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Re: Planet X: Cannot be a Brown Dwarf


In Article  <[email protected]> a poster wrote:
> In article <[email protected]>, Nancy Lieder writes:
>> If they didn't have X mass, and burn with X intensity,
>> they would not have been registered. Things have
>> changed, recently. We keep finding the little ones ...
>> the more we look, the smaller and dimmer they get!
>
> They don't burn, they don't have enough mass. That's
> why they are brown dwarfs.

??? My candle has little mass also.  Define "burn".  This from the Zetas
on what goes on inside Brown Dwarfs, and how it relates to other
"burns", such as your 98.6.

    Humans are aware of heat and light being produced
    together - fire, the Sun, and elements heated until they
    glow. Humans are also aware of light being produced
    without heat, as with fireflies or minerals that are
    phosphorescent. And of course, there is heat without
    light, close at hand as in 98.6 degrees. [Planet X] has
    both heat and light, generated from within its core.
    ...  The light is diffused in the atmosphere, and returns
    to the land surface, but emerges from the core to
    interact with the atmosphere only via the surface of the
    deep oceans, which cover the majority of the planet's
    surface. You may equate this to volcanic activity,
    where the Earth has numerous places both above
    ground and under the oceans that ooze molten lava.
    Just so [Planet X] has places where the molten and
    churning substance in its core escapes to the surface.

    Fires such as go on in the center of suns do not only
    proceed full bore. Why would they? Do you not have
    a fire within you that is maintained at a steady
    temperature? Do you not find that the fire in your
    fireplace can be slowed by adjusting the damper?
    Humans do not understand what is occurring within
    the Sun, a combustion of sorts that ignited because
    of the pressure of elements following the big bang,
    during the congealing period. The Sun was not born,
    lit. It lit as compression continued to the point where
    a product of subatomic particle collision did not
    dissipate, but accumulated, and the degradation of
    this substance is what you are viewing and feeling
    in your sunlight. This is a simplistic explanation for
    a complicated process. [Planet X] has a similar
    process ongoing within its core, but being composed
    of heavier substances than your Sun, this process is
    slowed. You can equate this to mixing medicine into
    food, rather than taking it directly. This is tolerated
    because the incident or rate of medicine reacting
    with a taste bud is reduced, or slowed.

    On [Planet X], the heat released diffuses in all
    directions, so the surface of the planet is warm but
    not hot. Your feet would not blister, but they may
    feel cool in places where the rock strata do not
    provide a good passage for heat, should you visit
    that planet. Light only escapes the core where what
    is essentially volcanic activity under the water
    occurs. Of course, this would occur if there was
    volcanic activity on the land surface of the planet,
    but there is little land surface, and this long ago
    hardened. Volcanic activity would not be on the
    surface of the Earth, either, should her proportion
    of water to land be increased. Water is pooling in
    the low spots, and the low spots have less hardened
    surface mantle as a barrier. Thin places break, and
    give release to the pressure from the churning
    molten core. The oceans of [Planet X], therefore,
    have places where diffused light is rising, and
    other places where the oceans would appear to you
    much as your own do here on Earth.
        ZetaTalk™, [Planet X] Glow
            (http://www.zetatalk.com/science/s22.htm)