroke I.C. engines and their comparative study; air standard cycles, fuel air cycles, actual working cycle, rotary engine concept |
Fuels and combustion |
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Combustion phenomenon in SI and Cl engines, ignition delay, flame propagation, pressure-crank angle diagram, abnormal combustion, auto ignition, detonation, and knocking |
Fuel supply system of SI engines: Mixture requirements, fuel-air ratio, simple carburettor and auxiliary circuits, injection systems: Single-point and multipoint injection, gasoline direct injection |
Fuel injection system of CI engines: Air injection systems, common rail, individual pump, distributor and unit systems |
Injection pumps, fuel injector, types of nozzle, electronically controlled unit fuel injection system |
Engine lubrication and cooling |
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Types of lubricants and their properties, SAE rating of lubricants, types of lubrication systems, necessity of engine cooling, disadvantages of overcooling, cooling systems and their comparison: Air cooling, liquid cooling |
Engine testing and performance |
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Measurement of brake power, indicated power, frictional power, fuel consumption, air flow, BMEP, performance characteristic of SI and Cl engine, effect of load and speed on mechanical, indicated thermal, brake thermal, and volumetric efficiencies |
Engine exhaust emission and its control |
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Constituents of exhaust emission and its harmful effect, on environment and human health, formation of NOx, HC; CO and particulate emissions, methods of controlling emissions; catalytic convertors, particulate traps, exhaust gas recirculation |
EURO and BHARAT norms, alternative fuels alcohol, hydrogen, natural gas and liquefied petroleum gas, biodiesel, biogas, merits, and demerits as fuels |
Chassis and transmission |
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Chassis types, types of frames, function requirements of flywheel and clutch, single-plate and multi-plate clutches, fluid coupling, purpose and necessity of gear box, constant mesh, sliding mesh and synchromesh gear box, torque converters |
Rear-wheel drive and front-wheel drive layouts, universal joints, differential gears, four wheel drive system |
Braking, suspension, and steering |
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Requirement and types-block brakes, band brakes, hydraulic brake, air brake, endurance brake, types of suspension systems, shock dampers, steering mechanism, steering gears, wheel alignment angles, power-assisted steering, four-wheel steering |
Vehicle dynamics |
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Equation of simple spring mass system of two masses, road load, aerodynamics-drag, side force, lift force, rolling resistance, sources for vehicle vibration, vibration isolation, effects of damping the vibration, vibration absorbers |
Pitch and bounce motion frequencies, vehicle dynamic control, sensors for automobile control |
Automotive electrical and electronic systems |
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Battery and its requirement, charging system, electrical and electronic ignition systems, electronic control module, electronic spark timing, indication and warning devices, wipers, and other accessories |
Automotive maintenance and safety |
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Types of maintenance, repair and maintenance for common problems in engine, introduction to vehicle safety, basic concepts of vehicle safety, risk evaluation and communication, human error control, crash testing, anti lock braking system |
Introduction to motor vehicle rules and act |
Electronics and telecommunication engineering
Physical electronics, electron devices, and ICS |
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Electrons and holes in semiconductors, carrier statistics, mechanism of current flow in a semiconductor, Hall effect, junction theory; different types of diodes and their characteristics; bipolar junction transistor |
Switching characteristics of diodes and transistors; field effect transistors; power switching devices like SCRs, GTOs, power MOSFETs; basics of ICs-bipolar, MOS, and CMOS types; basics of optoelectronics |
Signals and systems |
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Classification of signals and systems, basic signals, system modelling in terms of differential and difference equations; state variable representation; Fourier series, Fourier transforms and their application to system analysis |
Convolution and superposition integrals and their applications; Z-transforms and their applications to the analysis and characteristics of discrete time systems; random signals and probability, correlation functions; spectral density |
Response of linear system to random inputs |
Network theory |
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Network analysis techniques: Network theorems. Transient response steady state sinusoidal response; network graphs and their applications in network analysis; network theorems, Tellegen's theorem, maxim power transfer |
