When is the average velocity of a particle equal to its instantaneous velocity?

Under what condition is the average velocity of a moving particle equal to its instantaneous velocity?

Under what condition is the average velocity of a moving particle equal to its instantaneous velocity?

These questions have statement I and statement II. Of the four choices given below, choose the one that best describes the two statements. Statement I : The average velocity of a particle may be equal to its instantaneous velocity. Statement II: For a given time interval of a given motion average velocity is single valued while average speed can have many values.

The escape velocity of a particle of mass m is

For any particle the average velocity is equal to with the insfantenious,velocity. What is its significance?

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

A wheel rolls on a horizontal path with uniform velocity. Prove that the velocity of any point on the circumference of the wheel with respect to its centre is equal to the velocity of the wheel. What will be the instantaneous velocity of the point on the wheel which touches the ground?

For a body moving with a uniform acceleration, prove that its average velocity is the arithmetic mean of its initial and final velocities.

The motion of a particle, along x-axis, follows the relation x = 8t- 3t^(2) . Here x and t are expressed in metre and second respectively . Find (i) the average velocity of the particle in time interval 0 to 1 s and (ii) its instantaneous velocity at t = 1 s.

What should be the displacement of a particle, executing SHM, from its position of equilibrium so that the velocity of the particle is half of its maximum velocity?