A conductor carries a constant current I along the closed path abcdefgha involving 8 of the 12 edges of length `l`. Find the magnetic dipole moment of the closed path.

A conductor carries a constant current I along the closed path abcdefgha involving S of the 12 edges each of length 1. Find the magnetic dipole moment of the closed path.

An electron moves with a constant speed v along a circle of radius r.(a) find the equivalent current through a point on its path.(b) Find the magnetic moment of the circulating electron.(c ) Find the ratio of the magnetic moment to the angular momentum of the electron.

A circular coil of closely wound N terns and radius r carriers a current I. Write the expressions for the following : (i) the magnetic field at its centre (ii) the magnetic moment of this coil

A current I flows in a conducting wire of lenth L. If we bent it in a circular form, then calculate its magnetic dipole moment.

Answer the following: (a)Define SI unit of current in terms of the force between two parallel current carrying conductors. (b) Two long straight parallel conductors carrying steady currents I_(a)andI_(b) along the same direction are separated by a distance d. How does one explain the force of attraction between them? If a third conductor carrying a current I_(c) in the opposite direction is placed just in the middle of these conductors , find the resultant force acting on the third conductor.

A wire of length L carries a current i along the x-axis. A magnetic field B=B_0(hati+hatj+hatk) exists in the space. Find the magnitude of the magnetic force acting on the wire.

A square conducting loop of side length L carries a current I.The magnetic field at the centre of the loop is

A conductor (shown in the figure) carrying constant current I is kept in the x-y plane in a uniform magnetic field B. If F is the magnitude of the total magnetic force acting on the conductor, then the correct statement is/are

A conductor (shown in the figure) carrying constant current I is kept in the x-y plane in a uniform magnetic field vec(B) . If vec(F) is the magnitude of the total magnetic force acting on the conductor, then the correct statement(s) is (are)

A conductor carrying current I is of the type as shown in figure. Find the magnetic field induction at the common centre O of all the three arcs.