A ody 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

The linear velocity perpendicular to radius vector of a particle moving with angular velocity omega=2hatK at position vector r=2hati+2hatj is

A particle moving along a circule path of radius 'r' with uniform angular velocity omega . Its angular acceleration is

A particle is rotating in circle with uniform speed as shown. The angular momentum of the particle w.r.t. origin is :-

A ring of mass m and radius R is being rotated about its axis with angular velocity omega . If a increases then tension in ring

Angular momentum of a rigid body rotating about a fixed Axis with angular velocity vec omega

The radius vector vec r=2i+5k and the angular velocity of a particle is vec w=3i-4k Then the linear velocity of the particle is

In nonuniform circular motion, the linear acceleration vec a , the angular acceleration, vec alpha , the angular velocity vec v the radius vector vec r and the angular velocity vec omega at any instant are related by the vector equation,

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 ?