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2420
Discussing vertical projection (upwards) and understanding how thw catapult works
Horizontal projection of a ball starting off from an inclined plane and the parabolic path
Elastic collision of two identical objects, where a moving one collides into a stationary one
Elastic collision of two objects with different masses, where a lighter object collides into a stationary heavier one
Elastic collision of two objects with different masses, where a heavier object collides into a stationary lighter one
Inelastic collision of two identical objects, where a moving one collides into a stationary one
Inelastic collision of two objects, where the heavier one collides into a stationary lighter one
Elastic collision of two identical objects, where a faster one collides into a slower one
Elastic collision of two objects, where a faster and heavier one collides into a slower and lighter one
Elastic collision of two objects, where a faster and lighter one collides into a slower and heavier one
Inelastic collision of two identical objects, where a faster one collides into a slower one
Inelastic collision of two objects, where a faster and lighter one collides into a slower and heavier one
Investigating the x and y components of the motion
The car will first accelerate then move with constant velocity
Uniformly accelerated motion if a ball rolling down on inclined planes with different slopes
Investigating the horizontal component of the motion
Understanding the concept of acceleration with a negative sign and deceleration
The relationship between acceleration and angles of inclination
Writing a mathematical formula for function x(t)
The conditions of resonance and resonance catastrophe
Oscillation of a toy on a spring damped by friction
Oscillation of a toy on a spring damped by air-drag