STATEMENT - 1 : Zero velocity of a particle does not mean zero acceleration.
and
STATEMENT - 2 : The moment at which velocity is zero, its rate of change may be non-zero.

The velocity of a particle is zero at t=0

The velocity of a particle is zero at time t = 2s, then

Statement-I : When velocity of a particle is zero then acceleration of particle is zero. Statement-II : Acceleration is equal to rate of change of velocity.

Assertion: A body having non zero acceleration can have a constant velocity. Reason: Acceleration is the rate of change of velocity.

If the instantaneous velocity of a particle is zero, will its instantaneous acceleration be necessarily zero

If the displacement of a moving particle is given by s=5 + 20 t-2t^(2), then acceleration when velocity is zero, is

STATEMENT-1 : In simple harmonic motion, at extreme position the velocity and acceleration of object is zero. STATEMENT-2 : In simple harmonic motion at mean position?

The displacement x of a particle varies as sqrt(x)=t-2 (i) What is the velocity and acceleration of the particle at t=0? (ii) When will the velocity of the particle become zero? (iii) What is the displacement of the particle when its velocity is zero? (iv) Is the motion of the particle uniformly accelerated or not?

Assertion : We know the relation a = v. (dv)/ds . Therefore, if velocity of a particle is zero, then acceleration is also zero. Reason : In the above equation, a is the instantaneous acceleration.