A uniform circular loop of radius a and resistance `R` palced perpendicular to a uniform magnetic field `B`. One half of the loop is rotated about the diameter with angular velocity `omega` as shown in Fig. Then, the current in the loop is

A current carrying loop of radius R and mass 'm' is placed inside a uniform magnetic field an shown

A uniform circular loop of radius a and resistance R is pulled at a constant velocity v out of a region of a uniform plane of the loop and the velocity are both perpendicular to B. Then the electrical power in the circular loop at the instant when the arc (of the circular loop) outside the region of magnetic field subtends an angle (pi)/(3) at the centre of the loop is

A circular loop of radius r , having N turns of a wire, is placed in a uniform and constant magnetic field B . The normal of the loop makes an angle theta with the magnetic field. Its normal rotates with an angular velocity omega such that the angle theta is constant. Choose the correct statement from the following.

A square loop of side L, resistance R placed in a uniform magnetic field B acting normally to the plane of the loop. If we attempt to pull it out of the field with a constant velocity v, then the power needed is

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 , having N turns of a wire, is placed in a uniform and constant magnetic field B . The normal of the loop makes an angle theta with the magnetic that the angle theta is constant. Choose the correct statement from the following.

In non-uniform magnetic field in certain direction, current loop is placed

A semicircular loop of radius R is rotated with an angular velocity omega perpendicular to the plane of a magnetic field B as shown in the figure. Emf Induced in the loop is

A semi-circular loop of radius R is placed in a uniform magnetic field as shown. It is pulled with a constant velocity. The induced emf in the loop is