INDUSTRIAL STENGTH ASTRONOMY
EXTRA CELESTIAL SOLAR SYSTEMS
Concentric interleaving rings may be planetary orbital signatures
PLANETARY ORBITAL SHELLS IN NEBULAS
ABSTRACT -
Since five known nebula show concentric outward progressing shells
around their centers it can be assumed that shells are commonplace
in a certain class of nebula generically called 'Butterfly'.
Since the shells are incomplete, that is, are strong on one side of
a nebula and peter out on the other whereas shells on the other side
start out strong and also peter out as a set, it is assumed that these
are two sets of orbit shells, facing each other, and interleaving.
Since these shells can be easily pictured in mind's eye as orbits of
planets whose existence is revealed by strong light from the nebula
passing through disks of dust out at increasingly long orbital lengths,
it is assumed that 'butterfly' nebula which have planetary orbital
systems reveals by their shells actually each have two solar systems
comprising planets, one system is tilted at a different ecliptic axis
relative to the other. For instance take the solar system's orbital
system, make a second, tilt it, and you will have two sets of planet
orbits which interleave together where the orbital plane of one group
of planets crosses through the orbital plane of the cloned other group
of solar orbiting planets.
The five 'butterfly' nebula revealing concentric shell strutures are
the Egg nebula, Hubble 5 nebula, Cotton Candy nebula, Silkworm nebula,
and the Sugarloaf Conspiracy also known as Ngc 7027.
THE EGG NEBULA
Well developed sense of concentric shells, two sets interleaving,
facing each other through a South/east North/west axis passing
through the center, each set thus on a separate ecliptic axis
plane around the nebula nucleus.
x
x
x
For instance, notice how the orbital clips in the North/east shells
are biased in an ease projecting forward more toward our camera,
indicating that here is where the orbital system is most thrusting
foward in orbital tilt, which also explains why the orbital clips
are most clear here, and concentrated, in that here, the orbitals
are entending more outside the haze halo of the nebula itself.
x
In fact, a more realistic view of each system's ecliptic horizon plane
is achieved by noticing a second bias following along an axis running
in a divide the length of the rays, between the rays, where concentric
clips along one side of the divide are facing and interleaving clips
on the other side of the divide, indicating that some of the orbital
clips on both sides of the divide are clips from the other solar system.
Click for original
Click for enhanced 1
Click for enhanced 2
Click for enhanced 3
Other Egg nebula links - link 1
link 2
A Hubble view of the nucleus also has concentric rings though
in miniscule indications, nonetheless confirm rings. Ring arcs
as seen next are thought by some astronomers to be puffed out
arcs of ejecta from the nova's central processes. The GIC view
is the concentric rings were there to begin with and are being
illuminated by the increased ionnization radiations of the
nuclear processes.
x
Click for original
Click for enhanced
Other Egg nucleus links -
link 1 link 2
THE SUGARLOAF CONSPIRACY
A diffusive image rather hard to enhance, neverthless clearly shows
concentric interleaving rings around the perimeter, focused to mid
center of the nebula meaning the rings can be peculiar to orbits around
a star or two stars close together, or for that matter one star with
two orbital systems.
x
Click for original
Click for enhanced 1
Click for enhanced 2
Other Sugarloaf links -
link 1
THE HUBBLE 5 NEBULA
All reference to this object seem to have vanished or been removed
from the Internet (another example of the incredible shrinking
universe). However, this image is well documented in earlier GIC
directories and projects. The Hubble 5 nebula was originally
released, I believe, in appropros for trying to help determine
the Hubble Constant and was a suprise find by an astronomer who
was not looking for it when the nebula turned up in a Hubble photo
shoot.
x
x
x
x
Special attention - this Hubble 5 nebula (whose links have all seemed
to have vanished from the Internet in a stark example of the incredible
shrinking universe), is featured for its striking regularities in an
indepth study of symmetry principles in
nebulas.
Click for original
Click for enhanced 1
Click for enhanced 2
Click for enhanced 3
Other Hubble 5 links are this, in context
of fundamental symmetry principles in nebulas and galaxies.
The outer branches of Hubble 5 are almost identical to those of the
Spider nebula, if the centers were
ignored you could almost say the two nebulas were identical twin brothers,
or sisters. Wellllll, that is an exaggeration, but, the two nebula do
seem formed of similar star-gone-rogue nuclear processes. The Spider
nebula next shows no indications of planetary shells.
x
Other Spider nebula links - link 1
link 2
THE COTTON CANDY NEBULA
This looks suspiciously like the Egg nebula
but according to Hubble literature it is not. The full crescent arcs are
not truly apparent until the original Cotton
Candy image is highly and I mean highly enhanced to bring out dim media
content that is simply not seen in the original.
x
x
x
What we have hear are two mutually facing sets of concentric arcs in
fact you can say rings, which means two oribital planetary systems,
interleaved, each solar system at a different tilt in its ecliptic
axis. This is so very much similar to the Egg
nebula, except for the Egg's astonishing powerful rays.
