A circular coil having mass m is kept above ground (x-z plane) at some height. The coil carries i in the direction shown in Fig. 1.143. In which direction a uniform magnetic field `vec B` be applied so that the magnetic force balances the weight of the coil?

A current carrying coil is subjected to a uniform magnetic field. The coil will orient so that its plane become

If plane of coil and uniform magnetic field B(4T0 is same then torque on the current carrying coil is

A wire is parallel to a square coil . The coil and wire carry currents in the directions Shown . Then, at any point A within the coil the magnetic field will be -

A rectangular coil is placed in a region having a uniform magnetic field B perpendicular to the plane of the coil. An emf will not be induced ion the coil if the

A current i flows in a circular coil of radius r . If the coil is placed in a uniform magnetic field B with its plane parallel to the field, magnitude of the torque that acts on the coil is

A constant current I is flowing through a circular coil placed in uniform magnetic field vecB as shown. Then:

A circular coil with area A and N turns is free to rotate about a diameter that coincides with the x-axis. Current I is circulating in the coil. There is a uniform magnetic field vec B in the the positive y direction. Calculate the magnitude and direction of the torque vec tau and the value of the potential energy U, when the coil is oriented as shown in parts (a) through (d) of Fig. 1.79.

There is a flat circular current coil placed in a uniform magnetic field in such a manner that its magnetic moment is opposite to the direction of the magnetic field. The coil is