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A long, straight, cylindrical wire of radius R carries a current uniformly distributed over its cross section. At what location is the magnetic field produced by this current equal to half of its largest
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A long, straight, cylindrical wire of radius R carries a current uniformly distributed over its cross section. At what location is the magnetic field produced by this current equal to half of its largest value? inside the iwre

User Pham Hoan
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Answer:


r=(R)/(2)

Step-by-step explanation:

We know that maximum value of magnetic field in the long wire


B_(max)=(\mu _oI)/(2\pi R)

I=Current ,R=Radius of wire ,B= magnetic field

μo=Constant

At distance r the magnetic filed is the half of the maximum magnetic filed

At distance r


B=(\mu _oIr)/(2\pi R^2)


B=(B_(max))/(2)

So we can say that


(\mu _oIr)/(2\pi R^2)=(1)/(2)* (\mu _oI)/(2\pi R)


r=(R)/(2)

Therefore the answer is
r=(R)/(2)

User Zitrax
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