UPPSC Polytechnic Lecturer Exam Syllabus 2025, Check Syllabus PDF

The Uttar Pradesh Public Service Commission (UPPSC) has released new vacancies for the Polytechnic Lecturer post on its official website at www.uppsc.up.nic.in. Those who are interested in taking the UPPSC Polytechnic Lecturer should start preparing today by reviewing the detailed syllabus to understand the UPPSC Polytechnic Lecturer Syllabus 2025. This article provides the full syllabus and exam pattern for the upcoming exam. Read it carefully to know all the important details, and don’t forget to bookmark this page for future updates on engineering job opportunities.

UPPSC Polytechnic Lecturer Exam Syllabus 2025

The Uttar Pradesh Public Service Commission is one of the country’s key organizations in the government sector and regularly recruits candidates for the Polytechnic Lecturer position. Recently, it announced 513 vacancies through an official notification on its website. To help aspirants prepare effectively, we have shared a simple and clear guide to the Polytechnic Lecturer Syllabus 2025 along with the Exam Pattern. If you aim to perform well in the UPPSC Polytechnic Lecturer Recruitment 2025, it is important to study the full Polytechnic Lecturer syllabus thoroughly. This article provides a detailed subject-wise explanation of the syllabus to make your preparation easier and more focused.

UPPSC Polytechnic Lecturer Syllabus 2025- Overview

Candidates need to have a comprehensive understanding of the UPPSC Polytechnic Lecturer Syllabus 2025 and exam pattern to familiarize themselves with the type and number of questions, the weightage of each question, the marking scheme, and other relevant details. The table below highlights the key information about the UPPSC Polytechnic Lecturer Syllabus 2025.

UPPSC Polytechnic Lecturer Exam Pattern 2025

The exam pattern serves as a blueprint for the actual examination that applicants are preparing for. It provides essential insights into the structure of the exam. In this regard, the UPPSC Polytechnic Lecturer Exam Pattern 2025 is outlined as follows:

• The UPPSC Polytechnic Lecturer Exam will comprise a total of 125 questions for each CBT Exam, encompassing both technical and non-technical aspects.
• Each question in the exam carries 3 marks, resulting in a total examination score of 375 marks.
• The duration of the exam is set at 150 minutes for each CBT exam.
• 1/3 negative marks in the UPPSC Polytechnic Lecturer Exam.

In summary, the key details of the UPPSC Polytechnic Lecturer Exam Pattern 2025 are summarised in the table below.

UPPSC Polytechnic Lecturer Syllabus 2025 In Detail

This exam includes multiple-choice questions from technical subjects. In this article, you will find the complete subject-wise syllabus for the UPPSC Polytechnic Lecturer Exam 2025. We have provided detailed information on all the topics covered in the exam. The UPPSC Polytechnic Lecturer Exam consists of two parts. Paper 1 has 125 questions related to General Hindi, and Technical Subject, Part 2 has 125 questions on General Studies, and Technical Subject.

Candidates should read the complete syllabus carefully for better preparation. To understand the syllabus for different branches clearly, go through this article fully. Candidates can bookmark this page to get future updates on UPPSC Polytechnic Lecturer notifications.

General Study Syllabus

 The topic-wise details syllabus for the General Studies Affairs section is given below.

• History of India and the Indian National Movement
• Basic Elementary Mathematics
• Economy
• Current Affairs – National & International (Last 6-12 months)
• Indian and World Geography
• General Knowledge about Uttar Pradesh
• Indian Polity and Governance
• General Science
• Static GK – Awards, Books, Authors, Sports
• Science & Technology – Recent Developments
• Environmental Studies & Ecology

General Hindi

The topic-wise details syllabus for the General Hindi section is given below.

• संबंधित अनेकार्थी शब्द
• वर्तनी
• वचन
• वाक्य संशोधन
• कारक
• सन्धियां
• लिंग
• अलंकार
• वाक्यांशों के लिए शब्द निर्माण
• तत्सम एवं तदभव
• लोकोक्तियाँ एवं मुहावरे
• रस
• पर्यायवाची
• समास
• विलोम

Mechanical Engineering Syllabus

The topic-wise details syllabus for the Mechanical Engineering section is given below-

PAPER–I

• Engineering Mechanics: Analysis of Force Systems, Friction, Centroid and Centre of Gravity, Trusses, Bending Moment and Shear Force diagrams, Kinematics and Kinetics of Rigid Bodies.
• Mechanisms and Machines: Velocity and Acceleration analysis, Cams and Followers, Gears and gear trains, Clutches, Brakes and Dynamometers, Flywheel and Governors, Brakes and Dynamometers, Balancing of rotating and Reciprocating Masses, Balancing of multi-cylinder engines, Free and Forced Vibration, Gyroscopic Stabilisation, Whirling of Shafts.
• Mechanics of Solids: Stresses and Strains, Compound Stresses and Strains, Torsion of circular Shafts, Slope and Deflection, Unsymmetrical bending, Curved Beams, Thin and Thick Cylinders, thin Spheres, Helical and Leaf Springs, Buckling of Columns.
• Design of Machine Elements: Design for Static and Dynamic Loading, Theories of Failures, Fatigue, Design of Rivetted, Welded and Bolted Joints, Shafts, Gears, Bearings, Clutches and Brakes.
• Engineering Materials: Crystal Systems and Crystallography, Crystal Imperfections, Phase Diagrams, Iron Carbon Equilibrium Diagram, Heat Treatment, Ferrous and Non-Ferrous Metals and Alloys, Mechanical Properties and Testing.
• Manufacturing: MetalCasting, Metal joining, Metal forming, Mechanics of Metal cutting, Machining and Machine Tool Operations, Unconventional Machining, Limits, Fits and Tolerances, Inspection: Surface Roughness and its measurement; Comparators, Computer-Integrated Manufacturing, Flexible Manufacturing Systems, Jigs and Fixtures.
• Industrial Engineering: Production Planning and Control, Inventory Control,
  Operations Research, CPM and PERT.
• Mechatronics and Robotics: Microprocessors and Micro Controllers, Architecture, Programming, Computer Interfacing, Programmable Logic Controllers, Sensors and Actuators, Piezoelectric Accelerometers, Hall Effect Sensors, Optical Encoder, Resolver, Inductosyn, Pneumatic and Hydraulic Actuators, Stepper Motor, Control System, Mathematical Modelling of Physical Systems, Control Signals, Controllability and Observability.
• Robotics: Robot Classification, Robot Specification, Notation, Direct and Inverse Kinematics, Homogeneous Co-ordinates and Arm Equations of four-axis SCARARobot.

