For a particle in uniform circular motion , the acceleration ` vec(a)` at a point ` p ( R, theta )` on the circle of radiu ` R` is ( Here ` theta` is measured from the ` x- axis` )

The average acceleration of a particle in a uniform circular motion'is

The acceleration due to gravity is g at a point distant r from the centre of earth of radius R . If r lt R , then

A particle is moving in a uniform circular motion with radius 'r' in half revolution the displacement and distance covered by the particle are

The acceleration of an object moving in a circle of radius R with uniform speed v is

If a particle covers half the circle of radius R with constant speed, then

The force act on a particle performing uniform circular motion and which is directed towards centre along radius of circle is

When a particle performing uniform circular motion of radius 10 cm undergoes the SHM, what will be its amplitude?

Define uniform circular motion . Show that linear speed of particle performing circular motion is the product of radius of circle and angular speed of particle .

The frequency of a particle performing circular motion changes from 60 rpm to 180 rpm in 20 s. Then the angular acceleration is

The angular displacement of a particle performing circular motion is theta = (t^3)/60 - t/4 where theta is in radian and 't' is in seconds. Then the acceleration of the particle at the end 10 s will be