In the figure PQ is a long current carrying wire which is placed near a current carrying coil. The direction of the force acting on PQ will be

A current carrying wire PQ is placed near an another long current carrying wire RS . If free to move , wire PQ will be have

A current carrying wire PQ is placed near an another long current carrying wire RS . If free to moves , wire will be have

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

A short current carrying conductor is placed perpendicular to the axis of a current carrying ring as shown. The direction of force acting of the conductor is

A conductor PQ, carrying a current i is placed perpendicular to a long conductor xy carrying a current i. The direction of force on PQ will be

Figure shows a rectangular current carrying loop placed 2 cm away from a long, straight, current-carrying conductor. What is the direction of the net force acting on the loop?

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 rigid square loop of side 'a' and carrying current I_(2) is lying on a horizontal surface near a long current I_(1) carrying wire in the same plane as shown in figure. The net force on the loop to the wire will be :

A square loop is placed near a long current carrying straight wire as shown in the figure . Match the following table

An infinitely long current carrying wire and a small current carrying loop are in the plane of the paper as shown. The radius of the loop is a and distance of its centre from the wire is d (d>>a). If the loop applies a force F on the wire then :