The right side flares up, the left curls down. These are not 2 dimensional
windings, the right side flares UP and over, the left curls DOWN and
under, in 3 dimensional space. Merge the two images together to see
this startling fact of cosmic
reality in an instant.
All galaxies have bi-polar core structure to one
degree or another, one side of the core an upflare, the other a downcurl.
I used to think it was because the long diagonal of Ngc 5236 (above) is
rotating like a driveshaft or axle clockwise
but now think it is strictly a question of polarities in forces as in
one side positive, the other side negative.
What these polarities might be as to source don't ask me, I can no go
there, don't know. A first thought was that gravity itself was polarized
but now instead favor that factors establishing Up/Down vectors in
angular momentums are effecting matter
within the gravitational fields, causing such obvious
bi-lateral distinctness.
Another more impressive view of the Up/Down core pole motions is
here.
S-SHAPE CORE OF ANDROMEDA
The s-shape of the Andromeda core is strikingly seen in this next image.
The original at left shows little. I believe this (unless not correct)
is the original Andromeda photograph used by Hubble in person back in
the 1920's to establish a galaxy existing outside of our own Milky Way.
As you can see next below, the historic image is just in fact the barest
essential, core with vestigial 'swirl' only, with none of 'Andromeda' the
blazing pedestal crown of a wisdom tooth to be
seen. The bright blue enhancement at the right is by a moi' no one has
ever seen this much core detail in Andromeda before. Now you can seen
the core (not the core kernal, or
nuclear core containing the core kernal, but the core
area itself, never seen before due to the fact that the Andromeda
core is unusually bright compared
to the extreme dim rest of Andromeda.
The blue enhancement shows how much detail was captured in the original
and now, the enhancement is the only tell-tale image I have to show the
Andromeda essential core, with major s-shape properties. Upsweeps and
polar opposite downcurls are unmiskable.
A greater understanding of the core's seething bi-polar topology is
gained by merging the two next view pairs together to make overlays
done manually by eyesight.
Here next, we see that the active bright center is actually slewing
sideways, partially standing upright, plus heaving end over end
independently of the s-shapes sweeping around it, in fact the skewed
core kernal is basically heaving forward to the left at the top, and
dipping back at the bottom, indicating very fast core arena motions
on several different axis.
Ngc 2442 is an excellent example of a
standup core property, there are prominent vertical drops in the
central core area.
The Cartwheel galaxy's core is
an excellent example of a core in its own
trip within another field of momentums around it (rings, and
tenuous tethers). The direction of the small white cometary flares
along the left rim suggests the rim is rotating in an opposite direction
to the vector of the
cometry flares.
Hubble's false colored image next showing the core comets is interesting
because even though the rim housing the cometary flares is nearly
impossible to understand, tiny ropes and tethers riddle the inner
core region, and these are very easily seen in the red false colors.
If the cartwheel's core rim seems slightly torqued, like a soft baggle
bent and twisted a bit by both thumbs, this is
correct.
More Cartwheel images are here,
and the Carthwheel in deep space is
here. Cartwheel Galaxy motions are analysed in depth
here.
TWISTED COTTER PIN SHAPES
Twisted cotter pin shape is by no means
unusual and cannot better be shown than by this unnamed image of a
cigar shaped object. There has to be important fundamental physics
formulas which can explain the twisted bi-polar shape of those rings
hooking into the main body with tongs and streamers, not to mention that
the end of the cigar at the left end is a horizontal shelf, the right
end narrows, rising vertically.
In case you missed the dodo standing beside the golden goose at the
last turn, you could not help but notice, that the lower pin twists
completely in one direction, the upper pin twists completely in the
opposite direction.
If my perception viewing the image pairs as overlays merged is correct,
each side is a separate ring, the upper starts from the body top and
rejoins underneath, the lower starts from underneath and rejoins near
the top of the body. If true, once again, physicists will have to
resharpen their pencils and have a good look at this phenomena. Don't
come to me for any more than observation and report, I failed both
first year math and physics at university and never tried either again.
More about this unusual cigar with smoke ring is
here.
A heaving end over end core example is well demonstrated by the core
of M100. Spiral galaxy Ngc 2997 also has a fold-over (end over end)
core, very much like that of M100, in fact it is not impossible to
mistake the two different core views one for the other, as seen next.
In fact they are the same core. A little bit of light humor on my
part playing fooled you, to point out extreme value in having
astronomy images revealed in their original deep space alighnments
as much as possible to eliminante confusion as to correct topology
etc., masked often enough by varying alignments used for different
images and zooms of the same galaxy amongst the profession.
