Syllabus of Engineering Services Exam

Syllabus of Engineering Services Exam

UPSC (Union Public Service Commission) conducts Exam for Engineering Services .

The Syllabus of Engineering Services Exam are....

A. Syllabus of Engineering Services [Prelims] Exam

	Name of Subject	Marks
Paper I	General knowledge and engineering ability	200
Paper II	Engineering Discipline ( Civil Engineering / Mechanical Engineering / Electrical Engineering / Electronics & Tele-Communication )	300

B. Syllabus of Engineering Services [Mains] Exam

	Name of Subject	Marks
Paper I	Engineering Discipline ( Civil Engineering / Mechanical Engineering / Electrical Engineering / Electronics & Tele-Communication )	300
Paper II	Engineering Discipline ( Civil Engineering / Mechanical Engineering / Electrical Engineering / Electronics & Tele-Communication )	300

a. Paper I - General Studies & Aptitude Syllabus

• Current Affairs - current events of national and international importance in the broad areas of culture, music, arts, literature, Sports, governance, societal and developmental issues, industry, business and Globalisation.


• Engineering Aptitude, Logical Reasoning and Analytical ability.


• Engineering Mathematics and Numerical Analysis.


• General design concepts, drawing, importance of safety.


• Standards and Quality practices in production, construction, maintenance and services.


• Energy and environment: conservation, environmental pollution and damage, climate change, environmental assessment.


• Basics of Project Management.


• Basics of Material Science and Engineering.


• Information and Communication Technology (ICT) based tools such as communication, e-government and educational technology and their applications in engineering.


• Ethics and values in engineering profession

Engineering Discipline Syllabus

Paper I - Civil Engineering Syllabus

1. Building Materials - Stone / Lime / Glass / Plastics / Steel / Ceramics / Aluminum / Fly Ash / Admixtures / Timber / Bricks / Aggregates - Classification and properties and selection criteria, Cement - its type and composition and performance and its use, properties and various tests; Lime, cement mortar and concrete: performance and various considerations; concrete mix design: aggregate proportions and mix design method.

2. Mechanics of Solids - elastic constant, tension, plane stress, strain, plane stress, stress and strain Mohr's circle, theory of elastic fracture, principal stress, bending, shear and torsion.

3. Examining the structure - the concept of material strength, stress and strain, moment and shear force, bending and shear stress; analysis of exact and uncertain models; trusses, beams, rafters; procedures by loading method such as rolling loads, line effects, units; free and forced vibration of single and multiple degrees of freedom systems; suspension cables; content and computer aided design.

4. Construction of steel structures - Tensile work elements, construction of tension and compression elements, construction of beam and column-column joints, fasteners, braces, roofs, structures for ultimate loads.

5. Stone and masonry construction - limited design case of bending, shear, axial compression and resultant forces; construction of columns, floors, lintels, foundations, retaining walls, water tanks, stairs; prestressed concrete design, including materials and methods; seismic design of structures; masonry design.

6. Construction, planning and management - including construction - planning, equipment, site supervision and management, forecasting and network analysis of different types of work using real-time control equipment; measurement of various functions; tender and contract management, Quality control, production, operating cost; land acquisition; job security and health.

Paper II - Civil Engineering Syllabus

1. Flow of Fluids, Hydraulic Machines and Hydro Power - Fluid Mechanics, Open Channel Flow, Pipe Flow - Fluid properties; Dimensional Analysis and Modeling; Fluid dynamics including flow kinematics and Measurement; flow networks; viscosity, boundary layer and control, drag, lift, open channel flow content, flow control. hydraulic jumps; fluctuations; pipe networks.
Hydraulic machinery and hydroelectric power - Pumps of all kinds, air tanks, water turbines - Types, classification and malfunctions; Power plant - Distribution and installation, storage, water retention, supply control.

