An infinite current-carrying conductor is placed along the z-axis and a wire loop is kept in the `x-y` plane. The current in the conductor is increasing with time. Then the

A infinitely long conductor AB lies along the axis of a circular loop of radius R. If the current in the conductor AB varies at the rate of x ampere/second, then the induced emf in the loop is

A short current carrying conductor is placed perpendicular to the axis of a current carrying ring as shown. The direction of force acting of the conductor is

Two different wire loops are concentric and lie in the same plane. The current in the outer loop is clockwise and increasing with time. The induced current in the inner loop then is

An infinite current carrying conductor is bent into three segment (1), (2) and (3) as shown in Fig. If it carries a current i, find the magnetic induction at the origin.

A current- carrying straight wire is kept along the axis of a circular loop carrying a current. The straight wire

A long, straight wire carries a current along the z-axis. One can find two points in the x-y plane such that

two infinite wires, carrying currents i_1 and i_2 ., are lying along x-and y-axes, as shown in the x-y plane. Then,

A long conductor AB lies along the axis of a circular loop of radius R. If the current in the conductor AB varies at the rate of 1 amphere/ second, then the induced emf in the loop is

When is the force experienced by a current-carrying conductor placed in a magnetic field is largest?

Long, straight conductors with square cross sections and each carrying current I are laid side-by-side to form an infinite current sheet as shown in Fig. The conductor lies in the x-y plane, are parallel to the y-axis and carry current in the +y direction. There are n conductors per unit length measured along x-axis. what are the magnitude and direction of the magnetic field for distance a below the current sheet?