I seriously concidered not doing 'the fooled you' - too amateurish - but
then decided to go ahead anyway, because, I have been fooled momentarily
more than once by not recognizing an image in close-up when it has been
rotated to another orientation. The assumed monstrous black hole (tiny
in comparison to what is around it), is somewhere within the brightest
center area.
BRIEF SUMMARY
The above two Ngc 2997 core examples have
been used in supporting that Andromeda's
skewed core is a typical, not unique, form amongst major galaxies.
There is no self evident looksee as to where Andromeda's suspected
double core kernals may each be
residing in the above historic Andromeda core views.
The Ngc 2442 example is included to show that
vertical drops (that is, standup), in core regions is also not uncommon
in galaxies.
The Cartwheel core example is included because
each part of the core proper, and surrounding frame, is slewed and skewed
at a different angle. The words 'cam' and cammed' always comes to mind
when I think to report on cores which more often than not lay at
s-shapes planes apart from their surrounding wall clouds and arms.
The strange cigar is shown because the smoke rings
do not surround the body, each ring half is a different object, revealing
more fundamental
principles than a mere encircling smoke ring in action.
Unmistakable s-shape in Ngc 1365, one side seems to be winding around
the other side like two scrolls interweaving, or, rather, two entirely
separate flow dynamics are meeting and co-joining from opposite schemes
at the bright s-shape. It means a core like this cannot be regarded as a
single dynamic in toto, there is more than one dynamic and one
driving force manufacturing this core.
BI-POLAR
A universal galaxy phenomena is a definative 's-shape' found to one
degree or another in most all galaxy images studied. You can see it
in the zoom from an ESO image of Ngc 5236 above,
where the central thermodynamics spews off uprising to the north above
the core, and down slewing southward on the opposited core side, forming
a basic bi-polar s-shape, seen obviously in the red Ngc 1365 image above.
Notice the tiny stems which seem to tether the main (right)
white area at either end, so small they seem like stems of
a pod, the lower stem curled down and away, the upper stem
curled up and forward.
Also notice the 3-way crack in the white, three-way cracks were first
noticed by Hubble as a mercedes
in the M51 core back before Hubble's short sightedness was corrected.
Since the s-shape property is so commonplace I am not going to send you
to every link for specifics, you will see bi-polar s-shapes for yourself
where ever you look among astronomy images of galaxies. Click for a
link table of 's-shape' related pages.
See this link for more detailed
views of the Ngc 1365 core s-shape, other views also reveal bi-lateral
flaring at the core where there are several
passages of text before the important images.
Next an image looking through the smog of Los Angeles to see a smoky
apparation which has twists and turns
in every direction, it is a rich PhD in bi-lateral symmetry physics
(you do the physics). It is Ngc 6951.
MAPLE LEAF CORES
As for the hot core itself, that of Ngc 5236 flares like a maple leaf
(a common core type), and is in off vertical cam relative to the plane
of the long axis in which this slightly pinched in hot core resides in
the midpoint.
Look to the following 3D view and see that a second bi-lateral dynamic
is also manifesting, where hot (yellow) tongues of the core itself rise
on the right side, and curl down in fingers of yellow flame on the left
side. Furthermore, the fact of the maple leaf being cammed, means it is
rotating through more than one angular momentum plane and velocities
relative to the central longshaft in which the maple leaf stands up.
Cammed means canted at more than one angle. The core hub of the
Cartwheel galaxy is an excellent
example to quickly understand the word 'cam'. Remember, greater
truths are revealed more instantaneously when making effort to view
the images in 3D (focused two together to see the 3D).
The point is that the property of bi-lateral symmetry is a universal
phenomena found at different levels from the innermost hot core regions,
through stages and dynamic states, to the outermost flanks of galaxies
- one side rises up, the other side aims downward. Most often especially
in the outermore system states, the uprising arm curls back down and
visa versa forming rooster tails that
cannot be mistaken. Again, I refrain from citing specific examples by
links in that once tipped off you will see this for yourself in galaxy
after galaxy. But, look to the above rooster tail link, which goes to
a bare naked old image of Andromeda, which shows 'rooster tails' in
galaxies at its best.
