A conducting current-carrying plane is placed in an external uniform magnetic field. As a result, the magnetic induction becomes equal to `B_1` on one side of the plane and `B_2` on the other side. Find the magnetic force acting per unit area of the plane.

A conducting current-carrying plane is placed in an external uniform magnetic field. As a result, the magnetic induction becomes equal to B_(1) on one side of the plane and equal to B_(2) on the other side. Find the magnetic force acting per unit area of the plane in the cases illustrated in the figure.

Give force acting on a current carrying conductor placed in a uniform magnetic field.

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

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

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

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

A system consists of two parallel planes carrying currents producing a unifrom magnetic field of induction B between the planes. Outside this space there is no magnetic field. Find the magnetic force acting this space there is no magentic field. Find the magnetic force acting per unit area of each plane.