Potential energy for magnetic fields

AI Thread Summary
The discussion centers on calculating the potential energy of a circular coil in a magnetic field, using the formula U = -m*B, where m is the dipole moment. The user calculates the magnetic field strength as 0.13 T but finds a discrepancy between their computed potential energy of -0.00511 J and the answer key's -0.000472 J. The user suspects the error may stem from the alignment of the magnetic moment with the field, which is confirmed by recognizing that the formula involves a dot product. Clarification on how to determine the alignment and perform the dot product calculation is sought. Understanding the correct application of these concepts is crucial for accurate results.
jaejoon89
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Homework Statement



A circular 10 turn coil that has a radius of 0.05 m and current of 5A lies in the xy plane with a uniform magnetic field B = 0.05 T i + 0.12 T k (i and k are the unit vectors). What's the potential energy for the system?

Homework Equations



U = -m*B where m is the dipole moment = I*A

The Attempt at a Solution



B = sqrt((0.05 T)^2 + (0.12 T)^2) = 0.13 T

So for this I would get U = -0.00511 J, but the answer key says -0.000472 J... where's the mistake?
 
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I'm assuming from the answer that the magnetic moment must not be aligned with the field, but how do you know this given the problem? And how do you calculate this?
 
Well, we have to keep in mind that -m*B is actually a "dot product". ;)
 

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