A circuit `ABCD` is held perpendicular to the uinform magnetic field of `B = 5 xx 10^(-2)T` extending over the region `PQRS` and directed into the plane of the paper. The cicuit is moving out of the field at a uin form speed of `0.2 m s^(-1)` for `1.5 s`. During this time, the current in the `5 Omega` resistor is

A uniform but time varying magnetic field B(t) exist in a circular region of radius a and is directed into the plane of the paper as shown. The magnitude of the induced electric field at point P at a distance r form the centre of the circular region.

The work done in rotating a magent of the magnetic moment 2Am^(2) in a magnetic field of induction 5 xx 10^(-3)T from the direction along the magnetic field to the direction opposite to the field , is

A wheel with 4 spokes is placed with its plane perpendicular to a uniform magnetic field B of magnitude 0.5 T. The field is directed into the plane of the paper and is present over the entire region of the wheel as shown in Fig. When the switch S is closed, there is initial current of 6 A between the axis and the rim and the wheel begins to rotate. Resistances of the spokes are 1, 2, 4 and 8 Omega , respectively. Resistance of rim is negligible. a. What is the direction of rotation of the wheel? b. Radius of the wheel is 0.2 m. Calculate initial torque acting on the wheel.

In the figure shown , the wires P_(1)Q_(1) and P_(2)Q_(2) are made to slide on the rails with same speed of 5 cm s^(-1) . In this region a magnetic field of 1 T exists. The electric current in the 9 Omega resistance is :

In the figure shown as uniform magnetic field |B|=0.5T is perpendicular to the plane of circuit. The sliding rod of length l=0.25 m moves uniformly with constant speed v=4ms^-1 . If the resistance of the sllides is 2Omega , then the current flowing through the sliding rod is

A metallic ring of area 25 cm^(2) is placed perpendicular to a magnetic field of 0.2 T .Its is removed from the field in 0.2 s .Find the average emf produced in the ring during this time.

In the diagram shown, the wires P_1Q_1 and P_2Q_2 each of length 40cm are made to slide on the rails with same speed of 5m//s . In this region a magnetic field of 1T exists. The electric current in 9kOmega resistor is

Consider the situation shown Fig. There present a magnetic field B = 1 T which is perpendicular to plane of paper. The wire P_(2), Q_(2) are made to slide on the rails with the same speed 5 cm //s . Find the electric current in the 19 (Omega) resistance if Both the wires move towards right

A uniform magnetic field B = 0.5 T exists in a circular region of radius R = 5m . A loop of radius R = 5 m encloses the magnetic field at t = 0 and then pulled at uniform speed v = 2m s^(-1) In the plane of the paper. Find the induced emf ("in" V) in the loop at time t = 3 s .

Figure shows a conducting rod PQ in contact with metal rails RP and SQ which are 0.257 apart in i 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 5 ms^(-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?