A straight conductor carrying current I and a loop closed by a sliding connector of resistance R lie in the same plane . The connector slides towards right with a uniform velocity v . The induced current generated in the loop in terms of distance r of the connector from the straight conductor will be __

A long straight wire carrying a current I and a II - shaped conductor with siding connector are located in the same plane as shown in Fig. The connector of length l and resistance R sides to the right with a current induced in the loop as a function of separation r between the connector and the stragiht wire. The resistance of the II -shaped conductor and the self-induced of the loop are assumed to be negligible.

An infinitely long straight wire carrying current I , one side opened rectangular loop and a conductor C with a sliding connector are located in the same plane , as shown in the figure. The connector has length l and resistance R . It slides of the right with a velocity v. The resistance of the conductor and the self inductance of the loop are negligible . The induced current in the loop , as function of separation r between the conductor and the straight wire is :

An infinitely long straight wire carrying current I , one side opened rectangular loop and a conductor C with a sliding connector are located in the same plane , as shown in the figure. The connector has length l and resistance R . It slides of the right with a velocity v. The resistance of the conductor and the self inductance of the loop are negligible . The induced current in the loop , as function of separation r between the conductor and the straight wire is :

Two different wire loops are concentric and lie in the same plane. The current in the outer loop (I) is clockwise and increases with time. The induced current in the inner loop

A long straight conductor carrying a current i is bent to form an almost complete circular loop of radius r on it. The magnetic field at the centre of the loop

Two parallel long straight conductors lie on a smooth plane surface. Two other parallel conductors rest on them at right angle so as to form a square of side a. A uniform magnetic field B exists at right angle to the plane containing the conductors. Now, conductors starts moving outward witha constant velocity v_0 at t=0 . Then, induced current in the loop at any time is (lamda is resistance per unit length of the conductors)

Two parallel long straight conductors lie on a smooth plane surface. Two other parallel conductors rest on them at right angle so as to form a square of side a. A uniform magnetic field B exists at right angle to the plane containing the conductors. Now, conductors starts moving outward witha constant velocity v_0 at t=0 . Then, induced current in the loop at any time is (lamda is resistance per unit length of the conductors)

A rectangular loop has a sliding connector PQ of length l and resistance R (Omega) and it is moving with a speed v as shown. The set-up is placed in a uniform magnetic field going into the plane of the paper. The three currents I_(1), I_(2) and I are

A rectangular loop has a sliding connector PQ of length l and resistance R (Omega) and it is moving with a speed v as shown. The set-up is placed in a uniform magnetic field going into the plane of the paper. The three currents I_(1), I_(2) and I are