PAPER–II

• Thermodynamics: Thermodynamic Systems and Processes, Properties of Pure
  Substances, Concepts and Applications of Zeroth, First and Second Law of
  Thermodynamics, Entropy, Availability and Irreversibility, a detailed Analysis of
  Thermodynamic Cycles, Ideal and Real gases, Fuels and Combustion.
• Fluid Mechanics: Basic Concepts and Properties of Fluids, Manometry, Fluid Statics, Buoyancy, Equations of Motion, Bernoulli’s Equation and Applications, Viscous Flow of incompressible fluids, Laminar and turbulent flows, Flow through pipes and head losses in Pipes, Isentropic and Adiabatic Flows, Normal Shock Waves.
• Heat Transfer: Modes of Heat Transfer, Steady and unsteady heat Conduction,
  Themocouple time constant, critical thickness of insulation, Heat Transfer from Fins, Momentum and energy Equations for Boundary Layer flow on a Flat Plate. Free and Forced convection, Radiative heat transfer, Stefan-Boltzmann law, Shape Factor, Black and Grey Body radiation, heat exchanger, Boiling and Condensation, Heat Exchanger Performance Analysis, LMTD and NTU-Effectiveness Methods.
• Energy Conversion: SI and CI engines, Performance Characteristics and Testing of IC Engines, Fuels, Combustion Phenomena in SI and CI Engines, Carburetion and Fuel Injection Systems, Emission and Emission Control. Reciprocating and Rotary Pumps, Pelton wheels, Francis and Kaplan Turbines, velocity Diagrams, Impulse and Reaction Principles, Steam and Gas Turbines, Rankine and Brayton Cycles with regeneration and reheat, High Pressure Boilers Drafts, and condensers. Unconventional Power Systems Including Nuclear, MHD, Biomass, Wind and Tidal Systems. Utilisation of Solar Energy, Reciprocating and Rotary Compressor; Theory and applications, Theory of Propulsions, Pulsejet and Ramjet Engines.
• Environmental Control: Vapour Compression, Vapour Absorption, Steam Jet and Air Refrigeration Systems, Properties of Refrigerant and their Nomenclature, Psychrometric Properties and Processes, Psychrometric Relations, Use of Psychrometric chart, Load Estimation, Supply Air Conditions, Sensible Heat Factor, Air Conditioning, System Layout, Comfort Chart, Comfort and Industrial Air Conditioning.

Electrical Engineering Syllabus

The topic-wise details syllabus for the Electrical Engineering section is given below-

PAPER–I

• Electrical Circuits and Networks: Circuit elements, KCL, KVL, Nodal and Mesh analysis, Thevenin’s, Norton’s, Superposition and Maximum power transfer theorems, Steady state and Transient Response of DC and AC networks, Two-part networks, Magnetically coupled circuits.
• Electromagnetic Field Theory: Electrostatic fields; Gausees’ Law, Maxwell’s equations, Energy density in electrostatic fields, Properties of materials
• Magnetostatic Fields: Biot-Savart’s Law, Ampere’s circuit law, Maxwell’s equations, Application of Ampere’s law, Waves and applications.
• Basic Electronics Engineering: Basics of Semiconductor diodes, BJT, FET, MOSFETs characteristics, Different types of amplifiers, equivalent circuit and frequency response, oscillators and other circuits, feedback amplifiers.
• Electrical and Electronics Measurements: Principles of measurement, Accuracy, Precision, Errors, Moving coil, Moving iron, Dynamometer and induction types of instruments, Measurement of voltage, Current, Power, Energy and Power factor, Instrument transformer, Bridges and Potentiometers, Electronic instruments, Digital voltmeters, Phase Frequency measurement, Q-meters, Basics fo sensorsand transducers.
• Electrical Machines: Electro Magnetic Energy conversion (EMEC), DC Machines-types, Generator and motor characteristics, Starting and control of motors; Synchronous machines- Principle and performance, Regulation, Parallel operation of generators, Motor starting, Characteristics and application, Single phase, Three phase transformersPrinciple, Equivalent circuit efficiency, Regulation, Connections.
• Power Systems: Basic power generation concepts- Steam, gas and water
  turbines, Line parameters and calculations, Performance of transmission lines,
  Mechanical design of overhead lines and insulators, Corona and radiation
  interference, Power factor correction, Symmetrical components, Fault analysis,
  Load flow equations and methods of solutions, Power system stability- Power system transients and travelling waves, EHV transmission, HVDC transmission, Concepts of FACTs, Voltage control and Economic operation, Concepts of distributed generations, Solar and wind power, Smart grid Concept.
• Control System: Mathematical modelling of physical systems, Principles of
  Feedback, Transfer function, Block Diagram and signal flow graphs, Time response specification, Routh-Hurwitz criterion, Bode plots, root loci, Nyquist technique, Lag, Lead and lead-lag compensation, stability analysis, transient and frequency response analysis, State space model, State transition matrix, Controllability and observability, PID and industrial controllers.

