From: BURT on
On Apr 8, 4:15 pm, mpc755 <mpc...(a)gmail.com> wrote:
> On Apr 8, 1:20 am, BURT <macromi...(a)yahoo.com> wrote:
>
>
>
>
>
> > On Apr 7, 6:42 pm, mpc755 <mpc...(a)gmail.com> wrote:
>
> > > On Apr 7, 2:03 pm, spudnik <Space...(a)hotmail.com> wrote:
>
> > > > on the other hand, it seems that
> > > > MPC# nodified his postings, for the worse,
> > > > by repeating teh exact same drivel, over-and-over,
> > > > as his "reply" to any change in teh argument; oh, well!
>
> > > Aether and matter are different states of the same material.
> > > Aether is displaced by matter.
> > > Displacement creates pressure.
> > > Gravity is pressure exerted by aether displaced by matter.
>
> > > A C-60 molecule is in the slit(s). While the C-60 molecule is in the
> > > slit(s) detectors are placed at the exits to the slits. When there are
> > > detectors at the exits to the slits the C-60 molecule is always
> > > detected exiting a single slit. If the detectors are placed and
> > > removed from the exits to the slits while the C-60 molecule is in the
> > > slit(s) the C-60 molecule creates an interference pattern.
>
> > > Explain how this is possible without aether.
>
> > >http://en.wikipedia.org/wiki/Louis_de_Broglie
>
> > > "This research culminated in the de Broglie hypothesis stating that
> > > any moving particle or object had an associated wave."
>
> > > 'Interpretation of quantum mechanics
> > > by the double solution theory
> > > Louis de BROGLIE'http://www.ensmp.fr/aflb/AFLB-classiques/aflb124p001..pdf
>
> > > "I called this relation, which determines the particle's motion in the
> > > wave, "the guidance formula". It may easily be generalized to the case
> > > of an external field acting on the particle."
>
> > > "This result may be interpreted by noticing that, in the present
> > > theory, the particle is defined as a very small region of the wave
> > > where the amplitude is very large, and it therefore seems quite
> > > natural that the internal motion rythm of the particle should always
> > > be the same as that of the wave at the point where the particle is
> > > located."
>
> > > de Broglie's definition of wave-particle duality is of a physical wave
> > > and a physical particle. The particle occupies a very small region of
> > > the wave.
>
> > > In AD, the external field is the aether. In a double slit experiment
> > > the particle occupies a very small region of the wave and enters and
> > > exits a single slit. The wave enters and exits the available slits.
>
> > > In AD, the C-60 molecule has an associated aether displacement wave.
> > > The C-60 molecule always enters and exits a single slit while the
> > > associated aether displacement wave enters and exits the available
> > > slits. The displacement wave creates interference upon exiting the
> > > slits which alters the direction the C-60 molecule travels. Detecting
> > > the C-60 molecule causes decoherence of the associated aether
> > > displacement wave (i.e. turns it into chop) and there is no
> > > interference.
>
> > The atom's aether waves have a spherical form and the C60 molecule has
> > largest spherical waves. Atom's waves are in the center the largest
> > aether wave form. There are 3 levels of wave. We can only measure the
> > largest because only it can go through the two slits at once. The
> > others are much too small.
>
> > Mitch Raemsch
>
> 'Interpretation of quantum mechanics
> by the double solution theory
> Louis de BROGLIE'http://www.ensmp.fr/aflb/AFLB-classiques/aflb124p001.pdf
>
> "This result may be interpreted by noticing that, in the present
> theory, the particle is defined as a very small region of the wave
> where the amplitude is very large, and it therefore seems quite
> natural that the internal motion rythm of the particle should always
> be the same as that of the wave at the point where the particle is
> located."
>
> The 'particle' occupies a very small region of the aether wave. This
> very small region of the aether wave is where the amplitude is very
> large.- Hide quoted text -
>
> - Show quoted text -

There is only one measurable spherical wave out of a total of three.
The other two are two small. All we have ever measured is the largest
wave.

Mitch Raemsch
From: mpc755 on
On Apr 8, 7:27 pm, BURT <macromi...(a)yahoo.com> wrote:
> There is only one measurable spherical wave out of a total of three.
> The other two are two small. All we have ever measured is the largest
> wave.
>
> Mitch Raemsch

'Interpretation of quantum mechanics
by the double solution theory
Louis de BROGLIE'
http://www.ensmp.fr/aflb/AFLB-classiques/aflb124p001.pdf

"This result may be interpreted by noticing that, in the present
theory, the particle is defined as a very small region of the wave
where the amplitude is very large, and it therefore seems quite
natural that the internal motion rythm of the particle should always
be the same as that of the wave at the point where the particle is
located."

The 'particle' occupies a very small region of the aether wave. This
very small region of the aether wave is where the amplitude is very
large.
From: spudnik on
hey, we are wasting time with mister Burt-on.

thus quoth:
the 200-pound space suit was added to the weight of the
astronaut, the gravitational load on the skeletal system
could prevent serious bone loss.
But for those who were not outside the spacecraft,
some reconditioning was necessary, after long stays on
http://21stcenturysciencetech.com/

> The 'particle' occupies a very small region of the aether wave. This
> very small region of the aether wave is where the amplitude is very
> large.

thus:
there is no fourth axis that is orthogonal
to the three orthogonal axes of space (at least,
not at the same origin, and probably not at all isometric).

