A particle moves with a constant angular velocity in circular path of certain radius and is acted upon by a certain force F. If the angular velocity is will be doubled, keeping the radius same, the new force

A particle moves with constant angular velocity in a circle. During the motion its

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

A particle moves along a circular orbit with constant angular velocity,This necessarily means,

A particle moves along a circule path with a constant angular velocity. This necessarily means that the motion

A particle moves with uniform speed in a circular path, the angle between instantaneous velocity and acceleration is

A particle does uniform circular motion in a horizontal plane. The radius of the circle is 20 cm. If the centripetal force F is kept constant but the angular velocity is doubled , the new radius of the path (original radius R) will be

A particles moves with a uniform speed v and time period T in a circular path of radius r. If the speed of the particle is doubled, its new time periods is

When a disc is rotating with angular velocity omega , a particle situated at a distance of 4 cm just begins to slip . If the angular velocity is doubled , at what distance will the particle start to slip ?

If the kinetic energy of a particle moving with a constantspeed on a circular path of radius 4 m is 100 j.Then the centripetal force will be

If a particle is moving in a circular path of radius 'r' with a uniform speed v, then the angle described by it in one second will be