PAPER–II

• Analog and Digital Electronics: Operational amplifiers- Characteristics and applications, combinational and sequential circuits, Multiplexers, Multivibrators, Sample and hold circuits, A/D and D/A converters, Basics of filter circuits and applications, Active filters, Microprocessor basics- Interfaces and applications, Basics of integrated circuits, Analog communication basics, Modulation and Demodulation, Noise and bandwidthm Signal to noise ratio, Transmitters and receivers, Digital communication basics- sampling, quantizing, coding, frequency and time domain multiplexing, Power line carrier communication systems.
• Systems and Signal Processing: Representation of continuous and discrete-time signals, Shifting and scaling operations, Linear, time-invariant and causal systems, Fourier series representation of continuous periodic signals, Sampling theorem, Fourier and Laplace transform, Z-transforms, Discrete Fourier transform, FFT, Linear convolution, FIR and IIR filters, bilinear transformation.
• Induction and Special Machines: Three-Phase induction motors- rotating magnetic field theory, Equivalent circuit and determination of its parameters, Torque-slip characteristics, Starters, Speed control, induction generators, Single-phase induction motors- theory, Characteristics, Starting and applications, Servomotors, Stepper motors, brushless DC (BLDC) motors.
• Power System Protection: Principles and need for protection schemes, Types of faults, Relay application and Characteristics- overcurrent relays, Directional relays, Distance relay, Differential relays, Methods of Arc extinction, Restriking voltages and recovery voltage, testing of circuit breakers, Protective schemes for power system equipment, Surge in transmission line and protection.
• Power Electronics and Drivers: Semiconductor power diodes, Transistors, Thyristors, Triacs, GTOs, MOSFETs, IGBTs- principles of operation and their static characteristics, Triggering circuits, Phase control rectifiers, Bridge convertors- fully controlled and half controlled, Principle of choppers and inverters, Basic concepts of adjustable speed DCand AC drives, DC-DC switched mode converters, DC-AC switched mode converters, Resonant convertors, Basics of electric drives- types, quadrant operation, Reversing and breaking of electric motors, Estimation of power ratings, Traction motors.
• Electrical Material: Electrical engineering materials, Crystal structures, and
  defects, Ceramic materials, Insulating materials, Magnetic materials- basics,
  Properties and applications, Ferrites, Ferromagnetic materials and components,
  Basics of solid state Physics, Conductors, Photoconductivity, Basics of Nano
  materials and superconductors.

Civil Engineer Syllabus

The topic-wise details of the syllabus for the Civil Engineer section are given below.

Paper I

• Engineering Mechanics: Force Systems, Rigid Body equilibrium; Coplanar Concurrent forces, Couples and Resultant of Force System, Equilibrium of System of Forces, Free body diagrams, Equations of Equilibrium of coplanar Systems. Laws of Friction, Static and Dynamic Friction. Centroid and Centre of Gravity, Centroid of Simple figures, centroid of composite sections, Moment of inertia of plane sections, Moment of inertia of standard sections and composite sections, Mass moment inertia of circular plate, Cylinder, Cone, Sphere, Basic Structural Analysis, Equilibrium in three dimensions, analysis of simple
  trusses, Simple beams and support reactions. Rectilinear motion, Plane curvilinear
  motion, Work-kinetic energy, power, potential energy. Impulse-momentum, Impact, Kinetics of Rigid Bodies, D’Alembert’s principle and its applications in plane motion, Work energy principle, Kinetics of rigid body rotation, Virtual Work and Energy Method.
• Strength of Materials: Types of stresses and strains, Hook’s law, stress and strain
  diagram for ductile and brittle metal. Lateral strain, Poission ratio, volumetric strain, elastic moduli and relation between them, composite bar, Mohr’s stress circle, three-dimensional state of stress & strain, Shear force (SF) and Bending moment (BM) diagrams for simply supported, cantilevers, overhanging and fixed beams. Flexural Stresses-Theory of simple bending, bending stresses, Design of simple beam sections, Derivation of torsion equation, Combined torsion and bending of circular shafts, Shear stress distribution across various beam sections, rectangular, circular, triangular, Slope and deflection – Relationship between moment, slope and deflection, Moment area method, Macaulay’s method, short Columns and Struts: Buckling and stability, slenderness ratio.
• Structural Analysis: Static and Kinematic Indeterminacy for beams, trusses, and
  building frames. Analysis of determinate plane trusses. Method of substitution, method of tension coefficient for analysis of plane trusses, Castigliano’s theorems, Calculations of deflections: Strain Energy method and unit load method for statically determinate beams, frames and trusses. Deflection of determinate beams by the Conjugate beam method. Rolling loads and influence line diagrams for determinate beams and trusses, Types of Arches, Analysis of three-hinged parabolic and circular Arches. Moving load & influence lines for three hinged parabolic arch.
• Structural Steel Design: Stress-Strain Curve for Mild Steel, Rolled Steel Sections, Limit State Design, Limit States of Strength, Limit States of Serviceability, Actions, Probabilistic Basis for Design. Riveted, Bolted and Pinned Connections, Patterns of Riveted Joints, Bolted Connection, Types of Bolted Joints, Failure of Bolted Joints, Tensile Strength of Plate, Efficiency of the Joint, Combined Shear and Tension, Welded Connections, types, Weld Defects, Failure of welds, Design of eccentric welded connections. Types of Tension Members, Sectional Area, Types of Failure, Slenderness Ratio, Design of Tension Member, Lug Angles, Splices, Gusset Plate. Compression Members, Types of Buckling, Classification of Cross Sections, column formula, Built-Up columns, Lacing, Batten, Splices, Types of Beam Sections, Lateral Stability of Beams, Bending Strength of Beams, Shear Strength of Beams, Web Buckling, Built-Up Beams (plated Beams), Purlins, Effect of Holes in Beam, Plate Girder, Gantry Girder.
• Design of Concrete & Masonry Structure: Design of Rectangular singly and doubly reinforced Sections by working Stress Method. Assumptions in Limit State Design method, Design of Rectangular Singly and Doubly Reinforced beams, T-Beams, L-beams by Limit State Design Method. Shear Strength of beams with and without shear reinforcement, development length, Anchorage bond, and flexural bond. Limit State Design method, Failure of the beam under shear. Design of one-way, one-way continuous and cantilever solid slabs by Limit State Design Method, Design of two-way slabs by limit state method, Design of columns by Limit State Design Method, Short column under axial load and uni-axial bending, Design of isolated footings, combined rectangular and trapezoidal footings by Limit State Method, Design of strap footings. Structural behaviour of retaining wall, stability of retaining wall against overturning and sliding, design of cantilever retaining wall by Limit State Method.
• Building Materials: Stones: Requirement of good building stone, Bricks: Properties of clay bricks, Different types of bricks. Gypsum, Cement, Types of cement, Testing of cement properties, Cement Concrete, Grades of concrete, Testing of concrete, Pozzolona, Chemical composition and requirements for uses, Timber, Properties of timber, Defects in timber, Methods of seasoning and preservation of timber, Asphalt: Bitumen and Tar. Plastics, Paints, varnishes and distempers, properties and uses of aluminium and lead, Insulating Materials, Thermal and sound insulating materials, Building, construction principles and Methods for layout, Damp proofing, anti-termite treatment in buildings, staircases and their types and planning, types of floors, Bricks and stone masonry construction, Wall, Doors and Windows, roof and roof treatments, Lintel Principles of building Planning, Natural Ventilation, Water Supply and Sanitary fittings, Methods of building maintenance.
• Construction Management: Quantity Estimation for Buildings, Centreline method, Long and short wall method of estimates, Types of estimates, Rate Analysis, Specification and Tenders, Different types of contracts, process of tendering, management system in construction, Bar charts, preparation of networks, PERT & CPM in construction management, Project Cost Management, Basic principle of financial planning.
• Geotechnical Engineering and Foundation Engineering: Origin and classification of Soils, Weight volume relationships, Clay minerals, Index properties, sensitivity and thixotropy, Particle size analysis, Unified and Indian standard soil classification system. Soil Hydraulics, Soil Permeability – Darcy’s Law, hydraulic conductivity, equivalent hydraulic conductivity in stratified soil, Seepage, flow nets, critical hydraulic gradient and quick sand condition, uplift pressure, piping, Phenomena, Soil compaction, field compaction control,
  consolidation, Primary and secondary consolidation, Terzaghi’s one-dimensional theory of consolidation, Normal and Over Consolidated soils, Over Consolidation Ratio, Stress Distribution in soil, Boussinesq equation for vertical stress, The Westergaard equation, Stress distribution under loaded areas, Concept of pressure bulb, contact pressure, Shear Strength: Mohr-Coulomb failure criterion, shear strength parameters, pore pressure, Soil liquefaction, Earth pressure, Coulomb and Rankine’s approaches for fictional and c-ⱷ soils, Stability of slopes – finite and infinite slopes, types of slope failure, coulomb’s wedge theory, subsurface exploration. Shallow and Deep foundations, Bearing Capacity estimation, Pile foundations, Well foundations.

