Two point masses `m_(1)` and `m_(2)` at rest in gravity free space are released from distance d. Find the velocity of the CM of the system at the time of collision of particles

Two point charges q_(1) and q_(2) are released from rest in a gravity free hall when distance between them is a . Find the maximum speeds of charged particle. The mass of each charged particle is m .

Two point particles of mass m and 2m are initially separated by a distance 4a. They are then released to become free to move. Find the velocities of both the particles when the distance between them reduces to a.

Two particles m_(1) and m_(2) are initially at rest at infinite distance. Find their relative velocity of approach due to gravitational attraction when their separation is d.

Two point masses m and M are separated bya distance L . The distance of the centre of mass of the system from m is

Two masses m_(1) and m_(2) at an infinite distance from each other are initially at rest, start interacting gravitationally. Find their velocity of approach when they are at a distance r apart.

Two points mass m and 2m are kept at a distance a . Find the speed of particles and their relative velocity of approach when separation becomes a//2 .

A circular ring of mass M and radius 'a' is placed in a gravity free space. A small particle of mass m placed on the axis of the ring at a distance sqrt(3)a from the center of the ring, is released from rest. The velocity with which the particle passes through the center of the ring is