A bar magnet of moment of inertia `1 xx 10^(-2)Kgm^(2)` vibrates in a magnetic field of induction `0.36 xx 10^(-4)` Tesla. The time period of vibration is 10 s. Find the magnetic moment of the bar magnet.

A bar magnet of moment of inertia 49xx10^(-2)kg-m^(2) vibrates in a magnetic field of induction 0.5xx10^(-4) T. The time period of vibration is 8.8s. The magnetic moment of the bar magnet is

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

In Fig, the magnetic needle has magnetic moment 6.7 xx 10^(-2) Am^(2) and moment of intertia I = 7.5 xx 10^(-6) kg m^(2) . It performs 10 complete oscillations is 6.70s. What is the magnitude of the magnetic field ?

A bar magnet of pole strength 2 A-m is kept in a magnetic field of induction 4xx10^(-5) Wbm^(-2) such that the axis of the magnet makes an angle 30^(@) with the direction of the field. The couple acting on the magnet is found to be 80xx10^(-7) N-m. Then, the distance between the poles of the magnet is

If the Earth's magnetic field at the equator is about 4 xx 10^(-5)T , What is its approximate magnetic dipole moment ?