A body is in pure rotation. The linear speed v of a particle, the distance r of the particle from the axis and the angular velocity `omega` of the body are related as `omega=v/r`. Thus

What is the linear velocity of a particle of a uniform circular motionk of radius A and angular velocity omega ?

The angular velocity of particle of rigid body is not constant.

The linear variable of all particles are same in rotational motion of rigid body.

The linear velocity of a particle 2 cm away from the axis of rotation is 10cm^(-1) . What will its angular velocity at 4 cm away from axis?

A hemisphere of radius R and mass 4 m is free to slide with its base on a smooth horizontal table . A particle of mass m is placed on the top of the hemisphere . The angular velocity of the particle relative to centre of hemisphere at an angular displacement theta when velocity of hemisphere has become v is

A thin uniform circular disc of mass M and radius R is rotating in a horizontal plane about an axis passing through its centre and perpendicular to the plane with n angular velocity omega another disc of one forth mass and same dimension is gently placed over it coaxially, the angular speed of the composite disc will be ............

A particles is moving on circular path of radius R with constant angular velocity omega . Its centripetal acceleration will be …... .

A planet is revolving around the Sun in an elliptical orbit. Its closest distance from the sun is r_(min) . The farthest distance from the sun is r_(max) if the orbital angular velocity of the planet when it is nearest to the Sun omega then the orbital angular velocity at the point when it i at the farthest distanec from the sun is

The magnitude of displacement of a particle moving in a circle of radius a with constant angular speed omega varries with time t is