The radius of circular loop is 'a'. Magnetic field is incerasing at a constant rate a. Magnetic field of a confined with the axis of the loop. Resistance per unit length of the wire of loop is `rho`. Choose the correct option(s):

A current loop in a magnetic field

The radius of the circular conducting loop shown in is R. magnetic field is decreasing at a constant rate alpha . Resisitance per unit length of the loop is rho . Then, the current in wire AB is ( AB is one of the diameters)

A current loop placed in a magnetic field behaves like a

Radius ol a circular luop placed in a perpendicular uniform magnetic field is increasing at a constant rate of r_(o)ms^(1) . If at any instant radius of the loop is r, then emf induced in the loop at that instant will be

A rectangular loop of metallic wire is of length a and breadth b and carries a current i. The magnetic field at the centre of the loop is

A circular loop of one turn carries a current of 5.00 A. If the magnetic field B at the centre is 0.200 mT, find the radius of 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.

A metallic loop is placed in a nonuniform magnetic field. Will an emf be induced in the loop?

Find the magnetic field at the centre of the circular loop shown in figure.

A current I flows along a round circular loop of radius R . Find the line integration of magnetic field along the axis of the loop from center to oo