The figure shows a copper rod moving with velocity v parallel to a long straight wire carrying a current I = 100 A. Calculate the induced emf in the rod, assuming that v = 5 m/s, a = 1 cm and b = 100 cm.

Shows a copper rod moving with velocity v parallel to a long straight wire carrying current = 100 A . Calculate the induced emf in the rod, where v = 5 m S^(-1) , a = 1 cm , b = 100cm .

If a long straight wire carries a current of 40 A, then the magnitude of the field B at a point 15 cm away from the wire is

A uniform metal rod is moving with a uniform velocity v parallel to a long straight wire carrying a current I. The rod is perpendicular to the wire with its ends at distance r_(1) and r_(2) (with r_(2) gt r_(1) ) form it. The E.M.F. induced in the rod at that instant is

A copper rod of length 0.19m is moving with uniform velocity 10ms^(-1) parallel to a long straight wire carrying a current of 5.0A . The rod is perpendicular to the wire with its ends at distances 0.01 and 0.2m from it. Calculate the emf induced in the rod.

A copper rod moves with a constant angular velocity omega about a long straight wire carrying a current I. If the ends of the rod from the wire are at distances a and b, then the e.m.f induced in the rod is

A thin rod, carrying current i_2 is placed near a long straight wire carrying current i_1 in the plane of rod as shown in figure. The motion of rod is

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

Electric charge q is distributed uniformly over a rod of length l . The rod is placed parallel to a long wire carrying a current i . The separation between the rod and the wire is a. The force needed to move the rod along its length with a uniform velocity v is

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.