- 4 A In Fetter We Discussed How A Region With A Polarization Contributes To The Electric Potential Through An Int 1 (68.17 KiB) Viewed 51 times
4. (a) In Fetter we discussed how a region. with a polarization & contributes to the electric potential & through an int
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4. (a) In Fetter we discussed how a region. with a polarization & contributes to the electric potential & through an int
4. (a) In Fetter we discussed how a region. with a polarization & contributes to the electric potential & through an integral! By taking - 0 8(x-7) where P = s is a 3rd detta function, & us a depole moment and to is the location of the depole, construct & for the point depole and show that it agrees with Descared prior results the class. (6) Repeat the above for a magnetic point dipole by wong the "Maxwellian" using integral discussed in class.
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