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

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

A bar magnet of magnetic moment M is placed at right angles to a magnetic induction B. If a force F is experienced by each pole of the magnet, the length of the magnet will be

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

A small bar magnet of moment M is placed in a uniform field H. If magnet makes an angle of 30^(@) with field, the torque acting on the magnet is

A bar magnet of magnetic moment M_(1) is suspended by a wire in a magnetic field. The upper end of the wire is rotated through 180^(@) , then the magnet rotated through 45^(@) . Under similar conditions another magnetic of magnetic moment M_(2) is rotated through 30^(0) . Then find the ratio of M_(1)&M_(2) .

The torque acting on a magnet of magnetic moment 'M' placed in a uniform magnetic field B is

A bar magnet of magnetic moment vec(M) is placed in a magnetic field of induction vec(B) . The torque exerted on it is