GATE Mechanical Engineering Syllabus 2025, Download PDF Now

Indian Institute of Technology Roorkee has published the GATE Mechanical Engineering Syllabus 2025 on the official IIT Roorkee website gate.iitr.ac.in. IITR will conduct GATE 2025 exam in February 2025 for admission to ME/M. Tech/Ph.D. In IIT, NIT, IIIT and CFTI. GATE score is also accepted for getting a prestigious job as an engineer in various public sector undertakings. On this page, candidates can find the GATE 2025 syllabus for Mechanical Engineering to help them prepare well for the exam and score high marks. GATE Mechanical Engineering Syllabus 2025 is divided into four main sections Applied Mechanics and Design, Engineering Mathematics, Fluid Mechanics and Thermal Sciences, and Materials, Manufacturing and Industrial Engineering. GATE 2025 exam will have questions from each section. This article discusses the syllabus of Mechanical Engineering GATE 2025 exam to help the candidates in their preparation.

gate mechanical syllabus 2025

Candidates planning to appear for GATE 2025 in Mechanical Engineering stream must be completely familiar with the GATE Mechanical Syllabus 2025. Understanding GATE Mechanical syllabus is the first step towards targeting GATE exam. Candidates should read this complete article to get complete information about GATE Mechanical Syllabus 2025. To perform well in the GATE 2025 exam, it is important to cover all aspects of the GATE Mechanical Syllabus 2025.

GATE Mechanical Engineering Syllabus 2025-Overview

Aspirants from Mechanical Engineering discipline who are going to appear for GATE 2025 exam should check the section below to get a detailed overview of GATE Mechanical Engineering syllabus 2025.

gate mechanical engineering syllabus 2025
gate full form	Graduate Aptitude Test for Engineering (GATE)
GATE 2025 Conducting Authority	IIT Roorkee
GATE 2025 number of papers	30
GATE 2025 Exam Pattern	Computer Based Test (CBT)
Number of questions asked	65
GATE 2025 marks distribution	15 marks (General Aptitude) + 85 marks (Subject questions) = 100 marks (Total)
gate exam language	English
GATE 2025 marking scheme	one digit and two digit
negative marking	Yes
gate official website	@gate.iisc.ac.in

gate exam 2025

Graduate Aptitude Test in Engineering is one of the most prestigious examinations in India to gain admission to postgraduate programs in premier institutes of the country and to get PSU jobs. GATE exam opens up many opportunities for the candidates to enhance their career in their respective technical fields. GATE exam 2025 is a computer-based standardized test conducted at the national level in India to check the understanding of students in subjects like engineering and science.

GATE 2025 exam will be conducted by IIT Roorkee for various 30 subjects. GATE exam is considered as the gateway to establish a successful career in the engineering field. Candidates who are preparing for GATE 2025 exam are advised to stay updated with StudyToper to get the latest updates regarding the exam.

gate mechanical engineering syllabus 2025

To score good marks in GATE Exam 2025 in Mechanical Engineering paper, candidates must have in-depth knowledge of GATE Mechanical Syllabus 2025 to succeed in the exam. GATE Mechanical Syllabus 2025 will help in planning preparation and strategizing to score highest marks in the upcoming GATE exam.

Through the GATE Syllabus of Mechanical Engineering, candidates can understand and revise the concepts thoroughly to master their preparation. In this article, we have covered everything regarding GATE Mechanical Engineering Syllabus 2025. Candidates should read the complete article to know the complete GATE 2025 Mechanical Syllabus in brief.

gate mechanical exam pattern 2025

Questions will be asked in GATE 2025 Mechanical Engineering paper to test your application, analysis, comprehension, recall and synthesis abilities. GATE 2025 question paper will consist of MCQ, MSQ and NAT (Numerical Answer Type) questions.

Candidates should check the GATE 2024 exam pattern for Mechanical Engineering through the table given below to get a clear idea about the GATE 2025 paper scheme for Mechanical Engineering branch.

gate mechanical exam pattern 2025
gate exam 2024 mode	Computer Based Test (Online)
exam period	3 hours
number of subjects	30 topics
total marks	100 points
number of questions	10 (GA) + 55 (Subject) = 65 questions
types of questions	Multiple Choice Questions (MCQ), Multiple Choice Questions (MSQ), and Numerical Answer Type Questions (NAT)

gate mechanical engineering syllabus pdf

Candidates can download the GATE Mechanical Engineering Syllabus PDF through the direct link given below. Candidates should refer to the syllabus to enhance their preparation for GATE 2025 test. Proper understanding of Mechanical Syllabus 2025 will help the candidates to score good marks and success as they can plan and strategy in advance as per GATE Mechanical Engineering Syllabus 2025.

GATE Mechanical Engineering Syllabus 2025- Click Here

gate mechanical syllabus in detail

Subject-wise detailed GATE Mechanical Engineering Syllabus is given here to help the students who want to crack it with good scores. You must read the GATE 2025 Mechanical Engineering Syllabus given below:

Section 1- Engineering Mathematics

linear algebra

• matrix algebra
• system of linear equations
• Eigenvalues ​​and eigenvectors

calculation

• functions of a single variable
• You LIMIT
• continuity and variation
• mean value theorem
• indefinite form
• Evaluation of definite and improper integrals
• double and triple integrals
• partial derivative
• total derivative
• Taylor series (in one and two variables)
• maxima and minima
• Fourier series
• gradient
• deviation and curl
• vector identity
• directional derivative
• line, surface and
• volume integral
• applications of gauss
• Stokes and Green’s theorem

differential equations

• First-order equations (linear and nonlinear)
• Higher-order linear differential equations with constant coefficients
• Euler-Cauchy equation
• Initial and boundary value problems
• Laplace transform
• Solution of heat, wave and Laplace equations

complex variables

• analytical work
• Cauchy–Riemann equation
• Cauchy’s integral theorem and
• integral formula
• taylor and laurent series

probability and statistics

• Definitions of probability
• sampling theorem
• conditional probability
• Mean, Median, Mode and Standard Deviation
• random variables
• binomial
• Poisson and normal distribution

numerical methods

• Numerical solutions of linear and nonlinear algebraic equations
• Integration by trapezoidal and Simpson’s rules
• Single and multi-step methods for differential equations