Paper II

• Fluid Mechanics: Physical properties of fluids, Pressure-density height relationship, manometers, pressure on plane and curved surfaces, buoyancy, stability of immersed and floating bodies. Steady and unsteady, uniform and non-uniform, laminar and turbulent flows, rotational and irrotational flows, compressible and incompressible flows, subsonic, sonic and supersonic flows, sub-critical, critical and supercritical flows, one, two and three dimensional flows, streamlines, path lines, streak lines, stream tube, continuity equation for 1-D, 2-D and 3-D flows, stream function and velocity potential function. Bernoulli’s
  equation and its applications – Pitot tube, orifice meter, venturimeter and bend meter, notches and weirs, momentum equation, siphon, water hammer, laminar flow through pipes, Stokes’ law, velocity distribution in turbulent flow over smooth and rough surfaces, Boundary layer thickness, boundary layer over a flat plate, displacement, momentum and energy thickness. Laminar boundary layer, turbulent boundary layer, laminar sub-layer, separation and its control. Vortex flow: Free & Forced. Drag and lift, Buckingham’s Pi theorem, dimensionless numbers and their significance.
• Open Channel Flow: Free surface flows, velocity and pressure distribution, Mass, energy and momentum principle for prismatic and non-prismatic channels, Uniform flow: Standard equations, Equation of gradually varied flow and its limitations, Transitions of subcritical and supercritical flow, Rapidly Varied flow (RVF), Hydraulic jump, flow measurement, critical depth flumes, sluice gate, Free over fall. Rapidly varied unsteady flow, “Celerity” of the gravity wave, Flow in a channel of non-linear alignment and non-prismatic channel sections, Design considerations for sub-critical and super-critical flows, Design of culvert. Free surface flows, Specific energy and specific force. Chezy’s and Manning’s equations for uniform flow in an open channel. Measurements of discharge & velocity – Venturi flume.
• Hydraulic Machines: Reciprocating pumps, centrifugal pumps theory and Cavitation, Rotodynamic Machines, Pelton Turbine, reaction turbines, Francis and Kaplan type, Hydraulic turbines, Hydro Power development.
• Hydrology: Hydrologic cycle, Precipitation, Evaporation, Evapotranspiration, Infiltration process, Runoff characteristics of a stream, mass curve. Hydrograph, Factors affecting flood hydrographs, hydrograph and its analysis, s-curve hydrograph, aquifers & their properties, confined and unconfined aquifers, rainwater harvesting and recharge.
  Water Resources Engineering: Methods of Irrigation, Water requirement of crops, crop rotation. Canal irrigation, Parts of a canal system, Sediment Transportation, Irrigation channels and Design, silt theories: Kennedy’s and Lacey’s Design, Lining of Irrigation Canals, Economics of canal lining. Water Logging and Drainage Design, Regulation and control of canal system, Irrigation Outlets, river training works, Types of Head works, Failure of hydraulic structures, Principles of design, Bligh’s theory, Khosla’s theory for pressure and exit gradient. Design of Sarda type and straight glacis fall. Design of distributor head regulator and cross regulator, canal escape, Bed bars, Canal head works, Design of Weir, and Barrage Canal head Regulator, Cross drainage works: Necessity and types, design principles of cross drainage works, planning of dams and Reservoirs, Estimation of storage capacity, Earth Dams, Gravity dams, Spillways and their design.
• Transportation Engineering: History of road development, Geometric Design, Cross-sectional elements, camber, shoulder, sight distance, horizontal curves, super elevation, extra widening, transition curves, gradient, vertical curves, summit and valley curves. Traffic studies on flow, speed, travel time – delay and O-D study, PCU, peak hour factor, accident study, traffic capacity, density, traffic control devices, Types of Pavements, Design of Flexible Pavement by CBR method, Design of rigid pavement, Westergaard theory, load and temperature stresses, joints, Wet mix macadam (WMM), Granular Sub Base (GSB), Tack Coat, Prime Coat, Seal Coat, Surface Dressing, Bituminous Macadam(BM), Cement Concrete (CC) raod construction.
  Railways Engineering: Permanent Way and its Components, Types of rails, rail gauges, permanent way formation, coning of wheels, defects in rails, rail fastenings, fish plates, spikes, chairs, keys, bearing plates, sleepers, sleeper density, ballast, Track Geometrics, Turnouts and Crossings, Stations and Yards, Horizontal curves and super-elevation, transition curves, points and crossings, design of turnouts, types of crossings, stations and Yards, Signalling and Interlocking, Centralized train control system, ATS, principle types of interlocking, high speed track, airport planning & design, selection of site for an airport. Airports – layout and orientation, Runway and taxiway design considerations, geometric design, Zoning laws, traffic control, Runway lighting.
• Environmental Engineering: Population forecasting by various methods, Transmission of water, Storage and distribution of water, Physical, chemical and bacteriological examination of water and wastewater: Temperature, pH, colour and odour, solids, nitrogen and phosphorus, chlorides, toxic metals and compounds, BOD, COD, etc., quality requirements, standards of water and wastewater. Water treatment: screening, sedimentation, determination of settling velocity, efficiency of ideal sedimentation tank, design of settling tanks, and grit chamber. Primary sedimentation and coagulation, filtration: theory of filtration; hydraulics of filtration; slow sand, rapid sand and pressure filters, backwashing; design of slow and rapid sand filters. Waste water treatment: unit operations, processes, Secondary and tertiary treatment, Anaerobic digestion of sludge, septic tank, upflow anaerobic sludge blanket (UASB).
• Surveying: Classification, Principles, distance, direction and elevation. Ranging.
  Meridians and Bearings, Methods of levelling, Booking, Reciprocal levelling, distance of visible horizon, Profile levelling and cross-sectioning, Errors in levelling, plane table surveying, Contouring, Theodolite survey, Methods of horizontal and vertical control, Triangulation, Signals, Satellite station, corrections, Trigonometric levelling, simple circular curves, Transition curves – types, Vertical curves. Electronic Distance Measurement systems, Total Station – its advantages and applications, Global Positioning Systems Segments, working principle, errors, Geographic information system, Photogrammetry; basic principles, scale of a vertical photograph, relief displacement, relief displacement, flight planning, stereoscope and stereoscopy, parallax equations, Remote Sensing, Electromagnetic spectrum, atmospheric effects, image characteristics, Remote sensing systems, spectral signatures and characteristics, spectral reflectance curves, image classification, Applications of remote sensing to civil engineering.

