A conducting wire carrying current I is shown in the figure. The magnitude of magnetic field at the point P will be

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

A current - carrying loop is shown in the figure. The magnitude of the magnetic field produced at a point O is

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

A coil having N turns carry a current I as shown in the figure. The magnetic field intensity at point P is

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)

A conducting wire carrying a current I is bent into the shape as shown. The net magnetic field at the centre O of the circular arc of radius R

A segment AB of wire carrying current I_1 is placed perpendicular to a long straight wire carrying current I_2 as shown in figure. The magnitude of force experieced by the straight wire AB is

A ring of the radius R is placed in the y - z plane and it carries a current i. The conducting wires which are used to supply the current to the ring can be assumed to be vary long and are placed as shown in the figure. The magnitude of the magnetic field at the centre of the ring A is

A long wire carrying current 'I' is bent into the shape as shown in the figure. The net magnetic field intensity at the centre 'O' is

In given figure, current I is flowing through straight wire and divided equally in two loops as shown in the figure. The magnitude of magnetic field intensity at the center (O) is