Section 2- Applied Mechanics and Design

engineering mechanics

• Free-body diagram and equilibrium
• Friction and its applications including rolling friction
• belt pulley
• break
• clutches
• screw jack
• nail, vehicle, etc.
• truss and frame
• virtual work
• Kinetics and dynamics of rigid bodies in plane motion
• Impulse and momentum (linear and angular) and energy formulation
• Lagrange’s equation

mechanics of materials

• stress and strain
• elastic constant
• Poisson’s ratio
• seal ring for plane
• tension and plane tension
• thin cylinder
• Shear force and bending moment diagram
• bending and shear stress
• concept of shear center
• deflection of rays
• torsion of circular shafts
• Euler’s column theory
• energy methods
• thermal stress
• Strain gauge and rosette
• Testing of materials with Universal Testing Machine (UTM)
• Hardness and impact strength testing

theory of machines

• displacement
• Velocity and Acceleration Analysis of Plane System
• dynamic analysis of relationships
• cam
• gears and gear trains
• flywheel and governor
• Balancing reciprocating and rotating masses
• Gyroscope

vibration

• Free and forced vibrations of single-degree-of-freedom systems
• wetting effect
• vibration isolation
• echo
• critical speed of shaft

machine design

• Design for static and dynamic loading
• failure theory
• fatigue strength and
• sn diagram
• Principles of design of machine elements such as bolts
• riveted and welded joints
• shaft
• gear
• rolling and sliding contact bearings
• brake and clutch
• springs

Section 3: Fluid Mechanics and Thermal Science

fluid mechanics

• fluid properties
• hydrostatic
• force on submerged bodies
• stability of floating bodies
• Control-volume analysis of mass
• speed and energy
• fluid acceleration
• Continuity and differential equations of motion
• Bernoulli’s equation
• dimensional analysis
• Viscous flow of incompressible fluids
• boundary layer
• primary turbulent flow
• flow through pipes
• head loss in pipes
• turning and fitting
• Basics of Compressed Fluid Flow

heat transfer

• Heat transfer methods
• one dimensional heat conduction
• Resistance concept and electrical analogy
• heat transfer through fans
• unsteady heat conduction
• lumped parameter system
• Heisler’s charts
• thermal boundary layer
• Free and dimensionless parameters in
• forced convection heat transfer
• Heat transfer correlations for flow over flat plates and through pipes
• effect of disturbance
• heat exchanger performance
• LMTD and NTU methods
• radiative heat transfer
• Stefan–Boltzmann law
• Wien’s displacement law
• black and gray surfaces
• see factor
• Radiation Network Analysis

thermodynamics

• Thermodynamic Systems and Processes
• properties of pure substances
• Behavior of ideal and real gases
• zeroth and first law of thermodynamics
• Calculation of work and heat in various processes
• second law of thermodynamics
• Thermodynamic property charts and tables
• Availability and immutability
• thermodynamic relations

Application:

• Power Engineering: Air and Gas Compressor
• steam and gas power cycle
• Concepts of regeneration and reheating
• IC Engine: Air-Standard Otto
• diesel and dual cycle
• Refrigeration and air conditioning
• Vapor and Gas Refrigeration and Heat Pump Cycles
• properties of moist air
• psychometric chart
• Basic Psychometric Procedures
• Turbomachinery: impulse and reaction
• Principle
• velocity diagram
• Pelton-wheel
• Francis and Kaplan turbine
• steam and gas turbine

Section 4- Materials, Manufacturing and Industrial Engineering

Engineering materials

• Structure and properties of engineering materials
• phase diagram
• heat treatment
• Stress-strain diagrams for engineering materials
• casting
• create and join processes
• different types of casting
• pattern design
• molds and cores
• freeze and cool
• Riser and gating design
• Plastic Deformation and Yield Criteria
• Fundamentals of hot and cold working processes
• Load estimation for bulk (forging, rolling, extrusion,
  drawing) and
• Sheet (shearing, deep drawing, bending) metal forming processes
• principles of powder metallurgy
• principles of welding
• brazing
• soldering and
• adhesive bonding

Machining and Machine Tool Operations

• mechanics of machining
• basic machine tools
• Single and multi-point cutting tools
• tool geometry and materials
• Tool life and wear
• Economics of Machining
• Principles of Non-Conventional Machining Processes
• principles of job retention
• Jigs and fixtures
• Abrasive Machining Processes
• NC/CNC machines and
• cnc programming

Metrology and Inspection

• limitations
• fit and endurance
• linear and angular measurement
• Comparator
• interferometry
• Preparing and finishing measurements
• Alignment and test methods
• Tolerance Analysis in Manufacturing and Assembly
• Concepts of Coordinate-Measuring Machine (CMM)

computer integrated manufacturing

• Basic concepts of CAD/CAM and their integration tools
• additive manufacturing

production planning and control

• forecasting model
• overall production planning
• making a schedule
• material requirement planning
• lean manufacturing

inventory control

• deterministic model
• Safety Stock Inventory Control System

operations Research

• linear programming
• simplex method
• transportation
• workload
• network
• flow model
• simple queuing model
• PERT and CPM

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