A rectangular loop (area = 0.15 `m^(2)`) turns in a uniform magnetic field, B = 0.20 T. When the angle between the field and the normal to the plane of the loop is `pi//2` rad and increasing at 0.60 rad/s, what emf is induced in the loop?

A conducting circular loop is placed is a uniform magnetic field B =0.20 T with its plane perpendicualr to the field . Somehow, the radius of the loop starts shrinking at a constant rate of 1.0 mm s^(-1). Find the induced emf in the loop at an instant when the radius is 2 cm.

A conducing circular loop is placed in a uniform magnetic field of 0.02 T, woth its plane perpendicular to the field. If the redius of the loop starts shrinking at a constant rate of 1.0 mm//s , then find the emf induced in the loop, at the instant when radius is 4 cm.

A circular loop is placed in a uniform magnetic field of 0.30 T. The plane of the loop is at an angle of 90^(@) to the field. The radius of the loop is decreasing at the rate of 2 mm // s . Calculate the induced emf in the coil when the radius of the loop becomes 1 cm.

A rectangular loop carrying a current i is placed in a uniform magnetic field B. The area enclosed by the loop is A. If there are n turns in the loop, the torque acting on the loop is given by

A rectangular loop of area 0.2m^(2) is lying in a magnetic field of 5xx10^(-2) tesla at an angle of 60^(@) with the magnetic field. The magnetic flux passing through this loop will be

A square loop of side 22cm is converted into circular loop in 0.4s . A uniform magnetic field of 0.2T directed normal to the loop, then the induced in the loop is

A rectangular loop of area 0.4m^(2) is lying in a magnetic field of 4xx10^(-3) tesla. If the plane of the loop is at right angles to the magnetic field, then the magnetic flux passing through the loops will be

A circular wire loop of radius r lies in a uniform magnetic field B, with its plane perpendicular to magnetic field. If the loop is deformed to a square shape in the same plane in time t, the emf induced in the loop is