The track shown in figure is frictionless. The block B of mass 2m is lying at rest and the block A of mass m is pushed along the track with some speed. The collision betwen A and B is perfectly elastic. With what velocity should the block A be started to get the sleeping man awakenend?

The track shown in figure is frictionles. The block B of mass 2m is lying at rest and the block A of mass m is pushed along the track with some speed. The collision etwen A and B is perfectly elastic. With what velocity should the block A be started to get teh sleepign mn awakenend?

A block of mass m moving at speed upsilon collides wilth another block of mass 2 m at rest. The lighter block comes to rest after the collision. Find the coefficient of restitution.

Blocks of masses m , 2m , 4m and 8m are arranged in a line on a frictionless floor . Another block of mass m , moving with speed v along the same line (see figure ) collides with mass m in perfectly inelastic manner. All the subsequent collisions are also perfectly inelastic. By the time the last block of mass 8 m starts moving the total energy loss is p% of the original energy . Value of 'p' is close to :

Describe the motion of the mass m shown in figure. The walls and the block are elastic.

A block of mass m is at rest on a rought wedge as shown in figure. What is the force exerted by the wedge on the block?

There are hundred indentical blocks equally spaced on a frictionless track as shown in the figure . Initially , all the blocks are separate . Each collision is perfectly inelastic . The final velocity will be

A block of mass 2 kg is pushed towards a very heavy object moving with 2 m/s closer to the block (as shown). Assuming elastic collision and frictionless surface, find the final velocities of the blocks.