A good introduction for the intrigues of the Hamburger Galaxy (Centaurus A) is this image (click on thumbnail for large), a composite by Hubble (prior to ACS) and the Chandra x-ray telescope.


This image contains radio, infrared, visible, and x-ray content.

The varied fields, which are specified at this government link, expand in quantity when the composite image is uniformly enhanced. For instance, when strongly enhanced in blue, small gobules of hot x-ray matter are newly seen scattered around the outskirts.



In the comparative image pair next, the publically released image is on the right, left is a uniform enhancement for use in GIC.



When focusing the two above side by side images together it will be clearly seen in Virtual Stereo (correct stereo content inherent in all mono photos) that the right orange extend is located in rearspace behind the left extend which juts into foreground space before jogging back in an abrupt elbow arm, the chism between the two extends is angled on a diagonal into rearspace to the right, the diagonal forejutting device itself a longer rod that is illusionarily partially foreshortened in mono by being turned toward an end-on view initiated at the left whose rod-end is closest to us.

RODS JUTTING OUT

Rods may be a fact of life in galaxies, or at least some galaxies. Andromeda has a rod jutting out into space from its foreward lip, jutting forth from just under the upper rim. Andromeda's rod is shown here.

CENTAURUS A BI-POLAR PHASIC BROKEN SYMMETRIES

In particular, the greem fronds denoting 'radio' jetting, are sharply turned in all aspects in bi-polar phasic declensions from the main ingredients of the galaxy's optical viewables. Bi-polar phasics also extend to the visible mass forms, where on the right are seen vertical rounds, in opposition to horizontal cants seen in mass spoils strewn in short fingers and fragments along a drawn out path along the left visible edge originating a long way back in rearspace.

The amount of obscuring overlays of diffusive formations makes it more than difficult to picture just exactly what kind of collision or thermodynamic disruption(s) has caused such bi-polar phasings, but, as persued in the larger context of information following further below in this page, suspect the Hamburger galaxy is processing as a tangled property all parts contributing to the tangle proceeding as a conglomerate this way toward us entering the camera's long distance viewfield from the upper left along a trail continuing away from us far back into rearspace.

Rather than a collision - with at least two altered bodies continuing in the future on their separate ways - suspect that this could be a merger underway, involving a conglomerate travelling toward us at a rather rapid clip. If the speed is high, suspect also that a higher doppler blue shift (travelling toward us) may be presenting a misleading clue as to the conglomerate's actual distance away (it may be farther away) and therefore thus of a somewhat larger size.

The motion vector is transversal, from rear left at a downslope forward to the near right, it will pass by us slowly transversing left to right at a conciderable distance away, if motion path clues can be interpreted according to what can be seen in enhanced images further below starting below the title box next.

The motion suggested in the above paragraph may not be correct in terms of realspace. Astronomers prefer showing images in best view profiles rather than in actual lay in deep space. GIC does not know the actual Centaurus A lay in deepspace, in never having seen an image declaring 'this' is how Centaurus A looks if seen with the naked eye. Dss images in black and white from an earlier era are used extensively to show certain critical formations of Centaurus A and so the lay we see in standard Centaurus A images may be correct in that DSS did snapshots of the sky, what you see is what the telescope saw.



Since all of the rearground of this conglomerate object are obscured from front view, it is not possible to form a good opinion as to what the whole conglomerate may actually look like. One thing known is that in visible (optical) light, the conglomerate is flattened (as if an elliptical galaxy was placed between the palms of the hands and smeared by pushing one palm forward over the other, causing the object to smear out, the upper portion flattish and smeared rearward, the lower portion also flattish in its lower edge jutting foward

Smearing is seen as a signal sign of galaxy collisions. More of 'smearing' is explained at this GIC link whose keyword is called Canopies.

An intuitional glimpse suggests the whole Centaurus A conglomerate (if viewed from above) may bear similarity to a dominant bar galaxy form, such as seen most pronounced in galaxy Ngc 2442 (at left), whose deep space multi tumbling motions are analysed here, and whose topology is analysed here.

The above Ngc 2442 image has been stretched and distorted by GIC to show how such a dominant bar galaxy contains similarities to Centaurus A, including a rod jutting forward to the left from a central nexus which (like Centaurus A) has a distinct discontinuity marking a sharp change in bi-polar phasic attributes near a midsection along the central bar.

Structural similarities which may be co-incidental, perhaps not, are also seen between Centaurus A and M82 which is theorized to have had a colliding bypass with Bodes galaxy. The structural similarity is most seen in the flared radio component (green) of Centaurus A, and the red hydrogen gas flaring of M82, in that both upper shown flarings are open arced polar phasic loops (modelled by solar flares arcing above the Sun), and both lower flarings jut forward (modelled by kids sticking out their tongues).

