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

When a current carrying coil is placed in a uniform magnetic field with its magnetic moment anti-parallel to the field.

A coil carrying electric current is placed in uniform magnetic field

A rectangular coil of area vecA and number of turns n is placed in a uniform magnetic field vecB. If the coil carries a current I, then the torque acting on the coil is given by

A conducting circular loop of radius r carries a constant current i. It is placed in a uniform magnetic field B such that B is parallel to the plane of the loop. The magnetic torque acting on the loop is-

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

A rectangular coil 20cmxx20cm has 100 turns and carries a current of 1 A . It is placed in a uniform magnetic field B=0.5 T with the direction of magnetic field parallel to the plane of the coil. The magnitude of the torque required to hold this coil in this position is

Current I is flowing through a circular coil of radius r. It is placed in a magnetic field B0 in such a way that the plane of the circular coil is perpendicular to B0. The force acting in it will be -

A current of 5A flows through a circular coil of 200 turns, each of radius 20 cm. It is placed in a uniform magnetic induction of 5xx10^(-2)" Wb/m"^(2) , such that the plane of the coil is parallel to the field. What is the torque acting on the coil?