Electronic Engineer Syllabus

The topic-wise details of the syllabus for the Electronics Engineer section are given below.

Paper I

• Electronic Devices: Energy bands in semiconductors, band-gap in direct and indirectsemiconductors, P-N junction, Zener diode, clipping, clamping and rectifiers. Small signal equivalent circuits of diodes, working of BJT, JEFT, MOSFETdevices.
• Analog Circuits: Diode circuits, amplifier models: Voltage amplifier, current amplifier, trans-conductance amplifier and trans-resistance amplifier. biasing schemes for BJT and FET amplifiers, bias stability, and various configurations. High-frequency transistor models, frequency response of single-stage and multistage amplifiers. Oscillators: Review of the basic concept, Barkhausen criterion, RC oscillators (phase shift, Wien bridge, etc.), LCOscillators (Hartley, Colpitt, Clapp, etc.), non- sinusoidal oscillators. Op-Amp applications:
  Review of inverting and non-inverting amplifiers, integrator and differentiator, and summing amplifier, precision rectifier, Schmitt trigger and its applications, active filters: Low pass, high pass, band pass and band stop, design guidelines.
• Advanced Electronics: VLSI technology: Processing, lithography, interconnects,
  packaging, testing; VLSI design principles, MUX/ROM/PLA-based design, Moore & Mealy circuit design; Pipeline concepts & functions; Design for testability, examples.
• Network Theory and Basic Machines: DC Circuits-Ohm’s & Kirchhoff’s laws, mesh and nodal analysis, circuit theorems; Single phase AC circuits; Network graphs & matrices; Wye-Delta transformation; Linear constant coefficient differential equations-time domain analysis of RLC circuits; Solution of network equations using Laplace transforms frequency domain analysis of RLC circuits; 2-port network parameters-driving point & transfer functions; State equations for networks; Steady state sinusoidal analysis. Basics: DC machines, induction machines, and synchronous machines. Transformers and their efficiency.
• Digital Electronics: Number representations: binary, integer and floating-pointnumbers. Combinatorial circuits, Boolean algebra, minimisation of functions using identities and Karnaugh map, logic gates, arithmetic circuits, code converters, multiplexers, decoders. Sequential circuits: latches and flip-flops, counters, shift registers. Data converters; sample and hold circuits, ADCs and DACs. Basics of multiplexers, counters/registers/memories/microprocessors, design & applications.
• Control Systems: Basic control system components; Feedback principle; Transfer
  function; Block diagram representation, Transforms & their applications; Signal flow graph; Frequency response; Routh-Hurwitz criteria, root loci, Nyquist/Bode plots; Feedback systems-open & closed loop types, stability analysis, steady state, transient and frequency response analysis; compensation; Lag, lead and lag-lead. State variable model and solution of state equations of LTI systems. Transient and steady-state analysis of LTI systems.
  Instrumentation: Principles of measurement, accuracy, precision and standards;
  Analog and Digital systems for measurement, measuring instruments for different
  applications; Static/dynamic characteristics of measurement systems, errors, statistical analysis, and curve fitting.
• Computer Organisation and Architecture: Basic architecture, CPU, I/O organisation, memory organisation, peripheral devices, trends; Hardware/software issues; Data representation & Programming; Operating systems-basics, processes, characteristics, applications. Microprocessors & microcontrollers, basics, interrupts, DMA, instruction sets, interfacing; Controllers & uses; Embedded systems.

