Re: An Electron Structure?
- From: "Ken S. Tucker" <dynamics@xxxxxxxxxxxx>
- Date: Sat, 12 Apr 2008 16:43:16 -0700 (PDT)
On Apr 12, 1:39 pm, "Ken S. Tucker" <dynam...@xxxxxxxxxxxx> wrote:
On Mar 1, 3:17 pm, "Ken S. Tucker" <dynam...@xxxxxxxxxxxx> wrote:
About Electron Spin and Structure.
Let a pair of Objects O1 and O2 have a comparative
speed of V12, measured relatively to an external
observer K, and a 2nd pair of Objects O3 and O4
have a comparative velocity of V34, again relative
to K.
Relative to another observer K', V12'=/=V12 and
V34' =/=V34, however the ratio,
V12/V34 = V12'/V34', Eq.(Ratio)
is invariant. One might look at the ratio's of orbits
to see that thoses ratios are invariant, but the
periods of the orbits themselves are relative.
The ratio of the periods is invariant.
Allow me to set-up an electron structure such as
in this figure using charges, (charges "a" and "b"
are negative),
+
a b Fig1.
too provide an apparent (-) charge.
The charges produce an energy, a*b/r = + energy,
to account for the +electron mass.
I crunched some numbers for above Fig1, that look
good.
I found the distance between "a" and "b" to be
2*10^-20 cm, and the distances between the "+"
to "a" and "b" to 4*10^-20, using the isosceles
triangle, in Fig1.
So distance { a->(+) or b->(+) } = 2 * a=>b.
If anyone found the charge configurational
energy to be zero using the above approximations
they would be correct. Let me explain...
Let the distance between "a" and "b" be 2x,
with "a" departed from the origin by -x
and "b" by +x.
In the given dimensions (x=10^-20 cm exactly),
the r/x = 4.000 000 284 463 47
(NOT 4.000...)
to define the distance from "a" or "b" to
the (+) charge , to get the mass of the
electron.
The exact x/r = 4.00000.... has no mass,
but using x/r = 4.000 000 284 463 47,
provides the electron mass.
I had to go in 6 decimals, past 000 000
to get to 284 463 47, to arrive at the
electron mass of .911 *10^-28 gms.
(Assuming the usual electrical positional
energy equation).
My sense is, the "284 463 47" caboose past
000 000 is General Relativistic, because it
departs the structure from zero mass to the
electron mass, and a characteristic of GR
is the accounting for mass, with some warp
of length.
Regards
Ken S. Tucker
PS: Comments very welcome.
.
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