generate a repulsion force sufficient to counteract gravity, due to their tiny mass in proportion to the Sun or planet.
When their paths bring them close, they are caught in the gravity pull.
Orbiting planets are in motion because they are attracted to more than the Sun's gravitational field, more than the Sun's dark twin which acts as the 12th Planet's second focus, and certainly more than each other, although that is a small
factor. Do the stars maintain their distance from each other by accident? For those who doubt that there are
gravitational influences outside of the Solar System, pulling on the orbiting planets, we would point to the elliptical
path that planets assume. Why an ellipse? If the planets were concerned only with the Sun, or with each other, they
would not assume the path they do. Planets assume an elliptical orbit for the same reason that comets leave the Solar
System. They are listening to more than one voice. As to why this voice but not another calls to this planet but not
another, the answer lies in the force of gravity, which is not at all as simple as humans assume. Gravity has many
nuances, depending on composition and distance, and what influences one body toward another may have little effect
on other bodies.
Why do repeating comets, which clearly set into an orbit around the Sun during a good portion of their time within the
Solar System, escape? If one assumes that planets are not escaping because the circular or elliptical orbit is stable, then
why not apply the same logic to comets? Humans do not apply this logic to comets because it doesn't compute, so deal
with the contradiction by falling into magical explanations for the behavior of comets. The answer to this riddle is that
neither orbit is stable, but that the comet, being tiny, can escape from the Sun's gravitational pull more easily than the larger planets, just as it can be caught in a collision course to the Sun or a planet, due to its tiny size. Even repeating
comets, which are assumed to have only one focus, the Sun, are listening to more than one voice. They leave the Sun,
having settled momentarily into an orbit around the Sun, and head toward the one or more other gravitational influence
that dominates their life. Some comets orbit, briefly, these other foci, and some simply get drawn back toward the Sun.
In this case they appear to humans to have a long ellipse orbit.
Elliptical orbits have no explanation if one is to consider that the Sun or other planets are the only gravitational
influences. In particular, the elliptical orbit of a repeating comet cannot be explained, as when it leaves the Sun it is
heading straight away, and has no curve or angular momentum that would bring it round to where it is seen reentering
http://www.zetatalk2.com/science/s53.htm[2/5/2012 11:55:14 AM]
ZetaTalk: Orbits
the Solar System. When out in space, slowing due to the gravitational pull of the Sun to its back, it drifts toward the
other gravitational focus it is sensitive to. There are three voices the repeating comet is listening to at this point.
the Sun behind its back, which is an increasing voice as the comet loses speed due to this same gravitational pull
the second gravitational influence, which it begins curving toward
its momentum away from the Sun
By the time its momentum stops, as stop it does, the comet is positioned such that it will return to the Solar System in
what appears to humans to be an elliptical manner, and not return whence it came. The position of the apparent ellipse
of a repeating comet's orbit is in fact caused by the position of the second or more gravitational foci of this comet.
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ZetaTalk: Elliptical Orbits
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ZetaTalk: Elliptical
Note: written during the 2001 sci.astro debates.
Clearly, more than the regular flow of gravity particles from and back into a Sun is at play in planetary orbits, else all
these orbits would be circular. There are countless influences, but these influences can be summarized into their effect, which accounts for an elliptical orbit.
Secondary Gravity Influence
Planets that orbit both binary suns do so in a figure 8, pulling toward the second binary at the
juncture where the planet is positioned between the binaries, but propelled by momentum to
continue its orbital curve while moving toward the second binary. But planets caught between
binary suns, but orbiting a single sun, pull wider toward the second binary in their orbit, creating an
ellipse that leans toward the second binary.
Escape Attempt
Just as two North Poles in a magnetic object will avoid each other, pushing the lighter object to
align with the heavier object, other repulsion forces can push an orbiting planet closer to its Sun
than the flow of gravity particles would ordinarily allow, putting the planet in a squeeze between
these repulsion forces. The result is a rush to leave the squeeze, such that the planet accelerates at
this point in its orbit, giving it momentum as it stretches into the long part of the ellipse.
Dithering
Planets positioned such that they have several attractions can be slowed in their orbit due to
dithering. Such dither points are not even in the orbit, so create a speeding up as the planet
approaches the dither point, and a slowing down as it leaves this point. Rushing to an attraction
causes the orbit to draw long at that point, a factor of momentum on the orbiting planet, which is an
influence toward an elliptical orbit. Where no apparent gravitational giant exists to explain the
elliptical orbit, particle flows other than gravity are the dominant influence on the shape of the orbit.
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ZetaTalk: Slowing Probes
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ZetaTalk: Slowing Probes
Note: written during the 2001 sci.astro debates.
An unknown force seeming to pull on a pair of distant space probes has left astronomers with a weighty mystery,
one that appears to defy the conventional laws of physics. The Pioneer 10 and Pioneer 11 spacecraft, which for
decades have steadily traveled in opposite directions in the solar system, have covered significantly less space then
they should have.
CNN
Why do the probes slow? It is not gravity, the Sun pulling these probes back, but particle flows that mankind is
currently unaware of. Why do the planets in the solar system all line up into the ecliptic plane? This phenomena occurs
in the rings around Saturn also, and in the oceans of Earth which are fatter at the equator than at the poles. Visible