Home / Recruitment / GATE Syllabus 2017 (CE/CS/CH/EC/EE/ME/PI) GATE Engineering Syllabi PDF|Recruitment, Result, Application Form, Admit Card

GATE Syllabus 2017 (CE/CS/CH/EC/EE/ME/PI) GATE Engineering Syllabi PDF|Recruitment, Result, Application Form, Admit Card


Section 1: Engineering Mathematics Linear Algebra
  • Matrix algebra,
  • Systems of linear equations,
  • Eigen values and eigenvectors
  • Functions of single variable,
  • Limit,
  • continuity and differentiability,
  • Taylor series,
  • Mean value theorems,
  • Evaluation of definite and improper integrals,
  • Partial derivatives,
  • Total derivative,
  • Maxima and minima, Gradient,
  • Divergence and Curl,
  • Vector identities,
  • Directional derivatives,
  • Line, Surface and Volume integrals,
  • Stokes,
  • Gauss and Green’s theorems.
Differential equations
  • First order equations (linear and nonlinear),
  • Higher order linear differential equations with constant coefficients,
  • Cauchy’s and Euler’s equations,
  • Initial and boundary value problems,
  • Laplace transforms,
  • Solutions of one dimensional heat and wave equations and Laplace equation.
Complex variables
  • Complex number,
  • polar form of complex number,
  • triangle inequality
Probability and Statistics
  • Definitions of probability and sampling theorems,
  • Conditional probability,
  • Mean, median,
  • mode and standard deviation,
  • Random variables,
  • Poisson,
  • Normal and Binomial distributions,
  • Linear regression analysis.
Numerical Methods
  • Numerical solutions of linear and non-linear algebraic equations.
  • Integration by trapezoidal and Simpson’s rule.
  • Single and multi-step methods for numerical solution of differential equations.
Section 2: Structural Engineering Engineering Mechanics
  • System of forces
  • free-body diagrams
  • equilibrium equations
  • Internal forces in structures
  • Friction and its applications
  • Kinematics of point mass and rigid body
  • Centre of mass
  • Euler’s equations of motion
  • Impulse-momentum
  • Energy methods
  • Principles of virtual work.
Solid Mechanics
  • Bending moment and shear force in statically determinate beams
  • Simple stress and strain relationships
  • Theories of failures; Simple bending theory
  • flexural and shear stresses, shear centre; Uniform torsion, buckling of column, combined and direct bending stresses.
Structural Analysis
  • Statically determinate and indeterminate structures by force/ energy methods
  • Method of superposition
  • Analysis of trusses
  • arches, beams
  • cables and frames
  • Displacement methods
  • Slope deflection and moment distribution methods
  • Influence lines
  • Stiffness and flexibility methods of structural analysis
Construction Materials and Management
  • Construction Materials: Structural steel – composition, material properties and behavior
  • Concrete – constituents,  mix design, short-term and long-term properties, Bricks and mortar Timber, Bitumen
  • Construction Management: Types of construction projects; Tendering and construction contracts
  • Rate analysis and standard specifications; Cost estimation; Project planning and network analysis – PERT and CPM.
Concrete Structures
  • Working stress
  • Limit state and Ultimate load design concepts
  • Design of beams, slabs, columns
  • Bond and development length
    Prestressed concrete
  • Analysis of beam sections at transfer and service loads
Steel Structures
  • Working stress and Limit state design concepts
  • Design of tension and compression members
  • beams and beam- columns, column bases
  • Connections – simple and eccentric
  • beam-column connections, plate girders and trusses
  • Plastic analysis of beams and frames
Section 3: Geotechnical Engineering Soil Mechanics:
  • Origin of soils, soil structure and fabric
  • Three-phase system and phase relationships
  • index properties
  • Unified and Indian standard soil classification system
  • Permeability – one dimensional flow, Darcy’s law
  • Seepage through soils – two-dimensional flow
  • flow nets, uplift pressure, piping
  • Principle of effective stress, capillarity
  • seepage force and quicksand condition
  • Compaction in laboratory and field conditions
  • Onedimensional consolidation
  • time rate of consolidation
  • Mohr’s circle, stress paths
  • effective and total shear strength parameters
  • characteristics of clays and sand.