2. Hydrology and Water Resources Engineering - hydrological cycle, groundwater hydrology, quality hydrology and data analysis; streams and their measurements; water morphology; floods, droughts and their control; reserve capital. Water management: various uses and potentials of water, sewage; water supply, water demand measurement; resources - storage and production; flooding, canals and wells, gravity dams, waterfalls, weirs, energy distributors, weirs, water distribution works, cross flow works and headers and their designs; details of canal design, construction and maintenance; water management, precipitation measurement and analysis.

3. Environmental Engineering - Water Supply Engineering - Water Resources, Testing, Quality Standards and Testing and Treatment; Rural, industrial and water resources; Physical, chemical and biological properties of water and resources, water-borne diseases and their effects, water demand forecasting; Drinking water Water samples, water treatment plants, water connections.
Wastewater engineering-domestic wastewater, wastewater treatment and disposal planning and design; piping system. Construction and installation of treatment plants; planning and construction of domestic wastewater treatment; sludge management, including treatment, disposal and reuse of wastewater; wastewater and sewage treatment, including industrial and wastewater management.
Solid Waste Management - Planning and development of waste sources and methods for classification and management; disposal methods, the benefits of waste and its use by public officials.
Air, Noise and Ecology - General concepts and techniques.

4. Geo-technical Engineering and Foundation Engineering - Geo-technical Engineering - Soil exploration - planning & methods, Properties of soil, classification, various tests and inter-relationships; Permeability & Seepage, Compressibility, consolidation, Slip resistance, soil pressure theory and soil stress distribution; Properties and usage areas of geosynthetics.
Foundation Engineering - Foundation type and model selection, capacity, settlement analysis, design and testing of shallow and deep foundations; Slope stability analysis, dams, dams and retaining structures: types, analysis and design, land development.

5. Surveying and Geology - Surveying - Classification of surveying, various methods, instruments and analysis of distance, height and direction measurements; field astronomy, global positioning systems; map preparation; photogrammetry; remote sensing concepts; culverts, canals, bridges, roads / Layout and bends of railway tracks and buildings have been determined.
Geology - Principles of engineering geology and its application to projects.

6. Traffic engineering (Transportation) - highways - planning and construction, roads and geometric design; traffic analysis and management; flexible and rigid pavement design. Tunneling - roads, construction, waste disposal, drainage, lighting and ventilation. Rail Systems - Terminology, Planning, Design and Maintenance Practices; Monitoring Modernization. AirPorts - Terminology, layout and planning.

Paper I - Mechanical Engineering Syllabus

1. Fluid Mechanics - Fluid Mechanics - Basic concepts and properties of fluids, piezometric, hydrostatic, buoyancy, equations of motion, Bernoulli's equations and their applications, viscous, laminar and turbulent flows, incompressible fluids, pipe flow and pipe head drop of pipes.

2. Thermodynamics and Heat transfer - Thermodynamic systems and processes; products of pure products; zeroth, first and second laws of thermodynamics; entropy, irreversibility and existence; analysis of thermodynamic cycles in relation to energy conversion: Rankine cycle, Otto cycle, diesel cycle and binary cycle; ideal and real gases; compressibility; oil mix. Change the heat type, stable and unstable heat conduction, thermal resistance, fins, free and forced convection, convective heat transfer correlation, radiative heat transfer - radiative heat transfer coefficient; boiling and condensation, heat exchanger operation analysis.

3. IC Engines, Cooling and Air conditioning - SI and CI Engines, Engine Systems and Components, Performance Characterization and Testing of Internal Combustion Engines; Oil; Emissions and Emission Control. Other types of refrigeration such as vapor compression refrigeration, refrigeration and cycle work, compressors, condensers, evaporators and expansion equipment, vapor suction, steam injection, thermoelectric and vortex tube refrigeration. Psychometric products and methods, comfort charts, comfort and commercial air conditioning, load calculations and heat pumps.

4. Turbo Machinery - Reciprocating and field turbines, pelcis turbines, regsepection and ribocity compincors - impact design and research and use.

5. Power Plant Engineering - Rankine and Brayton cycles with regeneration and reheat, fuels and products, flue gas analysis , boilers, steam turbines and other power plant components such as condensers, air injectors, electrostatic precipitators and cooling towers - their theory and design. , write and use.