CORE SPLIT
A rather unusual character of the Ngc 5236 maple leaf core above,
is that it splits at the southern end nearest the camera, into two
streams one arcing up to the outer right, the other curling tightly
to the left almost straight down, which strongly suggests a severe
interruption, or, more than one dynamo is hidden in the hot flames
of the core itself, perhaps the core of another galaxy which seems
to have so trashed Ngc 5236.
CREATING A GALAXY MODEL
Cinnamon buns used to create a galaxy model.
Here is cinnamon roll scan in which two rolls were unravelled
than re-wound to emmulate galactic bilateral symmetry winding in
two-state bi-polar form, out from the core. Pretty good simulation,
would you say.
Scanning a left hand model (a roll unravelled)
and a right hand model (the same roll unravelled
and rotated was easy enough, it was in trying to merge the two models
together to create a model of a galaxy in
action that troubles arose, the rolls would not unravel enough to allow
the two to intermerge successfully.
And so a run in haste to a nearby Toys R' Us arrived home with two
packages of plasticine one yellow the other purple in strips which
could be molded together in the correct combination to produce a
galaxy model, further, the thickness of the strips
also helping intuition to focus on the fact that galaxies are thick,
and many have inner swaths that are turned vertical, to be huge, deep,
curtains, that plunge into deep mountainside
valleys into a galaxy's cartesian z-axis 3D depths.
It worked, better than expected, except dark purple would not scan
thank you $125.00 dollar 1200 Dpi scanner. So a yellow scan was
substituted for one of the cyclonnic scans.
'Hand' has been used elsewhere in attempt to model galaxy formations.
Handedness is here.
What happens when an intruder
slingshots into the core ?
The
intruder
comes to a halt,
in principle. It cannot go
any further. There is a fundamental
break in symmetry at the kernal
of galaxy cores. Everything
including polarities
switches
CLYCLONNIC LAW IN GALAXIES
Full picture - a cyclonnic merging, which is the foundation of a galaxy
(left image) - negative cyclonnic state (middle), positive cyclonnic
state (right image).
As you can see, cyclonnic law of merged polarities is more than mere
left hand and right hand. The pole of Negative is up/down, of Positive
down/up, as well, the horizontal spread of Negative is left/right, of
Positive right/left. These are four fundamental properties
combined to form a galaxy, to form a being.
The Cyclonnic Principle is the four state cyclonnic property
combination - Cyclonnic Law is how the 4-way principles manifest
in actions.
FEMALE-MALE CO-EXISTENCE TO MANIFEST ENERGIES IN ACTION
To manifest energy in the combination of intelligence (positive) and
substance (negative), is a fundamental co-creative formula - whole the
Cyclonnic Law combination is Substance (the form shape and place),
spherical scalars linking all parts of the form is Intelligence,
and changes in state due to the interplay of intelligence (will) and
substance (desire) manifest energy(s) to seek the greatest degree of
harmony, the maximum degree of stability, the highest frequencies of
entropy manifestations, out of chaos.
These pure tenets are universal, operating from inside atoms and
fundamental particles to solar systems, galaxies, galaxy clusters, the
universe, even higher frequency states beyond the universe 3 dimensions.
It is important to understand that wavelength energy does not have
inertia, so gravitic
seas - made of energy - are not bound by the rules of Relative Theory.
And that more or less summarizes how we exist, in a co-creation
manifesting at all levels from Supreme Creators in the form of an
Alpha (male) and Omega (female). It really cannot get simpler.
The tenets are an identification of the
other half of Reality, the 50 percent of God everywhere which is
experienced in the physics and sciences of existence.
'In the image and likeness of' is correct, but not in the meaning of
a Him His He mighty god blowing jokes of wrath from flaring nostrils.
It means that all life is manifested in the tenets
of co-creational Cyclonnic Law.
EXAMPLES OF CYCLONNIC LAW
An example of mountainside is the core button
in M15, cammed to the left. More core buttons
here.
An example of depth, in Ngc 1808, used in context
here.
Tufts radiate out in Ngc 1808 in many short bursts as the galaxy on fire
pulsates and the source of the puslations rotates. See interpretation of
this paragraph here.
An example of towering vertical sheets wrapping (and flapping) around
a flank is Ngc 1232, in context here.
RE-VISITING BI-LATERAL SYMMETRY MANIFESTATIONS
Yet, the bi-lateral phenomena is not without a model. Here is the
scan I made of a cinnamon roll. In 2D it could seem a distended flat
galaxy. In 3D there is no question the whole
is THICK, as well as wide. Take it to the creators that all galaxies have
some thickness, some much more than others. Missing mass has to tally up
when calculating the thickness quantity into mass estimates for a galaxy
and for the larger scale universal galaxy mass distribution.
Just the height-weight bands of angular momentum
in the center region of Ngc 1232 is more than
enough to substantially add to the mass total estimated for this galaxy.
To grasp fuller totalities as to inner mass, see Ngc 1232 angular momentum
thin bands and states here in 3D.
It means the fundamental bi-polar symmetry state of galaxies is
topologically similar to two cinnamon rolls unravelled then re-rolled
(plasticine) combining the two flat ribbons into a dynamic four-pole
(quadra-polar) combination. Of course in the case of collisions in progress,
the four-pole fundamental states can be highly disturbed even temporarily
ruined. More about green enhancements such
as seen with this 'fish' collision, is here.
CLOSER LOOK AT THE NGC 5236 POWER CORD
Here (next image pair below) we see that the upper end of a power cord
plugs into a socket set at an oblique angle,
with radial fins, this revelation in a zoom
from the ESO image featured above, here.
Actually on close inspection by zoom it becomes apparent that the 'power
cord' per se is an illusion, comprised of many short irregular lengths
(which is typical in galaxies that
pulsate) rather than one long narrow unbroken rope neck of a sea
serpent.
Power cords, ropes of two arms diving into a v-breach together (or
departing and diverging), as a galaxy arm phenomena is covered in this
page.
THE TELEPHONE INTO THE CORE
Another very coherent artifact plugs into the left side of the core
itself. It can be assumed therefore that here is one of the core's
inner poles, perhaps a longer reaching pole
of the core's black hole itself. Since the image in this region is a
tad indistinct, two stereo views are shown to help make the coherent
artifact easier to isolate and understand (the lower end looks like
a telephone mouthpiece, the upper end seems to be surrounded by a
hexagram collar).
A telephone (in the highlighted window below) is a
core pole of M51.
Particularly coherent objects like the telephones above seem to be more
than merely by chance in galaxies. Here and
here are two examinations of a coherent
phenomena herein called 'Tympani Resonators'. And
here is an attempt to try and determine inner core polarities by
interpreting a general range of coherent formations at cores.
A small telephone (in the highlighted window below) in Ngc 4414, is
pointed out here.
BI-LATERAL FLARING ALONG WITH THE S-SHAPE
On two occasions early on I became determined to see if an s-shape ergo
also bi-lateral phenomena, was to be found in cores which were too hot
to see anything but bright solid cores. In both cases, by turning the
reostats wayyyyy down (the reverse of enhancing), it was seen that an
s-shape was apparent in the core area of both
M51, and Ngc 1232 (the two
galaxies I was most curious about in establishing for myself the
existence of s-shapes in all core area of galaxies yielded harvest -
there were s-shapes - only guesswork concluded that bi-lateral flare
(one side up, the other down) was apparent in those results of my
tedius efforts face forward far into the computer screen, enhancing,
back then. I cannot recall why I had to see if s-shapes could be
found, it seems a couple had been seen and it was a question if
s-shaped cores could be found for any galaxy.
Nowadays the question is academic, most any new image of an astronomy
object is high resolution enough to show core s-shapes rather than
the former hot white blots and pure white large ovals mid picture
in galaxies.
PERSONAL REMARK
At this point (after the efforts with the two galaxies (M51 and Ngc
1232) I have experience that all galaxies have an s-shape of some kind
in their cores, to one degree or another.
In occasional cases the bi-lateral phenomena can scarely be discerned
but usually it is easily recognized. The bi-lateral phenomena has more
than one form only. It is universal in galaxies, extending, in differing
states, from the innermost to the outermost regions of a galaxy.
Here next is the core of M51 by Hubble, toned wayyyyy down by me,
to expose the s-shape core, the Hubble original the small square on
the far right was too hot to say an s-shape existed in the core,
this was circ. 1997. The toned down triplicate versions on the
left show there is unmistakable s-shape.
Now, thanks to recent adventures in Hubble Heritage (year 2001) the
s-shape core is verified and I am vindicated. However, it seems,
according to the Heritage image coming up two paragraphs
below, the s-shape in the core is unusualy elongated via two very
strong matter streams flowing at both sides of the core in opposite
directions, less circular motion. But this is an illusion. At once,
in 3D, it is seen that an inner diffuse arm is wrapping over the top
of the core, exactly as kind found in the core of
M100.
