Q3. The vector potential of a single magnetic dipole i is given by: Ā(r) = 40 ñ x fn (Here, " = F – P| Show that, for a distribution of magnetic dipoles, the total magnetic vector potential can be written in the following form: J,(r"), Ho Ä(r) : -dv + -dS' What does J, and K, represent?

Q3. The vector potential of a single magnetic dipole i is given by: Ā(r) = 40 ñ x fn (Here, " = F – P| Show that, for a distribution of magnetic dipoles, the total magnetic vector potential can be written in the following form: J,(r"), Ho Ä(r) : -dv + -dS' What does J, and K, represent?

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Question

Q3. The vector potential of a single magnetic dipole m is given by:
Ho ñ x f"
Ã(r)
47 p12
[Here, 7" = 7- 7|
Show that, for a distribution of magnetic dipoles, the total magnetic vector potential can be written in the following
form:
J.(r")
-dv' +
Ho
Ā(r) =
„SP-
What does J, and K,
represent?

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