A charged particle is moving in a uniform magnetic field in a circular path. Radius of circular path is `R`. When energy of particle is doubled, then new radius will be

A charge particle is moving in a uniform magnetic field ib a circular path. The energy of the particle is doubled . If the initial radius of he circular path was R , the radius of the new circular path after the energy is doubled will be

A charged particle is moving in a uniform magnetic field and losses 4% of its KE. The radius of curvature of its path change by

The path of a charged particle moving in a uniform steady magnetic field cannot be a

A charged particle is moving in a circular path in uniform magnetic field. Match the following.

When particle revolves with uniform speed on a circular path

A charged particle moving at right angles to a uniform magnetic field and starts moving along a circular arc of radius of curvature 'r' . In the field it now penetrates a layer of lead and loses 3//4 of its initial kinetic energy. The radius of curvature of its path now will be

A charged particle is moving on circular path with velocityv in a uniform magnetic field B, if the velocity of the charged particle is doubled and strength of magnetic field is halved, then radius becomes

A particle is moving around a circular path with uniform angular speed (x) . The radius of the circular path is (r). The acceleration of the particle is:

A charged particle moves in a circular path in a uniform magnetic field. If its speed is reduced, then its tiem period will