shows a long U shaped wire of width l placed in a perpendicular magnetic field B. A wire of length l is slide 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.
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A long U -shaped wire of width l placed in a perpendicular uniform and constant magnetic field B (figure).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 fixed U -shaped wire.Draw an equivalent circuit diagram at time t , showing the induced emf as a battery.Calculate the current in the circuit.

Figure shows a wire ab of length l which can slide on a U-shaped rail of negligible resistance. The resistance of the wire is R. The wire is pulled to the right with a constant speed v. Draw an equivalent circuit diagram representing the induced emf by a battery. Find the current in the wire.

The resistance of a wire of length l and diameter d is R . The wire is stretched to double its length. The resistance of the wire will now be

The direction of the field B at P is the V shaped wire is in x-y plane

A uniform wire of length l is bent into the shape of 'V' as shown. The distance of its centre of mass from the vertex A is :-

Shows an irregular shaped wire AB moving with velocity v . Find the emf induced in the wire.

The resistance of a wire R Omega . The wire is stretched to double its length keeping volume constant. Now, the resistance of the wire will become

A rod of length l is placed perpendicular to a long wire carrying current i . The rod is moved parallel to the wire with a velocity v . Find the emf induced in the rod, if its nearest end is at a distance a from the wire.

A rod of length l is placed perpendicular to a long wire carrying current i. The rod is moved parallel to the wire with a velocity v. Find the emf induced in the rod, if its nearest end is at a distance ‘a’ from the wire.

If the force constant of a wire is K, the work done in increasing the length of the wire by l is