Paper II

• Electromagnetics: Elements of vector calculus, Maxwell’s equations-basic conceptsdifferential and integral forms and their interpretation; Gauss’s, Stokes’ theorems; Poynting vector: Wave propagation through different media; Transmission lines: equations, characteristic impedance, impedance matching, impedance transformation, Sparameters, Smith chart. Waveguides- basics, rectangular types, modes, cut-off frequency, dispersion, dielectric types; Antennas-antenna types, radiation pattern, gain and directivity, return loss/ monopoles/dipoles, gain, antenna arrays.
• Analog communication Systems: AM, FM, transmitters/receivers, amplitude
  modulation and demodulation, angle modulation and demodulation, spectra of AM and FM, and superheterodyne receivers.
• Digital communication basics: Sampling, quantising, coding, PCM/ DPCM,
  Multiplexing audio/video; Digital modulation: ASK, FSK, PSK; Multiple access: TDMA, FDMA, CDMA;
• Digital Signal Processing: Discrete-time signals/systems, uses; Digital filters: FIR/IIR types, design, speech/audio/radar signal processing uses;
• Communication networks: Principles/practices/technologies/uses/OSI
  model/security; Basic packet multiplexed streams/scheduling; Cellular networks, types, analysis, protocols (TCP/TCPIP).
• Random signals andprocesses: autocorrelation and power spectral density, properties of white noise, filtering of random signals.
• Information theory: entropy, mutual information and channel capacity theorem,
  Huffman coding, algebraic and convolutional coding.
• Microwave & satellite communication: Terrestrial/space type LOS systems, block schematics, link calculations, system design; Communication satellites, orbits, characteristics, systems, uses; Fibre-optics-Light propagation in optical fibre, fibre optic communication: fibre optics, theory, practice/standards, systems, block schematics, link calculations, system design.

Chemical Engineer Syllabus

The topic-wise details of the syllabus for the Chemical Engineer section are given below.

Paper I

• Fluid and Particle Dynamics: Properties of fluids, concepts of compressible and incompressible flow, Laminar and turbulent flows, Equation of continuity and Navier-Stokes equation, Bernoulli’s theorem, flow meters, fluid drag and pressure drop due to friction, Reynolds’ Number, friction factor and pipe roughness, pumps, jet ejectors, compressors, blowers, fans. Agitation and mixing of liquids/solids/pastes, screening, crushing, grinding, principles and equipment.
  Rittinger’s, Kick’s and Bond’s laws, filtration and equipment. Free and hindered settling, Concept of fluidisation, transport of solids.
• Mass Transfer: Molecular diffusion, Fick’s law of diffusion, mass transfer coefficients, film and penetration theories, distillation, relative volatility, fractional distillation, plate and packed columns of distillation, calculation of the theoretical number of plates. Liquid-liquid extraction, absorption & stripping, drying, humidification, dehumidification, leaching, crystallisation, and adsorption isotherms.
• Heat Transfer: Conduction, thermal conductivity, extended surface heat transfer. Free and forced convection, heat transfer coefficients, Nusselt number, co-current and counter current flow, LMTD, fouling factor. Design of double pipe and shell & tube heat exchangers, analogy between heat and momentum transfer, boiling and condensation, single and multiple effect evaporators. Radiation, Stefan-Boltzmann Law, emissivity and absorptivity, calculation of heat load of a furnace, Solar heaters.
• Advanced Separation Processes: Fundamentals of separation process, equilibrium separation processes, ion exchange, electrodialysis, reverseosmosis, ultra-filtration, molecular distillation, super critical fluide xtraction.
• Process Equipment design: Basic design Procedures and theory, factors affecting vessel design, cost considerations, design of storage and pressure vessels, design of flat and elliptical heads, design ofsupports, characteristics and selection of materials of construction.
• Process Dynamics Instrumentation and Control: Measuring instruments for level, pressure, flow, temperature, pH and concentration. Control variables, manipulated variable and load variables. Laplace transforms, transfer functions of first and second order systems, Block diagram representation, controllers, and
  their transfer functions, stability of closed loop system, Routh array test, transient and frequency response, and Bode plots.

Paper II

• Material and Energy Balance: Gas law, material balance without chemical reactions, material balance with chemical reactions, recycle/bypass/purge calculations, combustion of solid/liquid/gaseous fuels, energy balance calculations, heat of reaction, adiabatic flame temperature.
• Chemical Engineering Thermodynamics: Laws of thermodynamics, PVT relationship for pure components and mixture, Maxwells relations, Fugacity, activity and chemical potential, vapour liquid equilibria for ideal/nonideal, single and multicomponent systems. Criteria for chemical reaction equilibrium,
  equilibrium constant and equilibrium conversions, heat engines, heat pumps, refrigeration and related cycles.
• Chemical Reaction Engineering: Molecularity and order of reactions, theories of reaction mechanism, kinetics of homogeneous reactions and interpretation of kinetic data. Ideal flow reactors(batch, mixed, plug flow) and their performance equations, series and parallel reactions, multiple reactor systems, temperature and pressure effects. Heterogeneous reactions, catalytic and non-catalytic reactions, gas-solid and gas-liquid reactions, effectiveness factor, non-isothermal reactors and reactor stability.
• Chemical Technology: Wood-based chemicals, pulp and paper, sugar industry, edible oils extraction, soaps and detergents, biogas, coal and coal chemical, petroleum refining (Atmospheric distillation/cracking/reforming), polyethylenes (LDPE/HDPE/LLDPE), PVC, Polystyrene, ammonia manufacture, cement and lime industries, paints and varnishes, glass and ceramics, alcohol and antibiotics, nitrogenous and phosphatic fertilizers.
• Environmental Pollution Monitoring & Control
  Safety, Ecology and Environment, Sources of pollutants inairwater, Greenhouse effect, Ozone layer depletion, Acid rain. Micrometeorology and dispersion of pollutants in the environment, water quality index(WQI), airquality index(AQI), measurement techniques of pollutant levels and their control strategies. Solid wastes, their hazards and disposal techniques, Design and performance analysis of pollution control equipment, fire and explosion hazards, HAZOP and HAZAN, disaster management, environment protection acts.
• Process Engineering Economics: Fixed and working capital, cost estimation and comparison of alternatives. Net present value, payback analysis. IRR, depreciation, taxes and insurance, break-even point, PERT and CPM, profit and loss account, balance sheet and financial statement. Plant location and plant layout, including piping.

Computer Science Engineering Syllabus

The topic-wise details of the syllabus for the Computer Science Engineering section are given below.

