Zetas RIGHT Again!
In Article <[email protected]> Jim wrote:
> One way to try to make Zetatalk RIGHT (wouldn't
> that be unusual) is to change it.
And one way to try to make ZetaTalk WRONG is to confuse the issue! In
response to the types of arguments posted during the various magnitude
discussions, here's what the Zetas replied.
In Article <[email protected]> 5/28/01
> The Zetas have stated that Planet X is a magnitude 2.0,
> but in a search a lower magnitude (down to 10 or 11)
> must be assumed due to equipment settings and the
> light spectrum that this smoldering dwarf emits. They
> have compared the viewing of Planet X to viewing of
> distant stars, as follows:
It does not shine with the intensity of most stars, but has a
dull, diffuse, glow. It appears to be the last gasp of a dying
star, a faint, blurry, reddish glow. Your eye would pass
over it if attuned to the pin points that are the stars. A
star is intense in the center and rapidly diminishes in
intensity toward the edges of the spot you call a star. The
light from a star comes from a single point and fans out,
the periphery a bit less than the center, increasingly, but
the center very intense. The 12th Planet, being nearer, is
giving you light rays from its entire surface, so the light
has an even quality to it.
ZetaTalk, Comet Visible
(http://www.zetatalk.com/poleshft/p29.htm)
In Article <[email protected]> 5/28/01
> So how is it that we can see stars in the night sky, but
> not Planet X? Being more distance, aren't they smaller
> than Planet X? They are probably a higher magnitude,
> but are at a greater distance. The Zetas wish to explain.
Starlight is more than a highly intense pinpoint of light,
it is light at the periphery, spreading outward from the
center. The WHOLE of this display is considered the star,
expanding the size of the viewable object. The intensity
of light spreading from the pinpoint that represents the
actual star is also high, diminishing from the center
rapidly, but nevertheless of a high intensity. Starlight
viewed from Earth captures the center pinpoint and all
light rays moving at an angle that can still be captured
by the imaging device, be this the human eye or equipment.
This greater viewing area makes distant stars appear
LARGER than Planet X appears at the present time.
Planet X emits light evenly from its surface, and being
a lower magnitude than stars visible from Earth, light
at the periphery disappears in the noise that dillutes and
confuses equipment. Thus, its VIEWABLE size cannot
compete with stars.
ZetaTalk
In Article <[email protected]> 5/28/01
> So size, as well as magnitude, matter. In addition, the
> light spectrum is red, so unless a filter FOR red is used,
> it cannot compete. The Zetas have stated:
The composition is not the composition of reflecting
sunlight, but is almost exclusively in the spectrum you
would call red light. Thus you will do best if you filter
for red light, and by this we mean filtering out all but
red light.
ZetaTalk, Comet Visible
(http://www.zetatalk.com/poleshft/p29.htm)
In Article <[email protected]> 8/20/01
> The Zeta wish to repond.
You're continuing to attempt to confuse the public by pointing
to STARS and then claiming that the inbound Planet X, which
is a smoldering brown dwarf, should be equivalent. M31 is
not a star, so that's why it can be excused from having an
intense pinpoint of light MUCH more intense and thus
registerable by the eye and imaging equipment, but Planet X
cannot? Why? Because then Nancy will be taken seriously?
Is this a science discussion or a pissing contest?
ZetaTalk
In Article <[email protected]> 9/2/01
> The Zetas wish to comment.
Stars are NOWHERE the size, at the distance they are
from Earth, that they appear in your scopes or to your eye
when gazing skyward on a clear night. What you see is a
diminishing light, from an intense center, to the periphery.
Should this circle, the star, have the light UNIFORM, there
would be very few stars visible. Why so? The light your eye
or scopes are registering is due to the extreme intensity in
the very center. In discussions on how many pixels, a
point-source, Planet X or a star might assume during
viewing, a star ALWAYS floods more than a pixel with
light, as this is dependent more upon the circle that the
eye or scope can encompass, not the source. Should this
viewing area be reduced to the star itself, and not scattering
light, is would be infintessimally smaller than a pixel.
Such is the intensity of light from stars that even at their
distance, they flood the viewable area with scattered light
that is STILL intense. Comparing this setup with the
diffuse light from a smoldering brown dwarf is akin to
comparing the glow from a fire-fly in the nearby bushes
to a laser aimed at your eye from a few hundred feet away.
If you still had an eye left, you'd KNOW the difference.
Intensity matters.
ZetaTalk