A body of mass m falls from height h, on the ground, If e is the coefficient of restitution between body and the ground, then the height upto which it rises after ten collisions is

A body of mass 'm' falls from height 'h' on the ground. If 'e' be the coefficient of restitution between the body and the ground, find (i) the velocity with which it rises after the n^("th") collision with the ground (ii) The height upto which it rises after the n^("th") collision.

A ball is dropped from a height h on the ground If the coefficient of restitution is e, the height to which the ball goes up after it rebounds for the nth time is

A small ball is dropped from rest from height 10 m on a horizontal floor. If coefficient of restitution between ground and body is 0.5 then find the maximum height it can rise after collision.

A ball is dropped on the ground from a height 10 m. If coefficient of restitution f 0.4, then find the height of which ball will rebound.

A body from height h is dropped, if the coefficient of restitution is e, then calcualte the height achieved after one bounce.

A metal ball falls from a height of 32 metre on a steel plate. If the coefficient of restitution is 0.5, to what height will the ball rise after second bounce

A ball is dropped from height 'H' onto a horizontal surface. If the coefficient of restitution is 'e' then the total time after which it comes to rest is

A ball is dropped from height 'H' onto a horizontal surface. If the coefficient of restitution is 'e' then the total time after which it comes to rest is

A ball is dropped from height 5m. The time after which ball stops rebounding if coefficient of restitution between ball and ground e=1//2 , is

A ball is dropped on a floor from a height h . If the coefficient of restitution is e , find the height to which the ball will rise after touching the floor and the time it will take to come to rest again.