In fact, under the bright lights, are faint indications of what could
be criss-cross rays just like those of the Egg nebula. The Hubble
picture of Cotton Candy is just too limited to make rays (if present)
plain but if a judgement call, I say twin rays are being indicated
by bright twin lines at end of each wand.
There are no other GIC links to the Cotton Candy nebula.
THE SILKWORM NEBULA
x
This shows traces in the Silkworm nebula of concentric clips which could
mark locations of planet orbits outlined in radiant dust. The Hubble
image is just too faint to produce many details, yet, lucky with us,
enhances enough to show traces of telltale concentric arcs.
There are no other GIC links to the Silkworm nebula.
LARGE SOLAR SYSTEM OF PLANETS IN RIGEL HALO
A cluster of small oval objects in the halo of Rigel may be planets.
The evidences all favor planets rather than image or telescope
aberrations.
19 small ovals can be clearly seen in the halo, a few are noted in red
squares in an upper right quadrant of the halo.
The ovals all face inward to Rigel, like cattle around a meteor pit
in their pasteur. Most ovals are in the upper half area and farthest
out in the upp left, fewest in the lower left, indicating the Rigel
solar system is tilted in ecliptic axis
closer to us in the upper left where planets are less obscured by the
halo.
Other link to Rigel in context of planets revealed in the Rigel
halo, is here.
PLANETS AT A STAR IN NEBULA NGC 2024
Intuition can often hang in the balance, a bit in favor on this side of
the scale, a counterlunching idea and the balance yeans the other way.
Here is what might be (could well be) a planetary orbital system revealed
at a star in nebula Ngc 2024. As said,
intuition can often hang in the balance. At this moment, I favor orbits.
A very intriguing situation has arisen in this Ngc 2024 star
situation. Use your compass and check it out. On the upper three
radians (light spikes) are three white dots each equidistant from
the center of the star, and in the fourth position straight down
is a small blue oval at exactly the radius of the upper three white
dots. This verrrry much suggests a planetary orbital signature
revealed by the telescope's light spikes actually amplifying (by
lensing effects) the data behind the light spikes. The fact that
position four is uniquely so different yet so precisely in the
proper place, verrrry much suggests we are looking at an
extracelestial orbital solar system.
MOTTLING MAY BE PLANETS, TEEMING JUPITERS BY THE THOUSANDS
You might want to check out mottling
in Dss plates of the Pleiades. The mottling first thought to be plate
flaw, has brains of its own, in particular, following along in the
drifts of Moon Clouds which surround the stars of the Pleiades. Hands
folded across groin, backing away. I am only suggesting planets because
the first impression of plate flaw was so abrupt I almost threw the
image away. A second look was more interesting, by far.
Web site/display/designs/image enhancements - Greydon Moore
World's largest cosmic teaching site - Ottawa 2001/2004
form
A
&
O
3
3
Click google logo for site search
For the world's most comprehensive searches use
|
|
PLANETARY ORBITAL SHELLS IN NEBULAS |
ABSTRACT - Since five known nebula show concentric outward progressing shells around their centers it can be assumed that shells are commonplace in a certain class of nebula generically called 'Butterfly'.
Since the shells are incomplete, that is, are strong on one side of a nebula and peter out on the other whereas shells on the other side start out strong and also peter out as a set, it is assumed that these are two sets of orbit shells, facing each other, and interleaving.
Since these shells can be easily pictured in mind's eye as orbits of planets whose existence is revealed by strong light from the nebula passing through disks of dust out at increasingly long orbital lengths, it is assumed that 'butterfly' nebula which have planetary orbital systems reveals by their shells actually each have two solar systems comprising planets, one system is tilted at a different ecliptic axis relative to the other. For instance take the solar system's orbital system, make a second, tilt it, and you will have two sets of planet orbits which interleave together where the orbital plane of one group of planets crosses through the orbital plane of the cloned other group of solar orbiting planets.
The five 'butterfly' nebula revealing concentric shell strutures are the Egg nebula, Hubble 5 nebula, Cotton Candy nebula, Silkworm nebula, and the Sugarloaf Conspiracy also known as Ngc 7027.
|
THE EGG NEBULA |
Well developed sense of concentric shells, two sets interleaving, facing each other through a South/east North/west axis passing through the center, each set thus on a separate ecliptic axis plane around the nebula nucleus.
For instance, notice how the orbital clips in the North/east shells are biased in an ease projecting forward more toward our camera, indicating that here is where the orbital system is most thrusting foward in orbital tilt, which also explains why the orbital clips are most clear here, and concentrated, in that here, the orbitals are entending more outside the haze halo of the nebula itself.
In fact, a more realistic view of each system's ecliptic horizon plane is achieved by noticing a second bias following along an axis running in a divide the length of the rays, between the rays, where concentric clips along one side of the divide are facing and interleaving clips on the other side of the divide, indicating that some of the orbital clips on both sides of the divide are clips from the other solar system.
Click for original
Click for enhanced 1
Click for enhanced 2
Click for enhanced 3
Other Egg nebula links - link 1 link 2
A Hubble view of the nucleus also has concentric rings though in miniscule indications, nonetheless confirm rings. Ring arcs as seen next are thought by some astronomers to be puffed out arcs of ejecta from the nova's central processes. The GIC view is the concentric rings were there to begin with and are being illuminated by the increased ionnization radiations of the nuclear processes.
