2. What is the magnetic dipole moment of a sphere of uniform surface charge density σ, which rotates with constant angular velocity o about an axis of the sphere? An electron has a permanent magnetic dipole moment of magnitude: eħ (Bohr magneton). μ = 2mc Suppose the electron is a rotating spherical shell of charge with "classical electron radius": e² mc² What is the velocity at the equator? Can classical electrodynamics explain the origin of the electron magnetic moment? a=
2. What is the magnetic dipole moment of a sphere of uniform surface charge density σ, which rotates with constant angular velocity o about an axis of the sphere? An electron has a permanent magnetic dipole moment of magnitude: eħ (Bohr magneton). μ = 2mc Suppose the electron is a rotating spherical shell of charge with "classical electron radius": e² mc² What is the velocity at the equator? Can classical electrodynamics explain the origin of the electron magnetic moment? a=
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Transcribed Image Text:2.
What is the magnetic dipole moment of a sphere of uniform surface charge
density o, which rotates with constant angular velocity o about an axis of the sphere? An
electron has a permanent magnetic dipole moment of magnitude:
eħ
(Bohr magneton).
2mc
u =
Suppose the electron is a rotating spherical shell of charge with "classical electron
radius":
e?
mc
What is the velocity at the equator? Can classical electrodynamics explain the origin of
the electron magnetic moment?
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