GRAVITY - the Zetas Explain (was PERTURBATIONS)

Article: <59ugrm$h3d@dfw-ixnews5.ix.netcom.com>
From: saquo@ix.netcom.com(Nancy )
Subject: GRAVITY - the Zetas Explain (was PERTURBATIONS)
Date: 26 Dec 1996 18:40:54 GMT

In article <32C1A816.2642@worldnet.att.net> Christopher Scott states:
> First, you need to have an understanding of what gravity really
> is. It is not a "tug" or "pull" by one celestial body on another.
> The definition of gravity has changes since Newton. The General
> Theory of Relativity put fourth by Einstein is more accurate.
> According to the theory,
> Christopher Scott <CJScott@worldnet.att.net>

Oops, stop there. "according to the theory". So the Zetas theory is not correct because it is not in line with another theory? Humm. The Zetas want to address your bending of the space/time fabric and bowling ball in a taut sheet explanation. Below that I've included the ZetaTalk on Gravity, on the web lo these many months.

In article <32C1A816.2642@worldnet.att.net> Christopher Scott states:
> According to the theory, gravitational fields change the geometry
> of spacetime or the "fabric" of space. Time and space are both
> warped by a massive body where matter tells spcaetime how to
> move and spacetime tells matter how to move. Picture a large sheet
> of rubber stretched tight. Place a bowling ball in the center--you will
> see that the sheet distorts under the mass of the ball. That is how
> spacetime are distorted.
> Christopher Scott <CJScott@worldnet.att.net>

(Begin ZetaTalk[TM] response to Chris)
No, no, no! If gravity in 3rd Density solar systems distorted space and time you would NOT have life progressing as it does today! The astronauts would find time moving differently on their trip to the Moon. Did the clocks get out of sync? Did they find the Earth to be in a different place, which away from its gravity? Do the heavy outer planets warp each other in you scopes, as they pass each other? Perhaps you will say that this space/time fabric that is bent is so small as to not yet be measurable. Gravity fields are not unlike magnetic fields. They reach out and touch one another, they DON'T bend space or time. Trust us, we have learned to manipulate both space and time, and we don't use gravity, per se, to do it!

ZetaTalk: Gravity

Humans think that gravity is a simple, singular force, but gravity has many aspects and varies depending on the composition of the objects in question and their distance from each other.

Gravity differs between objects of different compositions. Like compositions attract each other more, due to the compatibility of their makeup. They have no extraneous dramas to resolve. Metals figure heavily in this, no pun intended, as a magnetic component enters into the equation. Where there is flexibility for the objects to turn, one or both will maneuver such that they are magnetically aligned. This takes time, however slight, and thus an iron ball may appear to fall more slowly in a vacuum than an object of comparable weight that has but a slight magnetic retention. Organic compounds also react to gravity in a different manner than in-organic compounds, and this is due to the complex bonding between the atoms. Bonding involves tying up the electrons, which are used as glue in that they are shared by more than one atom. Thus, organic material in general will not experience the interference that matter with free electrons does duringa gravity attraction. Inorganic material in essence takes time out to shed or take on electrons, slowing its movement.

In general, the heavier an object, the greater the gravity force generated within it for another object. The gravity force is more than compounded, equivocally, but this fact is lost by those viewing the drama because most of the drama takes place within the object itself. Why would this not be the case? Why would matter only reach out to matter not contiguous, with its attraction, and not matter near at hand? Some call this internal gravity compression, but this is merely gravity working to pull each atom toward the greater bulk, which in the case of an orb, like a Sun or planet, is generally toward the center. As the force of gravity reaches in all directions, the larger or heavier object is emitting more of a come-on than a smaller or lighter object. When several objects are involved in giving each other the come-on, the contention causes all of the bodies to dither, but an equilibrium is established in accordance with the mass and composition of the objects and their distance from each other. Humans find their understanding of gravity to be incomplete because they are not takin g into consideration the repulsion force that large bodies, such as planets, generate toward each other.
(End ZetaTalk[TM] on Gravity)
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