Two long parallel conducting rails are placed in a uniform magnetic field. On one side, the rails are connected with a resistance `R`. Two rods `MN and M'N'` each having resistance `r` are placed as showing in Fig. Now on the rods `MN and M'N'` forces are applied such that the rods move with constant velocity `v`.

The current flowing through resustance `R` if both the rods move with the same speed `v` toward right is

Two long parallel conducting rails are placed in a uniform magnetic field. On one side, the rails are connected with a resistance R . Two rods MN and M'N' each having resistance r are placed as showing in Fig. Now on the rods MN and M'N' forces are applied such that the rods move with constant velocity v . (i). The current flowing through resistance R if the rod Mn moves toward left and the rod M'N' moves toward the right is

A small conducting rod of length l, moves with a uniform velocity v in a uniform magnetic field B as shown in fig __

A conducting rod of length l is moving in a transverse magnetic field of strength B with veocity v. The resistance of the rod is R. The current in the rod is

A conducting rod is moved with a constant velocity v n a magnetic field. A potential difference appears across the two ends

A rod having length l and resistance R is moving with velocity v on a pi shape conductor. Find the current in the rod.

A wire cd of length l and mass m is sliding without friction on conducting rails ax and by as shown. The verticle rails are connected to each other with a resistance R between a and b . A uniform magnetic field B is applied perpendicular to the plane abcd such that cd moves with a constant velocity of

Figure shows a conducting rod PQ in contact with metal rails RP and SQ , which are 0.25 m apart in a uniform magnetic field of flux density 0.4T acting perpendicular to the plane of the paper. Ends R and S are connected through a 5 Omega resistance. What is the emf when the rod moves to the right with a velocity of 5ms^(-1) ? What is the magnitude and direction of the current through the 5 Omega resistance? If the rod PQ moves to the left with the same speed, what will be the new current and its direction?

A conductor rod AB of mass m slides without friction over two long conducting rails separated by a distance (Fig) At the left end the raidls are interconnected by a resistance R . The system is located in a unifrom magnetic fileld perpendicular to the plane of the loop. At the moment t = 0 the rod AB starts moving to the right with an initial velocity v_(0) . Neglecting the resistances of the rails and the rod AB , as wellas the self -indcuctance, find: (a) the distance covered by the rod until it comes to a standsill, (b) the amount of heat generated in the resitance R during this process.