A body is tided with a string and is given a circular motion with velocity v in radius r. The magnitude of the acceleration is

If a body moves along circular path of constant radius, then the magnitude of its acceleration will be

A body revolves with constant speed v in a circular path of radius r. the magnitude of its average acceleration during motion between two points in diametrically opposite direction is

A body revolves with constant speed v in a circular path of radius r.The magnitude of its average acceleration during motion between two points in diametrically opposite direction is (A)Zero (B) (v^(2))/(r) (C) (2v^(2))/(pi r) (D) (v^(2))/(2r)

A body revolves with constant speed vin a circular path of radius r.The magnitude of its average acceleration during motion between two points in diametrically opposite direction is

In case of a uniform circular motion, velocity and acceleration are

In (Q. 24.) the tension in string is T and the linear mass density of string is mu . The ratio of magnitude of maximum velocity of particle and the magnitude of maximum acceleration is

In uniform circular motion, the velocity vector and acceleration vector are

A body moves with constant angular velocity on a circle. Magnitude of angular acceleration

For a body in circular motion with a constant angular velocity, the magnitude of the average acceleration over a period of half a revolution is how many times the magnitude of its instantaneous acceleration?

For a body in circular motion with a constant angular velocity, the magnitude of the average acceleration over a period of half a revolution is … times the magnitude of its instantaneous acceleration.