sci.physics.electromag

"socratus"
>
> 1) What does the electron do in Maxwell's theory?
> Maxwell's equations have no relation to the movement of the
> electron.
> They describe the distribution of electromagnetic waves
> but not the movement of a particle such as an electron.
> In Maxwell's theory, the charge - electron is considered local,
> as though the particle is "at rest".
> This means that it particle does not move rectilinearly,
> but rotates around his diameter (has the form of a sphere).
> The rotation of the electron creates electrical waves.
> * * *

It is very difficult to find experimental data about movement of the
electrons. It is obvious that in wire is the gradient of electrons density.
And what about the electron beam in vacuum. There is also the gradient?. Has
the vacuum resistance for moving electrons or it is a superconductor?. I am
thinking about electron beams far from the gun in vacuum where no fields. If
such beams are two, they attract like wires?
S*