In the figure, a long thin wire carrying a varying current `i=i_(0) sin omega t` lies at a distance `y` above one edge of a rectangular wire loop of length `L` and width `W` lying in the `x-z` plane.What `emf` is induced in the loop.

A long thin wire carrying a varying current I = i_(0) sin omegat lies at a distance y above one edge of a rectangular wire loop of length L and W lying in the x-z plane. What emf is induced in the loop?

A long thin wire carrying a varying current I = i_(0) sin omegat lies at a distance y above one edge of a rectangular wire loop of length L and W lying in the x-z plane. What emf is induced in the loop?

Find the magnetic field B at the centre of a rectangular loop of length l and width b, carrying a current i.

A square loop of side a is placed in the same plane as a long straight wire carrying a current i . The centre of the loop is at a distance r from wire where r gt gt a . The loop is moved away from the wire with a constant velocity v . The induced e.m.f in the loop is

A wire loop carrying current I is placed in the x-y plane as shown. Magnetic induction at P is

A rectangular loop of wire with dimensions shown in figure is coplanar with a long wire carrying current 'I' . The distance between the wire and the left side of the loop is r . The loop is pulled to the right as indicated. What are the directions of the induced current in the loop and the magnetic forces on the left and right sides of the loop when the loop is pulled ?

The long straight wire in figure (a) carries a constant current i . A metal bar of length i is moving at constant velocity v as shown in figure. Point a is a distance d from the wire. (a) Calculate the emf induced in the bar. (b) Which point a or b is at higher potential? (c) If the bar is replaced by a rectangular wire loop of resistance R , what is the magnitude of current induced in the loop?

A square frame with side a and a long straight wire carrying a current i are located in the same plane as m shown in figure. The fram translates to the right with a constant velocity v . Find the emf induced in the frame as a function of distance x .

A rectangular loop carrying a current i_(2) situated near a long straight wire carrying a steady current i_(1) . The wire is parallel to one of the sides of the loop and is in the plane of the loop as shown in the figure. Then the current loop will

A rod of length l is rotating with an angular speed omega about its one end which is at a distance a from an infinitely long wire carrying current i .Find the emf induced in the rod at the instant shown in the figure.