The Spinning Particle Model

The Classic Model
of the Electron
The Spinning Particle Model of the Electron
Some Predictions
of this model are:
Explaining the Questions raised by the Classical Model
Negative charges
Attracting each other
Graphical Particle Collision Solver
Particle & Wave Behavior
Tunnel Effect
Spin Polarized Tunnelling (Giant Magnetoresistance)
Theory of Radiation
Gyromagnetic Ratio g=2
Measuring the Size
of the Electron
The Hydrogen Atom Model
Relativity: Time and Spedd
A brief summary
of the ideas exposed
Discussion Forum
Annex 1:
Calculating the Spin
   The Spinning Particle Model

 Explaining the Questions raised by the Classical Model

  With our model the electron is described as a Point Charge spinning   around its Center of Mass
In this model the charge is located at one Point with no size and thus there is no way for the electron charge to “repel” itself and “explode”.
Now we have a Radius from the spinning charge CC to the CM,  related to the Spin (angular momentum) by: R=S/mc and because S=h/2, R is half Compton’s  wavelength, ≈10−13m (calculation)
In this model g=2. See slide: “Gyromagnetic Ratio
Boson Condensates as in Superconductors. See slide: “Negative Charges attracting each other
In this model the CM & CC are NOT the same point

M. Rivas