Paper I

• Computer Organisation and Architecture: Functional units of digital systems and their interconnections, buses, bus architecture, types of buses and bus arbitration. Register, bus and memory transfer. Processor organisation, general registers organisation, stack organization and addressing modes.Arithmetic and Logic Unit, Control Unit, Memory, Input/output devices, interfaces and ports, Interrupts and exceptions. Modes of Data Transfer, Synchronous &
  asynchronous communication, standard communication interfaces.
• Data Structures: Elementary Data Organisation, Built-in Data Types in C / C++/JAVA. Algorithm, Efficiency of an Algorithm, Time and Space Complexity, Asymptotic notations: Big Oh, Big Theta and Big Omega, Time-Space trade-off. Abstract Data Types (ADT), Arrays and Application of arrays, parse Matrices and their representations. Linked lists, Stacks, Queues, Searching and sorting, Graphs, Tree, Binary Tree and its applications, Hashing, B+ tree.
• Discrete Structures & Theory of Logic: Set Theory, Relations, Functions, Natural Numbers, Proof Methods, Proof by counter – example, Proof by contradiction. Algebraic Structures, Lattices, Propositional Logic, Trees, Graphs, Combinatorics.
• Database Management Systems: Database System vs File System, Database
  System Concept and Architecture, Data Model Schema and Instances, Data
  Independence and Database Language and Interfaces, Data Definitions Language, DML, and Overall Database Structure. Data Modelling Using the Entity Relationship and enhanced E-R, Relational data Model and Language, Relational Algebra, Relational Calculus, Tuple and Domain Calculus. SQL, Database Design & Normalisation, NoSQL, Transaction Processing, Concurrency Control Techniques, Web Interface to DBMS, OO database, Case Studies of commercial DBMS.
• Design and Analysis of Algorithms: Algorithms and their analysis, Complexity of Algorithms, Growth of Functions, Performance Measurements, Sorting and Order Statistics, Red-Black Trees, B – Trees, Binomial Heaps, Fibonacci Heaps, Tries, Skip List, Divide and Conquer with Examples Such as Sorting, Matrix Multiplication, Convex Hull and Searching. Greedy Methods: Optimal Reliability Allocation, Knapsack, Minimum Spanning Trees – Prim’s and Kruskal’s Algorithms, Single Source Shortest Paths – Dijkstra’s and Bellman Ford Algorithms, Dynamic Programming such as Knapsack. All Pair Shortest Paths – Warshall’s and Floyd’s Algorithms, Resource Allocation Problem. Backtracking, Branch and Bound techniques, such as the Travelling Salesman Problem,
  Graph Colouring, n-Queen Problem, Hamiltonian Cycles and Sum of Subsets. Algebraic Computation, Fast Fourier Transform, String Matching, Theory of NP-Completeness, Approximation Algorithms and Randomised Algorithms.
• COMPUTER NETWORKS: Goals and Applications of Networks, Network structure and architecture, The OSI reference model, services, Network Topology Design, Physical Layer Transmission Media, Switching methods, ISDN, Terminal Handling, Medium Access sub layer – Channel Allocations, LAN protocols – ALOHA protocols – Overview of IEEE standards – FDDI. Data Link Layer – Elementary Data Link Protocols, Sliding Window protocols, Error Handling. Network Layer – Point-to-Point Networks, routing, and congestion control. Internetworking -TCP / IP, IP packet, IP address, IPv6. Transport Layer – Design issues, connection management, Session Layer-Design issues, remote procedure call. Presentation Layer-Design issues, Data compression techniques, cryptography – TCP – Window Management. Application Layer: File Transfer, Access and Management, Electronic mail, Virtual Terminals, Other applications.  Internet and Public Networks, Peer-to-Peer Network.
• Principles of Programming Languages, Role of Programming Languages,
  Programming Paradigms, Programming Environments, Language Description: Syntactic Structure, Language Translation Issues: Programming Language Syntax, Stages inTranslation, FormalTranslation Models, DataTypes, and Basic Statements, Binding, Type Checking, Scope, Scope Rules, Lifetime and Garbage Collection, Primitive Data Types, Strings, Array Types, Associative Arrays, Record Types, Union Types, Pointers and References, Arithmetic Expressions, Overloaded Operators, Type Conversions, Relational and Boolean Expressions, Assignment Statements, Mixed Mode Assignments, Control
  Structures, Selection, Iterations, Branching, Guarded Statements, Subprograms, and Implementations, Design Issues for Functions, Semantics of Call and Return, and Implementing Simple Subprograms, Stack and Dynamic Local Variables, Nested Subprograms, and Dynamic Scoping. Object-Oriented, Concurrency and Event Handling, Object-Oriented Programming usingC++and Java, Functional and Logic Programming Languages.
• Software Project Management: Fundamentals of Software Project Management (SPM), Software Project Planning, Software Project Estimation, Project
  Organisation and Scheduling Project Elements, Project Life Cycle and Product Life Cycle, Ways to Organise Personnel, Project Schedule, Scheduling Objectives, Building the Project Schedule, Scheduling Terminology and Techniques, Network Diagrams: PERT, CPM, Bar Charts: Milestone Charts, Gantt Charts, Dimensions of Project Monitoring & Control, Earned Value Analysis, Earned Value Indicators: Budgeted Cost for Work Scheduled (BCWS), Cost Variance (CV), Schedule Variance (SV), Cost Performance Index (CPI), Schedule Performance Index (SPI), Interpretation of Earned Value Indicators, Error Tracking, Software Reviews, Software Quality Assurance and Testing, Project Management and Project Management Tools, Software Configuration Management, Risk Management, Cost-Benefit Analysis, SPM Tools: CASE Tools, Planning and Scheduling Tools, MS-Project.
• CYBER SECURITY: Information Systems, their types and development, Information Security and its Need, Threats to Information Systems, Information Assurance, Cyber Security, and Security Risk Analysis. Application Security: Database, E-mail, and Internet, Data Security Considerations: Backups, Archival Storage and Disposal of Data, Security Technology: Firewall and VPNs, Intrusion Detection, Access Control. Security Threats -Viruses, Worms, Trojan Horses, Bombs, Trapdoors, Spoofs, E-mail Viruses, Macro Viruses, Malicious Software, Network and Denial of Services Attack Security Threats to E-Commerce- Electronic Payment System, e- Cash, Credit/Debit Cards. Digital Signature, Public Key Cryptography, and Developing Secure Information Systems, Information Security Governance & Risk Management, Security Architecture & Design, Security Issues in Hardware, Data Storage & Downloadable Devices, Physical Security of IT Assets, Access Control, CCTV and Intrusion Detection Systems,
  Backup Security Measures. Security Policies: Development of Policies, WWW
  Policies, Email Security Policies, Policy Review Process-Corporate Policies-Sample
  Security Policies, Publishing and Notification Requirement of the Policies. Evolving Technology Security – Mobile, Cloud, Outsourcing, SCM, Information Security Standards: ISO, IT Act, Copyright Act, Patent Law, IPR. Cyber Laws in India, IT Act 2000 Provisions, Intellectual Property Law, Software License, Semiconductor Law, and Patent Law. Corporate Security.

