The magnetic induction at the point O, if the wire carries a current I, is

Calculate magnetic induction at point O if the wire carrying a current I has the shape shown in Fig. (The radius of the curved part of the wire is equal to R and linear parts of the wire are very long.)

Calculate magnetic induction at point O if the wire carrying a current I has the shape shown in Fig. (The radius of the curved part of the wire is equal to R and linear parts of the wire are very long.)

Find the magnetic induction at point O, if the current carrying wire is in the shape shown in the figure.

The magnetic field Intensity at the point o of a loop carrying current i as shown in the figure is

A wire in the from of a square of side 'a' carries a current i . Then the magnetic induction at the centre of the square wire is (Magnetic permeability of free space= mu_(0) )

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 soild in cm is

Find the magnetic induction of the field at the point O at a loop with current I , whose shape is illustrated in figure (a)In figure a the radii a and b , as well as the angle varphi are known (b)In figure b ,the raidus a and the side b are known. (c)A current I=5.0 A flows along a thin wire shaped as shown in figure.The radius of a curved part of the wire is equal to R=120 mm ,the angle 2varphi=90^(@) .Find the magnetic induction of the field at the point O .

A circular coil of wire of radius 'r' has 'n' turns and carries a current 'I'. The magnetic induction (B) at a point on the axis of the coil at a distance sqrt3r from its centre is

Current I A flowing in a circular coil of radius r. then the magnetic induction at the centre is B. If the current is doubled then the magnetic induction will be

The expression for magnetic induction inside a solenoid of length L carrying a current I and having N number of turns is