Do you have a dream to ace the GATE exam 2024 for Mechanical Engineering and open the gates to a world of opportunities? Then, you need to tap your full potential to master the concepts and skills required for the exam. You have the resources: a 50-day study plan designed by PracticeMock’s experts, and eight proven tips to boost your performance. All you need is the motivation: to follow the plan, practice hard, and stay focused.
That’s why we have a special gift for you: a FREE GATE mock test that will show you where you stand right now. It will help you identify your strengths and weaknesses, and plan your preparation accordingly. It will also give you a taste of the real exam, and build your confidence. The exam will be conducted on 03, 04, and 10, 11 February 2024.
So, what are you waiting for? Take the FREE GATE mock test today, and get ready to conquer the GATE 2024 challenge!
Also, read: Best 5 Subjects to Begin GATE 2024 Preparation for Civil and Mechanical Engineers
Also, read: GATE 2024: Best GATE Books for Best Preparation
Now, let’s break down your preparation plan day by day:
Day | Study Subject |
Day 1 | Linear Algebra, Systems of Linear Equations, Matrix Algebra |
Day 2 | Eigenvalues and Eigenvectors, Calculus – Limits, Functions of a Single Variable |
Day 3 | Continuity and Differentiability, Indeterminate Forms, Mean Value Theorems, Evaluation of Definite and Improper Integrals |
Day 4 | Taylor Series (In One and Two Variables), Partial Derivatives, Double and Triple Integrals |
Day 5 | Total Derivative, Fourier Series, Maxima and Minima, Gradient, Divergence, and Curl |
Day 6 | Directional Derivatives, Vector Identities, Line, Surface, and Volume Integrals |
Day 7 | Applications of Gauss Theorem, Stokes, and Green’s Theorems, Initial and Boundary Value Problems |
Day 8 | Higher-Order Linear Differential Equations with Constant Coefficients, First-Order Equations (Linear and Nonlinear) |
Day 9 | Euler-Cauchy Equation, Laplace Transforms, Solutions of Heat, Wave, and Laplace’s Equations |
Day 10 | Complex Variables – Taylor and Laurent Series, Cauchy-Riemann Equations, Analytic Functions |
Day 11 | Cauchy’s Integral Theorem and Integral Formula, Probability and Statistics |
Day 12 | Definitions of Probability, Sampling Theorems, Conditional Probability |
Day 13 | Median, Mean, Mode, and Random Variables, Binomial, Poisson, and Normal Distributions |
Day 14 | Integration by Trapezoidal and Simpson’s Rules, Numerical Solutions of Linear and Non-Linear Algebraic Equations |
Day 15 | Single and Multi-Step Methods for Differential Equations, Engineering Mechanics – Friction and its Applications |
Day 16 | Free-Body Diagrams and Equilibrium, Screw Jack, Brakes, Belt-Pulley, Clutches |
Day 17 | Vehicles, Wedge, Trusses and Frames, Virtual Work, Impulse and Momentum, Energy Formulations |
Day 18 | Kinematics and Dynamics of Rigid Bodies in Plane Motion, Lagrange’s Equation, Mechanics of Materials |
Day 19 | Thin Cylinders, Elastic Constants, Stress and Strain, Poisson’s Ratio, Mohr’s Circle |
Day 20 | Bending and Shear Stresses, Shear Force and Bending Moment Diagrams, Deflection of Beams |
Day 21 | Concept of Shear Centre, Euler’s Theory of Columns, Torsion of Circular Shafts, Thermal Stresses |
Day 22 | Energy Methods, Testing of Materials with Universal Testing Machine, Strain Gauges and Rosettes |
Day 23 | Testing of Hardness and Impact Strength, Theory of Machines – Velocity and Acceleration Analysis of Plane Mechanisms |
Day 24 | Dynamic Analysis of Linkages, Displacement, Cams, Gears, and Gear Trains, Flywheels, and Governors |
Day 25 | Gyroscope, Balancing of Reciprocating and Rotating Masses, Vibrations – Resonance, Effect of Damping, Free and Forced Vibration of Single Degree of Freedom Systems |
Day 26 | Vibration Isolation, Critical Speeds of Shafts, Machine Design – Failure Theories, Design for Static and Dynamic Loading |
Day 27 | Principles of the Design of Machine Elements, such as Bolted, Riveted, and Welded Joints, Fatigue Strength and the S-N Diagram |
Day 28 | Gears, Shafts, Brakes and Clutches, Rolling and Sliding Contact Bearings, Springs |
Day 29 | Fluid Mechanics – Fluid Statics, Fluid Properties, Stability of Floating Bodies, Forces on Submerged Bodies, Control-Volume Analysis of Mass, Momentum, and Energy |
Day 30 | Differential Equations of Continuity and Momentum, Fluid Acceleration, Dimensional Analysis, Bernoulli’s Equation, Boundary-Layer, Viscous Flow of Incompressible Fluids |
Day 31 | Flow through Pipes, Elementary Turbulent Flow, Head Losses in Pipes, Bends, and Fittings, Basics of Compressible Fluid Flow |
Day 32 | Heat-Transfer – One Dimensional Heat Conduction, Modes of Heat Transfer, Heat Transfer through Fins, Resistance Concept and Electrical Analogy, Lumped Parameter System |
