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Figure shows an end view of two long, pa...

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`?

A

`(sqrt2mu_0Ia)/(pi(x^2+a^2))`

B

`(3mu_0Ia)/(pi(x^2+a^2))`

C

`(mu_0Ia)/(2pi(x^2+a^2))`

D

`(mu_0Ia)/(pi(x^2+a^2))`

Text Solution

Verified by Experts

The correct Answer is:
D
(d)
At a position on the x-axis:
`B_(n et)=2(mu_0I)/(2pir)sin theta=(mu_0I)/(pi(sqrt(x^2+a^2))) a/(sqrt(x^2+a^2))`
`B_(n et)=(mu_0Ia)/(pi(x^2+a^2))`
It's graphs is shown below.

The magnetic field is a maximum at origin, `x=0`.
When `xgt gta, B~~(mu_0Ia)/(pix^2)`
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