An elastic ball with coefficient of elasticity 1/2 is dropped from rest at a height h on a smooth floor . The total distance covered by the ball is

A ball is dropped from a height h on a floor. The coefficient of restitution for the collision between the ball and the floor is e. The total distance covered by the ball before it comes to the rest.

A ball is dropped from a height 'h' on to a floor of coefficient of restitution 'e'. The total distance covered by the ball just before second hit is

If a ball is dropped from height 2 metre on a smooth eleastic floor, then the time period of oscillation is

A ball is dropped from a height of 3m . If coefficient of restitution between the surface and ball is 0.5 , then the total distance covered by the before it comes to rest is

A ball is dropped from a height h on to a floor . If the cofficient of restitution is e, calculate the height the ball first rebounds ?

A spherical ball falls from a height h on to a floor of coefficient of restitution e . Calculate the total distance described by the ball before it comes to rest .

A ball is drpped from rest at height 4h . After it has fallen a distance d , a second ball is dropped from rest at height h . What should d be (in terms of h ) so that the balls hit the ground at the same time?

Two balls of same mass are dropped from the same height h, on to the floor. The first ball bounces to a height h/4, after the collision & the second ball to a height h/16. The impulse applied by the first & second ball on the floor are I_(1) and I_(2) respectively. Then

Two balls of same mass are dropped from the same height h, on to the floor. The first ball bounces to a height h//4 , after the collision & the second ball to a height h//6 . The impulse applied by the first & second ball on the floor are I_(1) and I_(2) respectively. Then :-