A magnet is parallel to a uniform magnetic field. If it is rotated by `60^(@)`, the work done is 0.8 J. How much work is done in moving it `30^(@)` further

A magnet is parallel to a uniform magnetic field. The work done in rotating the magnetic through 60^(@) is 8xx10^(-5) J . The work done in rotating through another 30^(@) is

A bar magnet is initially parallel to the magnetic field in which it is placed. Work done u rotate it by 60^(@) is 2.6 J. Work done in rotating it further by 30^(@) will be

A magnet of magnetic moment M is rotated through 360^(@) in a magnetic field H, the work done will be

An electric dipole is along a unifrom electric field.If it is deflected by 60^(@) ,work done by an agent is 2xx10^(-19)J .then the work done by an agent if it is deflected by 30^(@) futher

A dipole is placed parallel to the electric field. If W is the work done in rotating the dipole by 60° then work done in rotating it by 180° is

If a magnetic dipole of moment M situated in the direction of a magnetic field B is rotated by 180^(@) , then the amount of work done is

To rotate a bar magnet from. 0^@ to 120^@ , the work done is:

A magnetic dipole with magnetic moment M is placed at right angles to a magnetic field B. If it is rotated by an angle of 180^(@) , the total work done is

A charged particle is moving on a circular path of radius R in a uniform magnetic field under the Lorentz force F. How much work is done by the force in one round? Is the momentum of the particle changing?