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WANG ORBITS

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The wang in the orbit. Here is a good close look at the wang so you can really get the picture.

Statements would start with 'here are the equations for orbiting tidal tilt explaining how each segment stays together as a cluster, each cluster in its own phase variance. Here are the equations for its wang orbit, how the clusters can follow a vertical-horizontal yearly wang in orbit travelling part of the year on a horizontal plane and part of the year also rising up and down vertically.

The wang in the centerdisk orbit of elliptical galaxy Ngc Eso 510-13.



Here is a wang in the centerdisk orbit of elliptical galaxy Eso 510-13. This wang not so noticable, it is because we are seeing along the lips of the disk more around the wang away from central, up and down wang, and east and west wang, have both wang axis in them.





Now here is where we see hardly a wang at all, it is the centerdisk of the elliptical galaxy known as the Sombrero.





As you can see, three different states of wang in every object, depending entirely on the laboratory point of view - there are three different things to see not two (left - middle - right) (horizontal - equal - vertical).

In fact it is nothing less than (-) (0) (+), negative, neutral, positive. It may be that charge states are nothing more mysterious then negative always having a horizontal axis in its centerring spin, positive always having only vertical in its centerring spin, and neutral is where there is no wang in the centerring spin.







An electron has two wing spin properties - a vertical pole axis around which top to bottom is a magnetic field generating a horizontal ring current spherically around the globe.

A proton has three wing spin properties - a horizontal pole axis around which (second) a vertical current is spherically inducted, and (three) the horizonal axis itself is rotating (like a corner horn speaker) around the pole axis used for inductance spin by the electron.

Now, a big question, how can these wangs act as forces keeping the same charges away from each other (positive flees positive) etc. Since negative embodied in the electron has only two fundamentally instrinsic engineering poles in each electron, it may explain why negative charge appears hot and bright in well engineered celestial objects whereas positive charges always appear diffuse and low glow. That is, the negative value (with only two delineators) does not occupy the same amount of space as does positive with three motions the third contributing more vector and momentums into the other two delinators as is also used by negative.

NGC 4526

More in the Ngc 4526 page.

The toroidal shape of the 'Warped Galaxy' means that Ngc 4526 is also probably a 'warped' galaxy. In the case of Ngc 4526 the warp, if it exists, is not seen by being at the left and right ends of the encircling band rather than in the middle as the warped encircling band seen further above in the 'Warped' galaxy by Hubble. Instead, Ngc 4526 presents a toroid in horizontal plane on the left side, vertical plane on the right side.

NEXT

A dark smudge (lower left corner) appears in a dark area absent of deep space drifts when the original ESO image is highly enhanced by 'Gamma Correction' and a second version highly enhanced by 'Histogram Equalize'. The dark smudge seems coherent so something is out there, perhaps a dark galaxy, or, the dark area contains photon absorbing materials, or, the dark area is empty compared to the deep space drifts which irregularly surround ESO 510-13.

The even edges of the dark area make it suspicious as if something cooked up in the skunk works of the ESO image factory but the dark smudge inside the dark area seems coherent enough to be non-skunk.

The fact that the green haze on the left drifts meandering backward into rear space toward the top of the picture makes the green haze per se less skunkish. The green haze seems something valid, a form of deep space sheeting being trafficed by ESO 510-13 and captured in low luminant quantities in the ESO image.

This is the same galaxy featured by Hubble heritage and called the 'warped' galaxy, profiled above. Watch what happens to the large original ESO image when it is highly enhanced, and zoomed.

The original shows nothing of what is seen in the above enhanced views

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THE WORD 'WARP'

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The word 'warp' has a greater generic meaning in astronomy to describe anything that is warped, galaxies with noticable 'warpage' are common rather than rare.

APOD lists a few 'warped' including Ngc 1808 shown next, the warped long arms in the corner black & white are the reason for official classification as 'warped'.



Other interesting 'warped' galaxies, found by me prowling the hoot and hollers out in the boondocks, and for which little to no reference is available, are shown below.

OBVIOUSLY DISTURBED GALAXY OF UNKNOWN NAME

From the Virgo.htm page.

Spotted in an archived Dss plate of the Virgo Galaxy Cluster.



An obviously disturbed galaxy of unknown name is well enhanced in the Dss 2nd gen (blue) image, the galaxy (shown next) is not one seen in public lagoons and canals where public astronomy images are present.





Two screen capture stereo pairs.







Click for galaxy in original
Click for galaxy in enhanced
Click for galaxy in highlighted

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LENTICULAR

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The following are from the Hamburge.htm page - this is a long page to load. Click 1 takes you to section 1. Click 2 to section 2. Both sections are in the Hamburge.htm page which mainly features the hamgurger galaxy Ngc 5128.

