Galex

Be ready to explore this page. There are many new insights to concider A GIGANTIC   CENTAURUS A   GALAXY IN UV OUTSIZES ITS VISIBLE LIGHT COUNTERPART, AND, MASSIVE SUPERFORM GALAXY M83 IN ULTRA VIOLET GALAXY CENTAURUS A IN ULTRA VIOLET Dark holes, and a giant oval, pepper the ultra violet landscape around Centaurus galaxy, the bright zigzag across center (at right) is the width of the visible light version of this large UV galaxy Only a dim strip of infra red has been photographed for this galaxy. Its radio component (outlines) previously thought large, is small in comparison to the much larger UV galaxy There is a well evolved thin straight line UV jet stream away backward from the core of Centaurus. The UV oval's nature (left image above) is unkown and may be a lensing artifact or may be a deep space oval Note the headquarters source of the red jet, it is not at the galaxy's visible light core There are two good files with Cena images, the Centau-1.htm page titled 'Who is colliding with who in Centaurus A galaxies', and, the Hamburge.htm page (for the hamburger galaxy because Centaurus A looks like a hamburger) IT'S GLOBAL PROFILE DECEPTIVE, M83 (NGC 5236) ABOVE STRINGS OUT A LOOONGGG WAY REARWARD IN FROM THE RIGHT THROUGH ITS CENTER Galex UV image (left), a visible light version (right). Both have similar profiles, with distinct differences in central fluid dynamics Note, the UV profile of M101 is noticably different than the M101 visible light counterpart, M51 also has a departure in UV profile Further below you will see that M83 indeed has an extraordinary long axis stretched out receeding into depth MODELLING METHODS Modelling methods used to illustrate symmetry and bilateral properties of galaxy arms, motions, and at the core. Related modelling and symmetry pages are the Motions.htm page, the momentum.htm page, the Symmetry.htm page, the Bilatera.htm page, and the Motors.htm page.

GALAXY   CENTAURUS A   (NGG 5128) IS MASSIVE IN ULTRA VIOLET ENERGIES





The well evolved thin straight line UV jet streams away backward from the supposed core region of Centaurus. The upper jet is self evident. It is possible a tiny portion of opposite jet below the center horizon is also visible.





More probable is a jet originating from a single source slightly below the horizontal incise (blue). If true it means the point of origin is further inside the galaxy body, not at the surface.

3D suggests a dish with a disk horizon, with the jet centered within the dish.

In fact, the dish, and a larger donut surrounding the dish below the dish's upper horizon, is reminiscent of the look and feel of a galaxy comet by one galaxy corehead plowing through another galaxy, a galaxy cometary head and shock wave is seen for barnstorming galaxy C153 plowing through a cluster of galaxies.

The donut shaped bow wave seen above in Centaurus in UV, is not hinted or glimpsed in Centaurus visible light or radio images.

RADIO VIEW

A radio view shows a dot source for the upper radio jet in approximately the same location seen in UV, just below the horizontal incise, but with no indication of a dish or event disk surrounding the dish or jet source.



Another radio view, superimposed over a color, shows the radio jet flanging to the left of the main bright visible light center, where Hubble has spotted radiation signatures of a black hole near the surface.

The next two (radio) images are from an earlier study named the Hamburge.htm page.





HUBBLE VIEW OF A SUSPECTED CORE SCALE BLACK HOLE JUST BELOW THE VISIBLE SURFACE



In conclusion, it can be suggested that the jet emanates from another core located below the centerline, to the left of the surface core, and deeper inside.

NEXT



Chandra in x-ray (blue) and radio by the Vlt array (red) show a source with a pronounced vertical oval diskette, no trace of visible light or UV is seen in this composite next from Chandra archives.

Vertical parallel compression seems to be a main component of the radio frequencies (red), the compression uniformly torqued at about 50 degrees upward from the vector of the jet itself, suggesting ejectas in the jet are striking invisible walls made of unseen substance(s) whose polar plane is slanted at about 50 degrees out of synch with the jet vector the impact walls extending at least the length of the portion of the jet actually visible in this Chandra image.

Assume the jet vector is arbitary to the polar planes of the invisible walls, otherwise said the jet vector can be anything so the 50 degrees is co-cidence and not pure fundamental new physics. The fact of degrees, is new, and fundamental, whether they be in the galaxy, or the way the Vlt was used.



