Structure of CENTAC M.Tech Exam
The selection of the candidate will be based on his / her marks in the GATE exam or in the CENTEC exam. The exam will consist of questions from general aptitude, English and from the subjects, the candidate has studied during his / her B.Tech degree course. The questions will carry one mark each and there will be negative marking for wrong answers.
Syllabus for CENTAC M.Tech Exam
The syllabus is exactly similar to the GATE exam:
The syllabus being:
General Aptitude (GA)
Verbal Ability
English Grammar
Sentence Completion
Verbal Analogies
Word Groups
Instructions
Critical Reasoning
Verbal Deduction
Numerical Ability
Numerical Computation
Numerical Estimation
Numerical Reasoning
Data Interpretation
Engineering Mathematics
Linear Algebra
Matrix algebra
Systems of linear equations
Eigen values
Eigenvectors
Calculus
Functions of single variable
Limit, continuity and differentiability
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
Cauchy’s and Euler’s equations
Initial and boundary value problems
Laplace transforms
Complex variables
Analytic functions
Cauchy’s integral theorem
Taylor and Laurent series
Probability and Statistics
Definitions of probability and sampling theorems
Conditional probability
Mean, median mode and standard deviation
Random variables
Poisson
Normal and Binomial distributions
Numerical Methods
Mechanics
Bending Moment And Shear Force In Statically Determinate Beams
Simple Stress And Strain Relationship
Stress And Strain In Two Dimensions
Principal Stresses
Stress Transformation
Mohr’s Circle
Simple Bending Theory
Flexural And Shear Stresses
Unsymmetrical Bending
Shear Centre
Thin Walled Pressure Vessels
Uniform Torsion
Buckling Of Column
Combined And Direct Bending Stresses
Structural Analysis
Analysis Of Statically Determinate Trusses
Arches, Beams, Cables And Frames
Displacement Methods
Influence Lines For Determinate And Indeterminate Structures
Basic Concepts Of Matrix Methods Of Structural Analysis
Concrete Structures
Concrete Technology
Basics Of Mix Design.
Concrete Design- Basic Working Stress And Limit State Design Concepts,
Compression And Torsion By Limit State Methods
Basic Elements Of Prestressed Concrete
Analysis Of Beam Sections At Transfer And Service Load
Steel Structures
Analysis and design of tension and compression members,\
Connections
Plastic analysis of beams and frames
Geotechnical Engineering
Soil Mechanics
Origin Of Soils
Soil Classification
Three-Phase System
Fundamental Definitions
Relationship And Interrelationships
Permeability & Seepage
Effective Stress Principle
Consolidation, Compaction, Shear Strength
Foundation Engineering
Sub-surface investigations
Earth pressure theories
Stability of slopes-infinite slopes
Foundation types-foundation design requirements
Shallow foundations-bearing capacity
Deep foundations pile types
Water Resources Engineering
Fluid Mechanics and Hydraulics
Properties of fluids
Energy and corresponding equations
potential flow
Applications of momentum and Bernoulli’s equation
Laminar and turbulent flow
Flow in pipes
Pipe networks
Concept of boundary layer and its growth
Critical flow and gradually varied flow in channels
Specific energy concept
Hydraulic jump
Forces on immersed bodies
Dimensional analysis and hydraulic modeling
Kinematics of flow
Velocity triangles and specific speed of pumps and turbines
Hydrology
Hydrologic Cycle
Rainfall,
Evaporation,
Infiltration,
Stage Discharge Relationships,
Unit Hydrographs,
Flood Estimation,
Reservoir Capacity,
Reservoir And Channel Routing
Well hydraulics
Irrigation
Duty, Delta
Estimation Of Evapo-Transpiration
Crop Water Requirements
Design Of: Lined And Unlined Canals
Waterways
Head Works
Gravity Dams And Spillways
Design Of Weirs On Permeable Foundation
Types Of Irrigation System
Irrigation Methods
Water Logging And Drainage
Environmental Engineering
Water requirements
Quality standards
Drinking water standards
Water requirements
Domestic wastewater treatment
Air Pollution
Types of pollutants
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
Noise Pollution
Impacts Of Noise
Permissible Limits Of Noise Pollution
Measurement Of Noise And Control Of Noise Pollution
Transportation Engineering
Highway Planning: Geometric design of highways
Testing and Specifications Of Paving Materials
Design of Flexible And Rigid Pavements
Traffic Engineering
Traffic Characteristics
Theory Of Traffic Flow
Intersection Design, Traffic Signs And Signal Design
Highway Capacity
Surveying
Importance Of Surveying
Principles And Classifications
Mapping Concepts
Coordinate System
Map Projections
Measurements Of Distance And Directions
Leveling
Theodolite Traversing
Plane Table Surveying
Errors And Adjustments
Curves
Eligibility Criteria for CENTAC M.Tech Exam
Any candidate who has passed B.Tech can apply for this exam.
Only candidates who have studied B.Tech in the regular stream can only apply for this exam.
The college in which the candidate has studied should be an AICTE approved one.
Final year engineering students with no back papers can also apply.
Minimum percentage of marks required for the passed candidates is 55%.
How to Apply for CENTAC M.Tech Exam?
Candidates applying for M.Tech course will have to attend the GATE exam. The score from that exam will be considered first. If the number of seats available is more, then the candidates from this CENTAC M.Tech Exam will be selected. Candidates can buy forms from:
Office of PEC Credit Society
Address : Pondicherry Engineering College, Puducherry-605014
The cost of the form is Rs 530 for the general candidates and for SC/ST candidates it is Rs 155. Online application form can be also submitted.
