The magnetic induction of the centre of circular coil carrying current of 1.4 A is `1.76 xx 10^(-6)` N/A m then the circumference of the loop is

The magnetic field at the centre of the current carrying coil

The magnetic induction at the centre of a coil made from a wire of length 22 cm carrying a current of 0.5 A is

The magnetic field at the centre of a circular coil of radius r carrying current l is B_(1) . The field at the centre of another coil of radius 2r carrying same current l is B_(2) . The ratio (B_(1))/(B_(2)) is

The magnetic field at the centre of a circular current carrying loop of radius 12.3 cm is 6.4 xx 10^-6T . What will be the magnetic moment of the loop? (mu_0 = 4pi xx 10^-7 TmA^-1)

Magnetic induction produced at the centre of a circular loop carrying current is B . The magnetic moment of the loop of radius R is

Obtain an expression for magnetic induction at the centre of current carrying circular coil.

When a certain length of wire is turned into one circular loop, the magnetic induction at the centre of coil due to some current flowing is B_(1) If the same wire is turned into three loops to make a circular coil, the magnetic induction at the center of this coil for the same current will be

The magnetic induction at the centre of a current carrying circular coil of radius 10cm is 5sqrt(5) times the magnetic induction at a point on its axis. The distance of the point from the centre of the coil in m is

Calculate the magnitude of the magnetic induction due to a circular coil of 400 turns and radius 0.05 cm, carrying a current of 5A, at a point on the axis of the coil at a distance of 0.1 m from the centre of the coil.