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Tornado-like spirals and
Micro-bursts formed by electric discharge are a precursor
to the formation of patterns in loose
material on a CRTObservation 1CRT-surface discharges provide clues to Tornado
Formation
While the CRT-surface discharge
experiments were being conducted another form of activity,
associated with the discharges, was observed while streamers
gathered material from the surface and deposited it to a
high-water-content object (my finger). When in close proximity, tightly formed
spiraling columns of dust could be seen (pictured at left). While at other times
and from larger distances, diffuse material could be seen moving upward with a
spiraling trajectory and a broad reach. At these large distances from the screen
interaction would occur with the CRT and my finger and
often times these would be explosive interactions, not to
different than an outburst of air from a microburst of
large scale atmospheric form.
There is cause to speculate from these
experiments that microbursts and tornados, as well as other
extreme formations involving the atmosphere, obtain there
triggering mechanism from electrical interactions beyond
those of lightening. There will be written about more as
these observations continue.
So this expands the saga of the backyard
experimenter and static discharges to the surface of a dust
covered CRT. My hope is that the current degree of
development of The Electric Universe subject will motivate
you to look at wider ranging forms of evidence from our
experiments and your own to better explain the mechanisms
which form many different features and conditions such as
crater-chains, trenches, Martian spiders, rim-craters and
many more features seen throughout the solar system on
variously sized bodies and now add to that highly energetic
atmospheric activity such as tornados, micro bursts,
waterspouts, and more.
top
Observation 2
Crater chains were the first of many
patterns to be revealed in the CRT experiments and over
several years and through more unique moments of
inspiration than I can count other patterns occurred.
These are recognized to have such a striking similarity to
features on celestial bodies, such as Mars, Jupiter's moon Ganymede
and other bodies of this solar system that there seems to
be little doubt of the electrical influences and potential
importance available toward understanding solar system history in all
related areas to be considered.
The discovery of similarities between
discharge patterns to a dust covered CRT and crater
features (seen on moons, asteroids and some planets) came
in an unusual manner, while marveling at the amount of dust
that had accumulated on an old VGA CRT. As I reached out to
smudge the surface with my finger i was surprised by a
sizeable discharge that made a curiously perfect circular
crater, with an undisturbed middle, in the dust. Additional
passes with my finger yielded a wide variety of patterns.
Some are listed below and with the images at the link to a
image site.
These features are called; chained craters,
scalloped trenches, craters with internal radial features
and donut-looking craters. Craters also form on the
rims of other craters. Rim crater pics.
top
Observation 3
There seems to be a two directional interaction occurring
in these discharges. Material is collected to the probe while in one location
and upon saturation the charge imbalance switches to send the material back
to the surface. In the case of isolated crater formations and chains, material seems to
collect back to the central areas and around the rims. During another form of discharge
which creates spiders, the material collects along the
centers of the tendrils.
This bi-directional characteristic became more pronounced during the
two-monitor screen-pass experiments which formed several varieties of features
(lowest image at left). The other screen had an equivalent number of crater features
on it for each negative spider on the lower monitor.
The proximity between the screens was tight and power was either on or off for either
monitor but not the same setting.
You can compare these images with the
numerous images of features commonly seen on Mars, Moons and
asteroids and you make the call.
Here are some technical consideration
to be noted.top
We are aware of the plasma nature of the
space enviornment and the plasma sheaths that form around
bodies in space as they move within the solar stream of
charged particles. We have reason to conclude that these
bodies become charged electrostatically with their own state of
charge. We know, from basic electricity, that two objects
of differing charge potential will discharge in arc mode as
they come into close proximity but even before that happens
there are other modes of discharge which can reveal their
activity in loosely bound material on the surface of an
object such as a CRT.
In an upcoming paper each of these modes of
discharge will be mentioned and associated to specific
patterns seen on surfaces of celestial bodies.
The CRT experiments give us a unique
opportunity to see the reaction of different materials to
discharges of several types. Field dust gives us a surface
that resists discharge until a point at which intensity has
built up and upon discharge material is removed from the
surface and redistributed in specific manners. Another
material, fiberglass, gives us a surface which is highly
excitable and holds a static charge after power has been
terminated to the CRT tube. The surface builds up a field
and discharges in a less intense manner while the CRT is
energized. Once the power is turned off the material will
leap off the CRT surface to the surface of an approaching
body, a finger in this case. The departure of material is
one detail but the patterns left behind are significantly
more important for they are exact matches of the mysterious
Martian Spiders and many other features. Compare the images
at he links to the left with images from any space mission
and see for yourself and decide for yourself, from this
evidence and that obtained from your own experiments, what
is the most believable explanation for the formation of
surface features in this Electric Universe .
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