Figure shows an end view of two long, parallel wires perpendicular to the xy plane, each carrying a current I, but in opposite directions.

Graph the magnitude of `vecB` at point on the x-axis.

Figure shows an end view of two long, parallel wires perpendicular to the xy plane, each carrying a current I, but in opposite directions. At what value of x, the magnitude of vecB is maxismum?

Figure shows an end view of two long, parallel wires perpendicular to the xy plane, each carrying a current I, but in opposite directions. Derive an expression for the magnitude of vecB at any point on the x-axis in terms of the x-coordinate of the point. What is the direction of vecB ?

Two thin, long, parallel wires, separated by a distance 'd' carry a current of 'i' A in the same direction. They will

Find vecB at the origin due to the long wire carrying a current I

Two long straight wires, each carrying a current I in opposite directions are separated by a distance R . The magnetic induction at a point mid way between the wire is

A long straight wire in the horizontal plane carries a current of 50A in north to south direction. Give the magnitude and direction of vecB at a point 2*5m east of the wire.

Repeat the above problem, but with the current in both wires shown in fig. directed into the plane of the figure. Graph the magnitude of vecB at points on the x-axis.

Two long parallel wire A and B situated perpendicuilar to the plane of the paper at a distance 2a are carrying equal currents I in opposite direction as show in the figure . The value of magnetic induction at point P situated at equal distance r from both the wires will be

Find vecB at the origin due to the long wire carrying current I.

An arrangment of three parallel staright wires placed perpendcular to plane of paper carrying same current I along the same direction is shown in figure. Magnitude of force per unit length on the middle wire 'B' is given by