Two port networks: Z, Y, h, and transmission parameters, combination of two ports, analysis of common two ports, network functions; parts of network functions, obtaining a network function from a given part |
Transmission criterion: Delay and rise time; Elmore's and other definition effect of cascading elements of network synthesis. Driving point and transfer functions. State equations for networks |
Electromagnetic theory |
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Analysis of electrostatic and magnetostatic fields; Laplace and Poisson's equations; boundary value problems and their solutions; Maxwell's equations: Application to wave propagation in bounded and unbounded media; transmission lines: Basic theory |
Transmission lines: Standing waves, matching applications, microstrip lines; basics of waveguides and resonators: Elements of antenna theory. Radar and optical fibers |
Electronic measurement and instrumentation |
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Basic concepts, standards and error analysis; measurements of basic electrical quantities and parameters; bridge measurement, Cathode ray oscilloscope, electronic measuring instruments and their principles of working: Analog and digital |
Electronic measuring instruments and their principles of working: Comparison characteristics and applications, transducers |
Signal converters, data acquisition, and conversion |
Analog electronic circuits |
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Transistor biasing and stabilization |
Small signal analysis |
Power amplifiers, frequency response |
Cascade amplifiers, wide banding techniques, feedback amplifiers, tuned amplifiers, and applications |
Oscillators, rectifiers, and power supplies, Op Amp and other linear integrated circuits and applications |
Pulse shaping circuits and waveform generators, 555 timer and its applications |
Digital electronic circuits |
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Transistor as a switching element, Boolean algebra, simplification of Boolean functions, Karnaugh map and applications, IC logic gates and their characteristics: IC logic families: DTL, TTL, ECL, NMOS, and CMOS gates and their comparisons |
Interfacing between TTL and MOS; combinational logic circuits; half adder, full adder; digital comparator, multiplexer, demultiplexer, ROM and their applications, various flip flops; different types of counters and registers; waveform generators |
A/D and D/A convertors, semiconductor memories: Organization and construction of RAM, SRAM, DRAM, RAMBUS ROM, PROM, EPROM, EEPROM, PAL, and PLAs etc |
Control systems |
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Modeling of dynamic systems; transient and steady state response of control systems; effect of feedback on stability and sensitivity; time-domain analysis of closed loop systems; solution of state equations; root locus techniques |
Frequency response analysis |
Concepts of gain and phase margins; constant-M and constant-N Nichol's chart; approximation of transient response from constant-N Nichol's chart; observability and controllability of systems |
Frequency-domain compensation |
Communication systems |
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Basic information theory; modulation and detection in analogue and digital systems; sampling and data reconstruction, quantization and coding; time division and frequency division multiplexing, equalization |
Optical communication: In free space and fiber optic; propagation of signals at HF, VHF, UHF, and microwave frequency; satellite communication; mobile and spread spectrum communication; digital switching systems |
Microwave engineering |
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Microwave tubes and solid state devices, microwave generation and amplifiers, waveguides, and other microwave components and circuits, microstrip circuits |
Microwave antennas |
Microwave networks and component transmission line ports of microwave networks |
Microwave measurements, masers lasers; microwave propagation |
Microwave communication systems-terrestrial and satellite based |
Computer engineering |
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Number systems; data representation; programming; elements of a high level programming language C |
Use of basic data structures; fundamentals of computer architecture; processor design; control unit design; memory organization |
I/o system organization |
Microprocessors: Architecture and instruction set of microprocessors 8085 and 8086 |
Input-output interfacing |
8051 interfacing, applications and serial communication |
Assembly language programming |
Microprocessor based system design: Typical examples |
Personal computers and their typical uses |
Computer engineering
Computer architecture, organization, parallel, and distributed computing |
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Number systems and coding schemes, Von-Neumann model: Introduction to computer hardware-block diagram of computer-CPU, IO, and memory and operating system; types of CPU; various I/O devices; buses and I/O mechanisms; memory hierarchy |
