Re: Planet X: Dec 27 Images
In Article <ault90$1tm@dispatch.concentric.net> Joe Bob Hankey wrote:
> Cnote wrote:
>> Actually I'm reading a brief history of time by Steven Hawking, and
>> their are "gravity particles" which are known as gravitons ...
>
> Gravitons (or gravity waves) are theorized to be essentially massless
> particles ... if they're referring to "gravity particles" in the sense
> of gravity or gravitons, then their "gravity particles" should ...
Oh please, lets not dumb down to human understanding. ZetaTalk did NOT
say “gravitons” or explain what humans term ‘gravity’ by placing what
they are describing INSIDE of human understanding, else we’d have
garbage as usual. Like NASA’s probes not behaving according to human
gravity math. Like the Earth’s middle appears to be fatter,
gravity-wise, per recent probe data, than its actual physical shape.
Humans will come up with a new theory to explain that one of these days,
saying “we now know” but in the mean time they are arrogantly correct.
Lets hear it from the guys who are arrogantly correct because they ARE
correct.
Nancy
Gravity is particles, moving, just as magnetic fields are, and
there is a polarization in gravity, which we have explained as
the repulsion force. Before mankind discovered that
magnetism was polarized, they discovered it as an attractive
force. Metallic items stuck to the sides of magnetized
rock - how curious. After centuries of digging about in this
phenomena, humans have satisfied their curiosity to the
extent that they understand that magnetism is a force field,
has a flow out from one pole and in at the other pole, that
the Sun and some other planets are magnetized and line up
with each other. They still don't understand the cause of
this force field, or its nature. Magnetism is caused by a
particle, in motion, as we have explained. What other
explanation is there for a force that reaches out and affects
another? Magic?
The bi-polar aspect of magnetism is only apparent when
what occurs in nature can be countered in the laboratory.
You force magnetized objects to do what they do not want
to do - touch north pole to north pole or vice versa. Then
you can observe the bi-polar nature. In gravity, you are
seeing but one aspect in the positioning of the planets, and
dealing with a phenomena that does not lend itself to easy
experimentation. However, experimentation is possible, in
space and away from the surface of the planet. The
repulsion force fills the gap in some of your other theories
where you have no explanation for discrepancies.
In magnetism, the simple flow of particles creates more
than a force for alignment, it creates an attraction. The
gap is filled. Like water in a stream, where flotsam
eventually lines up in the center, evenly spaced, just so
magnetized objects do not keep their distance when free
to move. They approach each other, and attach like a
string of pearls. Likewise the phenomena of gravity, where
the desire to fill the gap causes objects to approach one
another. It is only where this gap is overfilled, by the
presence of two large objects coming near, that the
repulsion force is expressed. There is no room for the
flow of gravity particles, so the objects stay apart!
ZetaTalk™: Gravity Particles
(http://www.zetatalk.com/science/s87.htm)
... Gravity particles produce a flow but produce no
discernible flow, and have no irregularities in the
pattern. Does your Earth not pull evenly from all parts
of its surface? And if there is a flow, then at what point
does the flow reverse, such that surface particles are
pushed away? In fact there is a reversal, but the
outward streams are propelled, with a force and at a
speed so much greater than the downward drafts that
this occurs over less of a surface area and without
engaging the mass of the object. A laser of gravity
particles, versus a floodlight upon the return. So why
would the weight of returning particles be the only
ones mankind is aware of, and why would they not
feel the violent lift of the updrafts? The updrafts
blast through, tearing a hole as it were, where the
returning particles do not tear what they press upon,
and so have the greater effect.
Gravity particles, in their motion, do not affect what
they move against or through, the effect being in
essence mechanical. The upward drafts push aside
other matter, letting it return upon completion of the
updraft, leaving no trace of the temporary tear. The
downward push of gravity particles returning to the
large mass they are attracted to, the core of the Earth
for instance, spread out upon objects they encounter,
taking some time to drift through these object and
with a constant downward press during the motion
of this drift. Thus, returning particles, due to the time
they spend upon and within the surface objects, and
due to their continual direction of motion, are a
mechanical force that is stronger, overall, than the
updraft of particles that quickly pass through the
surface objects, essentially pushing them aside rather
than engaging them.
The nature of this gravity flow is what determines the
repulsion force we speak of. It is a complement of
gravity only when large bodies are close to each other.
The updrafts, when encountering a large body also
exuding updrafts of gravity particles, hold the bodies
apart. This occurs at what humans would call a
distance from each other, as small objects such as
satellites do not exude updrafts and if far enough from
the surface of a gravitational giant such as a planet,
find a down-draft and updraft of gravity particles in
balance, what humans might term in their ignorance a
zero gravity field, weightlessness. At this point the
updrafts are still tearing through, but at a slower rate,
so that a mechanical push upward is involved, and
the down-drafts are more thinly dispersed over the
surface as they work their way through the density
of these objects in space. Large bodies, exuding their
own updrafts of gravity particles, create a situation
where their updrafts and the updrafts from another
sun or planet bump against each other, creating a buffer
nd preventing the gravity masses from touching or
even approaching each other except at great
distances.
Within black holes, the down-draft still exceeds the
updraft, and thus the same rules apply.
ZetaTalk™: Gravity Flow
(http://www.zetatalk.com/science/s96.htm)