> The best model uses the minimum number of orthogonals

thus:
cartesianism can be problematic, but that does not
make the L-transformation into its antimatter ...
unless you throw Schroedinger's joke-cat from the train --
y'know, the Doppler effect?
you *can* "do" special & general relativity in trilinear
coordinates, but
you don't have to!... like, that is what Minkowski's phase-space is,
essentially; esp. with quaternions.

thus:
also, apply the formularium to an actual glass house, say,
at a particular lattitude (south of the equator,
you won;t always be able to use Polaris .-)

thus:
c^2 is a great constant to work with;
how do you feel about C^2 seconds-per-meter^2 ??

actually c times the second-root of two has already been
used as a factor, by Weber & in a very elementary exposition (or,
it is supposed to be, in German).

thnks for the prima donna soto voce;
that really means a lot to me ... zzzz.

now, I say, "second root" and second-power, because
it has nothing in oarticular to do with The Tetragon. (well,
may haps, the *skew* tetragon .-)

thus:
detrend this; all gasses are glass house gasses, but
not at the same window of opening or closing.
if you're going to use the Farmer's Almanac for a one-year
futures,
that's fine with me but I don't care!... I, myself etc. can't do the
math,
except in tripolars ... when I can configure them!

--Light: A History!
http://wlym.com
http://21stcenturysciencetech.com
http://white-smoke.wetpaint.com
From: BURT on
On Apr 8, 4:29 pm, mpc755 <mpc...(a)gmail.com> wrote:
> On Apr 8, 7:27 pm, BURT <macromi...(a)yahoo.com> wrote:
>
> > There is only one measurable spherical wave out of a total of three.
> > The other two are two small. All we have ever measured is the largest
> > wave.
>
> > Mitch Raemsch
>
> 'Interpretation of quantum mechanics
> by the double solution theory
> Louis de BROGLIE'http://www.ensmp.fr/aflb/AFLB-classiques/aflb124p001.pdf
>
> "This result may be interpreted by noticing that, in the present
> theory, the particle is defined as a very small region of the wave
> where the amplitude is very large, and it therefore seems quite
> natural that the internal motion rythm of the particle should always
> be the same as that of the wave at the point where the particle is
> located."
>
> The 'particle' occupies a very small region of the aether wave. This
> very small region of the aether wave is where the amplitude is very
> large.

All particles are infinitely small. The wave can collapse into them
and will no longer provide the interference.

Mitch Raemsch
From: mpc755 on
On Apr 8, 7:41 pm, spudnik <Space...(a)hotmail.com> wrote:
> hey, we are wasting time with mister Burt-on.
>
> thus quoth:
> the 200-pound space suit was added to the weight of the
> astronaut, the gravitational load on the skeletal system
> could prevent serious bone loss.
> But for those who were not outside the spacecraft,
> some reconditioning was necessary, after long stays onhttp://21stcenturysciencetech.com/
>
> > The 'particle' occupies a very small region of the aether wave. This
> > very small region of the aether wave is where the amplitude is very
> > large.
>

A C-60 molecule is in the slit(s). While the C-60 molecule is in the
slit(s) detectors are placed at the exits to the slits. When there are
detectors at the exits to the slits the C-60 molecule is always
detected exiting a single slit. If the detectors are placed and
removed from the exits to the slits while the C-60 molecule is in the
slit(s) the C-60 molecule creates an interference pattern.

Explain how this is possible without aether.

http://en.wikipedia.org/wiki/Louis_de_Broglie

"This research culminated in the de Broglie hypothesis stating that
any moving particle or object had an associated wave."

'Interpretation of quantum mechanics
by the double solution theory
Louis de BROGLIE'
http://www.ensmp.fr/aflb/AFLB-classiques/aflb124p001.pdf

"I called this relation, which determines the particle's motion in the
wave, "the guidance formula". It may easily be generalized to the case
of an external field acting on the particle."

"This result may be interpreted by noticing that, in the present
theory, the particle is defined as a very small region of the wave
where the amplitude is very large, and it therefore seems quite
natural that the internal motion rythm of the particle should always
be the same as that of the wave at the point where the particle is
located."

de Broglie's definition of wave-particle duality is of a physical wave
and a physical particle. The particle occupies a very small region of
the wave.

In AD, the external field is the aether. In a double slit experiment
the particle occupies a very small region of the wave and enters and
exits a single slit. The wave enters and exits the available slits.

In AD, the C-60 molecule has an associated aether displacement wave.
The C-60 molecule always enters and exits a single slit while the
associated aether displacement wave enters and exits the available
slits. The displacement wave creates interference upon exiting the
slits which alters the direction the C-60 molecule travels. Detecting
the C-60 molecule causes decoherence of the associated aether
displacement wave (i.e. turns it into chop) and there is no
interference.
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