heating from the bottom up, and glaciers are retreating at an astonishing pace. The Earth’s rotation is slowing, such
that the full moon seems now to come early. But is it just the Earth that is affected by the movement of Planet X
toward the solar system, after its long stay at essentially the mid-point between its two foci?
From Mars, the Earth would appear to be quiescent, as few of these symptoms would be visible from space. Melting
ice is noticeable, and this has been noted on Europa, a moon of Jupiter. A slowing rotation would also be noticeable,
but until this becomes extreme would be hard to measure from a distance. What effects can be expected, in the planets
that share the solar system with Earth, as Planet X approaches?
Mercury, as Earth, has a magnetic core, and tilts in the same direction as Earth. Were Planet X to pass within 14
million miles of Mercury, as it is projected to pass Earth in 2003 [Note: see 2003 Date explanation], Mercury would experience a pole shift, though there is no life on that dead planet to care. Likewise, a slowing rotation would
occur on Mercury, due to the magnetic interference of Planet X during its approach.
Mars has given evidence of past pole shifts, as your scientists are aware from NASA reports. Is it being affected
during the coming approach? In the past, when the Sun had more mass, Planet X passed through the Asteroid
Belt, creating the accidents that the litter in this belt attests to. When passing closer to Mars, then a warm planet
with a molten core, pole shifting on occasion happened to Mars, but its distance from such trauma now is what
makes it attractive as a shift-evacuation point by NASA and the elite who control and dominate NASA.
Perturbations in the orbits of the outer planets will be palpable during the passage. Those planets on the
approach side will linger, and those attempting to leave or arrive at the approach side will slow or speed up in
their orbits due to the additional gravity tug. Being determined by multiple factors, orbits will not
beyond temporary perturbations in their speed, in the main. Unless literally bumped out of their orbits, planets
tend to return after perturbation to their normal pace around the Sun, and return to their normal rotation pace,
because of the many factors influencing orbit and rotation.
http://www.zetatalk2.com/science/s110.htm[2/5/2012 11:54:14 AM]
ZetaTalk: Orbit Perturbations
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To understand why planets in orbit around a sun hold the positions they do, humans must imagine factors they are not
yet aware of, but can infer from the behavior of these planets - for instance, the orbital plane.
The orbital plane has planets slinging out from the middle of a rotating sun, as the rings of Saturn do around its
middle, because of a
poles. The planets in the orbital plane slung out from the middle of the sun are thus
Planets do not flow with the sling round to the poles of the sun, because this would involve a trip too far away
from the sun, a gravitational giant, before the trip back. The gravitational draw here can be envisioned as a string
from the center of the sun to the planet.
Planets move, in concert, in a clockwise or counterclockwise direction around a sun due to sweeping arms that
reach out from the core of the rotating sun, brushing the planets before them. These sweeping arms can be
envisioned as the spokes of a wheel.
Planets
The sling out is not solely at the waist of the rotating sun but slings out at a diminishing rate on either side, but
the rate outward is greater at the waist. Thus, when the material being slung out from the middle of the rotating
sun tries to escape to the sides, it is caught and pulled
creating a circular eddy current that returns it to the waist of the rotating sun. This eddy current can be
envisioned as flotsam on a river and the manner in which this gets drawn into the center of the river, where the
fastest flow occurs.
Planets find their niche in all this based on more than gravity or magnetism factors, as there are thousands of
forces that affect the placement of bodies free to move about in space. The entry of a new planet
plane would results in a bumping outward or compressing inward of existing planets as this new planet
encountered the others during their journeys around the sun, until no further adjustments were required and an
equilibrium was established.
Now in this drama, place Planet X, inbound and making a fast passage through the solar system. It is first affected by
the eddy currents, which are in greater turmoil at a distance from the sun where the sling outward is reduced and the
eddy currents thus creating wider circles. This causes Planet X to draw up into the orbital plane early in its approach. It
is then caught in the sweeping arms, going with them in a counterclockwise manner until coming closer and picking up
speed it finds the arm sweep faster and stronger such that it is bumped back during the arm passage, essentially
skipping over the arm. This causes Planet X to assumes a retrograde motion during its approach. It then encounters an
increasingly strong flow of the material slinging out from the waist of the sun, while at the same time being
