Two thin long wires are parallel to each other at a separation d apart and they carry equal currents l each along the same direction as shown in figure. The magnetic field (B) at a point P varieswith x according to graph.

Two perpendicular infinite wires are carrying current i as shown in the figure. The magnetic field at point P is :

The location of three long wires carrying same current I are x=-a , x=0 and x=+ a respectively as shown in figure. The magnetic field at point ( 0 , 0 , a ) is

A current carrying wire AB of the length L is turned along a circle, as shown in figure. The magnetic field at the centre O.

a straight wire current element is carrying current 100 A as shown in figure. the magnitude of magnetic field at a point P.

Two long parallel wires are at a distance 2d apart. They carry steady equal currents flowing out of the plane of the paper , as shown. The variation of the magnetic field B along the line XX is given by

Two long parallel wires are at a distance 2d apart. They carry steady equal currents flowing out of the plane of the paper , as shown. The variation of the magnetic field B along the line XX is given by

Two very long straight , and insulated wires are Kept at 90^(@) angle from each other in xy -plane as shown in the figure. These wires carry current of equal magnitude I, whose direction are shown in the figure The net magnetic field at point P will be:

Two very long, straight, and insulated wires are kept at 90^(@) angle from each other in xy-plane as shown in the figure. These wires carry currents of equal magnitude I, whose directions are shown in the figure. The net magnetic field at point will be:

Two infinitely long current carrying conductors X and Y are kept parallel to each other, 24 cm apart in vacuum. They carry currents of 5 A and 7 A respectively, in the same direction, as shown in figure below. Find the position of a neutral point, i.e., a point where resultant magnetic flux density is zero. (Ignore earth.s magnetic field).

Two infinitely long current carrying conductors X and Y are kept parallel to each other, 24 cm apart in vacuum. They carry currents of 5 A and 7 A respectively, in the same direction, as shown in figure bleow. Find the position of a neutral point, i.e., a point where resultant magnetic flux density is zero. ( lgnore earth's magnetic field ).