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 rod is rotating with angular velocity omega about axis AB. Find costheta .

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 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 conducting rod MN moves with a speed v parallel to a long straight wire which carries a constant current i, as shown in Fig. The length of the rod is normal to the wire. Find the emf induced in the total length of the rod. State which end will be at a lower potential.

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 .

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.

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 rod ABC shown in the figure is made up of two parts . The part AB is non - conducting while the part BC is conducting . The rod rotates with constant angular speed omega about an axis perpendicular to its length and passing through the end A. The axis carries a constant current I. The emf iduced across the ends A and C is

A conducting rod of length l is rotating with constant angular velocity omega about point O in a uniform magnetic field B as shown in the figure . What is the emf induced between ends P and Q ?

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 .