In a uniform magnetic field of strength 0.15 T, a short bar magnet of magnetic `m=0.32JT^(-1)` is placed. The potential equilibrium position position is

A bar magnet of magnetic moment 5Am^(2) is suspended in a uniform magnetic field of strength "2T" making an angle 60^(0) with the direction of the field.The potential energy of the magnet in that position is (A) 5J (B) -5J (C) 10J (D) -10J

A bar magnet of magnetic moment M is hung by a thin cotton thread in a uniform magnetic field B. Work done by the external agent to rotate the bar magnet from stable equilibrium position to 120° with the direction of magnetic field is (consider change in angular speed is zero)

A short bar magnet experiences a torque of 0.012 Nm, with its axis placed at 60^@ with a uniform magnetic field of 0.4 T. What orientation of the magnet corresponds to its stable equilibrium in the magnetic field? Calculate the Potential energy in this position.

A magnet of length 0.1 m and pole strength 0.1 Am is freely suspended in a horizontal uniform magnetic field of intensity 0.18 xx 10^(-4)T . Find the torque tending to restore the magnet to its original position of rest when it is deflected by 30^(@) from that position.

Find the stable equilibrium position of a magnet in a magnetic field.

A short bar magnet having magnetic moment M = 0.80 JT^(-1) is placed in uniform magnetic field of 0.30 T.If bar magnet is free to rotate in plane of field,(Where U is potential energy and tau is torque)

A short bar magnet having magnetic moment M=0.80 JT^1 is placed in uniform magnetic field of 0.30 T. If bar magnet is free to rotate in plane of field, then (where U is potential energy and tau is torque)