1. Projectile Motion & Kinematics | Determining Initial Velocity and Maximum Height – Calculating the speed and peak height of a projectile based on horizontal displacement.

2. Circular Motion & Tension Forces | Motion of a Pendulum in a Vertical Circle – Finding the tension in the string of a pendulum at a given angle using conservation of energy and force equations.

3. Simple Harmonic Motion & Elastic Strings | Maximum Displacement & Velocity – Analyzing motion under an elastic restoring force, determining equilibrium displacement, and computing velocity at a given position.

4. Centre of Mass & Rotational Equilibrium | Composite Cylindrical Structure Analysis – Finding the centre of mass of a modified cylinder and solving for balance conditions.

5. Variable Forces & Motion Equations | Displacement, Velocity, and Acceleration – Deriving displacement equations, calculating force at a specific time, and analyzing the motion of a particle.

6. Dynamics of Connected Particles | Rotating System with Two Masses – Determining tensions and angular speed in a two-mass system moving in horizontal circles under gravity.

7. Impact & Coefficient of Restitution | Oblique Collision with an Inclined Plane – Computing the coefficient of restitution based on impact and post-collision motion analysis.