Magnetic flux thorugh a loop of wire

stunner5000pt
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Homework Statement


Griffiths Problem 7.8
A square loop of wire (side a) lies on a table dsiantce s from a very long straight wire, which carries a current I, as shown in teh figure.

Find the flux of B through the loop

Homework Equations


Flux of B is given by
\Phi_{B} = \int \vec{B} \dot d\vec{a}


The Attempt at a Solution


THe area element is constant
but hte magnetic field is not
For a wire, B at a dsitance r is given by
\vec{B} = \frac{\mu_{0} I}{2\pi r} \hat{phi}

Flux is then
\Phi_{B} = \int_{s}^{s+a} \frac{\mu_{0} I}{2\pi r} a^2 ds

but hte solution says that the area element should be just a, and not a^2 .. why is that?

thanks for help!
 

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stunner5000pt said:
but hte solution says that the area element should be just a, and not a^2 .. why is that?
The element of area is "a ds", where "ds" is distance along r: you are treating the area as infinitesimal rectangular strips, parallel to the wire.
 
Doc Al said:
The element of area is "a ds", where "ds" is distance along r: you are treating the area as infinitesimal rectangular strips, parallel to the wire.

thank you
i get it now
 

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