repulsion
force? It differs as the repulsion force is invoked in
sensitivity is a drama played out only in the comet. Essentially, elements within the solar wind push the comet away,
keeping it at the distance it maintains from the Sun. Why does the solar wind not so push the Earth and other planets,
or the debris in the Asteroid Belt? It does so push, but the planets by their size resist and the debris in the Asteroid
Belt does not have the sensitivity that comets do. This is one reason, in fact, that they remain as debris and do not
http://www.zetatalk2.com/science/s39.htm[2/5/2012 11:55:21 AM]
ZetaTalk: Dark Ages
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Coming out of the Dark Ages, man believed the Earth was flat, and that the heavens revolved around the Earth.
Evidence that contradicted these assumptions was ignored until the
comfortable assumption was eroded. How could such a theory as the flat Earth even evolve? To man today, this theory
seems laughable, but when it evolved, the edges of the horizon always seemed at the edge of a flat plane, so this was
the newborn child's first conclusion. But did not the fact that the stars moved about the heavens in a manner that lined
up with a solar system model not move him to question? The toddler assumes the world revolves around him, and is
loath to let this go. The alternate explanation, that the heavens were dancing for his amusement, fit his mind-set. Did
not the Sun rise when he felt refreshed, and set when he was weary? All to serve his needs, he had no doubt.
Elaborate mathematical descriptions of trajectories and orbits were drawn up in an age when man had not peeked
beyond the Solar System with high powered telescopes floating above the atmosphere, and when slow motion video
was unheard of. The only
drawn up to fit these orbits, the orbits fit the math. The explanation for comets either fit the model or they didn't. When
they fit the model they were assumed to have the orbit, when out of view, that the model dictated. If they didn't fit the
model then they were dressed up in mathematical curves, parabolas or hyperbolas, which came close enough to let
everyone go home at the end of the day feeling smug. As concepts tend to solidify as time passes, the young taking as
absolutes what their elders preach, the Earth was now no longer flat, and the heavens no long revolved around the
Earth, but most certainly all orbits were elliptical.
When slow motion video demonstrated that trajectories do not, in fact, mirror the downward side to the upward side,
the facts did not change the precepts taught to the young. Why change a handy tool that works for everyday
applications? Close enough, and change would require reprinting all those books! The fact that the downward side of
the trajectory marries the forward thrust to the gravity drop was noted by those who think deeply about such matters,
and is a known but not extensively taught fact. For most, the Earth is still flat, as they have not been told otherwise
and are not inclined to question. Where the trajectory precept stands inviolate to most, the precepts of elliptical orbits
have even fewer challenges. Man sees the dance of stars, but there are so many variables that come into play, about
which he is uncertain at best, that the arrows of doubt seldom get launched. Yet the arrows exists.
Where orbits are snug about their center of gravity, there is little contradiction between these and what mankind calls
their laws of gravity and motion. These are not laws, of course, but elaborate descriptions of what they observe. The
flaws in the laws, however, were always present. If gravity diminishes with distance, but distance is attained with
speed, then an object in a snug elliptical orbit seems to logically be adhering to the laws of gravity and motion. Speed
up during the approach, sling past, and the speed carries the body outward where the diminishing gravity pull slows the
body down so that its curve sidewards takes predominance. The theory fit what man observed, and thus was not
questioned until his powers of observation increased. Tiny comets, seen by man in the past only when they gave their
brilliant displays while going around the Sun, have only
Repeating comets are not slinging past, as in a passing body. They are in orbit, doing the better part of a circle about
the Sun. Unlike the planets, whose center of gravity is just that, at the center, the comet does not behave as though the
Sun is its center of gravity. The elliptical orbit of planets is such that if one were to examine the distance from the Sun,
the difference at any given point would be slight. It is more circular than not. Comets, however, are at the other
extreme. They appear to be a fan, rather than an eye. For the laws of gravity and motion to fit, the comet must be
increasing its speed as it leaves the Sun, thus explaining its increasing distance. However, careful studies have shown
this
leave what is assumed to be its gravitational master. The slowing