Hardware and software concepts; hard wired and micro programmed control; memory and fetch cycles; secondary storage systems; computer arithmetic: Number systems, integer arithmetic, floating point arithmetic; assembly and machine language programming |
PC architecture; digital logic design |
Introduction to multiprocessors |
Parallel computing-Flynn's classification; array processing; pipelining and multiprocessing; distributed computing fundamentals |
Computer programming, data structures and object oriented analysis, and design |
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Fundamentals of computer programming, programming languages, programming environments, flowchart, algorithms, and pseudo coding; program design concept; various data types; control structures-sequence, condition, unconditional, iteration |
Recursive procedure and functions; data structures-arrays, strings, structures, pointers, files, linked lists, stack, queue, trees, graphs, records, sets; programming in C/ C++; object orientation concept-inheritance, polymorphism and data encapsulation |
Agents, responsibility, messages and methods; RDD and CRC; objects and classes; components and frameworks; coupling and cohesion; classes and methods in C++, Java, and small talk; basic concepts of UML; class diagrams |
Interaction diagrams and object diagrams, object-oriented databases, process-macro and micro process and pragmatics-management, planning, staffing, quality assurance |
Python, PHP |
System programming and operating systems |
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Introduction, concepts of system programs; system programming tools-Lex, YACC, Parsers; operating system concepts-types of OS; OS-functions services and policies; process management; multi thread programming, CPU scheduling |
Process coordination: Synchronization, deadlocks; I/O management; memory and storage management, virtual memory; file system and management; case study of DOS, Unix and windows |
Numerical computation, algorithm design, and complexity of computing |
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Errors-types and causes; handling techniques; root finding polynomials and transcendental equations; solution of linear systems of equations; Gauss elimination, Gauss Jordan and Gauss Seidel methods; interpolation methods, polynomials, rational functions |
Trigonometric, spline functions; curve fitting numerical differentiation and integration, extrapolation, Gaussian integration, Eigenvalues and Eigenvector computation, linear equations, Gaussian elimination, orthogonalization, data fitting |
Computer programming of numerical problems; C programs for numerical computation; time and space complexity of algorithms and programs, big-O, θ, big-Ω notations; complexity of sorting-heap sort, Fibonacci heaps, searching-binary search trees |
Red-black trees, amortized analysis, splash trees; matrix algorithms; dynamic programming; greedy methods; prune and search, divide and conquer method; asymptotic considerations; P, NP, NC classes of algorithms; NP-completeness |
Heuristic and non-deterministic approaches to algorithms; depth first, breadth first, branch and bound algorithms; A* and AO* algorithms shortest path computation; TSP |
Theoretical foundations of computing |
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Discrete structures-sets, logic; counting techniques and combinations; relations and functions; graphs and trees; algebraic systems-groups, rings, fields, lattices, and Boolean algebras; applications in computer science, regular languages-grammars |
Expressions, linear languages, context free languages-CKY and Earley's parsing algorithms; automata theory-finite state machine, push down automaton, context sensitive languages, recursively enumerable languages, tuning machine |
Formal language theory-Chomsky hierarchy; computability and decidability; theory of program correctness; predicate calculus |
Artificial intelligence and neural networks |
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Basic principles of AI-search, heuristics; non-determinism; computer-assisted decision making, pattern recognition, symbolic computation, representation schemes; genetic algorithms, programming in logic; neural network-foundations, neural models |
Classification of network, learning and training, supervised and unsupervised learning; fuzzy logic expert system overview and natural language and understanding concepts |
Database and information system |
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System analysis and design concepts; file types-sequential, indexed random access, and relative files; data models, schemes, instances; DBMS-types and application; database design concepts; normalization techniques; data redundancy and consistency |
Data description; manipulation and definition languages; RDBMS-concepts, constraints, schemas, SQL programming-complex queries, triggers views; relational algebra, calculus, SQL server; overview of Oracle; MS Office-Word, Excel, and Access |
