If a body of mass m collides head on, elastically with velocity u with another identical boday at rest. After collision velocty of the second body will be

A body of mass 'm' moving with certain velocity collides with another identical body at rest. If the collision is perfectly elastic and after the collision both the bodies moves

A body of mass m makes an elastic collision with another identical body at rest. Show that if the collisionis not head on the bodiese to at right to each other after the collision.

A body (solid sphere) of mass m makes an elastic collision with another idential body at rest. Just after collision the angle between the velocity vector of one body with the initial line of motion is 15^(@) then the angle between velocity vector of the other body with the initial line of motion is

A heavier body moving with certain velocity collides head on elastically with a lighter body at rest, then

A body of mass m_(1) moving with a velocity 3 m//s collides with another body at rest of m_(2) . After collision the velocities of the two bodies are 2 m//s and 5 m//s , respectively , along the direction of motion of m_(1) . The ratio m_(1)//m_(2) is

A ball of mass m moving with velocity v collides head on elastically with another identical ball moving with velocity - V. After collision

A ball of mass m makes an elastic collision with another identical ball at rest. Show that if the collision is oblique, the bodies go at right angles to each other after collision.

In the above question, if another body is at rest, then velocity of the compound body after collision is