Note that the source oval, if a disk, is polar planed distinctly at a vertical right angle to the polar plane of the UV disk, a circumstance not surprising since a Galex UV view of Andromeda, deliberately photographed for high detail, has shown that most all of the UV energy occurs in small excitements polar planed at right angles to the scalar vectors of the Andromeda galaxy's visible light fluid rotations.

The UV oval's nature (images below) is unknown and may be a lensing artifact or may be a deep space oval







Several dark holes of approximate similar size, and a giant oval, pepper the ultra violet landscape around galaxy Centaurus A, the bright zigzag across center is the width of the visible light version (at right) of this large UV galaxy.

MASSIVE SUPERFORM GALAXY M83 IN ULTRA VIOLET

Massive galaxy M83 is global, that is, its superform symmetry is a sphere. Galex literature says UV shows a substantially larger galaxy than seen in visible light, more factually, it should report the UV version seems denser. Powerful UV mass entropy flows only dimly seen in visible light predominate in view expecially sweeping in a broad swath around the right flank. The visible light global superform size of M83 is otherwise much the same as the UV galaxy.

Click for original

UV VERSION



VISIBLE LIGHT VERSION - FROM DSS



COMPARISON



A large dark UV hole of unknown reason is seen in the upper left just above the galaxy, the hole exposed under extreme image enhancement.

The Dss version (right) came from Dss this bright, details screeched out.

A lesser screechy Dss version using other filters offers a better comparison of salient features.



I could have concentrated further in matching the two views to exact scale but decided to leave these two almost imterceptably mismatched as a means of showing their difference slightly more starkly when the two images are merged into a single focus by eyesight.

A residual second core, to the right of the main core, exists in the UV version, the 2nd core is in an implant area, seen in visible light without the indented core structure and core dome at its center. This tiny core dome may be a black hole operating outside of the main force fields and lines of force radiating from the oscillating power generating main central bar core of the galaxy.

Do not forget, gravity is not the driver it is what is left over after everything else has driven. Powers of charge field attractions and repulsions far outweigh the forces of gravity, for instance.

3D reveals astonishing thickness (merge two images together by eyesight to see 3D) the effulge arcing upward around the right is as broad as a skunk's tail fully flushed. An inner disk spinning out leftward above above the left of center is at a plane parallel to the skunk's tail only shifted over, expanding the 3D thickness aspects even more.







VISIBLE LIGHT VERSION







Above, a visible light version, selected at random on the Internet, and enhanced enough to show outlines remarkably similar though not structually identical to dynamics visualized by ultra violet higher energy frequencies.

BI-LATERAL SYMMETRY - ONE SIDE OF THE CORE FLARES UP, THE OTHER SIDE CURLS DOWN

The basic symmetry of M83 has elsewhere been described as a chinese egg roll pressed sideways between palms of the hand. The UV version suggests a roll of chicken wire pressed sideways. Next a highly enhanced visible light view used to illustrate the egg roll concept in discussing inherent mass contained in this galaxy. Look for the rattlesnake's tail jutting out as reference in conceptually aligning this image with the views above.



A further indicator in the depth of the 3D field of this galaxy is the looongggg distance sloop from the foot (rattlesnake's tail) ski sloping into the center - note the rearward distance as if looking along a ribbon, from the tip of the rattlesnake's tail to behind the core. This portion of the galaxy is stretched out along a deeply receeding vista telling us the depth of this galaxy is simply enormous.







The long distance translateral axis (longtitudinally stretched out galaxy), makes any prior estates of ambiant mass contained, meaningless.

The central bar core of Ngc 5236 (M81) is extremely significant in revealing that streams of matter on one side of the core are flaring up, and curling down on the other side of the bar core. All galaxy cores do this to one degree or another. Bi-lateral symmetry in galaxy cores is featured in the Bilatera.htm page, and the Symmetry.htm page. How streaming arms spin off, and are sucked in, always in polar opposite polarity pairs, is modelled in various ways in the Modeling.htm page.

Other M83 views include the Ngc5236.htm page, and the Property.htm page.


MODELLING METHODS

Modelling methods used to illustrate symmetry and bilateral properties of galaxy arms, motions, and at the core.

Related modelling and symmetry pages are the Motions.htm page, the momentum.htm page, the Symmetry.htm page, the Bilatera.htm page, and the Motors.htm page.

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