In a one-dimensional collision between two particles, their relative velocity is `vecv_(1)` before the collision and `vecv_(2)` after the collision

In a one-dimensional collision between two particles, their relative velocity is vec(v)_(1) before the collision and vec(v)_(2) after the collision.

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

In an elastic collision between two particles

In an elastic collision between two particles

Two particles moving initially in the same direction undergo a one- dimensional , elastic collision . Their relative velocities before and after the collision are vec(v_(1)) and vec(v_(2)) . Which of the following is not correct?

Show that in case of one dimensional elastic collision of two bodies, the relative velocity' of sepa¬ ration after the collision is equal to the relative velocity of approach before the collision

In one-dimensional elastic collision, the relative velocity of approach before collision is equal to

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-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.