Day 33 | Unsteady Heat Conduction, Thermal Boundary Layer, Heisler’s Charts, Heat Transfer Correlations for Flow over Flat Plates and through Pipes |
Day 34 | Dimensionless Parameters in Free and Forced Convective Heat Transfer, Heat Exchanger Performance, Effect of Turbulence, Radiative Heat Transfer |
Day 35 | LMTD and NTU Methods, Wien’s Displacement Law, Stefan-Boltzmann Law, View Factors, Black and Grey Surfaces, Radiation Network Analysis |
Day 36 | Thermodynamics – Properties of Pure Substances, Behavior of Ideal and Real Gases, Zeroth and First Laws of Thermodynamics |
Day 37 | Second Law of Thermodynamics, Availability and Irreversibility, Thermodynamic Systems and Processes, Thermodynamic Property Charts and Tables |
Day 38 | Calculation of Work and Heat in Various Processes, Thermodynamic Relations, Applications – Power Engineering, I.C. Engines |
Day 39 | Refrigeration and Air-conditioning, Turbomachinery, Materials, Manufacturing, and Industrial Engineering – Engineering Materials, Stress-Strain Diagrams for Engineering Materials |
Day 40 | Phase Diagrams, Structure and Properties of Engineering Materials, Heat Treatment, Casting, Forming, and Joining Processes – Solidification and Cooling |
Day 41 | Riser and Gating Design, Design of Patterns, Molds, and Cores, Different Types of Castings, Fundamentals of Hot and Cold Working Processes |
Day 42 | Plastic Deformation and Yield Criteria, Principles of Powder Metallurgy, Load Estimation for Bulk (Forging, Extrusion, Rolling, Drawing) and Sheet (Shearing, Deep Drawing, Bending) Metal Forming Processes |
Day 43 | Principles of Welding, Soldering, Brazing, and Adhesive Bonding, Machining and Machine Tool Operations – Basic Machine Tools, Mechanics of Machining |
Day 44 | Single and Multi-Point Cutting Tools, Tool Life and Wear, Tool Geometry and Materials, Economics of Machining, Principles of Work Holding, Jigs and Fixtures |
Day 45 | Principles of Non-Traditional Machining Processes, Abrasive Machining Processes, NC/CNC machines and CNC programming, Metrology and Inspection – Interferometry |
Day 46 | Linear and Angular Measurements, Limits, Fits, and Tolerances, Comparators, Alignment and Testing Methods, Form and Finish Measurement |
Day 47 | Concepts of Coordinate-Measuring Machine (CMM), Tolerance Analysis in Manufacturing and Assembly, Computer Integrated Manufacturing – Additive Manufacturing |
Day 48 | Basic Concepts of CAD/CAM and their Integration Tools, Production Planning and Control – Materials Requirement Planning, Aggregate Production Planning |
Day 49 | Forecasting Models, Scheduling, Lean Manufacturing, Inventory Control – Safety Stock Inventory Control Systems, Deterministic Models |
Day 50 | Operations Research – Simplex Method, Linear Programming, Transportation, Assignment, Simple Queuing Models, Network Flow Models, PERT and CPM |
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Also, read: GATE 2024 Exam: A Comprehensive 1-Month Preparation Plan for Success
Now that we’ve outlined your study plan, let’s discuss the eight success tips to ensure you make the most out of these 50 days:
1. Consistent Practice: Regularly attempt mock tests to gauge your progress and identify weak areas. Dedicate time every day to solving problems and taking mock tests to build confidence and familiarity with the exam pattern.
2. Focused Study: Concentrate on one subject at a time to ensure a deep understanding. Instead of jumping between topics, focus on mastering one subject completely before moving on to the next.
3. Strategic Time Management: Allocate more time to challenging subjects and less to stronger areas. Identify your strengths and weaknesses and adjust your study schedule accordingly.
4. Utilize Study Resources: Make the most of textbooks, online courses, and study groups to enhance your knowledge. Don’t limit yourself to a single source; explore different study materials and resources.
5. Healthy Lifestyle: Maintain a balanced routine with sufficient sleep, exercise, and a nutritious diet. A healthy body and mind are crucial for effective learning and retaining information.
6. Positive Mindset: Believe in your abilities and stay motivated throughout your GATE 2024 journey. Stay positive, set achievable goals, and celebrate your progress along the way.
7. Revision: Don’t forget to allocate time for revision. Reviewing previously learned topics helps reinforce your understanding and improves retention.
8. Take Breaks: Avoid burnout by incorporating short breaks into your study schedule. Short, frequent breaks can help improve your focus and productivity.
By following this 60-day study plan and implementing these eight success tips, you’re on your way to achieving ultimate success in the GATE 2024 Mechanical Engineering exam. Remember, consistency and dedication are your keys to success.
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