6. Energy Use - - Solar Energy, Thermal Harvesting from the Sun - Materials and equipment of flat panels and focused collectors.

Paper II - Mechanical Engineering Syllabus

1. Engineering Mechanics - Force System, Friction, Center of Mass and Center of Gravity, Dynamic Analysis; Stress and Strain - Compound Stress and Strain, Bending Moment and Shear Force Diagram, Flexural Stress Theory - Tilt and Deflection - Torsion.

2. Engineering Materials - Basic crystallography, alloys and phase diagrams, heat treatment, ferrous and non-ferrous metals, non-metallic materials, fundamentals of nanomaterials, mechanical properties and tests, corrosion.

3. Mechanisms and Machines - kinematic joint mode, motion, inversion, kinematic analysis, velocity and acceleration analysis of planar mechanisms, CAM for smooth acceleration and deceleration, cycloidal motion, oscillating follower; undamped and free and forced vibrations of vibration-damped SDOF systems, transmissibility, vibration separation, critical speed of shafts. Gears - Tooth Profile Geometry, Gear Law, Convoluted Tooth Profiles, Impact, Helical, Helical and Worm Gears, Gear Arrays - Simple, Compound and Epicyclic; Dynamic Analysis - Slider - Crank Mechanisms, Moments of Rotation Calculation, rotation and rotation equation, gyroscope connection on cars, ships and airplanes, governors.

4. Design of mechanical equipment - static and dynamic load design; inability to think; fatigue and S-N diagram; design of mechanical elements such as riveted, welded and bolted connections.Shaft, spur gear, roller and sliding contact bearings, brakes and clutches, flywheels.

5. Manufacturing ,Industrial and Maintenance Engineering - Metal Casting - Metal assembly, metal joining, Machining and machine tool work, limits, fit and tolerance, Metrology and inspection, Computer Integrated Manufacturing, FMS, Production Planning and Control, Inventory Control and Operations Research - CPM-PERT. Fault definitions and behavior - reliability, failure analysis, machine vibration, data acquisition, fault detection, vibration analysis, rotor response measurement, noise analysis, wear and tear analysis, marking inspection, non-destructive maintenance procedures.

6. Mechatronics and Robotics - Microprocessors and Microcontrollers: Architecture, Programming, I/O, Computer Interface, Programmable Logic Controllers,Sensors and Actuators, Piezoelectric Accelerometers, Hall Effect Sensors, Optical Encoders, Resolvers, Inductive Synchronizers, Pneumatic and Hydraulic Actuators, Stepper Motors, Control Systems - Physical Systems, Control Signals, Controllability and Observational Mathematical Modeling. Robotics, robot classification, robot features, characters; forward kinematics and inverse kinematics; homogeneous coordinates and arm balance for the four-axis SCARA robot.

Paper I - Electrical Engineering Syllabus

1. Engineering Mathematics - matrix theory, eigenvalues ​​and eigenvectors of matrix theory, systems of linear equations, numerical methods for solving nonlinear algebraic and differential equations, integral calculus, partial derivatives, maximum and minimum, line integral terms. Fourier series, linear \  nonlinear,  partial equations, initial and boundary value problems, complex variables, Taylor Series /  Laurent series, residue theorem, probability, fundamentals of statistics, sampling theorem, random variables, normal distribution and Poisson distribution, correlation and regression analysis.

2. Electrical Materials - Electrical Properties, Crystal Structures and Defects, Ceramic Materials, Insulating Materials, Magnetic Materials - Fundamentals, Properties and Applications; Ferrites, Ferromagnetic Materials and Components; Solid State Physics, Conductor Fundamentals; Photoconductivity of Supermagnets and Fundamentals.

3. Circuits and Domains/Fields - circuit concepts, network diagram, KCL, KVL, node and mesh analysis, ideal current and voltage sources, Thevenin, Norton, superposition and maximum power transfer theorems, temporal domain of DC and AC networks, sinusoidal steady state analysis, simple filter theory, two-port networks, three-phase circuits, magnetically coupled circuits, Gauss' theorem, effects of electric fields and point, line, plane and spherical charge distributions, Ampere and Biot-Savart laws; inductance, dielectrics, capacitance; Maxwell's equations.

