Re: I Spoke to Nancy Online and all I got was this Lousy T-Shirt!
In Article <[email protected]> Greg Neill wrote:
> 3. Nancy claims that there is a red halo around
> Planet X due to iron gas in its atmosphere. The
> boiling point of iron is 3134K. Since the planet
> is not receiving enough heat from the Sun to
> provide such temperatures, the heat must be
> coming from the planet itself. This puts the
> temperature of the planet's surface at about half
> the temperature of the Sun, yet Nancy claims it
> is inhabited. Passing on this point for now, in
> order for the planet to glow a dull red due to its
> intrinsic heat, it would need to have a temperature
> equivalent to a black body radiator with emissions
> peaking in the red part of the spectrum. This
> puts the temperature at about 4458K. How can it
> be inhabited?
The ONLY way red dust can be in a cloud around Planet X is if it boiled
off the planet surface? Greg goes for a walk and gets mud on his boots
and we must assume he himself is decomposing into soil as there is NO
other way the mud could have arrived there? This is a traveling world,
went through the Asteroid Belt repeatedly in the past and its moons
slammed the heck out of the planets there It is a big magnet, like our
Earth, and iron dust is magnetized. From existing ZetaTalk:
The Asteroid Belt was created when trash in [Planet X]'s
tail crashed into moons of some of the large planet in the
Asteroid Belt, putting them in motion so that they
became missiles directed at other planets. Eventually with
all this bumping around in a crowded field, the inequity
was great enough, the size disproportionate enough, that
shattering of a small planet occurred. Magma sprayed
outward in a burst, creating hardened magma in space
which then itself became a missile on the move. Once
begun, this process accelerates, creating increasing
incidences where a piece of trash is large enough to
shatter a planet. The planets disintegrate not because
the missile is so large it physically breaks it apart, but
because the molten core is opened, forcefully, and the
lava pushed outward in a plume by the missile. Now the
crust implodes, and the repercussions of this cause
more magma plumes, so that the planet eventually does
not have the mass to prevent a collision, by virtue of a
repulsion force. Thus these wasted shells eventually
collide with each other, breaking them into what you
now term asteroids.
ZetaTalk, Asteroid Belt
If Planet X is primarily a water planet, then why
would it appear to be a red planet, as Mars, which is
virtually devoid of water on its surface? Why would
it not, as the Earth, appear to be a blue planet? The
explanation lies in the space trash Planet X has
gathered not only traversing back and forth between
its two foci but also from the Asteroid Belt during the
pelting process where the planets that rode there
were destroyed during various passages of Planet X.
Early in its life, Planet X gathered moons about it as
do most large planets, and these moons trail behind
it during a rapid transit. In the past, when the Sun
had more mass and the Repulsion Force between the
Sun and Planet X was greater, Planet X traversed the
solar system in the Asteroid belt, and the trailing
moons, lashing from side to side, pelted small planets
and moon which themselves became missiles of death.
During these repeated passages, then, Planet X and
its moons had opportunity to gather space trash, and
being a magnetic planet, Planet X would be
particularly attractive to iron dust.
Why does this dust not settle into the atmosphere of
Planet X, and drift down into the ocean and cease to
be a cloud giving Planet X a reddish appearance?
Given a static environment, this would eventually
be the case, but Planet X is not static, it's perpetually
on the move. The dust cloud is far outside what
would be termed the atmosphere of Planet X, so that
during the passage through the solar system, it streams
behind Planet X to become a long tail of red dust,
oxidized iron, which during a close passage to Earth,
when Earth is caught in the tail, causes rivers and
ponds to temporarily turn a blood red color and
assume a bitter taste. To those peering at Planet X
from Earth, its appearance is always blood red, due
to this cloud. In that the iron dust does not itself
emit light, the reddish appearance of Planet X
comes from the light the planet emits, passed through
the red dust. When Planet X is close enough to reflect
sunlight, the light must likewise bounces off the ocean
surface and must pass through the red dust to return
to those peering at it from Earth.
ZetaTalk, Red Planet