When current is flowing in a circular loop of wire, the associated magnetic field at its centre is

explain with the help of Right Hand Thumb Rule the pattern of magnetic field lines the distribution of magnetic field due to a current through a circular loop​

The figure shows a wire with a loop in it. The current through the wire is 5.00 A and the diameter of the loop is 3.40 cm. What is the magnetic field at the center of the loop?

The figure below shows two loops of wire having the same axis. The smaller loop has radius a andresistance R and the larger loop has radius b. The smaller loop is above the larger one, by a distance z,which is large compared to the radius b of the larger loop, (z >> b). Hence with current I through the largerloop as indicated, the consequent magnetic field is nearly constant through the plane area bounded bythe smaller loop. Suppose now that z is not constant but is changing at the positive constant rate v z = dz /dt > 0 (z increasing).(a) Determine the magnetic flux across the area bounded by the smaller loop as a function of z.

The strength of the magnetic field at the center of a circular loop carrying current is directly proportional to:Options:A) The radius of the loopB) The square of the radius of the loopC) The current passing through the loopD) The resistance of the loop

Describe how the magnetic field around a straight current-carrying wire behaves.