Paper II

• OPERATING SYSTEMS: Operating System definition, function and services, Types and features, Operating System Structure- Layered structure, System Components, Reentrant Kernels, Monolithic and Microkernel Systems, System Calls types, System Programs, Process and Thread: process states, process control block, Inter-process communication; Process Synchronisation: Classical problems of synchronisation, Concurrent Processes CPU Scheduling Criteria and Algorithms, Memory Management, File management, Device Management and Disk scheduling, File Management, UNIX Commands and utilities, Linux: System components, Process management, scheduling, memory management, Networking software layers, Security, various editors, I/Odevices, IPC.
• COMPUTER GRAPHICS: Types of computer graphics, Graphic Displays, Random scan displays, Raster scan displays, Frame buffer and video controller, Points and lines drawing algorithms, Circle generating algorithms and parallel versions of these algorithms. Basic and Composite Transformations, Reflections and Shearing. Windowing and Clipping, 3-D Geometric Primitives, representation, Transformation, projections, and Clipping, Curves and Surfaces, Hidden Lines and Surfaces
• Artificial Intelligence: Introduction, Foundations and History of Artificial
  Intelligence, Applications of Artificial Intelligence, Intelligent Agents, Structure of Intelligent Agents. Computer vision, Natural Language Processing, strategies, Informed search strategies and algorithms, Knowledge Representation & Reasoning, Machine Learning, Pattern Recognition.
• Compiler Design: Phases and passes, Bootstrapping, Finite state machines, and
  regular expressions and their applications to lexical analysis, Optimisation of DFA-Based Pattern Matchers implementation of lexical analysis, Formal grammars and their application to syntax analysis, BNF notation, ambiguity, YACC. The syntactic specification of programming languages: Context-free grammars, derivation and parse trees, capabilities of CFG, Parsing Techniques, Syntax-directed Translation, Symbol Tables, Run-Time Administration, Error Detection & Recovery, Code Generation and Code optimisation.
• Software Engineering: Introduction, Software life-cycle models, Software
  Requirements, Requirements Specification, Software design and Software user interface design, Coding Issues, Software integration and testing, Software support processes, Quality Assurance, IEEE Software Engineering Standards, Software maintenance, Software reuse, SOFTWARE TESTING & AUDIT.
• Distributed System: Characterisation of Distributed Systems, Theoretical Foundation for Distributed Systems, Distributed Mutual Exclusion, Distributed Deadlock Detection, Agreement Protocols, Distributed Resource Management, Failure Recovery in Distributed Systems, Transactions and Concurrency.
• Web Technologies: Introduction and Web Development Strategies, Protocols
  Governing Web, Writing Web Projects, Internet services and tools, Client-server
  computing. Core Java, Web Page Designing, XML, DOM and SAX, Dynamic HTML, Scripting, Networking, Enterprise Java Bean, Java Database Connectivity (JDBC), Merging Data from Multiple Tables, Servlets, Handling HTTP get and post Requests, Redirecting Requests to Other Resources, Session Tracking, Cookies, Session Tracking with Http Session, Java Server Pages (JSP)
• Image Processing: Digital Image Fundamentals: Steps in Digital Image
  Processing – Components – Elements of Visual Perception – Image Sensing and
  Acquisition – Image Sampling and Quantisation – Relationships between pixels – Colour image fundamentals – RGB, HSI models, Two-dimensional mathematical
  preliminaries, 2D transforms – DFT, DCT. Image Enhancement: Spatial Domain: Grey level transformations – Histogram processing – Basics of Spatial Filtering–
  Smoothing and Sharpening Spatial Filtering, Frequency Domain: Introduction to
  Fourier Transform– Smoothing and Sharpening frequency domain filters – Ideal,
  Butterworth and Gaussian filters, Homomorphic filtering, Colour image enhancement.
• Image Restoration: Image Restoration – degradation model, Properties, Noise
  models – Mean Filters – Order Statistics – Adaptive filters – Band Reject Filters – Band pass Filters – Notch Filters – Optimum Notch Filtering – Inverse Filtering – Wiener filtering, Image Segmentation: Edge detection, Edge linking via Hough transform – Thresholding – Region based segmentation – Region growing – Region splitting and merging – Morphological processing- erosion and dilation, Segmentation by morphological watersheds – basic concepts – Dam construction – Watershed segmentation algorithm. Image Compression and Recognition: Need for data compression, Huffman, Run Length Encoding, Shift codes, Arithmetic coding, JPEG standard, MPEG. Boundary representation, Boundary description, Fourier Descriptor, Regional Descriptors – Topological feature, Texture – Patterns and Pattern classes –Recognition based on matching.
• Soft Computing: Neural Networks, Fuzzy Logic and Genetic Algorithm(GA)
• High Performance Computing: Grid Computing, Cluster Computing, Beowulf
  Cluster, Cloud Computing.

UPPSC Polytechnic Lecturer Syllabus 2025 PDF

A detailed syllabus for General Hindi & Studies, Computer Science, Chemical Engineering, Electronics Engineering, Civil Engineering, Electrical Engineering, and Mechanical Engineering is described above. A comprehensive syllabus has been included in the PDF link provided below. It is highly recommended that candidates take the time to read this document in detail. Having the UPPSC Polytechnic Lecturer Syllabus on hand will not only help you stay organised throughout your study sessions but also ensure that you systematically cover each topic outlined. This approach will maximise your preparation efficiency and enhance your understanding of the material, giving you a clearer path to success in your upcoming assessments.

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