A rod of length `I` 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 kept parallel to a long wire carrying constant current i . It is moving away from the wire with a velocity v. Find the emf induced in the wire when its distance in the wire when its distance from the long wire is x .

A rod of length l is kept parallel to a long wire carrying constant current i . It is moving away from the wire with a velocity v . Find the emf induced in the wire when its distance from the long wire is x .

A rectangular loop is moving parallel to a long wire carrying current i with a velocity v . Find the emf induced in the loop (Fig. 3.68) if its nearest end is at a distance a from the wire. Draw equivalent electrical diagram.

A rectangular loop is moving parallel to a long wire carrying current i with a velocity v . Find the emf induced in the loop (Fig. 3.68) if its nearest end is at a distance a from the wire. Draw equivalent electrical diagram.

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

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

Find vecB at the origin due to the long wire carrying current I.

Find vecB at the origin due to the long wire carrying a current I

Figure shows an irregular shaped wire AB moving with velocity v, as shown. Find the emf induced in the wire

The current carrying wire and the rod AB are in the same plane. The rod moves parallel to the wire with a velocity v . Which one of the following statements is true about induced emf in the rod