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

Depict the magnetic field lines due to two straight, long parallel conductors carrying current I_(1) and I_(2) in the same direction.Hence deduce an expression for the force acting per unit length on one conductor due to the other.Is this force attractive or repulsive? Figure shows a rectangular current carrying loop placed 2 cm away from a long,straight, current-carrying conductor.What is the direction and magnitude of the net force acting on the loop?

A rectangular current carrying loop placed 2cm away from a long , street, current - carrying conductors. What is the direction and magnitude of the net force acting on the loop .

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?

Figure shows a conducting loop placed near a long straight wire carrying a current i as shown, if the current increases continuously, find the direction of the induced current in the loop.

Figure shows a conducting loop placed near a long straight wire carrying a current i as shown, if the current increases continuously, find the direction of the induced current in the loop.

The figure SAQ 14(a) shows two identical rectangular loops (1) and (2) placed along with a straight long current carrying conductor between them. What will be the direction of induced currents in the loops when they are pulled away from the condutor with the same velocity v?

A rectangular loop carries a current I_0 . It is placed near a long straight conductor carrying current I as shown in the fig . Nature of the force experienced by the coil 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

Show a conduction loop placed near a long, straight wire carrying current i as shown. If the current increases continuously, find the direction of the induced current in the loop.