| S # | Topic |
| 1. | Introduction: Concept of mass, force, time and space |
| 2. | Scalar and vector quantities |
| 3. | System of Forces: Force and its characteristics, force system and its types |
| 4. | Addition of a force in case of rectangular components Using polygon law and analytical methods |
| 5. | Addition of a forces in case of non-rectangular components using parallelogram law |
| 6. | Addition of forces in case of non-rectangular components using triangular law and sine rule |
| 7. | Resolution of force |
| 8. | Related problems |
| 9. | Moment and its application |
| 10. | Principle of transmissibility, Principle of moment |
| 11. | Related problems |
| 12. | Equilibrium of Rigid Bodies: Equilibrium and its conditions, Equilibrium of rigid bodies |
| 13. | Concept of free body diagram |
| 14. | Related problems |
| 15. | Friction: Friction and its types, angle of friction, co-efficient of friction |
| 16. | Friction on horizontal and inclined plane |
| 17. | Related problems |
| 18. | Kinematics: Newton’s laws of Motion |
| 19. | Motion under constant acceleration |
| 20. | Related problems |
| 21. | Motion under variable acceleration |
| 22. | Projectile motion |
| 23. | Simple harmonic motion |
| 24. | Electrical Elements and circuits: Electric current, voltage, power and energy, Ohm’s law, inductance, capacitance. |
| 25. | Kirchhoff’s voltage law and current law. |
| 26. | Basic Mechanical Concepts: Fundamentals of heat transfer, conduction, Thermal conductivity, Overall heat transfer coefficients. |
| 27. | Practical equations, Laws of thermodynamics. |