A body moving towards a finite body at rest collides with it. It is possible that

Two bodies of identical masses with 2^(nd) body at rest collides with 1^(st) body, prove that the velocities of the bodies are reversed.

A lighter body collides with much more massive body at rest. Prove that the direction of lighter body is reversed and massive body remains at rest.

A moving body come to rest due to friction alone.

A body of mass 2 kg moving with uniform velocity of 40 ms^(-1) collides with another body at rest . If two bodies move together with a velocity of 20 ms^(-1) . Find the mass of the other body .

A body of mass m moving with velocity v collides head on with another body of mass 2m which is initially at rest. The ratio of K.E of colliding body before and after collision will be

(a) A body of mass 2 kg moving with uniform velocity of 40 ms^(-1) collides with another body at rest if two bodies move together with a velocity o 20 ms^(-1) . Find the mass of the other body. (b) Distinguish between linear, areal (or) superficial expansion.

A body is moving with velocity 30m//s towards east .After 10 seconds its velocity becomes 40m//s towards north .The average acceleration of the body is

A body is moving at constant speed over a frictionaless surface. What is the work done by the weight of the body ?

A body of mass m makes an elastic collision with another identical body at rest. Show that if the collisionis not head on the bodiese to at right to each other after the collision.