Angular momentum of the particle rotating with a central force is constant due to

The angular momentum of a particle is

Angular momentum of the system of particles changes when

Assertion : If a particle moves with a constant velocity, then angular momentum of this particle about any point remains constant. Reason : Angular momentum has the units of Plank's constant.

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.

Angular momentum of a single particle moving with constant speed along circular path :

Three particles are moving as shown in the figure, Calculate the angular momentum of the third particle C , so that the angular momentum of system about point O becomes zero.

Show that the angular momentum about any point of a single particle moving with constant velocity remains constant throughout the motion.

Show that the angular momentum about any point of a single particle moving with constant velocity remains constant throughout the motion. Is there any external torque on the particle ?

A particle has a linear momentum p and position vector r. the angular momentum of this particle about the origin will not be zero under the conditions