BWAHAHAHAhahahahahahahahahahahahaha! (was Re: mass of the photon)


"tony fleming" <tfleming1@xxxxxxxxxxxxx> wrote in message news:1170046870.831727.249490@xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx


On Jan 29, 1:10 pm, "Dumbledore_" <Headmas...@xxxxxxxxxxxxxxxxxx>
wrote:
"tony fleming" <tflemi...@xxxxxxxxxxxxx> wrote in messagenews:1170025074.577710.208710@xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx

On Jan 29, 6:06 am, The Ghost In The Machine
<e...@xxxxxxxxxxxxxxxxxxxxxxx> wrote:

I'm not sure why Mercury's orbit would have a chaotic component.

Ghost, quoting from wikipedia

"Research indicates that the eccentricity of Mercury's orbit varies
chaotically from 0 (circular) to a very high 0.47 over millions of
years. This is thought to explain Mercury's 3:2 spin-orbit resonance
(rather than the more usual 1:1), since this state is more likely to
arise during a period of high eccentricity.[14]"

http://en.wikipedia.org/wiki/Mercury_(planet)

There's a section what is called "spin-orbit resonance" which
indicates that Mercury's closest approach to the Sun might not be the
'ground state' for the solar system. Such chaotic motions can be
explained by 'photon chemistry' whereby small changes in the photon
energy can initiate large-scale changes in the spin-orbit resonance of
the sun and planets.

What we are measuring here is the way a photon must obey the
restriction imposed by self-field theory that it (the photon) must
engage in a round trip (electron to proton and back to electron) of
2*Pi radians of phase, where temporal or spatial phase, and this
includes the collisions (where we assume there is a 'coherent
reflection' ( a tricky collision whereby an outward moving proton gets
reflected to become an inward moving photon.

What we find is that atomic physics is very much like the Drude
kinetic picture of a gas as hard-particle molecules hitting a wall
and bouncing off EXCEPT that in the case of the atom the collision is
about TWO reflections. We see the concept of 'charge' in this
collision-based model also. Charge is nothing more than this process
of photon reflection between 'charged' particles.

This quantum requirement on the photon is an extension of the quantum
rules first noted by de Broglie as 'stationary states' of the electron
that Heisenberg, Born and others were able to extend into a fully
fledged mathematical method. The fact is that the photon MUST perform
integer numbers of round trips each cyle of the electron and proton.
This is where Planck's constant comes into the picture. It is the
energy per cycle of the electron and/or the proton. This Planck
energy per cycle is 'mediated' by the photon. This mediation MUST be
done in discrete numbers of the 'coherent collisions' backwards and
forwards between the two largere particles. SO this is NOT a 'pas-de-
deux' but a 'pas-de-trois'

You'll note that the two values of the photon are 0.214 x 10^(-53) kg
(hydrogen atom) 0.315 x 10^(-53) kg (Mercury's perihelion). If we
assume the perihelion can be lowered by a factor of 3:2 then the two
values become 0.214 x 10^(-53) kg (hydrogen atom) and 0.210 x 10^(-53)
kg (Mercury's perihelion adjusted by spin-resonance). So now the two
values are really quite close.

www.unifiedphysics.com
tflem...@xxxxxxxxxxxxxxxxxxx Hide quoted text -- Show quoted text -

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Relevant Pages

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    (sci.physics)
  • Re: mass of the photon
    ... explained by 'photon chemistry' whereby small changes in the photon ... engage in a round trip (electron to proton and back to electron) of ... includes the collisions (where we assume there is a 'coherent ... of photon reflection between 'charged' particles. ...
    (sci.physics)