A ball is dropped it on a floor and bounces back to a height somewhat less then the original height. The curve which its motion correctly about y and t is

A rubber ball is dropped from a height of 5 m on a plane. If bounces back to a height of 1.8 m. Find the coefficient of the resitution for the collision.

A ball is dropped onto a floor from a height of 10 m . If 20% of its initial energy is lost,then the height of bounce is

A ball is dropped from a height of 20 m in the floor and rebounds to 1.25 m after second collision, then coefficient of restitution e is

A ball is dropped from height h on horizontal floor. If it loses 60% of its energy on hitting the floor then height upto which it will rise after first rebounce is

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 steel ball is dropped on a hard surface from a height of 1m and rebounds to a height of 64cm . The maximum height attained by the ball after n^(th) bounce is (in m)

STATEMENT - 1 : A ball is thrown upwards, rises to its peak and eventually falls back to the original height. As the ball rises, its acceleration is upwards, as it falls, its acceleration is downwards. STATEMENT - 2 : A ball is thrown upward, rises to its peak and eventually falls back to the original height. The speed at which it is launched equals the speed at which it lands. (Assume negligible air resistance) STATEMENT - 3 : A very massive object will free fall at the same rate of acceleration as a less massive object.

A ball is dropped on the ground from a height of 1m . The coefficient of restitution is 0.6 . The height to which the ball will rebound is

A ball is dropped from the roof of a tower height h . The total distance covered by it in the last second of its motion is equal to the distance covered by it in first three seconds. The value of h in metre is (g=10m//s^(2))

A ball is dropped from the roof of a tower height h . The total distance covered by it in the last second of its motion is equal to the distance covered by it in first three seconds. The value of h in metre is (g=10m//s^(2))