From: PD on
On May 29, 6:21 am, eon <ynes9...(a)techemail.com> wrote:
> the predictors says that all particles are
> zero size, dimensions disappears !
>
> no lengths, areas, volumes and space
> at particles level, say under 100 pico
>
> so if no volume, no space, no dimensions !!!
>
> how then does a particle knows in which
> direction she must travel ???

How does a round ball with finite size know in which direction she
must travel?

>
> i wish i could understand

From: eon on
On May 29, 1:56 pm, mpc755 <mpc...(a)gmail.com> wrote:
> On May 29, 7:44 am, eon <ynes9...(a)techemail.com> wrote:
>
>
>
> > On May 29, 1:28 pm, mpc755 <mpc...(a)gmail.com> wrote:
>
> > > On May 29, 7:21 am, eon <ynes9...(a)techemail.com> wrote:
>
> > > > the predictors says that all particles are
> > > > zero size, dimensions disappears !
>
> > > > no lengths, areas, volumes and space
> > > > at particles level, say under 100 pico
>
> > > > so if no volume, no space, no dimensions !!!
>
> > > > how then does a particle knows in which
> > > > direction she must travel ???
>
> > > > i wish i could understand
>
> > > '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.'
>
> > > 'The particle when in motion on its wave, thus has its vibration
> > > constantly in phase with that of the wave. This result may be
> > > interpreted by noticing that, in the present theory, the particle is
> > > de¯ned 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. A very important point must
> > > be underlined here. For this interpretation of the guidance to be
> > > acceptable, the dimensions of the minute singular region constituting
> > > the particle ought to be very small compared to the wavelength of the
> > > v wave.'
>
> > > The 'particle' occupies a very small region of its associated wave.
> > > The external field acting on the particle is the aether.
>
> > > A moving particle has an associated aether wave.
>
> > > The particle and the wave act as one.
>
> > seems like word salad for me
>
> > a particle is not wave
>
> > ether is not wave
>
> > ether must be rigid, if any
>
> > a zero size is another word for nonexistences
>
> > as soon as you gets a non zero size you
> > come into existence, read my lips
>
> Aether does not have to be rigid. The aether behaves as a 'one
> something'.

all too advanced for me

>
> "the state of the [ether] is at every place determined by connections
> with the matter and the state of the ether in neighbouring places, ...
> disregarding the causes which condition its state." - Albert Einstein
>
> The state of the aether as determined by its connections with the
> matter and the state of the aether in neighboring places is the
> aether's state of displacement.

what connection, give an example

it must to be real !!
From: eon on
On May 29, 5:22 pm, Igor <thoov...(a)excite.com> wrote:
> On May 29, 7:21 am, eon <ynes9...(a)techemail.com> wrote:
>
> > the predictors says that all particles are
> > zero size, dimensions disappears !
>
> > no lengths, areas, volumes and space
> > at particles level, say under 100 pico
>
> > so if no volume, no space, no dimensions !!!
>
> > how then does a particle knows in which
> > direction she must travel ???
>
> > i wish i could understand
>
> How does a finite sized particle know in which direction to travel?
> I'll give you a clue. They're called Newton's laws.

i disagree, a nonzero particle has volume,
and knows everything about degrees of freedom

a zerosize has no degrees of freedom, read my lips
From: eon on
On May 29, 5:54 pm, PD <thedraperfam...(a)gmail.com> wrote:
> On May 29, 6:21 am, eon <ynes9...(a)techemail.com> wrote:
>
> > the predictors says that all particles are
> > zero size, dimensions disappears !
>
> > no lengths, areas, volumes and space
> > at particles level, say under 100 pico
>
> > so if no volume, no space, no dimensions !!!
>
> > how then does a particle knows in which
> > direction she must travel ???
>
> How does a round ball with finite size know in which direction she
> must travel?

balls do have volumes and inertia,

this gives degrees of freedom

you cant even fix nor find a zero size
particle in space


give a real example, if any

it must to e real, not models, you know !!!
From: BURT on
On May 29, 4:28 am, mpc755 <mpc...(a)gmail.com> wrote:
> On May 29, 7:21 am, eon <ynes9...(a)techemail.com> wrote:
>
> > the predictors says that all particles are
> > zero size, dimensions disappears !
>
> > no lengths, areas, volumes and space
> > at particles level, say under 100 pico
>
> > so if no volume, no space, no dimensions !!!
>
> > how then does a particle knows in which
> > direction she must travel ???
>
> > i wish i could understand
>
> '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.'
>
> 'The particle when in motion on its wave, thus has its vibration
> constantly in phase with that of the wave. This result may be
> interpreted by noticing that, in the present theory, the particle is
> de¯ned 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. A very important point must
> be underlined here. For this interpretation of the guidance to be
> acceptable, the dimensions of the minute singular region constituting
> the particle ought to be very small compared to the wavelength of the
> v wave.'
>
> The 'particle' occupies a very small region of its associated wave.
> The external field acting on the particle is the aether.
>
> A moving particle has an associated aether wave.
>
> The particle and the wave act as one.

They exist together. Its wave causes its vibration.

Mitch Raemsch