The instantaneous velocity of a particle is equal to time derivative of its position vector and the instantaneous acceleration is equal to time derivatives of its velocity vector. Therefore `:`

The average velocity of a particles is equal to its displacement-time graph ?

The instantaneous speed is always equal to the magnitude of instantaneous velocity. Why?

Assertion: The average velocity of a particle is zero in a time interval. It is possible that the instantaneous acceleration is never zero in the interval. Reason: The magnitude of average velocity in an interval is equal to its average speed in that interval.

Is it possible for a moving object to have instantaneous velocity equal to the average velocity ?

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

The average velocity of a particle moving on a straight line is zero in a time interval. Assertion :- It is possible that the instantaneous acceleration is never zero in the interval. Reason :- It is possible that the instantaneous velocity is never zero in the interval.

Assertion: The instantaneous velocity does not depend on instantaneous position vector. Reason: The instantaneous velocity and average velocity of a particle are always same.