4. Electrical and Electronic Measurement - Measurement standards, accuracy, accuracy and standards; bridges and potentiometers; moving coils, moving wire, dynamometers and inductive instruments, voltage, current, power, energy and power meters, Transformers, digital voltmeters and multimeters, Phase, time and frequency meters, Q-meters, oscilloscopes, potentiometric recorders, error analysis, sensor base , sensors, data acquisition system base.

5. Computer Fundamentals - number systems, Boolean algebra, arithmetic, simple operations, central operations, I/O and memory organization; peripherals, data representation and processing, processing and networking, virtual memory, data systems; eg programming language.

6. Basic Electronics Engineering - Fundamentals of semiconductor diodes and transistors and their components, junctions and field effect transistors (BJT, FET and MOSFET), different types of transistor amplifiers, equivalent circuits and frequency response; oscillators and other circuits, Amplifier.

Paper II - Electrical Engineering Syllabus

1. Analog and Digital Electronics - Operational Amplifiers - Properties and Applications, Integrated and Integrated Logic Circuits, Multiplexers, Multivibrators, Sampling and Holding Circuits, A/D and D/A Converters, Filter Circuits and Application Information Simple, simple filter; basic microprocessor knowledge - interface and application, linear integrated circuit basic knowledge; Fundamentals of analog communication, modulation and demodulation, noise and bandwidth, transmitter and receiver, signal-to-noise ratio, digital communication, sampling, quantization, coding, frequency domain and time domain multiplexing, power line communication system.

2. Systems and Signal Processing - Representation of continuous and discrete-time signals, transformation and scaling operations, linear, time-invariant and causal systems, Fourier series representation of continuous-time signals, sampling theorem, Fourier and Lapp Lass Transform, Z Transform , Discrete Fourier Transform, FFT, Linear Convolution, Discrete Cosine Transform, FIR Filter, IIR Filter, Double Linear Transformation.

3. Control Systems - Input concepts, Switching functions, Block diagrams and Signal Flow Diagrams, Steady State errors, Variables and their applications; Routh-Hurwitz Criterion, Nyquist Technique, Bode Plots, Root Locator, Hysteresis, Leading and Leading - lag compensation, stability analysis, temporal and frequency response analysis, state space model, state transition matrices, controllability and observability, linear state variable feedback , PID and industrial controllers.

4. Electrical Machines - Single Phase Transformers, Three Phase Transformers - Connection, Parallel operation, Autotransformers, Fundamentals of Power transformers, DC Motors - Types, Windings, Generator properties, Armature Response and Commutation, Starting and Speed Control of Motors, Motors - Principles, types , performance characteristics, start and speed control, synchronous motors - performance, control, Parallel operation of the generator, physical properties of the starter, its characteristics and applications, Servo and Stepper Motors.

5. Power Systems - Basic Power Generation Concepts, Steam, Gas and Water Turbines, Transmission Line Models and Performance, Cable Performance, Insulation, Corona and Radio Interference, Power Plant Repair, Symmetrical Fields, Fault Analysis, Element Law of Protection Systems, State Principles Relays and Digital Protection; Circuit breakers, radial and ring distribution systems, matrix representation of power systems, power flow analysis, voltage control and operating operations, definition of system stability, oscillation curve and equilibrium region. HVDC and FACTS concepts, electric power conversion concept, distributed generation, solar and wind power, smart grid concept, environmental impact, fundamentals of electricity industry electricity.

6. Power Electronics and Drives - Semiconductors Power Diodes, Transistors, Thyristors, Triacs, GTOs, MOSFETs and IGBTs - Static properties and working principles, Trigger Circuits, Phase Controlled Rectifiers, Bridge Converters - Full and Half Controls, High-speed DC and AC drives, DC-DC converters, DC-AC converters, transformers, high-power inductors and electronic devices instead.