The selection of the candidate will be based on his / her marks in the GATE exam or in the CENTEC exam. The exam will consist of questions from general aptitude, English and from the subjects, the candidate has studied during his / her B.Tech degree course. The questions will carry one mark each and there will be negative marking for wrong answers.
Syllabus for CENTAC M.Tech Exam
The syllabus is exactly similar to the GATE exam:
The syllabus being:
General Aptitude (GA)
Verbal Ability
English Grammar
Sentence Completion
Verbal Analogies
Word Groups
Instructions
Critical Reasoning
Verbal Deduction
Numerical Ability
Numerical Computation
Numerical Estimation
Numerical Reasoning
Data Interpretation
Engineering Mathematics
Linear Algebra
Matrix algebra
Systems of linear equations
Eigen values
Eigenvectors
Calculus
Functions of single variable
Limit, continuity and differentiability
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
Cauchy’s and Euler’s equations
Initial and boundary value problems
Laplace transforms
Complex variables
Analytic functions
Cauchy’s integral theorem
Taylor and Laurent series
Probability and Statistics
Definitions of probability and sampling theorems
Conditional probability
Mean, median mode and standard deviation
Random variables
Poisson
Normal and Binomial distributions
Numerical Methods
Mechanics
Bending Moment And Shear Force In Statically Determinate Beams
Simple Stress And Strain Relationship
Stress And Strain In Two Dimensions
Principal Stresses
Stress Transformation
Mohr’s Circle
Simple Bending Theory
Flexural And Shear Stresses
Unsymmetrical Bending
Shear Centre
Thin Walled Pressure Vessels
Uniform Torsion
Buckling Of Column
Combined And Direct Bending Stresses
Structural Analysis
Analysis Of Statically Determinate Trusses
Arches, Beams, Cables And Frames
Displacement Methods
Influence Lines For Determinate And Indeterminate Structures
Basic Concepts Of Matrix Methods Of Structural Analysis
Concrete Structures
Concrete Technology
Basics Of Mix Design.
Concrete Design- Basic Working Stress And Limit State Design Concepts,
Compression And Torsion By Limit State Methods
Basic Elements Of Prestressed Concrete
Analysis Of Beam Sections At Transfer And Service Load
Steel Structures
Analysis and design of tension and compression members,\
Connections
Plastic analysis of beams and frames
Geotechnical Engineering
Soil Mechanics
Origin Of Soils
Soil Classification
Three-Phase System
Fundamental Definitions
Relationship And Interrelationships
Permeability & Seepage
Effective Stress Principle
Consolidation, Compaction, Shear Strength
Foundation Engineering
Sub-surface investigations
Earth pressure theories
Stability of slopes-infinite slopes
Foundation types-foundation design requirements
Shallow foundations-bearing capacity
Deep foundations pile types
Water Resources Engineering
Fluid Mechanics and Hydraulics
Properties of fluids
Energy and corresponding equations
potential flow
Applications of momentum and Bernoulli’s equation
Laminar and turbulent flow
Flow in pipes
Pipe networks
Concept of boundary layer and its growth
Critical flow and gradually varied flow in channels
Specific energy concept
Hydraulic jump
Forces on immersed bodies
Dimensional analysis and hydraulic modeling
Kinematics of flow
Velocity triangles and specific speed of pumps and turbines
Hydrology
Hydrologic Cycle
Rainfall,
Evaporation,
Infiltration,
Stage Discharge Relationships,
Unit Hydrographs,
Flood Estimation,
Reservoir Capacity,
Reservoir And Channel Routing
Well hydraulics
Irrigation
Duty, Delta
Estimation Of Evapo-Transpiration
Crop Water Requirements
Design Of: Lined And Unlined Canals
Waterways
Head Works
Gravity Dams And Spillways
Design Of Weirs On Permeable Foundation
Types Of Irrigation System
Irrigation Methods
Water Logging And Drainage
Environmental Engineering
Water requirements
Quality standards
Drinking water standards
Water requirements
Domestic wastewater treatment
Air Pollution
Types of pollutants
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
Noise Pollution
Impacts Of Noise
Permissible Limits Of Noise Pollution
Measurement Of Noise And Control Of Noise Pollution
Transportation Engineering
Highway Planning: Geometric design of highways
Testing and Specifications Of Paving Materials
Design of Flexible And Rigid Pavements
Traffic Engineering
Traffic Characteristics
Theory Of Traffic Flow
Intersection Design, Traffic Signs And Signal Design
Highway Capacity
Surveying
Importance Of Surveying
Principles And Classifications
Mapping Concepts
Coordinate System
Map Projections
Measurements Of Distance And Directions
Leveling
Theodolite Traversing
Plane Table Surveying
Errors And Adjustments
Curves
Eligibility Criteria for CENTAC M.Tech Exam
Any candidate who has passed B.Tech can apply for this exam.
Only candidates who have studied B.Tech in the regular stream can only apply for this exam.
The college in which the candidate has studied should be an AICTE approved one.
Final year engineering students with no back papers can also apply.
Minimum percentage of marks required for the passed candidates is 55%.
How to Apply for CENTAC M.Tech Exam?
Candidates applying for M.Tech course will have to attend the GATE exam. The score from that exam will be considered first. If the number of seats available is more, then the candidates from this CENTAC M.Tech Exam will be selected. Candidates can buy forms from:
Office of PEC Credit Society
Address : Pondicherry Engineering College, Puducherry-605014
The cost of the form is Rs 530 for the general candidates and for SC/ST candidates it is Rs 155. Online application form can be also submitted.