A spring mass system is held at rest with the spring relaxed at a height (H) above the ground. Determine the minimum value of (H) so that the systen has a tendency to rebound after hitting the ground. Given that the coefficient of restitution between `(m_(2))` and ground is zero.
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A ball is dropped from height 5m. The time after which ball stops rebounding if coefficient of restitution between ball and ground e=1//2 , is

A ball falls on the ground fro a height of 2.0 m and rebounds up to a height of 1.5 m. Find the coefficient of restitution.

A ball dropped from a height of 2 m rebounds to a height of 1.5 m after hitting the ground. Then fraction of energy lost is

A ball is dropped on a horizontal surface from height h. If it rebounds upto height (h)/(2) after first collision then coefficient of restitution between ball and surface is

A spring-mass system ( m_1 + massless spring + m_2 ) fall freely from a height h before m_2 colliding inelastically with the ground. Find the minimum value of h so that block m_2 will break off the surface. Assume k=stiffness of the spring.

A ball is dropped from a height h on the ground If the coefficient of restitution is e, the height to which the ball goes up after it rebounds for the nth time is

A body of mass m is kept at a small height h above the ground. If the radius of the earth is R and its mass is M, the potential energy of the body and earth system (with h=infty being the reference position) is

A block of mass m is connected with a rigid wall by light spring of stiffness k . Initially the spring is relaxed. If the block is pushed with a velocity v_0 , it oscillates back and forth and stops. Assuming mu as the coefficient of kinetic friction between block and ground, find the work done by friction till the block stops.

A ball of mass m is released from rest relative to elevator at a height h , above the floor of the elevator. After making collision with the floor of the elevator it rebounces to height h_2 . The coefficient of restitution for Collision is e . For this situation, mark the correct statement(s).

A solid sphere of mass m is lying at rest on a rough horizontal surface. The coefficient of friction between the ground and sphere is mu . The maximum value of F , so that the sphere will not slip, is equal to