A long wire carrying `i` is bent to form a plane angle `theta`.Find the magnetic field `B` at a point on the bisector of this angle situated at a distance `x` from the vertex is written in the form of `K cot theta/4`Tesla.Then, find the value of `K`.

A long wire carrying a current i is bent to form a plane angle alpha . Find the magnetic field B at a point on the bisector of this angle situated at a distance x from the vertex.

A long wire carrying a current i is bent to form a plane angle theta . The magnetic field at a point on the bisector of this angle situated at a distance d forms vertex is

A long wire carrying a current i is bent to form a plane angle. The magnitude of magnetic field at height d , above the point of bending

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)

Find magnetic field at point P shown in Fig. point P is on the bisector of angle between the wires.

Figure4.18 shows a current carrent carrying wire bent at an angle alpha . Find magentic induction at a point P located on the angle bisector at a distance x from the point O at the bend.

Current I flows through a long conducting wire bent at right angle as shown in Fig. Find the magnetic field at point P on the right angle bisector of the angle XOY at distance r form O.

(i) A very long wire carrying a current I is bent at right angles .Find magnetic field at a point lying on a perpendicular to the wire , drawn through the point of bending at a distance d from it (ii) Three long wires carrying same currect are placed as shown Find magnetic field at O.

A long straight wire, carrying current I, is bent at its midpoint to form an angle of 45^@ . Find the induction of magnetic field at point P, distant R from the point of bending (as shown in)