HOW CAN THE HAMBURGER HAVE SUCH LONG SHAPE

Section 1

A look
alike cousin
provides some insights. You
have to use honestspeak. These two,
Ngc 3718 and Ngc 5128, are so much-alike you
might think one was photographed with a Japanese
camera the other with a German, the core
globes and their cracks match up
grit for grindy and the only
significant difference
are the tails, one
horizontal the
other is on
vertical






LENTICULAR GALAXY NGC 3718

Section 2

Ngc 3718 is classed as a 'lenticular' galaxy but the 'lenticleness' is not what counts it is the spiraling of one long antenna arm around the other, the following entwined arms image perhaps the only image of its kind shown to date in astronomy (circ Dec 2003).





Click for large

We have
a physical
model for what is
happening with Centaura A.
Twisted galaxy Ngc 3718 seems strange,
exposed when enhanced is a long antenna with a
smoke ring around, the signature of a progressing collision.
two smoothed half shells, not perfectly met, result in a creation
with a crack through the middle. Long dim extensions
in visible light above and below are identical
in formula to the long extensions of
Centaurus A. So we know that
this is normal not
unique. The
long
extensions
may have cause in
gravitic (gravity waves)
interracting in energy excitement
form before matter rest state masses actually
start to meet and merge (where) in the Cena collision,
the mass merger starts it seems at the region
where the radio flames first flare up

Let's
revise a
viewpoint to
another opinion. The
viewpoint is professional from
hallowed halls afar saying Cena is a combo
of spiral galaxies colliding, due to the radio flares
which approximate a spiral galaxy shape. Let's opinion a different
line of thought, going with the notion that the radio flares turned on
when the leading edges of mass first started making contact, and that
it is two elliptical galaxies which are colliding, not spirals,
since in the whole Cena conflagration there is not
indication of any 'spirals' except for
the cracked center disk, and it
is not a 'spiral'. The
opinion is
supported
in every way
by the busy wedding
dance underway with Ngc 3718
Except, image 3718-db.jif looks like
two spiral galaxies are merging, their bodies
very smoothed out, but vestigial arms seen at either
horizontal end, and white short vestigial arms are
at the center in a bi-lateral symmetry (one
arm (lower) spins off to the left, the
other short arm (upper) spins off
from above, to the right -
that is bi-lateral
symmetry

SOMBRERO GALAXY There are large images in this page - long load

A new release (cir Oct 2003) by Hubble ACS shows the Sombrero quarterdeck in substantial detail, it can be seen that the rim seethes with small disturbances and is thicker than indicated in the above blk and wht view.

An impression that more diffuse mass has concentrated in the halo above the quarterdeck is correct, an enhancement deemed for maximum contrast shows the lower halo is smaller.











The stereo views are of images so small hardly anything can be seem except basic shape.

Two different views overlayed, show that the lower halo is about the same size as the inner density around the core, in other words, the core density is a globe above and below the quarterdeck, the extended upper halo is on one side of the quarterdeck only.

Wisps of faint but distinct extended formations beyond the tips of the quarterdeck at both east and west edges can be seen but not clearly, no matter the enhance attempt the low glow very dim extra formations are glimpsed but not exposed in stark clarity, a self evident glimpse is what we get from this Acs photo.

At the left, the very dim extra seems perhaps dim residues from former association with vertical thick tongs into the sidewall of dim matter. At the right, the extra stretches out extending further from the main flange and is at a slight down declented angle, which indicates former absorption of spin or disk slightly off the angle of the main Sombrero cross section.

Little flares or fingers of low light fire are leaping up along the swirl plane between the core dominance and outer edge of the right flange. At the left uprising looping curls are prominent.

The central plane inside the rim is peculiar, looking not unlike ice flows spreading out over the central planes in an ice age onslaught. This ice area is extremely smooth with hardly any features to notice.

If the disk and ice plane are spinning at a higher speed than the rotation of the upper extended halo friction might account for the high degree of smoothing which has erased features in the ice plane, or, in a galaxy like this, an ice plane is formed homogenously per se without features. The image cannot tell us at once how come the ice plane is so smooth.

RIM DETAILS

The stereo views are of images so small hardly anything can be seem except basic shape.

Fortunately, the Acs camera has provided enough details that full size images tell a whole lot, especially about circumstances at the lips of each image's rings, to the left, and to the right.

























There seems to be a spike straight above the center. A close look suggests a second demark against the spike to the right suggesting Acs patching rather than a 'ray'. If it is a ray, it is well worth taking a second look, one of its (the ray's) features, is that is very faint.





Here are the images full size. You can click and peruse them at leisure. Each, contains subtely different containments in information, the whole bunch comprises the learning curve about the Sombrero galaxy.

Even at full screen size, these are only 1/3 full image size. Click for full size, as already said above, each full size reveals something slightly different about the Sobrero's many secret little hideout sidecars.

Web site/display/designs/image enhancements - Greydon Moore World's largest cosmic teaching site - Ottawa 2001/2004         form   A & O 3 3