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Mechanical Engineering GATE Preparation – 2025
Prepare for GATE 2025 in Mechanical Engineering with focused blogs, expert materials, and key strategies to ace your exam.
Prepare comprehensively for the GATE 2025 Mechanical Engineering exam with our specialized resources. Our platform offers detailed blogs, expert study guides, and practice questions that cover crucial topics like Thermodynamics, Fluid Mechanics, and Machine Design. Whether you’re revising core concepts or mastering advanced subjects, our tailored content is designed to enhance your understanding and boost your exam performance. Stay updated with the latest exam trends and join a community of learners committed to success. Start your journey to GATE excellence in Mechanical Engineering today!
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Engineering Mathematics
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.
Complex Variables
Differential Equations
Probability and Statistics
Numerical Methods
Calculus
Linear Algebra
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Applied Mechanics and Design
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.
Engineering Mechanics
Mechanics of Materials
Theory of Machines
Machine Design
Vibrations
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Fluid Mechanics and Thermal Sciences
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.
Fluid Mechanics
Heat Transfer
Thermodynamics
Applications
(Refrigeration, Air Conditioning, Power Plants, IC Engines)
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Manufacturing and Industrial Engineering
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.
Engineering Materials
Operations Research
Inventory Control
Metal Casting
Forming
Joining
Metrology and Inspection
Computer Integrated Manufacturing
Production Planning and Control
Machining and Machine Tool Operations
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Mechanics of Materials
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.
Stress and Strain
Torsion of Shafts
Energy Methods
Deflection of Beams
Thin and Thick Pressure Vessels
Shear Force and Bending Moment Diagrams
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Theory of Machines
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.
Gears and Gear Trains
Flywheels and Governors
Balancing of Rotating and Reciprocating Masses
Kinematics and Dynamics of Planar Mechanisms
Gyroscope
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Vibrations
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.
Free and Forced Vibration
Critical Speeds of Shafts
Vibration Isolation
Damping
Single Degree of Freedom Systems
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Heat Transfer
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.
Conduction, Convection, Radiation
Heat Exchangers
Mass Transfer
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Thermodynamics
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.
Thermodynamic Processes and Cycles
Properties of Pure Substances
Gas Power Cycles, Vapor Power Cycles
Refrigeration and Air Conditioning
Laws of Thermodynamics
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Fluid Mechanics
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.
Bernoulli’s Equation
Flow through Pipes
Fluid Statics
Fluid Properties
Laminar and Turbulent Flow
Boundary Layer Theory
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Machine Design
Quantitative Aptitude involves the ability to solve mathematical problems and analyze numerical data to make informed decisions.