The magnetic field at the point of intersection of diagonals of a square wire loop of side L carrying a current I is

Find the magnetic field at the point of intersection of the diagonals of a square having sides a and carrying current I.

Find the magnetic field at the centre of a square of side 'a' carrying current IA.

A long conducting wire carrying a current I is bent at 120^(@) [Fig. 1.128]. The magnetic field B at a point on the right bisector of bending angle at a distance d from the bend is ( mu_(0) is the permeability of free space)

A long conducting wire carrying a current I is bent at 120^@ (see figure). The magnetic field B at a point P on the right bisector of bending angle at a distance d from the bend is ( mu_0 is the permeability of free space)

Magnetic field intensity H at the centre of a circular loop of radius r carrying current I e.m.u is

The magnetic field at the centre of a loop of radius carrying current I is B_1 .The magnctic field at a distance from the long straight current canying wire is B_2 . Compare B_1 & B_2 .

State the nature of the graph showing the change of magnetic field with the perpendicular distance from an infinitely long wire carrying a steady current.

The dipole moment of a circular loop carrying a current I , is m and the magnetic field at the centre of the loops is B_(1) . When the dipole moment is doubled by keeping the current constant , the magnetic field at the the centre of the loop is B_(2) . The ratio (B_(1))/(B_(2)) is