A: If two particle are neither approaching towards nor receding away from other then their relative velocity is zero.
R: Relative velocity of 1 w.r.t. 2 is given by `vec(v)_(12) = vec(v)_(1) - vec(v)_(2)`.

If two bodies are in motion with velocity vec(v)_(1) and vec(v)_(2) :

Two particles are moving with velocities v_(1) and v_2 . Their relative velocity is the maximum, when the angle between their velocities is

Two cars C_(1) and C_(2) are moving on parallel roads in the same direction with velocity v. The relative of C_(1) w.r.t. C_(2) is :

If vec(v)_(1)+vec(v)_(2) is perpendicular to vec(v)_(1)-vec(v)_(2) , then

Two objects A and B are moving in opposite directions with velocities v_(A) and v_(B) respectively, the magnitude of relative velocity of A w.r.t. B is

Two identical particles move towards each other with velocity 2v and v respectively. The velocity of centre of mass is

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.

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?

A moving particle of mass m collides elastically with a stationary particle of mass 2m . After collision the two particles move with velocity vec(v)_(1) and vec(v)_(2) respectively. Prove that vec(v)_(2) is perpendicular to (2 vec(v)_(1) + vec(v)_(2))