A body of mass m(1) moving at a constant...

A body of mass `m_(1)` moving at a constant speed undergoes an elastic head on collision with a body of mass `m_(2)` initially at rest. The ratio of the kinetic energy of mass `m_(1)` after the collision to that before the collision is -

Similar Questions

Explore conceptually related problems

A ball of mass in moving with speed u undergoes a head-on elastic collision with a ball of mass nm initially at rest. The fraction of the incident energy transferred to the second ball is

A neutron moving at a speed v undergoes a head-on elastic collision with a nucleus of mass number A at rest. The ratio of the kinetic energies of the neutron after and before collision is :

A body of mass m moving with velocity v makes a head-on collision with another body of mass 2 m which is initially at rest. The loss of kinetic energy of the colliding body (mass m ) is

A body of mass M moving with a speed u has a ‘head on’, perfectly elastic collision with a body of mass m initially at rest. If M > > m , the speed of the body of mass m after collision, will be nearly :

A body of mass `m_(1)` moving at a constant speed undergoes an elastic head on collision with a body of mass `m_(2)` initially at rest. The ratio of the kinetic energy of mass `m_(1)` after the collision to that before the collision is -

Similar Questions

Recommended Questions