Re: Planet X: OFFSET from Global Coordinates
But why would LATTITUDE matter? The Zetas explain.
Mankind is aware that the waters of the oceans
mass more at the Equator than at the poles, due to
centrifugal force caused by rotation. The water is
pulled outward, creating a drop in pressure there
relative to the water pressure at the poles, thus
creating MORE water at the Equator when the
oceans equalize their water pressure. How does
this affect the viewing of the inbound Planet X,
when viewing is through the ATMOSPHERE,
not the waters of the oceans? The atmosphere,
being lighter than the oceans, likewise attempt
to equalize their air pressure differences. High
pressure areas push into low pressure areas, and
where mountain tops have less pressure than the
surface of the Earth, this is measured from the
SURFACE of the Earth, not from the dead
center of the globe. The reason for this is that
the atmosphere takes the surface as its low point,
the point where it cannot DROP further, during
equalization of air pressure.
In viewing Planet X, primarily emitting light in
the red spectrum, including infrared light, the
bending of red light between the inbound
Planet X and the viewer is affected by the
following factors:
- gravitational and other influences in the solar
system between Planet X and Earth, such that
if the light must pass by another planet in its
path it may bend toward this planet, dimishing
the red light coming directly to the viewer, and
thus making Planet X appear to have a lower
magnitude than expected.
- the angle of viewing, such that if the red light
passes OVER more of the Earth’s surface, it
will tend to bend toward the Earth and thus will
drop into the viewing scope, where otherwise
would pass overhead, and thus viewing
Planet X when at the horizon is more optimal
than viewing it when directly overhead.
- the amount of HEAVY atmosphere the red
light must pass through to reach the viewer,
such that if Planet X is viewed while looking
down past the Equator, due to the bulge there
in the oceans, thus creating a thickened
atmosphere with its own bending influences.
If the viewer is looking toward a horizon during
viewing, it is capturing light that will be bent
toward the Earth more, as it spends MORE TIME
passing over the Earth than if it were an overhead
view. The closer the viewer is to an overhead
shot, the LESS TIME is spend passing over the
Earth, and thus the less bending that occurs. If
the viewer is also looking over the Equator during
this sighting, the viewer is capturing light that
must pass over the Equator, and thus the bending
influence that heavy vs light atmosphere have come
into play. Why would this be so? Where it is
assumed that the speed of light is a constant, it is
hardly that in fact, but varies depending upon
what it must pass through. Man measures light
that passes through space, and calculates the
speed of light. In these calculations, any slowing
that might occur duing passage throught the
atmosphere is insignificant, all being an educated
guestimate in any case. Red light passing through
thick atmophere is slowed, by attractions toward
elements in the atmosphere and thus, like the red
light coming from a horizon, has more time to be
drawn toward the Earth by gravity pull.
Thus, for a viewer on a high vantage point on land,
looking south toward Orion from the Northern
Hemisphere in the winter, the Equator must be
considered in an offset, making Planet X look
further south that would otherwise be the case.
For a viewer in the Southern Hemisphere, no such
change will occur. In giving Global Coordinates,
we consider all parts of the globe, giving
coordinates that will put Planet X within the scope,
thus almost all viewers find some offset when they
discover it.
ZetaTalk™
