The right block in figure moces at a speed `V` towards the left block placed in equilibrium. All the surfaces are smooth and all the collisions are elastic. Find the time period motion. Neglect the width of the blocks.

The right block in the figure moves at a speed v towards the left block placed in equilibrium. All the surfaces are smooth and all the collisions are elastic. Find the time period of the motion

The surface shown in the diagram are smooth and all collisions are elastic. Find the time period of the periodic motion.

The left block in figure moves at a speed v towards the right block placed in equilibrium. All collisions to take place are elastic and the surfaces are frictionless. Show that motion of the two blocks are periodic. Find the time period of these periodic motions. Neglect the widths of the blocks.

The left block in figure moves at a speed v towards the right block placed in equilibrium. All collisions to take place are elastic and the surfaces are frictionless. Show that motion of the two blocks are periodic. Find the time period of these periodic motions. Neglect the widths of the blocks.

The left block in figure moves at a speed v towards the right block placed in equilibrium. All collilsions to take place are elastic and the surfaces are frictionless. Show that motion of the two blocks are periodic. Find the timepoerid of these periodic motions. Neglect the widths of the blocks.

A block of mass m moves with a speed v towards the right block which is in equilibrium with a spring attached to rigid wall. If the surface is frictionless and collisions are elastic, the frequency of collisions between the masses will be:

Find the acceleration of each block in the situation shown in the figure. All the surface are smooth and the pulleys and sttings are light.

All surfaces are smooth in the adjoining figure. Find F such that block remains stationary with respect to wedge.

A block is released from point A as shown in figure .All surfaces are smooth and there is no loss of mechnical energy anywhere. Find the time period of oscillation of block.

A block is released from point A as shown in figure .All surfaces are smooth and there is no loss of mechnical energy anywhere. Find the time period of oscillation of block.