WBPSC AE Syllabus 2025: Exam Pattern & Topic-Wise PDF for Civil, Mechanical & Electrical

• Fluid properties and definitions
• Flow kinematics
• Continuity momentum
• Energy equations applicable to fluid flow
• Bernoulli’s theorem
• Flow through conduits
• Flow through open channels
• Hydraulic jump
• Flow through pipes and losses in pipe flows
• Siphons, pipe network
• Forces in pipe ends
• Hydraulic energy grade line
• Water hammer
• Viscosity
• Definition of ideal fluid

• Properties of soils- classifications and interrelationships
• Definitions of terms used
• Soil testing in laboratory and in- situ compaction behaviour
• Methods of compaction and their choice
• Permeability and seepage
• Flow nets
• Flow under hydraulic structure
• Uplift and quicksand condition inverted filters
• Unconfined and direct shear stress
• Triaxial test, shearing resistance
• Earth pressure theories
• Stability of slopes
• Compressibility and consolidation
• Theories of consolidation
• Pressure distribution in soils
• Soil stabilization
• Soil exploration and penetration tests
• Pore water pressure
• Types of foundation
• Selection criteria
• Bearing capacity
• Settlement
• Laboratory and field tests
• Codal provisions in all types of foundation including testing of piles, etc
• Types of piles and their design and layout
• Foundations on expansive soils
• Swelling and its prevention
• Design of retaining walls
• Wells, sheet piles and caissons
• Reinforced earth technique and its use

• Classification of surveys
• Scales, accuracy
• Measurement of distances-by direct and indirect methods
• Optical and electronic devices
• Measurement of directions
• Prismatic compass
• Local attractions
• Theodolities-types
• Measurement of elevations
• Trigonometric leveling contours
• Establishment of control by triangulations and traversing
• Measurements and adjustment of observation
• Computation of coordinates
• Errors and their corrections of measurement of length
• Bearing horizontal and vertical angles and leveling operation
• Correction due to refraction and curvatures
• Map preparation by plane tabling and photogrammetry
• Field astronomy
• Concept of global positioning system
• Remote sensing concepts
• Map substitutes
• Setting out directions and grades
• Types of curves
• Setting out of curves and excavation lines for building foundation

• Theory of structures and strength of materials
• Solid Mechanics – properties of the material
• Mohr’s circle of stress-strain
• Plain stress & strain
• Combined stress
• Elastic theories of failure
• Simple bending
• Shear
• Torsion of circular and rectangular sections
• Columns and struts
• Moving loads and influence lines for shear force and
• Bending moment for-simple and continuous beams and frames
• Structural Analysis – Analysis of determinate structures
• Different methods of analysis of indeterminate structures – moment distribution, slope-deflection, column analogy
• Strain energy method
• Three-moment theorem
• Muller Breslau Principle and application, etc
• Analysis of determinate and indeterminate arches

• Principle of working stress method
• Design of all types of connection
• Simple members
• Built-up sections and frames
• Design of Industrial structures and Multistoried frames
• Design of steel bridges and tanks of different types
• Design of tubular structures
• Codal provisions for design of all those steel structures including foundation
• Principle of ultimate load design
• Plastic design of continuous frames and portals

• Limit state method of design
• Codal provisions for design
• Working stress method of design
• Concrete mix design & Quality control
• Principles of prestressed concrete design
• Materials, methods of prestressing
• Losses in prestressing
• Anchorages
• Design of Brick masonry as per I.S. codes

Construction Materials, Practices, Planning & Management

• Building Materials specifications tests, uses and codal provisions
• Concrete technology – Cement its properties
• Classification and specification – Provisions in I.S. code
• Properties of coarse and fine aggregates – Provisions in I.S. code
• Concrete mix design, Laboratory concrete
• Ready-mixed concrete
• Field tests for quality control of concrete,
• Concreting equipment.
• Earthmoving machineries and
• Pile driving equipment.
• Construction planning and management – Bar chart, linked bar chart,
• Work break down structures,
• Activity-on- arrow diagrams,
• Critical path,
• Probabilistic activity durations,
• Event-based network,
• PERT Network,
• Time Cost study,
• Crashing,
• Resource allocation,
• Rescheduling of the construction programme.
• Quantity surveying;
• Methods of valuation,
• Pricing and measurement of works;
• Rudiments of legal and technical aspects of engineering contracts.