Paper I - Electronics & Telecommunication Engineering Syllabus

1. Fundamentals of Electronics Engineering - Semiconductor Fundamentals; Diode/transistor fundamentals and properties; Diodes for various purposes; Junction and field effect transistors (BJT, JFET, MOSFET); Various transistor amplifiers, oscillators, etc. circuits; Basic knowledge; bipolar, MOS and CMOS ICs; principles of linear ICs, operational amplifiers and applications - linear/nonlinear; light / detector; optoelectronic fundamentals and applications.

2. Basic Electrical Engineering - DC Circuits - Ohm and Ohm Kirchhoff's Laws, Grid and Node Analysis, Circuit Theorems; Electromagnetism, Faraday and Lenz Electromagnetism Laws, Induced EMF and Usage Areas; Single Phase AC Circuits, Electromagnetism - DC Basic Transformers, Induction and Synchronous Motors; Energy Resources - Basic: Hydro, Thermal, Nuclear, Wind, Solar; Battery Basics and Uses.

3. Electrical Equipment - Electrical Equipment; Hazardous Substances and Waste Materials; Ceramic Materials - Materials, Materials, Functions and Applications; Insulation Laminates for Electronics, Structures, Features and Uses; Magnetic Materials, Systems, Dispersion, Ferrites, Metals/paramagnetic materials and materials; nanomaterials-initiation, preparation, purification, sintering, nanoparticles and their uses; nano-optics/magnetic/electronics and its applications; used superconductivity.

4. Electronic Measurements and Instrumentation - Measurement Principles, Accuracy, Precision and Standards; Analog and Digital Systems for Measuring, Measuring Tools for Different Applications; Static/Dynamic Characteristics of Measuring Systems, Errors, Inspections and Non-Electrical Installations; ; Telemetry Fundamentals; Different types of sensors and instructions; Data collection process started.

5. Network Theory - diagram and network diagram matrices; star-delta transform; linear constant coefficient differential equation - time history analysis of RLC circuits; Solving network equations using Laplace transform - Frequency domain analysis of RLC circuits; 2-port network parameters - Driver point and Switch function; network balance of states; steady state sine analysis.

6. Analog and Digital Circuits - Small Signal Equivalent Circuit of Diode, BJTS and FETs; Diode Circuits for Different Applications; Steering and Stability of BJTs and JFET Amplifier Circuits; Amp Analysis/Design - Single/Multistage; Feedback and applications; active Filters, timers, multipliers, waveform shaping, A/D-D/A converters; Boolean algebra and its applications; logic gate, digital IC family, link/interconnect; multiplexers, counters / Registers / Memory / Microprocessors, Design and Construction Systems Application.

Paper II - Electronics & Telecommunication Engineering Syllabus

1. Analog and Digital Communication Systems - Random Signals, Noise, Probability Theory, Information Theory; Analog and Digital Communication Applications: Systems - AM, FM, Transmitter/Receiver, Theory/application/Standards, SNR Comparison; Fundamentals of Digital Communications: Sampling, Quantification, encoding, PCM, DPCM, audio/video multiplexing; digital modulation: ASK, FSK, PSK; Multiple access: TDMA, FDMA, CDMA; optical communication: fiber optics, theory, practice/model.

2. Control Systems - Classification of Signals and Systems; Applications of Signal and System Theory; System Application; Conversions and Applications; Signal Flow Diagrams, Routh-Hurwitz Criterion, Root Site, Nyquist/Bode Diagrams; Feedback Systems - & closed loop mode, stability analysis, steady state, transient analysis and frequency response; production control, compensation, lead/job, PID and job control.

3. Computer Organization and Architecture - Basic architecture, CPU, Input/Output, Memory Management and virtual memory, peripheral devices, trends; Hardware /software and its issues, Data representation& Programming; O Fundamentals, Processes, Features, Applications; Memory management, file systems, protection & security; Data base and its types, characteristics and design; Transactions and concurrency control; Elements of programming languages

4. ElectroMagnetics - Principles of Vector Analysis, Maxwell's Equations - Basic Concepts; Gauss Theorem, Stokes Theorem; Wave Propagation in Different Media; Transmission Lines -Fundamentals, Smith Table, Impedance Matching/Conversion, Sed Parameters, Sed Parameters ; Waveguides - Fundamentals, Rectangular Types, Modes, Cutoff Frequency, Dispersion, Dielectric Types; Antennas - Radiation Models, Monopole / Dipole, Gain, Arrays - Active / Passive,.

