The current generator `I _g`, shown in . Sends a constant current I throught the curcuti. The wire cd is fixed and ab is made ot slide on the smooth, thick rails with a constant velocity v towards right. Each of these wire has resistance r. Find the current through the wire cd.

The current generator i_g , shown in , sends a constant current I through the circuit. The wire ab has a length l and mass m and can slide on the smooth, horizontal rails connected to l_g . The entire system lies in a vertical magnetic field B. Find velocity of the wire as a function of time.

If two resistive wires AB and CD are made to slide on the conducting rails with speeds 5m/s 10 m/s respectively towards right as shown in the figure then value of R for which current through it is 1A is( B=1.5T)

Consider the situation shown in . The wire AB is slid on the fixed rails rails with a constant velocity. If the wire AB is replaced by a semicircular wire, the magnitude of the induced current will

Consider the situation shown in . The wire PQ has a negligible resistance and is made to slide on the three rails with a constant speed of 5 cm s^(-1) . Find the current in the 10 Omega resistor when the switch S is thrown to (a) the middle rail (b) the bottom rail.

Consider the situation shown in . The wire PQ has a negligible resistance and is made to slide on the three rails with a constant speed of 5 cm s^(-1) . Find the current in the 10 Omega resistor when the switch S is thrown to (a) the middle rail (b) the bottom rail.

shows a long U shaped wire of widt l placed in a perpendicular magnetic field B. A wire of length l is slid on the U shaped wire with a constant velocity v towards right. The resistance of all the wires is r per unit length. At t =0, the sliding wire is close to the left edge of the U shaped wire. Draw an equivalent circuit diagram, showing the induced emf as a battery. Calculate the current in the circuit.

A current of I amperes is flowing through each of the bent wires as shown. Find the magnitude of magnetic field at O.

A constant current of 4A passes through a wire for 8s . Find total charge flowing through that wire in the given time interval.

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.

Figure shows a wire of resistance R sliding on two parallel, conducting fixed thick rails placed at a separation l. A magnetic fild B exist in a direction perpendicular to the plane of the rails. The wire is moving with a constant velocity v. Find current through the wire