A ball of mass 'm' is thrown with a speed `v_0` towards a bat. It rebounds along the same speed `2v_0` . The variation of interaction force between the bat and ball is shown

 Maximum force exerted by the bat on the ball is

A ball of mass 'm' is thrown with a speed v_0 towards a bat. It rebounds along the same speed 2v_0 . The variation of interaction force between the bat and ball is shown Average force exerted by the bat on the ball is

A ball of mass 'm' is thrown with a speed v_0 towards a bat. It rebounds along the same speed 2v_0 . The variation of interaction force between the bat and ball is shown The speed of the ball at the instant the force acting on the ball is maximum is

A ball of mass 0.4 kg moving with a uniform speed of 2 ms. strikes normally a wall and rebounds. Assuming the collision to be elastic and the time of contact of the ball with the walls is 0.4 s, find the magnitude of force exerted on the ball.

A ball of mass m hits a floor with a speed v making an angle of incidence theta with the normal. The coefficient of restitution is .e.. Find the speed of the reflected ball and the angle of reflection of the ball.

A ball of mass 'm' moving with a speed 2v strikes a heavy wall elastically, which is moved with a velocity 'v'. The work done by the heavy wall on the ball is

A ball reaches a rocket at 60 m/s along + X direction, and leaves the rocket in the opposite direction with the same speed. Assuming that the mass of the ball as 50gm and the contact time is 0.02 second, the force exerted by the racket on the ball is

A ball reaches a rocket at 60 m/s along + X direction, and leaves the rocket in the opposite direction with the same speed. Assuming that the mass of the ball as 50 gm and the contact time is 0.02 second, the force exerted by the racket on the ball is