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.

If average velocity of particle moving on a straight line is zero in a time interval, then

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.

Assertion: When a particle moves with constant velocity its average velocity, its insttantaneous velocity and its speed are all equal in magnitude. Reason: If the average velocity of a particle moving on a straight line is zero in a time interval, then it is possible that the instantaneous velocity is never zero in the internal.

For which of the following graphs the average velocity of a particl moving along a straight line for time interval (0,t) must be negative -

Velocity-time graph of a particle moving in a straight line is shown in figure. In the time interval from t = 0 to t = 14 s, find: Q. average velocity and

Velocity-time graph of a particle moving in a straight line is shown in figure. In the time interval from t = 0 to t = 14 s, find: Q. average speed of the particle

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 :

A particle is moving on a straight line and its average velocity is found to be zero in an interval of time.

Statement-I : A particle moves in a straight line with constant acceleration. The average velocity of this particle cannot be zero in any time interval. Statement-II : For a particle moving in straight line with constant acceleration, the average velocity in a time interval is (u+v)/(2) , where u and v are initial and final velocity of the particle of the given time interval.

Assertion: If velocity of a particle at a certain instant is zero then its acceleration must also be zero at the same instant. Reason: When a particle is projected upward under gravity then at the top point its instantaneous velocity becomes zero.