A rectangular loop carrying a current `i_(1)`, is situated near a long striaght wire carrying a steady current `i_(2)`. The wire is parallel to one of the sides of the loop and is in the plane of the loop as shown in the figure. Then the current loop will

A square loop ABCD carrying a current i, is placed near and coplanar with a long straight conductor XY carrying a current I, the net force on the loop will be :

A current I_(1) carrying wire AB is placed near another long wire CD carrying current I_(2) . If wire AB is free to move, it will have

A circular loop and an infinitely long straight conductor carry equal currents, as shown in the figure . The net magnetic field at the centre of the loop is B_(1) when the current in the loop is clockwise and B_(2) when the current in the loop is anti - clockwise . Then (B_(1))/(B_(2)) is

A current carrying square loop is placed near a straight infinitely long current carrying wire as shown in the figure. The torque acting on the loop is

A square loop of side a is placed in the same plane as a long straight wire carrying a current i. The centre of the loop is at a distance r from the wire where r > > a. The loop is moved away from the wire with a constant velocity v. The induced e.m.f. in the loop is