Click for original
Click for enhanced
Other Egg nucleus links - link 1 link 2
|
THE SUGARLOAF CONSPIRACY |
A diffusive image rather hard to enhance, neverthless clearly shows concentric interleaving rings around the perimeter, focused to mid center of the nebula meaning the rings can be peculiar to orbits around a star or two stars close together, or for that matter one star with two orbital systems.
Click for original
Click for enhanced 1
Click for enhanced 2
Other Sugarloaf links - link 1
|
THE HUBBLE 5 NEBULA |
All reference to this object seem to have vanished or been removed from the Internet (another example of the incredible shrinking universe). However, this image is well documented in earlier GIC directories and projects. The Hubble 5 nebula was originally released, I believe, in appropros for trying to help determine the Hubble Constant and was a suprise find by an astronomer who was not looking for it when the nebula turned up in a Hubble photo shoot.
Special attention - this Hubble 5 nebula (whose links have all seemed to have vanished from the Internet in a stark example of the incredible shrinking universe), is featured for its striking regularities in an indepth study of symmetry principles in nebulas.
Click for original
Click for enhanced 1
Click for enhanced 2
Click for enhanced 3
Other Hubble 5 links are this, in context of fundamental symmetry principles in nebulas and galaxies.
The outer branches of Hubble 5 are almost identical to those of the Spider nebula, if the centers were ignored you could almost say the two nebulas were identical twin brothers, or sisters. Wellllll, that is an exaggeration, but, the two nebula do seem formed of similar star-gone-rogue nuclear processes. The Spider nebula next shows no indications of planetary shells.
Other Spider nebula links - link 1 link 2
|
THE COTTON CANDY NEBULA |
This looks suspiciously like the Egg nebula but according to Hubble literature it is not. The full crescent arcs are not truly apparent until the original Cotton Candy image is highly and I mean highly enhanced to bring out dim media content that is simply not seen in the original.
What we have hear are two mutually facing sets of concentric arcs in fact you can say rings, which means two oribital planetary systems, interleaved, each solar system at a different tilt in its ecliptic axis. This is so very much similar to the Egg nebula, except for the Egg's astonishing powerful rays.
In fact, under the bright lights, are faint indications of what could be criss-cross rays just like those of the Egg nebula. The Hubble picture of Cotton Candy is just too limited to make rays (if present) plain but if a judgement call, I say twin rays are being indicated by bright twin lines at end of each wand.
There are no other GIC links to the Cotton Candy nebula.
|
THE SILKWORM NEBULA |
This shows traces in the Silkworm nebula of concentric clips which could mark locations of planet orbits outlined in radiant dust. The Hubble image is just too faint to produce many details, yet, lucky with us, enhances enough to show traces of telltale concentric arcs.
There are no other GIC links to the Silkworm nebula.
|
LARGE SOLAR SYSTEM OF PLANETS IN RIGEL HALO |
19 small ovals can be clearly seen in the halo, a few are noted in red squares in an upper right quadrant of the halo.
The ovals all face inward to Rigel, like cattle around a meteor pit in their pasteur. Most ovals are in the upper half area and farthest out in the upp left, fewest in the lower left, indicating the Rigel solar system is tilted in ecliptic axis closer to us in the upper left where planets are less obscured by the halo.
Other link to Rigel in context of planets revealed in the Rigel halo, is here.
PLANETS AT A STAR IN NEBULA NGC 2024
Intuition can often hang in the balance, a bit in favor on this side of the scale, a counterlunching idea and the balance yeans the other way. Here is what might be (could well be) a planetary orbital system revealed at a star in nebula Ngc 2024. As said, intuition can often hang in the balance. At this moment, I favor orbits.
A very intriguing situation has arisen in this Ngc 2024 star situation. Use your compass and check it out. On the upper three radians (light spikes) are three white dots each equidistant from the center of the star, and in the fourth position straight down is a small blue oval at exactly the radius of the upper three white dots. This verrrry much suggests a planetary orbital signature revealed by the telescope's light spikes actually amplifying (by lensing effects) the data behind the light spikes. The fact that position four is uniquely so different yet so precisely in the proper place, verrrry much suggests we are looking at an extracelestial orbital solar system.
MOTTLING MAY BE PLANETS, TEEMING JUPITERS BY THE THOUSANDS
You might want to check out mottling in Dss plates of the Pleiades. The mottling first thought to be plate flaw, has brains of its own, in particular, following along in the drifts of Moon Clouds which surround the stars of the Pleiades. Hands folded across groin, backing away. I am only suggesting planets because the first impression of plate flaw was so abrupt I almost threw the image away. A second look was more interesting, by far.
|
Web site/display/designs/image enhancements - Greydon Moore World's largest cosmic teaching site - Ottawa 2001/2004 form A & O 3 3
|
Click google logo for site search
For the world's most comprehensive searches use
|
|---|