Foundation Engineering
  • Sub-surface investigations – scope, drilling bore holes, sampling, plate load test, standard penetration and cone penetration tests
  • Earth pressure theories – Rankine and Coulomb; Stability of slopes – finite and infinite slopes, method of slices and Bishop’s method
  • Stress distribution in soils – Boussinesq’s and Westergaard’s theories, pressure bulbs
  • Shallow foundations – Terzaghi’s and Meyerhoff’s bearing capacity theories, effect of water table
  • Combined footing and raft foundation
  • Contact pressure
  • Settlement analysis in sands and clays
  • Deep foundations – types of piles, dynamic and static formulae, load capacity of piles in sands and clays, pile load test, negative skin friction.
Section 4: Water Resources Engineering Fluid Mechanics:
  • Properties of fluids, fluid statics
  • Continuity, momentum, energy and corresponding equations
  • Potential flow, applications of momentum and energy equations
  • Laminar and turbulent flow
  • Flow in pipes, pipe networks
  • Concept of boundary layer and its growth.
  • Forces on immersed bodies
  • Flow measurement in channels and pipes
  • Dimensional analysis and hydraulic similitude
  • Kinematics of flow, velocity triangles
  • Basics of hydraulic machines, specific speed of pumps and turbines
  • Channel Hydraulics – Energy-depth relationships, specific energy, critical flow, slope profile, hydraulic jump, uniform flow and gradually varied flow
  • Hydrologic cycle, precipitation, evaporation,
  • evapo-transpiration, watershed,
  • infiltration, unit hydrographs, hydrograph analysis,
  • flood estimation and routing,
  • reservoir capacity, reservoir and channel routing,
  • surface run-off models,
  • ground water hydrology – steady state well hydraulics and aquifers
  • Application of Darcy’s law.
  • Duty, delta, estimation of evapo-transpiration
  • Crop water requirements
  • Design of lined and unlined canals, head works, gravity dams and spillways
  • Design of weirs on permeable foundation
  • Types of irrigation systems, irrigation methods; Water logging and drainage
  • Canal regulatory works, cross-drainage structures, outlets and escapes.
Section 5: Environmental Engineering Water and Waste Water:
  • Quality standards,
  • basic unit processes and operations for water treatment
  • Drinking water standards, water requirements
  • basic unit operations and unit processes for surface water treatment,
  • distribution of water. Sewage and sewerage treatment
  • quantity and characteristics of wastewater
  • Primary, secondary and tertiary treatment of wastewater, effluent discharge standards
  • Domestic wastewater treatment,
  • quantity of characteristics of domestic wastewater, primary and secondary treatment
  • Unit operations and unit processes of domestic wastewater, sludge disposal
Air Pollution:
  • Types of pollutants
  • their sources and impacts
  • air pollution meteorology
  • air pollution control
  • air quality standards and limits.
Municipal Solid Wastes:
  • Characteristics, generation, collection and transportation of solid wastes
  • engineered systems for solid waste management (reuse/ recycle, energy recovery
  • treatment and disposal)
Noise Pollution
  • Impacts of noise, permissible limits of noise pollution
  • measurement of noise and control of noise pollution.
Section 6: Transportation Engineering Transportation Infrastructure
  • Highway alignment and engineering surveys
  • Geometric design of highways – cross-sectional elements, sight distances, horizontal and vertical alignment
  • Geometric design of railway track
  • Airport runway length, taxiway and exit taxiway design.
Highway Pavements
  • Highway materials – desirable properties and quality control tests
  • Design of bituminous paving mixes
  • Design factors for flexible and rigid pavements
  • Design of flexible pavement using IRC: 37-2012
  • Design of rigid pavements using IRC: 58-2011
  • Distresses in concrete pavements.
Traffic Engineering
  • Traffic studies on flow, speed
  • travel time – delay and O-D study, PCU
  • peak hour factor, parking study
  • accident study and analysis
  • statistical analysis of traffic data
  • Microscopic and macroscopic parameters of traffic flow
  • fundamental relationships
  • Control devices
  • signal design by Webster’s method
  • Types of intersections and channelization
  • Highway capacity and level of service of rural highways and urban roads.
Section 7: Geomatics Engineering
  • Principles of surveying
  • Errors and their adjustment
  • Maps – scale, coordinate system
  • Distance and angle measurement – Levelling and trigonometric leveling
  • Traversing and triangulation survey
  • Total station
  • Horizontal and vertical curves. Photogrammetry – scale, flying height
  • Remote sensing – basics, platform and sensors, visual image interpretation
  • Basics of Geographical information system (GIS) and Geographical Positioning system (GPS).
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