On Aug 9, 6:43*pm, BradGuth wrote:
On Aug 9, 11:43*am, Archimedes Plutonium
(snipped)
Ideally your positrons would attract and hold onto electrons, however
a pair of positrons would only repel one another, just like a pair of
electrons would do.
By rights there should always be considerably more electrons and
positions than protons and neutrons. *However that ratio might have to
be nearly 2e3 or greater in order for the positron or electron to take
command or dominate over the force of gravity.
*~ BG
Well this is not a really easy picture. First off, we realize that
ordinary matter comes
in both proton and electron. And where we never see antimatter unless
we probe
the vaccuum of Space.
So we have to distinguish between Positron-Space and a positron
obtained in a
laboratory.
So that when I speak of a cherry sized sphere at the center of the Sun
of positrons
that causes all the Sun's gravity as a Coulomb force, I do not mean a
dense sphere
of pure positrons. I mean a dense sphere of Positron-Space.
Quantum Physics is about particles and there really is no study of
Space as Quantum
Mechanical. So in QM, talking about an atom you talk about protons,
electrons,
neutrons, neutrinos, photons and other particles, but QM is rather
lacking in
discussion of the Space wherein these particles reside or interact.
Space is sort
of the unassuming hidden assumption.
But here I am trying to put Space on par with the other particles of
Quantum Mechanics.
So what I am saying is that a hydrogen atom is composed of several
particles, 1 proton,
and 1 electron, and many photons. But a hydrogen atom also has Space
wherein that
proton and electron reside and that Space is part of the QM of a
hydrogen atom. And
I am going to call that space a Positron-Space. So the hydrogen atom
is composed
of 1 proton, 1 electron, many photons and the Positron-Space that
houses the
electron.
Now Positron-Space can be tinkered with to produce actual positrons
such as
the experiment of coaxing positrons from the vaccuum of space.
In Newton Mechanics and Classical Physics, Space is thought of as
empty and
ready to be filled by ordinary matter. This is a poor assumption of
classical physics,
even today in Quantum Mechanics we have Space as a hidden assumption.
So since all of Quantum Mechanics that we speak of, involves particles
that interact
in a Space but we never detailed what Space actually is in QM.
So here I am beginning to detail Space in QM as a particle itself and
the best evidence
of what particle that Space is, is the positron since whenever we
apply energy to the
vaccuum of Space out comes positrons.
So do not think when I say that a cherry sized sphere for the Sun and
a red blood cell
or micron sized sphere for the Earth as positrons are actually tiny
spheres of positrons.
What they are is that the entire Sun is a Positron-Space sphere
matching the regular
matter or ordinary matter of the Sun and that the positrons of the
Positron-Space are
most dense at the center of the Sun.
So I do not want to give the impression that if someone could visit
the center of the Sun
or center of Earth that they would see a cherry sized sphere of
positrons or a micron
sized sphere of positrons in the Earth and that these tiny spheres
give us the
gravity. The picture I do want to present is that ordinary matter
occupies space and the
Space of the Sun has caused a dense Positron-Space around the Sun. And
this
Positron-Space is the force of gravity itself where the positrons of
Positron-Space attracts
the ordinary matter in its vicinity. So gravity becomes an ordinary
Coulomb force.
Archimedes Plutonium;
www.iw.net/~a_plutonium
whole entire Universe is just one big atom
where dots of the electron-dot-cloud are galaxies