Re: ZetaTalk Gravity: Insight or Insanity?
In Article <bf2da6ec.0108111141.168f4f57@posting.google.com> Brian Kelly wrote:
> Can the zetas now comment whether the recent
> discovery of a mysterious "repulsion force" in science,
> which is responsible for the galaxies slowing down their
> outward acceleration from one another, in the distant past,
> is indeed the same repulsion force that they speak of; a
> recurrent updraft of gravity particles from objects of large
> mass who constantly attract vagrant particles and eject
> some to make more space? Was this ejection of gravity
> particles from large-mass objects cores, what eventually
> slowed down the acceleration of galaxies from one
> another? Is the mysterious repulsion force discovered by
> modern science within the past year indeed congruent
> with the zeta's repulsion force?
Repulsion keeps suns APART, at the distance they are,
or at least is a factor in this. The reach of the force of
gravity is immense, as with the distance that light
particles travel, but like light particles gravity particles
on the move can be deflected. Light particles reaching
man from across the galaxies has moved in essentially a
straight path, unless being deflected or absorbed by
something in its path. What is the drama that occurs
when MORE than two gravity giants are in a vicinity,
and why is it that binary suns are so common?
- Gravity particles with a SINGLE gravitational giant
in the vicinity float into the giant and spurt out, without
conflict. At the end of a spurt, their desire to clump
with their kind causes them to return to the nearest
clump. This could be equated to light escaping from
a Black Hole, where it is on the move but not leaving,
rather returning. The fact that other gravity particles
in the vicinity are returning is no small part in this, as
those in the flow are attracted to one another also, so
the particles at the end of a spurt find they also are
MOVING toward the gravitational giant as a result of
trying to move to gravity particles nearby.
- When there are two gravitational giants of equal size,
as in binary suns, the drama is joined by a dither point
between the two. Gravity particles at the end of a spurt,
or slowing in their exit due to reduced pressure as
disipation occurs, find a mixture of streams going back
to BOTH giants at this dither point. Repulsion outbursts
are intermitent, so at one time the dither leans more
toward one giant where a return flow is ongoing, but at
another time the return stream to the other giant is
stronger, and a particular gravity particle switches to
flow into and out of the other sun. Where the suns are
matched in size, they stay apart where the Repulsion
Force keeps them, to the extent that their dance is
dominated by gravity.
- Gravity particles streaming in an outburst from a giant
but NOT encountering another outburst from a nearby
giant can move outward to a great distance. This is
dependent upon the force with which they are expelled
from the giant, giving them great momentum. At the
same time, the single drama of each gravity giant
continues, and any binary dance that has developed
between balanced suns continues, so the particles
escaping the area are those not caught in other dramas.
Gravity attraction is a SMALL factor in slowing the
escape of matter ejected during a Big Bang, and
bringing this together again during a collapse,
ultimately into another immense Black Hole. Other
subatomic particles are more significant in the dance
between galaxies, however. Gravity dances tend to be
a local affair.
ZetaTalk™
