A very long wire carrying a current `I = 5.0 A` A is bent at right angles. Find the magnetic induction at a point lying on a perpendicular to the wire, drawn through the point of hending at a distance `l = 35 cm` from it.

A very long wire carrying a current I = 5.0 A is bent at right angles. Find the magnetic induction at a point lying on a perpendicular normal to the plane of the wire drawn through the Point of bending at a distance l = 35 cm from it.

A very long wire carrying a currrent i=5*0A is bent at right angles. Find the magnetic field induction at a point lying on a perpendicular to the wires drawn through the point of bending, at a distance l=35cm from it.

(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 wire carrying a current i=2A is bent at right angles . The magnetic field lying on a perpendicular normal to the plane of the wire draw through the point of bending at distance 1 m form it is ………….Tesla.

Two inflinitely long wires carrying current I, are bent as shown in the figure. Find the magnetic induction at point C.

The magnetic induction at any point due to a long straight wire carrying a current is

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 cylindrical wire carrying current of 10 A has radius of 5 mm find its its magnetic field induction at a point 2 mm from the centre of the wire

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

Two long parallel wires carry equal current I flowing in the same direction are at a distance 2d apart. The magnetic field B at a point lying on the perpendicular line joining the wires and at a distance x from the midpoint is