Magnetic dipole moment `vecM` of the coil, placed in uniform magnetic field of induction `vecB` does not depend on

A current-carrying coil of magnetic moment vecM is placed in a uniform magnetic field of induction vecB such that the angle between vecM and vecB is 30^(@) . If M=5 A.m^(2) and B=0.2 Wb//m^(2) , what is the torque acting on the coil?

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

A bar magnet of magnetic moment vecM is placed in a magnetic field of induction vecB. The torque exerted on it is

A bar magnet of magnetic moment vecM is placed in a magnetic field of induction vecB . The torque exerted on it is

Magnetic Dipole In Uniform Magnetic Field

A magnetic dipole of moment M is placed in uniform magnetic field B so that angle betweem direction of M and B is theta ,the torque acting on the magnetic dipole is

A bar magnet of magnetic moment 0.4 Am^(2) is placed in a uniform magnetic field of induction 5 xx10^(-2) tesla. The angle between the magnetic induction and the magnetic moment is 30^(@) . The torque acting on the magnet is