• Planning of Highway systems, its classification,
• Objects and principles,
• Geometric design of highway alignment,
• Gradients, super-elevation,
• Camber,
• Sight distances, etc.
• Horizontal and Vertical curves,
• Transition curves,
• Grade separations,
• Segregation of traffic and intersection design.
• Materials of highway construction its properties and tests.
• Sub-grade and pavement components,
• Types of pavements & Road drainage
• Principles of highway financing,
• Design of pavements,
• Evaluation of pavement failure and strengthening
• Construction methods and quality control measures for highway embankment, subgrade,
• Pavement courses and bituminous surfacings
• Elements of Design and construction of highway – Bridges and culverts including their maintenance
• Principles of transportation planning;
• Forecasting techniques,
• Origin and destination study;
• Highway capacity;
• Arterial routes; one-way roads and bye-pass roads;
• Ribbon development; Traffic control devices;
• Traffic study and parking surveys, speed,
• Volume and delay studies;
• Accident characteristics;
• Traffic signal;
• Traffic projection factor.

• Hydrology – Hydrologic cycle,
• Measurements,
• Computations and statistics;
• Run off and streamflow,
• Measuring techniques and computations;
• Hydrographs,
• Computations and interpretation;
• Ground water, Estimation,
• Measurements,
• Characteristics.
• Irrigation Engineering – Types of irrigation systems and their detail description,
• Soil-water-crop relationship;
• Types of soils; water requirement of crops; Delta and duty.
• Classification of rivers; River Regime Theory; Effects of dams on river regime;
• River training works. Irrigation channels;
• Design principles of irrigation canals,
• Drainage channels and Navigation canals;
• Canal linings; canal outlets.
• Waterlogging and salt efflorescence,
• Land reclamation.
• Hydraulic structures – Storage Reservoirs;
• Different types of dams and their design principles
• Weirs,
• Barrages and their design principles;
• Spillways,
• Energy dissipation by hydraulic jump;
• Different types of energy dissipation.
• Headworks;
• Cross drainage works;
• Falls and Regulators.

• Water uses,
• Quantity requirements,
• Potable water quality,
• Sources of water,
• Groundwater hydraulics,
• Development of surface source;
• Reservoir volume,
• Transmission of water.
• Treatment of water;
• Typical flow-sheets for surface and ground sources;
• Sedimentation,
• Coagulation and flocculation,
• Filtration,
• Disinfection,
• Hardness and chemical softening;
• Rudiments of Ion-exchange;
• Elements of rural water supply and
• Removal of Iron,
• Arsenic and salinity from water.
• Principles and methods of design of distribution systems
• Service reservoirs, and
• Intakes for urban and rural water supply.

• Sanitary Waste Water and Storm water run off :
• Quantity estimation, Sewerage systems and their design principles;
• Sewer construction materials;
• Structural design of sewers;
• Sewer appurtenances;
• Characteristics of domestic sewage;
• Typical flow-sheets for primary and secondary treatment;
• Design principles of screen,
• Grit- removal, sedimentation,
• Bio-filter,
• Activated sludge process and Septic tank,
• Elements of industrial sewage and its treatment;
• Rural Sanitation its principles and practices.

• Atmospheric pollution : Types of pollutants,
• Natural and man-made sources,
• Effects of air pollution,
• Unit systems;
• Rudiments of control methods;
• Elements of noise pollution
• Community solid wastes;
• Sources,
• Quantity and characteristics,
• Methods of disposal,
• Reuse and cycling.
• Water quality management;
• Quality criteria for major uses of water;
• Applied stream sanitation

• Engineering Mechanics
• Physics
• Mathematics
• Applied Mechanics
• Electronics
• Circuit Theory
• Electrical Engineering Materials
• Hydraulics and Water Power
• Electrical Machines
• Power Planning and Distribution
• Field Theory
• Numerical Theory and Computer Programming
• Electrical Power Utilization
• Power Systems Protection and Switchgear

• Electrical Technology
• Mathematics
• Engineering Mechanics
• Physics
• Thermodynamics
• Materials and Metallography
• Strength of materials
• Fluid mechanics
• Design of machine elements
• Dynamics of machines
• IC Engines and Gas Turbines
• Machine Tools