A ball is dropped on a floor from a height of `2.0m`. After the collision it rises up to a height of `1.5m`. Assume that `40%` of the mechanical energy lost goes as thermal energy into the ball.Calculate the rise in the temperature of the ball in the collision. Heat capacity of the ball is `800J K^(-1)`

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 falls from a height of 10 m. On rebounding, it loses 30% energy. The ball goes upto a height of

A ball is dropped on the floor from a height of 10m. It rebounds to a height of 2.5 m if the ball is in contact with floor for 0.01 s then the average acceleration during contact is nearly

A ball dropped from a height of 2 m rebounds to a height of 1.5 m after hitting the ground. Then the percentage of energy lost is

A small ball of mass m is dropped from an aeroplane moving at 50 m height above the ground with a speed of 25 sqrt(2) "metre"//sec if half of the mechanical energy of ball with respect to ground is lost as a thermal energy due to air friction. The change in the temperature of the ball as it lands on the ground is. specific heat capacity of ball is 56.25 J//kg . (g = 10 m//sec^(2))

A ball is dropped from a height of 5 m, if it rebound upto height of 1.8 m, then the ratio of velocities of the ball after and before rebound is :

A ball is dropped on to the floor from a height of 10 m. It rebounds to a height of 2.5 m. If the ball is in contact with the floor for 0.01 sec, what is the average acceleration during contact ?