The adjacent figure shows an infinite fram of two sides in a gravity - free space. What is the final constant kinetic energy expected of the ball of mass m projected as shown with an initila velocity `v_0`? The coefficient of restitution for the collision between the ball and the frame is `e = 0.5`.

A ball of mass m moving at a speed v makes a head-on collision with an identical ball at rest. The kinetic energy of the balls after the collision is three fourths of the original. Find the coefficient of restitution.

In the arrangement shown in Fig. the ball and the block have the same mass m=1 kg each, theta=60^(@) and length l = 2.50m . Coefficient of friction between the block and the floor is 0.5 . When the ball is released from the position shown in Fig. it collides with the block and the block stops after moving a distance 2.50 m . The coefficient of restitution for collision between the ball and the block is

A ball of mass m moving with a speed 2v_0 collides head-on with an identical ball at rest. If e is the coefficient of restitution, then what will be the ratio of velocity of two balls after collision?

A ball of mass m moving with a speed 2v_0 collides head-on with an identical ball at rest. If e is the coefficient of restitution, then what will be the ratio of velocity of two balls after collision?

A ball of mass m moving at a speed v makes a head on inelastic collision with an identical ball at rest. The kinetic energy of the balls after the collision is 3/4th of the original. Find the coefficient of restitution.

A glass ball collides with an identical ball at rest with v_(0)=2 m/sec. If the coefficient of restitution of collision is e = 0.5, find the velocities of the glass balls just after the collision.

A ball of mass m hits a floor with a speed v_0 making an angle of incidence alpha 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 uniform rod of mass m and length L is hinged at one end and free to rotate in the horizontal plane. All the surface are smooth. A particle of same mass m collides with the rod with a speed V_(0) . The coefficient of restitution for the collision is e=(1)/(2) . If hinge reaction during the collision is zero then the value of x is :

Two identical balls A and B lie on a smooth horizontal surface, which gradually merges into a curve to a height 3.2 m . Ball A is given a velocity of 10 m//s , to collide head-on with ball B , which then takes up the curved path. What is the minimum coefficient of restitution, e , for the collision between A and B in order that ball B reaches the highest point C of the curve.

Two steel ball of equal diameter are connected by a rigid bar of negligible weight of shown and are dropped in the horizontal position from height h above the heavy steel and brass plates. If the coefficient of restitution between the ball and steel base is 0.6 and that between the other ball and the brass base is 0.4. the angular velocity of the bar immediately after rebound is _____ Assume the two impacts are simultaneous (g = 10 m//s^(2))