A square wire of resistance `1.3Omega` and side `1cm` is moving in uniform magnetic field `B=1T` with speed `1cm//sec` as shown in figure then the current in loop is :

A square metallic wire loop of side 10 cm and resistance 1Omega is moved with a constant velocity vecv in a uniform magnetic field of induction 2T as shown in figure. The loop is connected to a network of resistances, each of value 3 Omega . The resistance of wires QD and PB are negligible. What should be the speed of the loop to have a steady current of 1 mA in the loop? What is the direction of flow of current?

A conducting square loop of side 10 cm is placed in a region of uniform magnetic field 0.5 T as shown in the figure. Calculate the work done in slowly moving the loop out of the field in 2 seconds with a speed of 0.05 m s^(-1) . The resistance of loop is 10 Omega .

A square metal wire loop of side 0.10 m and resistance 1 Omega is moved at a constant velocity nu_0 in a uniform magnetic field of induction B=2 Wb m^(-2) as shown in the figure . The magnetic field lines are bot to the plane of the loop directed into the paper. The loop is connected to a network of resistors each of value 3 Omega . The resistance of lead wires OS and PQ are negligible . what should be the speed nu_0 of the loop so as to have a steady current of 1mA in the loop ? Also indicate the direction of current in the loop .

A circular loop of radius R=20 cm is placed in a uniform magnetic field B=2T in xy -plane as shown in figure. The loop carries a current i=1.0 A in the direction shown in figure. Find the magnitude of torque acting on the loop.

A circular loop of radius R=20 cm is placed in a uniform magnetic field B=2T in xy -plane as shown in figure. The loop carries a current i=1.0 A in the direction shown in figure. Find the magnitude of torque acting on the loop.

A circular loop of radius R=20 cm is placed in a uniform magnetic field B=2T in xy -plane as shown in figure. The loop carries a current i=1.0 A in the direction shown in figure. Find the magnitude of torque acting on the loop.

A square metal wire loop of side 20 cm and resistance 2Omega is moved with a constant velcoity v_(0) in a uniform magnetic field of induction B = 1 Wb//m^(2) as shown in the figure. The magnetic field lines are perpendicular to the plane of the loop. The loop is connected to a network of resistance each of value 5Omega . The resistances of the lead wires BF and AE are negligible. What should be the speed of the loop, so as to have a steady current of 2 mA in the loop? Give the direction of current in the loop.

A square metal wire loop of side 20 cm and resistance 2Omega is moved with a constant velcoity v_(0) in a uniform magnetic field of induction B = 1 Wb//m^(2) as shown in the figure. The magnetic field lines are perpendicular to the plane of the loop. The loop is connected to a network of resistance each of value 5Omega . The resistances of the lead wires BF and AE are negligible. What should be the speed of the loop, so as to have a steady current of 2 mA in the loop? Give the direction of current in the loop.

A square metal wire loop of side 10 cm and resistance 1 ohm is moved with a constant velocity (v_0) in a uniform magnetic field of induction B=2 weber//m^(2) as shown in the figure. The magnetic field lines are perpendicular to the plane to the loop (directed into the paper). The loop is connected to a network of resistors each of value 3 ohms. The resistances of hte lead wire OS and PQ are negligible. What should be the speed of the loop so as to have a steady current of 1 milliampere in the loop? Given the direction of current in the loop.