A coil of area `100cm^(2)` having 500 turns carries a current of `1mA` . It is suspended in a uniform magnetic field of induction `10^(-3)wb//m^(2)` . Its plane makes an angle fo `60^(@)` with the lines of induction. The torque acting on the coil is

A coil area 100 cm^(2) having 500 tums carries a current of 1 mA . It is suspended in a uniform magnetic field of induction 10^(-3) Wb//m^(2) . Its plane makes an angle of 60° with the lines of induction. Find the torque acting on the coil.

A coil area 100 cm^(2) having 500 tums carries a current of 1 mA . It is suspended in a uniform magnetic field of induction 10^(-3) Wb//m^(2) . Its plane makes an angle of 60° with the lines of induction. Find the torque acting on the coil.

A coil of radius 2 cm and 500 turns, carries of a current of 2A. It is placed in a uniform magnetic field of induction 0.5T. What is the torque acting on the coil if theta=30◦ ?

A rectangul ar coil of wire of 100 turns and 10 xx 15cm^(2) size carrying a current of 2Amp. is in a magnetic field of induction 2 xx 10^(-3)wb//m^(2) . If the normal drawn to the plane of the coil makes an angle 30° with the field, then the torque on the coil is

A rectangular coil of turns 500 and area 2cmxx1cm carries 100mA current. It is suspended in a uniform magnetic field of 10^-3T , so that its plane makes an angle 60^@ with it. The torque on the coil in N-m is

A circular coil of 1 turn and area 0.01m^(2) carries a current of 10A . It is placed in a uniform magnetic field of induction 0.1 tesla such that the plane of the circle is perpendicular to the direction of the field, the torque acting on the coil is

A flat coil of n turns, area A and carrying a current I is placed in a uniform magnetic field of magnitude B . The plane of the coil makes an angle theta with the direction of the field. The torque acting on the coil is