Distributed databases |
Analytics-descriptive, predictive, prescriptive |
Computer networks and web engineering |
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Evolution of computer networks; ISO-OSI model; computer networking hardware channels and bandwidth considerations, computer network design-topology, protocols, information sharing techniques; routing algorithms; congestion, packet design |
Circuit and message switching, Ethernet, LAN, MAN, WAN features; internet, intranet, and extranet applications of computer networking; IPV4, IPV6, TCP, UDP, storage area networks, optical networking of computers, network simulation |
Network security fundamentals; error detection and recovery; computer networking standards |
Concepts of WWW, website development, markup language-HTML, DHTML features; applets and servlets; MVC architecture, client-server model of web development; types of servers-web server, application server and database server, database connectivity |
Scripting languages; basis features of JSP, ASP, and Java scripts; overview of J2EE-EJB and COM/ DCOM; front-end development; web services-XML technologies, Java frameworks |
Computer graphics and CAD |
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Overview of computer graphics, hardware and computer graphics software; shapes and transforms-line drawing algorithms; polygon and circle drawing, two dimensional and three dimensional transformations, hierarchical modeling; planes and surface description |
Line clipping; B-spline methods; animation graphics; computer graphics applications in CAD; basic features of autoCAD-viewing, layers, precision, snap tools, coordinates |
Software engineering and project management |
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Software development life cycle; process, requirements engineering; process models-iterative development; waterfall development; agile methodology, system modeling, software metrics; software testing and quality assurance |
Username analysis and architecture-centric design; project management, configuration and change arrangement, project management tools; project execution; risk management; project life cycle, SDLC, cost estimation and scheduling; man-power coordination |
Re-engineering |
MPPSC State Engineering Services 2023 Exam Pattern
MPPSC State Engineering Services Prelims Exam Pattern
The MPPSC State Engineering Services prelims exam consists of two papers carrying 500 marks in total. Candidates must score at least 40% to qualify the paper. However, candidates of reserved categories must score at least 30%. According to the MPPSC State Engineering Services prelims exam pattern, Section A of Paper 1 and Paper 2 will be bilingual. Section B and Section C will have questions written in Hindi and English respectively.
The MPPSC State Engineering Services Prelims exam pattern is given below:
Paper | Subject | Marks | Number of Questions | Time Duration |
Paper 1 | Section A- General Awareness about India with special focus on MP | 100 | 50 | 2 hours |
Section B- Hindi Language | 50 | 25 | ||
Section C- English Language | 50 | 25 | ||
Paper 2 | Aptitude about the subject chosen by the candidate (Civil/ Mechanical engineering) | 300 | 100 | 2 hours |
MPPSC State Engineering Services Mains Exam Pattern
Candidates who will qualify MPPSC State Engineering Services prelims exam will be further called to appear for Main examination. The Main examination of MPPSC State Engineering Services will be conducted for two papers, 300 marks for each paper so collectively it will be conducted for 600 marks.
MPPSC State Engineering Services 2023 Admit Card
MPPSC State Engineering Services Prelims Admit Card
The MPPSC State Engineering Services prelims admit card will be available in online mode, ten days prior to the date of examination. Candidates will be required to enter their application number and DOB on the portal to download their admit card. No candidate will be allowed to enter the exam hall without their The MPPSC State Engineering Services Prelims admit card.
MPPSC State Engineering Services 2023 Exam Centers
MPPSC State Engineering Services Prelims Exam Centers
State | City |
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Madhya Pradesh | Indore |
Bhopal | |
Gwalior | |
Jabalpur | |
Sagar | |
Ujjain | |
Satna | |
Rewa |
Documents Required at Exam
- Admit card
- Aadhaar card
- passport
- Pan card
MPPSC State Engineering Services 2023 Answer Key
MPPSC State Engineering Services Prelims Answer Key
The authorities will release the provisional MPPSC State Engineering Services prelims answer key. Candidates can challenge any answers within 7 days from the day of the issue of the answer key. The authorities will not entertain any requests to challenge any of the responses given in the MPPSC State Engineering Services Prelims answer key after the stipulated date. Candidates will have to pay Rs 100 each for every answer challenged and the amount is non-refundable. The decision of the commission is final. Only the challenges that are received online will be entertained by them.