5. Advanced Electronics - VLSI Technology: Processing, Lithography, Interconnection, Packaging, Testing; VLSI Design: Principles, MUX/ROM/PLA Based Design, Moore's Law, Circuit Design; Pipe Concepts and Functions; Design for Testability,DSP : discrete time signals/systems, usage; digital filters: FIR/IIR type, design, microprocessors, microcontroller, DMA, interfaces; controllers; Embedded systems.

6. Advanced Communication - Networks: Principles/Cracks/Techniques/Usage/OSI Model/Security; Basic Packet Multiplexing Streams/Timing; Cellular Networks, Types, Analysis, Protocols (TCP/TCPIP); Microwave Communications: Groundite Cub / space line-of-sight system, block diagram junction lamination, system design; satellite, orbit, system, optical fiber

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Syllabus of Below Exam -

Indian Forest Service (IFS) Exam	CPF (Central Police Force) Assistant Commandant’s Exam
Indian Economic Service (IES) and Indian Statistical Service (ISS) Exam	Civil Services Exam
Engineering Service Exam	Combined Defence Services (CDS) Exam
Combined Medical Service (CMS) Exam	NDA & NA (II) Exam
CGS and Geologist Exam	SSC Stenographer Exam
SSC Junior Engineers Exam	SSC Sub-Inspectors in Delhi Police, CAPFs Exam
SSC MTS (Multi Tasking Staff) Exam	SSC CHSL (Combined Higher Secondary Level) Exam
SSC CGL (Combined Graduate Level) Exam	SSC Junior Translators Exam (Hindi & English)
SSC Constable Exam	IBPS SO (Specialist Officer) Exam
IBPS PO/MT (Probationary Officer / Management Trainee) Exam	IBPS Clerk Exam
SBI PO (Probationary Officer) Exam	SBI Clerk Exam
RRB/RRC Group D Exam	RRB Paramedical Posts Exam
RRB Non-Technical Popular Categories Posts Exam	RRB JE, DMS, CMA Posts
RRB Constable & SI Exam

Eligibility Criteria of Below Exam -

IBPS Clerk	IBPS Specialist Officers
IBPS PO/MT	IBPS CRP RRB
CRP RRB (Officer Scale I, II & III)	SBI Clerk
SBI PO	RBI Assistant
LIC Assistant Administrative Officers	LIC Apprentice Development Officers
LIC Direct Sales Executives	SSC SI in Delhi Police & CAPFs
SSC MTS ( Multi Tasking Staff )	SSC CGL (Combined Graduate Level)
SSC CHSL Exam ( Combined Higher Secondary Level )	SSC Stenographer Exam
SSC Junior Engineer Exam	SSC Junior Translators ( Hindi & English ) Exam
SSC Constables Exam	UPSC Engineering Services Examination
UPSC Civil Services Examination	UPSC CDS (Combined Defence Services) Exam
UPSC IFS ( Indian Forest Service )	UPSC NDA & ND
UPSC CGS & Geologist Exam	UPSC IES and ISS Exam
UPSC Central Police Forces (AC) Exam	UPSC Combined Medical Service(CMS) Exam
DRDO CEPTAM Exam	Indian Army TES (Technical Entry Scheme)
Indian Army TGC (Technical Graduate Course)	Indian Army Havildar Education in Group ‘X’ & Group ‘Y’
Indian Army NCC Special Entry Scheme	Indian Navy SSC Officer
Indian Navy Apprentice (Sailors) Exam	BSF ASI (RM), HC (RO) Exam
CISF Constable (Tradesmen) Exam	CISF Constable (Fire) Exam
SSB Constable Exam	RRB JE & other post Exam
RRB Technicians Exam	RRC Group D Exam