The magnetic dipole moment of the nickel atom is about 5.6 x 10-24 A· m2.(a) Calculate the maximum magnetic dipole moment (in A •m²) of a domain consisting of 1019 nickel atoms.A: m2(b) What current (in A) would have to flow through a single circular loop of wire of diameter 2.2 cm to produce the magnetic dipole moment you calculated?A

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The magnetic dipole moment of the nickel atom is about 5.6 x 10 A.m. (a) Calculate the maximum magnetic dipole moment (in A· m) of a domain consisting of 1019 nickel atoms. A m? (b) What current (in A) would have to flow through a single circular loop of wire of diameter 2.2 cm to produce the magnetic dipole moment you calculated? A

The magnetic dipole moment of the nickel atom is about 5.6 x 10 A.m. (a) Calculate the maximum magnetic dipole moment (in A· m) of a domain consisting of 1019 nickel atoms. A m? (b) What current (in A) would have to flow through a single circular loop of wire of diameter 2.2 cm to produce the magnetic dipole moment you calculated? A

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The magnetic dipole moment of the nickel atom is about 5.6 x 10-24 A· m2.
(a) Calculate the maximum magnetic dipole moment (in A •m²) of a domain consisting of 1019 nickel atoms.
A: m2
(b) What current (in A) would have to flow through a single circular loop of wire of diameter 2.2 cm to produce the magnetic dipole moment you calculated?
A

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