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

Consider the situation shown in . The wires P_1Q_1 and P_2 Q_2 are made to slide on the rails with the same speed 5cm s^(-1) . Find the electric current in the 19 Omega resistorif (a) both the wires move towards right and (b) if P_1 Q_1 moves towards left but P_2 Q_2 moves towards right.

Consider the situation shown in figure. The wires P1Q1 and P2Q2 are made to slide on the rails with the same speed 5cm/sec . Find the electric current in the 19Ω resistor if (a) both the wires move towards right and (b) if P 1Q1 moves towards left but P2Q2 moves towards right.

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 :

Consider the situation shown in . The wire PQ has a negligible resistance and is made to slide on the three rails with a constant speed of 5 cm s^(-1) . Find the current in the 10 Omega resistor when the switch S is thrown to (a) the middle rail (b) the bottom rail.

Consider the situation shown in . The wire PQ has a negligible resistance and is made to slide on the three rails with a constant speed of 5 cm s^(-1) . Find the current in the 10 Omega resistor when the switch S is thrown to (a) the middle rail (b) the bottom rail.

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

A wire is bent in the form of a V shape and placed in a horizontal plane.There exists a uniform magnetic field B perpendicular to the plane of the wire. A uniform conducting rod starts sliding over the V shaped wire with a constant speed v as shown in the figure. If the wire no resistance, the current in rod wil

AB and CD are two parallel conductors kept 1 m apart and connected by a resistance R of 6Omega , as shown in figure below. They are placed in a magnetic field B = 3 xx 10^(-2) T which is perpendicular to the plane of the conductors and directed into the paper. A wire MN is placed over AB and CD and then made to slide with a velocity 2 ms^(-1) (Neglect the resistance of AB, CD, and MN.) Calculate the induced current flowing through the resistor R.

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

Consider the situation shown in . The wire PQ has mass m, resistance r and can slide on the smooth, horizontal parallel rails separted by a distance l. The resistance of the rails is negligible. A uniform magnetic field B exists in the rectangualr region and a resistance R connects the rails outsided the field region At t= 0, the wire PQ is puched towards right with a speed v_0 . find (a) the current in the loop at an instant when the speed of the wire PQ is v, (b) the acceleration of the wire at this instatn, (c ) the velocity v as a function of x and (d) the maximum distance the wire will move.