A particle loses `25%` of its energy during collision with another identical particle at rest. the coefficient of restitution will be

A spherical body collision head-on with another identical spherical body at rest. If the coefficient of restitution is e, show that the ratio of their velocities after collision is (1-e):(1+e) .

A particle of mass m moving with a constant velocity v hits another identical stationary particle. If coefficient of restitution is e then ratio of velocities of two particles after collision is

A particle of mass m moving with a constant velocity v hits another identical stationary particle. If coefficient of restitution is e then ratio of velocities of two particles after collision is

A ball of mass m is moving with a velocity v and it suffers head - on collision with another identical ball at rest . What should be the coefficient of restitution if one - fourth of initial kinetic energy is lost in collision ?

(i) A block of mass m moving towards right with a velocity V strikes (head on) another block of mass M which is at rest connected to a spring. The coefficient of restitution for collision between the blocks is e = 0.5. Find the ratio (M)/(m) for which the subsequent compression in the spring is maximum. There is not friction. Ball A collides head on with another identical ball B at rest. Find the coefficient of restitution if ball B has 80% of the total kinetic energy of the system after collision.

A sphere of mass m moving with a uniform velocity v hits another identical sphere at rest. If the coefficient of restitution is e, the ratio of the velocities of the two sphere after the collision is (e-1)/(e+1) .

A block of mass m moving with a certain speed collides with another identical block at rest . If coefficient of restitution is 1/(sqrt(2)) then find ratio of intial kinetic energy to kinetic energy lost in collision .

A particle moving with kinetic energy E makes a head on elastic collision with an identical particle at rest. During the collision

A particle moving with kinetic energy E makes and head on elastic collision with an identical particle at rest. Durig the collision

A particle moving with kinetic energy K makes a head on elastic collision with an identical particle at rest. Find the maximum elastic potential energy of the system during collision.