A spherical ball of mass `m_(1)` colliddes head on with another ball of mass `m_(2)` at rest . The collision is elastic . The fraction of kintic energy lost by `m_(1)` is `:`

A ball of mass m_(1) , collides elastically and head on with ball of mass m_(2) at rest. Then

A body of mass M_(1) collides elastically with another mass M_(2) at rest. There is maximum transfer of energy when :

A ball of mass M_(1) collides elastically and head on with another ball of mass M_(2) initially at rest . In which the following cases the transfer of momentum will be maximum?

A ball of mass 5 kg moving with speed 8 m/s collides head on with another stationary ball of mass 15 kg. If collision is perfecty inelastic, then loss in kinetic energy is

Body A of mass 4m moving with speed u collides with another body B of mass 2m at rest the collision is head on and elastic in nature. After the collision the fraction of energy lost by colliding body A is :

A moving body of mass m makes a head on elastic collision with another body of mass 2m which is initially at rest. Find the fraction of kinetic energy lost by the colliding particles after collision.

A ball of mass M collides elastically with another stationary ball of mass m. If M gt m , find the maximum angle of deflection of M.