The magnitude of the centripetal force acting on a body of mass m executing uniform motion in a circle of radius r with speed v is

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

If the body is moving in a circle of radius r with a constant speed v , its angular velocity is

A particle is moving in a circle with uniform speed its motion is

Show that the centripetal force on a particle undergoing uniform circular motion -momega^2vecr

Energy required to move a body of mass m from an orbit of radius 2R to 3R is

IF p is the magnitude of linear momentum of a particle executing a uniform circular motion, then the ratio of centripetal force acting on the particle to its linear momentum is given by

A paticle of mass m is executing uniform circular motion on a path of radius r . If p is the magnitude of its linear momentum, then the radial force acting on the particle is

A particle of mass m is executing uniform circular motion on a path of radius r. If P is the magnitude of its linear momentum, the radial force acting on the particle will be

For a body travelling along a circle of radius 4 m with a speed of 4 m//s , the force acting on the body towards the centre is 16 N. If the radius is 2 m and the speed is 3‘ m//s , the force towards the centre is

Two particles A and B are moving in uniform circular motion in concentric circles of radii r_A and r_B with speed V_A and V_B respectively. Their time period of rotation is the same. The ratio of angular speed of A to that of B will be: