A current I flows in a conducting wire of lenth L. If we bent it in a circular form, then calculate its magnetic dipole moment.

A current I is flowing in a conductor of length L when it is bent in the form of a circular loop its magnetic moment

One of the two identical conducting wires of length L is bent in the form of a circular loop and the other one into a circular coil of N identical turns. If the same current passed in both, the ratio of the magnetic field at the central of the loop (B_(L)) to that at the central of the coil (B_(C)) , i.e. (B_(L))/(B_(C)) will be :

A magnet with moment M is given. If it is bent into a semicircular form, its new magnetic moment will be:

A thin bar magnet has dipole moment M . If this is bent in the form of semicircle , then find the new dipole moment .

A magnetised steel wire of length L has a magnetic moment of 3.14 Am^(2) . If the wire is bent into a semicircular arc, then what would be its new magnetic moment? (assume that the poles are situated at the ends of the wire.)

A magnetised steel wire of length L has a magnetic moment of 3.14 Am^(2) . If the wire is bent into a semicircular arc, then what would be its new magnetic moment? (assume that the poles are situated at the ends of the wire.)

A wire of length l meter carrying current i ampere is bent in form of circle. Magnetic moment is

A steel wire of length l has a magnetic moment M. It is bent into a semicircular arc. What is the new magnetic moment?