What is the magnitude of induced current in the circular loop ABCD or radius r, when a steady current of I ampere is passed through wire KL?

What will be magnetic field at centre of current carrying circular loop of radius R?

A long wire is bent as shown in Fig. what will be the magnitude and direction of the field at the centre O of the circular portion, if a current I is passed through the wire ? Assume that the various portions of the wire do not touch at point P.

Use Biot-Savart law to derive the expression for the magnetic field on the axis of a current carrying circular loop of radius R . Draw the magnetic field lines due to circular wire carrying current I .

There is one conducting circular loop of radius R, which carries current I. There is another conducting circular loop of radius r placed coaxially at a distance x from it. Here r lt lt R and x gt gt R . Emf induced in the smaller loop when x starts increasing at a rate v.

A circular loop of radius R carries a current I. Another circular loop of radius r(ltltR) carries a current I. The plane of the smaller loop makes an angle of 30^@ with that of the larger loop. The planes of the two circles are at right angle to each other. Find the torque acting on the smaller loop.

A long straight wire is coplanar with a current carrying circular loop of radius R as shown in Fig. Current flowing through wire and the loop is I_0 and I, respectively. If distance between centre of loop and wire is r=2R, calculate force of attraction between the wire and the loop.