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From: BURT on 2 Apr 2010 20:26
An electron can radiate either outward or inward of its atom. It can
emmit at 360 degrees of sperical freedom. Sometimes light rays go
toward the nucleus.

Mitch Raemsch


From: Mathal on 3 Apr 2010 02:26
On Apr 2, 5:26 pm, BURT <macromi...(a)yahoo.com> wrote:
> An electron can radiate either outward or inward of its atom. It can
> emmit at 360 degrees of sperical freedom. Sometimes light rays go
> toward the nucleus.
>
> Mitch Raemsch

Photons are never, never emitted or absorbed by a free electron.
Why would they behave differently when they are part of a larger
coglomerate-an atom , molecule or larger quantum object- (Bose-
Einstein condensates comes to mind).

Mathal
P.S. The electron isn't in any particular place. In some states one
electron occupies two SEPARATE regions of the atom simultaneously. The
universe is far more fantastic than your wildest uncorrobberated
ravings.
From: Sam Wormley on 3 Apr 2010 10:45
On 4/3/10 1:26 AM, Mathal wrote:
> Photons are never, never emitted or absorbed by a free electron.

Are electrons free in a carbon arc?




From: BURT on 3 Apr 2010 16:24
On Apr 2, 11:26 pm, Mathal <mathmusi...(a)gmail.com> wrote:
> On Apr 2, 5:26 pm, BURT <macromi...(a)yahoo.com> wrote:
>
> > An electron can radiate either outward or inward of its atom. It can
> > emmit at 360 degrees of sperical freedom. Sometimes light rays go
> > toward the nucleus.
>
> > Mitch Raemsch
>
>  Photons are never, never emitted or absorbed by a free electron.
>    Why would they behave differently when they are part of a larger
> coglomerate-an atom , molecule or larger quantum object- (Bose-
> Einstein condensates comes to mind).
>
>    Mathal
> P.S. The electron isn't in any particular place. In some states one
> electron occupies two SEPARATE regions of the atom simultaneously. The
> universe is far more fantastic than your wildest uncorrobberated
> ravings.

I am talking about atomic electrons. That is clear.

Mitch Raemsch
From: Paul Hovnanian P.E. on 3 Apr 2010 23:52
BURT wrote:
>
> An electron can radiate either outward or inward of its atom. It can
> emmit at 360 degrees of sperical freedom. Sometimes light rays go
> toward the nucleus.

So photons as itty-bitty little particles would have some probability if
hitting the nucleus. But light waves have a much larger wavelength than
the size of an atomic nucleus. So light as a wave would pass right
around it.

If you want to hit a nucleus with something, it has to have a very short
wavelength.

--
Paul Hovnanian mailto:Paul(a)Hovnanian.com
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