The commission will take into account the following parameters while assessing the challenges that have been made to the responses:
1) If the response is incorrect in the MPPSC State Engineering Services prelims answer key and the correct alternative is available then, in such a case, the commission will rectify the answer key.
2)On the basis of the objections that are raised, the following questions will be deleted:
- Those questions whose correct answer is not available in the options.
- Those questions which have one or more correct answers.
No challenge will be accepted by the commission after the final M PPSC State Engineering Services Prelims answer key is published. Candidates will be evaluated or marked only for valid questions. The questions that have been removed will not be taken into account at the time of final calculation of the marks.
MPPSC State Engineering Services 2023 Result
MPPSC State Engineering Services Prelims Result
The MPPSC State Engineering Services prelims results will be available on this page as and when the authorities announce it. MPPSC has also made provisions of intimating the MPPSC State Engineering Services prelims result via e-mail and text message.
MPPSC State Engineering Services 2023 Cutoff
MPPSC State Engineering Services Mains Cutoff
Candidates who are determined for their selection in MPPSC State Engineering Services are required to secure minimum of 40% marks in each paper. Candidates belonging to OBC, SC, ST and resident of MP state will be given 10 % relaxation and they have to secure minimum 30% cut off in the mains examination
MPPSC State Engineering Services 2023 Selection Process
MPPSC State Engineering Services Mains Selection Process
Candidates who will secure the mains cut off MPPSC State Engineering Services exam will be further invited for the interview process. Three times total the number of vacancies will be further invited to appear for the interview process of MPPSC State Engineering Services exam.
General Information
Questions related to MPPSC State Engineering Services
Is B.TECH (INFORMATION TECHNOLOGY) eligible for MPPSC State Engineering Services 2020 ?
Hello,
The basic eligibility criteria require the candidate to possess a degree in mechanical/ civil engineering from a recognized university. Students in the final year of Civil/ Mechanical engineering can also apply for MPPSC State Engineering Services Prelims on provisional basis . The age criteria of MPPSC State Engineering Services Prelims states that candidates must be between 21-25 years. So no B.Tech students in Information Technology course is not eligible for MPSPC State Engineering Services 2020. Madhya Pradesh Public Service Commission (UPSC) conducts the MPPSC State Engineering Service Exam in three phases - prelims, mains and interview. Candidates between 21 to 40 years of age and must hold a Bachelor's Degree in Civil/ Mechanical Engineering.
anyone plz explain full exam pattern of mppsc state services examination
Hello Aspirant, It is not possible to tell you full exam pattern but I can tell exam and their marks.
There are 4 paper for General Studies for 3 hours and 300 marks.
Fourth and Fifth paper is of General hindi and Hindi essay of 2 hours and 200 Marks.
I am providing you a link by which you can download the paper.
https://neostencil.com/mppsc-exam-pattern-state-services-exam
can other state student aplicable from OBC
Dear Ganesh, you haven't mentioned which entrance exam are you enquiring about. Neverthless, if you are appearing for an entrance exam of a State which you do not hold a domicile of, you cannot avail reservation of that State. For example, if you belong to Gujarat and you want to appear for Maharashtra entrance exam, you are non local to Maharashtra and you cannot avail their State reservations even if you belong to OBC,SC,ST. In this case, if you do not belong to MP, you cannot avail OBC benefits of MP.
How prominently can I prepare for the mppsc state engineering services. which type of strong preparation stratedy does follow to ensure my selection in the upcoming exams. As I am currently pursuing a B.tech degree in Civil Engineering. And, I was in the secondier. so, please suggest me.Thank you.
Dear Mohnish, familiarize yourself with topics like Structure Analysis, Structure Design, Construction planning and management, Environmental Engineering, Water resources engineering, Transportation Engineering and Geotechnical Engineering. Practise previous question papers. Also because Paper 1 is about General Awareness and MP in specific, keep yourself updated by reading news papers. Also prepare yourself in Hindi and English Languages like vocabulary, grammar etc. Prepare more of MP History, Geography, Art, Culture, Economy, Political Science etc.