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

A particleof mass 20 kgexecuting uniform circular motion on a path of radius 4.5 m. If the 30 kg m//s is the magnitude of linear momentum, then the radial force acting on the particle is

A particle of mass m is moving in a plane along a circular path of radius r . Its angular momentum about the axis of rotation is L . The centripetal force acting on the particle 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 particle does uniform circular motion in a horizontal plane. The radius of the circle is 20 cm . The centripetal force acting on the particle is 10 N . It's kinetic energy is

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

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

A satellite of mass m is in a circular orbit of radius r round the Earth. Calculate its angular momentum with respect to the centre of the orbit in terms of the mass M of the Earth and G .

If the speed of a body in uniform circular motion and radius of circular path are doubled then the centripetal force will be

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