Planet X: Moon SWIRL
I’ve been informed that snickering has taken place about the Zeta
statement that the moons of Planet X travel behind it in a slow swirl.
Below, further explanation. Perhaps those snickering would like to have
a debate on the issues, such as how such bodies WOULD act in space,
etc.
Where spin on the surface of a planet is dictated by the
moving core of the planet, pulling or pushing on an
object free to move on the surface, spin in space is
dictated by whatever the spinning object is bound to.
This is not explored by man, who strives to move
directly in space and treats any spin in an object
under their control as a problem to be corrected
promptly, as in "the probe has developed a spin and
is threatening to spin out of control". The reasons for
the spin having developed in the first place is treated
as an irrelevancy, and the only issue whether or not
the probe is under control. The spin is suppressed by
the little jets that allow man to control his probes
when their trajectory needs to be corrected, and this
thus allows mankind to feel smug about his knowledge
of how things work. The moons of Planet X, which
trail it like a string of pearls out in space, have no such
little jets, so nature, not man, rules, and the full
RESULT of a spin out in space can be observed. Why
do the moons trail, and spin in a slow whirlwind
behind Planet X, rather than orbit the planet?
Moons in orbit around planets in a relatively circular
orbit around a sun have MORE than their planet
affecting their behavior. They are of a mass that
prevents their plummeting to the planet, as they are
evoking the gravitational repulsion force between
themselves and their planet. They are MOVING, not
stationary, not because of the attraction to the planet,
which is at a standstill, but because of attractions to
other elements in the solar system. Like a liquid core
of a rotating body, they are moving TOWARD what
attracts them, overshooting the point where they are
closest to the attractant, moving around to the far
point because of momentum, and proceeding to
approach the attractant again. Where there are a
number of moons orbiting a planet, they position
themselves like the planets around a sun, at a
comfortable distance from each other to avoid
collision, as the repulsion force is in operation
between the moons, which are of relatively equal
size, too.
Where it would seems that an orbit, in an orbital
plane, around a sun or an planet is the NATURAL
outcome, this is disrupted during the swift passage that
Planet X makes past one of its foci, the sun or its dead
twin some 18.74 Sun-Pluto lengths away. Planet X
moves AWAY from its moons, pulling forward with
increasing speed, at the same time that it is passing
one of its suns and any planets that are orbiting that sun.
The moons have conflicting dictates.
- Their primary allegiance is to Planet X, due to the
flow of gravity particles which force it TOWARD
Planet X, which they are thus bound to. They are
thus trying to catch up to Planet X, even when
Planet X leaves them behind.
- The secondary influence over the moons is momentum,
which continues to cause them to overshoot a reach
for an attractant in the vicinity, to return to the far
point of their spin whence they start back again
toward the attractant. Thus, they continue the
rotation or orbit pattern, even when not in a tight
orbit around their planet.
- The third influence, which comes to interfere with a
return to a tight orbit around Planet X, is each other.
Moons around a planet that does not move rapidly
away from its moons have established their positions
in part because the moons arrive one at a time!
Each new arrival finds an orbit plane taken, and
assumes another or displaces the first, but the factors
that dictate position are more static than moons
traveling behind a rapidly moving planet. In essence,
the positions are determined because one moon says
"I am larger than you, and I wish this position of
closeness to the planet, so YOU have to move."
Moons that have arrived in a whirlwind behind a rapidly
traveling planet have a NEW dictate to deal with, in that
they find OTHER moons directly in the path they wish
to take toward their gravitational giant, in this case
Planet X. They are trying to catch the planet, while
caught in momentum that their circular chase toward
other attractants in the vicinity has created, but during
their approach to their planet they find OTHER moons
in the way and this causes a FOURTH dictate - a bump
AWAY from their traveling planet.
- In moons around a static or slowly orbiting planet, the
moons have opportunity to snug closer to the planet
when competing moons are on the opposite side of
the planet. When such moons encounter each other,
having assumed the same orbital plane, the smaller
gets bumped out of the path of the larger, either
below the path of the larger moon, or most often
farther away from the planet.
- In moons that have found themselves trailing their
planet, this bumping takes the form of increased
circular motion. The moons are already moving in
a circular path, caused as we have mentioned by
attractants in the vicinity which they are chasing
toward and overshooting while still bound to their
gravitational master. The swirling is increased as
each time a larger moon attempts to approach its
planet, it encounters other moons DIRECTLY in
its path which have nowhere to go but round and
round, so they go faster. Collisions are avoided by
more rapid motion, and none of the moons can place
themselves on the opposite side of the planet. They
are all stuck in a corridor behind the planet, not
able to leave, not able to pass each other, and not
able to catch the planet to reinstated a circular orbit
around it.
Why would such a moon pattern perpetuate itself? Does
Planet X not come to a virtual stop at the mid-point
between its two foci? Having established a swirl behind
the planet, the moons have two factors preventing a
return to the normal orbital pattern of moons around a
planet. First, their swirl perpetuates itself. The speed
is dictated not only by the normal rotation around a
gravitational master that attractants in the vicinity would
create, it is dictated by the need to move away from the
other moons in the swirl. Second, the larger moons in
the cluster are perpetually trying to reach a closer
proximity to their planet, the point where the repulsion
force between the moon and its planet creates a stalemate.
Being the larger moons, they push smaller moons away
from their path, but this pushing action, in space, has the
effect of causing them BOTH to move, thus not only
increasing and perpetuating their swirling motion, but
also pushing the larger moon AWAY from the planet it
seeks to come closer to.
Thus, the moons of Planet X, having assumed a swirl
that perpetuates itself, remain in a dance BEHIND
Planet X even during its dither point between its two foci.
Planet X moves, however slowly, at its dither point, so
the swirl is always positioned between Planet X and the
foci it is leaving. This swirl, unique to man in any
comets or planets it observes, is what caused the
ancients to call the passing monster, red in the sky
because of its illuminated red dust cloud, a dragon,
lashing its tail, the swirl of moons.
ZetaTalk™
