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If electrons were points, they would not have a magnetic moment, because a magnetic moment requires a circulating charge and a point don't circulate.
The electrons spin is not due to the rotation of the electron, it is an intrinsic property of the electron.
My model is common sensical
You can calculate the magnetic moment from Maxwell's equations and Lorentz force law from my model
Classical: μ = a*i = π*charge radius^2 *charge/second = π( 2.82*10^(-15))^2(-1)v/2π*charge radius Cm^2/sMy model: μ = a*i = π*charge radius^2 *charge/second = π( 2.82*10^(-15))^2(-4/3)v/2π*charge radius Cm^2/s.
My model: μ = a*i = π*charge radius^2 *charge/second = π( 2.82*10^(-15))^2(-4/3)v/2π*charge radius Cm^2/s.
Does that give you the right answer?
One can tune the speed to fit with the right answer.
the orbital angular momentum
Also, does it give a sensible answer for the tangential velocity?
Water at extreme conditions of pressure and temperature, like the core of the earth, will phase change into a metal with a density of over five times liquid water.
No, it is much too small.