A frame a bed and a sliding rod `PQ` of resistance `R`, start moving with the velocities `v` and `2v` respectively parallel to a long wire carrying steady current `I`, as shown in the figure.

U-frame ABCD and a sliding rod PQ of resistance R , start moving with velocities v and 2v respectively, parallel to a long wire carrying current i_0 . When the distance AP =1 at t = 0 , determine the current through the inductor of inductance L just before connecting rod PQ loses contact with the U-frame.

A rod having length l and resistance R is moving with velocity v on a pi shape conductor. Find the current in the rod.

A conducting circular loop of radius a and resistance per unit length R is moving with a constant velocity v_0 , parallel to an infinite conducting wire carrying current i_0 . A conducting rod of length 2a is approaching the centre of the loop with a constant velocity v_0/2 along the direction 2 of the current. At the instant t = 0 , the rod comes in contact with the loop at A and starts sliding on the loop with the constant velocity. Neglecting the resistance of the rod and the self-inductance of the circuit, find the following when the rod slides on the loop. (a) The current through the rod when it is at a distance of (a/2) from the point A of the loop. (b) Force required to maintain the velocity of the rod at that instant.

Which of the following figure shown the magnetic flux denstiy b at a distance r from a long straight rod carrying a steady current I ?

An equilateral triangular frame with side a carrying a current I is placed at a distance a from an infinitely long straight wire carrying a current I as shown in the figure. One side of the frame isparallel to the wire. The whole system lies in the xy-plane. Find the magnetic force F acting on the frame.

A small square loop of edge a and resistance R is moved with velocity v_(0) away from an infinitely long current carrying conductor carrying current I so that the conductor and side of square are always in same plane. Find induced current in loop at a separation of r

A uniform metal rod is moving with a uniform velocity v parallel to a long straight wire carrying a current I. The rod is perpendicular to the wire with its ends at distance r_(1) and r_(2) (with r_(2) gt r_(1) ) form it. The E.M.F. induced in the rod at that instant is

A long straight wire AB carries a current I. A proton P travels with a speed v, parallel to the wire at a distance d from it in a direction opposite to the current as shown in the figure. What is the force experienced by the proton and what is its direction?

A metallic rod of mass m and resistance R is sliding over the 2 conducting frictionless rails as shown in Fig. An infinitely long wire carries a current I_(0) . The distance of the rails from the wire are b and a respectively. Find the value of current in the circuit if the rod slides with constant velocity v_(0)

A metallic rod of mass m and resistance R is sliding over the 2 conducting frictionless rails as shown in Fig. An infinitely long wire carries a current I_(0) . The distance of the rails from the wire are b and a respectively. Find the value of F if the rod slides with constant velocity