E ZWICKY 18 A modern made dwarf galaxy only 500 million years old may not be so mysterious after all The stawberry dejevu in Triangulum galaxy. The tarantula pullmotor in Lcm. The tympani resonator in Ngc 1808. The boiling arm of Ngc 7424. Gravity waves at Triangulum and Andromeda.

E ZWICKY 18

A recently discovered dwarf galaxy named E Zwicky 18 has professional astronomers and scientists thinking twice in seeming to be a mere 500 million years old, according to spectra of its stars, instead of 12 billion years old when galaxies were thought to have formed.

An interesting look at enhanced versions of the Hubble image of Zwicky reveals arms extending long reaches from the denser galaxy inner area, these outer arms are thin and lace in distorted pale blue hoops.

Faint visible light (optical) residuals of drag to the nearby galaxy (upper right) is enough to show the two objects have been engaged.





The galaxy pod itself, as pondered by astronomers, reveals very little other than the fact of mostly new stars where old stars should be present.

A distinct dejevu occurs in viewing the greater structure with tendrils wrapping around in loose meanders.



Wrap around tendrils are not seen in the original view above at left.

THE STARBERRY DEJAVU POD IN TRIANGULUM

A structure like this has been seen before, in the Triangulum galaxy, where a nob of extremely energetic new star births occurs in seeming aftermath of a collision. The Triangulum object has herein been called 'The Strawberry' because it's center looks like a strawberry and in fact Zwicky has a similar 'strawberry' cavity in the upper portion of the central pod.

The strawberry is officially known as Ngc 604.





Click for full size.



More Ngc 604 featuring structuring tympani 6 sided objects.

Apparent Dpi in a browser can be noticably improved by presenting a larger image in a smaller view. For instance the above strawberry with all of its dim tendril surroundings are present in a 1500x1600 image in stereo pair view each view reduced by a factor of 5 in display size, the images displayed are the larger version, seen small.

The center area is blurred by whitening, it is the faint surrounding tendrils which are the focus of this enhanced image.

The strawberry lacks stars compared to Zwicky, otherwise there seems to be a similarity in species but differences in genes, for instance a miniature poodle compares outstandingly to a great dane, but, both are dogs with fangs and bark.

RASTERING



Under stark high enhancement particularly in red are what appear, at the top of the picture, to be vertical dim red lineal striations in a scotch plaid grid (suggesting gravity waves).

Note: scotch plaid grid is seen in versions of Andromeda. Both Triangulum and Andromeda are in a similar area of deep space though widely separated, the region is noted for its ambiant dusts and material clutters between and around the galaxies. There is no reason to assume the grids are not large and small scale gravity waves in moire patterns.



The above gridwork is in an Andromeda view. Andromeda, lower right, is blurred out completely in enhancing needed to expose the ambiant gridwork in the space view around Andromeda.

More gravity waves visa Andromeda.

The strawberry at long distance is identified by a window in this (next) Hubble reference image (an original no enhancement, strawberry tympany pullmotor is hardly seen and hard to recognize, in the original).

GHOST ARMS

The strawberry at long distance is identified by a brown window in a greatly enhanced Dss photo. Notice the ghost arms hidden in dense media beyond a straight line down the left edge. This is assumed to be a telltale sign of a former sideswipe collision involving Triangulum and another galaxy sliding by, perhaps Andromeda.



Triangulum's 'Strawberry' with tendrils wrapping around an area of intense new star births. Hubble used false colors for the Triangulum strawberry, detailing its main features as red and white hot stars with green tendrils surrounding. The recent Zwicky image features blue for giant hot new stars and red for a few older stars clustered at the lower end of the pod. The Zwicky tendrils are seen in blue indicating high temperature, according to the criteria of the Zwicky photo.

It raises an issue, that the pod may have formed recently (no mystery now), in circumstances similar to the creation of the Triangulum's strawberry, then became detached drifting loose into deep space to become a seeming rogue dwarf galaxy out there on its own in circumstances so young it seems as if a sperm has emerged in a body without first attaching to an egg.

The Triangulum's starberry is far enough out on a remote outer arm that concievably it could drift away, if its prevailing angular momentum is in a direction strong enough to pull away eventually from attraction toward the Triangulum galaxy's core.

If this dejevu sense is correct, it means pod galaxies are being created at the present time, as spinoffs of collisions.

More Triangulum.

GHOST ARMS IN NGC 3314





The ghost arms are utterly silent (hidden) in the original Hubble picture, leading to controversial claims that one galaxy with a greater redshift by co-incidence overshadows another farther back in deep space, however the ghost arms of the spiral galaxy wrapping around and under the shelf galaxy show otherwise, that these two are in collision.

THE TARANTULA IN LMC

There is another dejevu, similar in shape and style but not in numbers of stars. It is the Tarantula formation in the Large Magellanic Cloud galaxy.

The Tarantula is well known as a pod of intense new star births, (usually shown in red), with tendrils of gas wrapping around the central pod to large distances.


The Tarantula is the large red object with white center, in the view at left. Doradus 30 is another name associated with the object, the name for reasons that it was first noted by early astronomers in a sky region then noted (at that time) as Doradus 30 in the Doradus constellation.

