In an elastic collision between two particles

Show that in a head on elastic collision between two particles, the transference of energy is maximum when their mass ratio is unity.

STATEMENT-l : In an elastic collision between two bodies, the relative speed of the bodies after collision is equal to the relative speed before the collision. STATEMENT-2 : In an elastic collision, the linear momentum of the system is conserved.

Statement I: In an elastic collision between two bodies, the relative speed of the bodies after collision is equal to the relative speed before the collision. Statement II: In an elastic collision, the linear momentum of the system is conserved.

STATEMENT-1 : In an elastic collision between two bodies, the relative velocity of separation equals relative velocity of approach. and STATEMENT-2 : In a elastic collision , the coefficient of restitution is 1 .

STATEMENT-1 : In an elastic collision between two balls, the total kinetic energy of the two bodies does not remain conserved during the collision. and STATEMENT-2 : As the balls collide, they compress each other.

IN a headon collision between two particles, is it necessary that the particles will acquire a common velocity at least for one instant?

consider a head on collision between two particles of masses m_1 and m_2 . The initial speeds of the particles are u_1 and u_2 in the same direction. The collision starts at t=0 and the particles interact for a time interval /_\t. during the collision the speed of the first particle varies as v(t)=u_1+t//_\ t(v_1-u_1) Find the speed of the second particle as as function of time during the collision.

In an elastic one dimensional collision between two particles the relative veloctiy of approach before collision is

In perfectly elastic collision between two masses m_(1)and m_(2) in one dimension energy transfer is a maximum, when

Consider a collision between two particles one of which is at rest and the other strikes it head on with momentum P_(1) . Calculate the energy of reaction Q in terms of the kinetic energy of the particles before and they collide.