A magnet of magnetic moment M is situated with its axis along the direction of a magnetic field of strength B. The work done in rotating it by an angle of `180^(@)` will be

A magnet of magnetic moment 20 A - m^(2) is freely suspended is a uniform magnetic field of strength 6 T . Work done to rotate it by 60^(@) will be .

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

A magnet of magnetic moment 2JT^(-1) is aligned in the direction of magnetic field of 0.1T . What is the net work done to bring the magnet normal to the magnrtic field?

A magnet of magnetic moment 10 Am^(2) has magnetic length 5 cm.The strength of magnet is

As loop of magnetic moment M is placed in the orientation of unstable equilbirum position in a uniform magnetic field B . The external work done in rotating it through an angle theta is

As loop of magnetic moment M is placed in the orientation of unstable equilbirum position in a uniform magnetic field B . The external work done in rotating it through an angle theta is

A bar magnet of magnetic moment 1.5JT^-1 lies aligned with the direction of a uniform magnetic field of 0.22T . (a) What is the amount of work done to turn the magnet so as to align its mangetic moment (i) normal to the field direction, (ii) opposite to the field direction? (b) What is the torque on the magnet in cases (i) and (ii)?

A magnet of moment 4Am^(2) is kept suspended in a magnetic field of induction 5xx10^(-5)T . The workdone in rotating it through 180^(@) is

If a bar magnet moment M is freely suspended in a uniform magnetic field of strength field of strength B, then the work done in rotating the magent through an angle theta is

A magnetic of magnetic moment placed along the X-axis in an magnet field .Find the torque acting on the magnetic field