Statement I : Acceleration of a moving particle can change its direction without any change in the direction of velocity.
Statement II : If the direction two particles moving with constant velocities always remains vector also changes.

Statement I : Distance between two particles moving with constant velocities always remains constant. Statement II : The relative motion between two particles moving with constant velocities always remains constant.

Displacement of a moving particle is directly proportional to the square of the time duration. State whether the particle is moving at a constant velocity or at a constant acceleration.

Statement I : The distance between two bodies does not change if they move in the same direction with the same constant acceleration. Statement II : Two bodies moving with the same velocity are at rest relative to each other.

How can the relative velocity be determined when two particles are moving with different velocities (i) in the same direction and (ii) in opposite directions ?

Statement I: A particle can perform circular motion without having any tangential component of acceleration. Statement II: For circular motion to take place, radial acceleration should exist.

Statement I : A particle moving with uniform acceleration has its displacement proportional to the square of time. Statement II : If the motion of a particle is represented by a straight line on the velocity -time graph its acceleration is uniform.

This displacement of a particle during its motion is equal to half of the product of its instantaneous velocity and time. Show that the particle moves with a constant acceleration.