Here, a narrow arm band wraps over the top of
M100's core, actually the narrow arm is kind of hard to see in this Hubble
closeup view, believe me it is difficult to coax any more distinction out
of the arm gliding over just to the right of and almost covering the core
circle, I have tried every enhancing technique I know of and just cannot
quite get it any sharper and clearer due to inherent fuzziness in the
original Hubble image, including the hot small dot
which comprises the core kernal, however, I have had some success with
parts of this image.
(Next views) - this recent (circ. 2001) Hubble Heritage M51 orginal
is upside down to earlier Hubble M51 photo-shots, so, these inner core
views next are rotated 180 degrees to maintain conformity in orientation
for comparisons amongst scenes, showing where I was able to originally
determine an s-shape in the core events, confirmed several years later
by the astute sharp eyed techniques of Hubble Heritage.
ESO's Ngc 1232 also manifested an inner s-shape when image enhancing
reostats were turned wayyyyy down by me several years ago when I was hot
on the trail of s-shapes. (Note that most images by giant new telescopes
of atmosphere adjusting class are accute enough to show s-shapes in any
cores of released galaxy images (circ. to summer 2001. There seems to be
no exception - correct me if I am wrong. The
bi-lateral symmetry principle seems to be universal for galaxies).
THE UNCOVERED S-SHAPE CORE OF NGC 1232
As promised, here is Ngc 1232's s-shaped core. The original from ESO,
very bright, is on the right.
Notice on the left (beyond the arm which has hot blue star birth
activity forming rings curling around the arm at right angles to
the main drag), that the plate-like patches of matter seen in the
valley are slanted, sitting at
angles diving deep into the valley, which means this galaxy is
verrrry thick.
BI-LATERAL STATES
Bi-lateral symmetry is featured here.
Close inspection of the yellow in the middle indicates bi-lateralness,
one side flaring up, the other curling down, established in observing
in virtual 3d the little yellow fingers above and below the core.
In fact it is very prominent in the next state out (red where the upper
red side flares up and lower red side curls down. Bi-lateralness is a
galaxy principle, in action here, even though this ESO image is still
one state away from actually smoking open the white core itself in detail.
In fact lets go look at more. The green arm to the left has matter along
it curling down into rear-depths behind the front face along the left side
contour. On the right side of the core, green arms crested with hot blues
flare dramatically up into forespace. This one side - other side dynamic
duo action is yet another state, progressing outward from the core, in
bi-lateral symmetry. Major extends of more mass are obvious when the Z
axis of depth is concidered and you can see how much there might be
thanks to virtual 3D which shows you a significant hint of the Z axis
in these Ngc 1232 core region views.
Here next zoomed and enhanced from an ESO image, again is the inner region
of Ngc 1236. Thin bands of coherent angular momentums at strong declentions
(different planes and angles), and adorned with little bright lights, are
most evident, in 3D. Every plane and thin line, in this galaxy inner
region, is at a different horizon (polar plane angle). Put your hands
together at a right angle. This will tell you what the word 'declension'
means as used herein for describing Ngc 1232. Another look at the thin
bands of angular momentum is here.
As said, bi-lateral symmetry in states of duo appositive action seems
universal in galaxies and is found everywhere, to one degree or another.
TINY DOT CORES
Tiny hot dots for the innermost core actions are becoming more and
more commonplace as more and more astute telescope views (circ. 2001)
are being released. Here are tiny dots for the cores of M100 and Ngc 1365.
Look here at this page where tiny hot core
pimples, dots, and otherwise, are now being exposed even more by
telescopes, to see structures seemingly directly related to the
existence of massive black holes thought by everyone to be residing
in the cores.
HOW TO SEEME IN 3D
I have a close friend who can neither drift focus two images together,
nor go cross eyed finding it a bit too nauseating so won't do that
either. The solution is using two large magnifying glasses held up
side by side to focus a third 3D partial image in an oval window which
appears virtually between the two magnifying glasses. How this is
done is demonstrated here at this 'how to seeme
in 3D link'.
Galaxies M51, M100, Ngc 5236, Ngc 1365, Ngc 1232, Ngc 2997 and Bodes
galaxy have each been extensively examined herein to the exclusion
of many other candidates. The reason why is these few big names,
expecially Ngc 5236, Ngc 1365, Ngc 2997, and Ngc 1232 have in them
enough to establish dynamic properties which extend far and away to
see the same all of a sudden in other galaxies. The intensified
study of a short portfolio makes it easier to adjust and absorb
information scattered through a large range, particularly when the
insights are brand new.
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