This is only for math freaks...

Chapter 12 of the last SO(4) physics release.


J.W.

On 28.02.2021 18:10, bobcook39...@hotmail.com wrote:

Jurg---

In response to Robin’s Frriday comment you note:

You can only measure the electron g-factor, where as you can get it from
a metric transformation from the proton strong force equation.

IIs the  strong force equation magnetlicly    derived from  flux compression

What is the equation for the force?

Bob Cook

*From: *Jürg Wyttenbach <mailto:ju...@datamart.ch>
*Sent: *Friday, February 26, 2021 3:28 PM
*To: *vortex-l@eskimo.com <mailto:vortex-l@eskimo.com>
*Subject: *Re: [Vo]:How the Holmlid mechanism works

What is a free electron, i.e. as used in an x-ray tube?

Good question!

Live - all the chemistry that forms/carries it - happens between the electron and the proton (inside nuclei). So we stay in between.

Physically a free electron behaves like a fat photon with a locked in wave that is responsible for its internal charge coupling - hence mass.

As in general relativity you can always find math to explain it differently, but this will not change the three only observable of an electron. It's mass, magnetic moment and the electron g-factor. Charge is an attribute=axiom. But all factors are connected and not fully independent.

But if an electron can be free is questionable as everywhere, there is mass and most mass has a magnetic moment, hence there will be interaction.

J.W.

On 26.02.2021 21:41, Robin wrote:

    In reply to  Jürg Wyttenbach's message of Fri, 26 Feb 2021 20:05:31 +0100:

    Hi,

    [snip]

        No the electron has no stable strong force radius.

        You can only measure the electron g-factor, where as you can get it from

        a metric transformation from the proton strong force equation.

        Physics will change. More radically as some will like.

        J.W.

    What is a free electron, i.e. as used in an x-ray tube?

--
Jürg Wyttenbach
Bifangstr. 22
8910 Affoltern am Albis
+41 44 760 14 18
+41 79 246 36 06

--
Jürg Wyttenbach
Bifangstr. 22
8910 Affoltern am Albis

+41 44 760 14 18
+41 79 246 36 06

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