More Tarantula.

The Tarantula is the result of a current collision with LCM and another small galaxy currently underway. The existence of the two galaxies is easily determined by different media textures seen for each of the two galaxies currently clomped together. You may need to press key F11 if the images are not side by side in your browser, if clicking on the next link for 'more Lmc collision'.

More Lmc collision.

TYMPANI RESONATORS AND PULLMOTORS

The tarantula in fact serves as a model for a distinct formula in formations, known as tympani resonators. The Tarantula's aspects are so many and so remarkably predictable (once tympanis and 'pullmotors' are identified in existence) that the tarantula has its own page. Trust me, the tarantula description is correct, its best pure and perfect all corners all sides symmetry aspects can be seen with descerning eyesight under ideal viewing conditions in your computer, that is, ambiant background light washing the screen, etc.

More about pullmotors.

THE BOILING ARMS OF NGC 7424

NGC 7424

Information found in a Vlt Melipal + Vimos photo from Eso, original exposure at left.

This photo was used to illustrate a super nova (not shown).

Next, full view image, in stereo.

The arms are a tangled nest with no definative ecliptic plane for the galaxy.

Trouble boiling out from the right side of the core creates bubbles of chaos in a vertical outjogging elbow.







The boiling implies directly an entropy on its own (in the boil) which may have come from a recent collision, or else, when two segments in the nest of writhing arms combined cancelling the prevailing angular momentums contained in each segment, suggested in that the boil is chaos without angular order except for location.







The cancelling arms conjecture implies that these arms are not spiralling in an orderly smooth rotation as if attached to a slipstreaming ferris wheel, instead, each arm in ponderous slow motion is moving on its own as if worms attached to the chewed core of an apple.









Regards the core of Ngc 7424, it looks like something has plowed under it, entering at an oval portal slightly to the left below the deck, and exiting as a more rectangular disrupting chunk above the core deck, the trail of the intruder continuing in a widening sweep curving gently to the left upward and offscreen. It suggests another image with a wider field view may show a departing small clump of noticably energetic matter.

The inner arm arcing to the left immediately above the core, may be slipstreaming, in two ways, moving forward toward the camera as well as displacing sideways to the left.

Such duo motions can be inferred by the strew path, which has a major discontinuity displaced to the left, if both suggested motions are reversed in thought, the strew path will ascend uninterupted from exit above the core deck on into its widening disturbance out the upper picture frame, leaving the photo's field of view at left of the vertical center line.

More slipstream. This link is a large page, loading may be a bit sluggish. Depending on your browser, you may have to press key F11 to display images correctly side by side.



The circling area at the right end of the core has a vertical motor rotation at right angles around an imagined shaft through the core. This strongly suggests a bar galaxy in a similar design to Ngc 1365 may have been a main galaxy prior to a collision.







The rotation is bottom to top around the shaft. In a collaborating image, a motor at the upper end of a shaft through the core, rotates in seeming opposite direction in bar galaxy Ngc 1365. If the Ngc 7424 image is rotated to the left by, say, 130 degrees, it's motor rotation will be seen to be in the same direction. Bar galaxy Ngc 1365 is the red toned image at right.





Motor rotation at upper end of core in bar galaxy Ngc 1365.

More motor rotations in galaxies.

NGC 6118

Another big galaxy found in a Vlt Melipal + Vimos photo from Eso. Original photo exposure is at left. This photo was used to illustrate a super nova (not shown).

Spiral galaxy Ngc 6118 in an Eso release is larger when dim media contents in the photo are enhanced, the growth in supersize seen at either end where diffuse matter and loosely bonded arms materials are seen extending the galaxy's overall cross section diameter.







Close up in 3d reveals polar planes in the central area to be strongly assymetrical, that is, the upper arm spinning off the core is a rooster tail rising up, and the lower arm is horizontal. This assymetry is a typical feature of spiral galaxies, called bi-latera symmetry, featured here.







Notice that the thicker arm arcing through the lower right field of the image originates behind the scenes. We know this from two v-breaches, an upper breach where the arm enters front face view, and lower breach where the arm arcs around back into distant depths behind the galaxy's front face.

More v-breaches.

NGC 1808

The boil off the core end of Ngc 7424 may help explain a vaguely seen circular in a highly enhanced image by Hubble of Ngc 1808, by professional astronomer James Flood whose interest was in certain spectrum frequencies and wavelengths the galaxy.

My interest had focused in larger superstructures, since Ngc 1808 is a very large galaxy with a deep thick altitude in its sunflower shape. As shown in the next 3d stereo pair, there is a formation which has a circular edge, long steady view in 3d suggests at least one of the boils (the lower of the two) is fractal with six sided geometry edges and for this reason the image is featured in the tympani resonator page.







The boils in the Ngc 7424 views further above do not seem to have predominating six sided fractal boundries, suggesting its boils are not sonic rather they are merely undifferentiated local states of powerful thermals outpushing in chaos. Some outthrusting galaxy arms are shaved by collision, so a buldge has been smoothed by matter of one galaxy sweeping over an arm of the other galaxy, but this does not seem to be the case in Ngc 7424 in that there is no smoothing in the boils.

More tympanis

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