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AccidentalFourierTransform
AccidentalFourierTransform
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The electron has a g-factor given by g/2 = 1 + alpha / 2*pi$g/2 = 1 + \alpha / 2\pi$ .

Does the expression really mean that the charge of the electron rotates faster than its mass - if they have the same distribution?

The electron has a g-factor given by g/2 = 1 + alpha / 2*pi .

Does the expression really mean that the charge of the electron rotates faster than its mass - if they have the same distribution?

The electron has a g-factor given by $g/2 = 1 + \alpha / 2\pi$ .

Does the expression really mean that the charge of the electron rotates faster than its mass - if they have the same distribution?

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Janina
Janina
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Does the electron charge rotate faster than its mass?

The electron has a g-factor given by g/2 = 1 + alpha / 2*pi .

Does the expression really mean that the charge of the electron rotates faster than its mass - if they have the same distribution?