M82


CENTAURUS A


CENTAURUS A BLUEARC IMAGE



Image source is here, it is the only source I have been able to find and the above link does not contain links to actual information sources. John Hopkins University, which seems to be the research source, seems to have no links to the research or to astronomy. ? Next day there is also Apod

A new image of Centaurus A, just in, shows proliferous new blue star births along the edges of smoothed collars indicating galaxy mergers estimated by the astronomy researchers who obtained the photo at several hundred million years ago.

Stereo view of the above photo (merge the two images together by eyesight), reveals a bias (reported more than once in descriptions further below) where the above half of the hamburger slopes away, the lower shelf slopes forward, like a cotton candy ball squeezed apart between two sliding palms.

Visitastronomy.com has concidered any galaxy with 'smoothed' or 'canopy' areas reveals occurrences of collision in which coherent material from one galaxy (for instance an arm) smooths over material of another galaxy when the arm is slicking over (rather than through) the second galaxy.

Smooths with 'bluearc' edges have been noticed in visitastronomy.com but never identified to the degree astronomers have now identified the above 'smooths' at Centaurus A.

DENSITY BANDS

What I find particularly interesting in the above 'bluearc' image, are density bands around the outskirts of the main round inner area with the jogging slash running through the middle. These bands are not seen in any other Centaurus A image I have seen and indicate extensive internal structure captured at frequencies used to capture the blue arcs. It would be interesting to see what a larger scale picture is like, pulled back so that all of Centaurus A including its long tail trailing back into the upper left corner of picture rearspace, there may be more passages for astronomy and physics textbooks if a whole scale view of Centaurus A is taken at the above frequencies. Funny how astronomers are quick to make settlement on objects seen, only to later learn only a fragment or part of the object has actually been seen in the wavelength frequencies used to made initial quick settlement. I believe Centaurus A is very much a galaxy which needs to be 'settled' in thoughts a lot more before final settlement of any kind is reached about it.

Link for more on smooths and canopies.

THE HAMBURGER GALAXY - CENTAURUS A Giant gravitic wave moire are found - an elbow arm in creation unlocks the key to a galaxy evolutionary mystery Swirls are the keyword for Ngc 5128, rising lazily above the hazy globe, and out in deep space cyclonnically in in a swirl pattern of faint roils A rod of tight coiling motion juts out in a straight line, meanwhile the open crack continues back along the big sidewall, the rod and crack seeming one long curve until seen in stereo. Rods like this are commonly seen in distressed galaxies RELATED   PAGES These pages have inter-related subject matter;     waves.htm     arms.htm hamburge.htm.     Waves.htm was written first, followed by arms.htm and hamburge.htm Slip streams explain certain galactic arm processes

PUSHING INTO THE GRAVITIC SEA (THE ENERGY FIELD OF SPACE ITSELF) CREATED NEW GRAVITIC WAVES FROM EXCITEMENT, IN THIS CASE PRESSURE



RIGHT EDGE MOIRE GRAVITIC RILLS



Gravitic
rills are seen
streaming out into space
along the right flank of the greater
body, which means the whole construction is
drifting slightly sideways as it moved forward,
the side motion pushing into the gravitic sea of
energy (not mass) which saturates all of deep
space, the push into newspace causing
excitement in the energy field
itself resulting in the
formation of new
gravitic waves
as seen in these
intense blue color tones

On the
left side
in the upper beyond
should be the contra to pressure,
expansion, where larger gravitic rills and
moire would be seen except that area is
also obscured somewhat by haze



Three images show better than one







In fact
a further try
at the brass ring
has produced a show of
leftside gravitics, and, exactly
as predicted, larger waves in keeping with
reduced pressure as the construction moves away leaving
a kind of subliminal cosmic sucking sound and the energy waves
drag along their gravity power in energy form still talking
to the gravity in the mass of the construction. Giant
gravitic moire and parallel curving rills much
the same in thickness as those seen as
the Bullseye at Andromeda. At,
Cena, large oval ring(s)
wrap around the
upper end
of the
trail,
and in a
counter swirl
other ovals large nested
occupy left field, what has caused
these is not easy to say unless the other spiral
galaxy was once here leaving a faint heat like infra red scent
that dogs see. Otherwise I'm out of it, no desire to attempt interpetation
of that left side moire, except that it curves in the opposite direction
to the moire at the top of the trail. These leftside moire are
so large they can be seen in small images

Higher frequency energy forms in tiny parallel rills and raceways



Thick lower frequency larger waves in the fundamental understructure





The thin
raceway rills
rather closely follow
the western coastline up and
down, whereas the giant waves are at
right angles to the main long axis of the
construction. We are in a 'poles' situation
again, just as at Andromeda, only, in this
case, since so much is going on, it
will not be possible for me
to point to exact poles
unless the top arcs
are one pole and
the arcs to
the left
outside are
at right angles. If
everything was seen polar
plane like seeing tic tack toe. The
opposite pole to the 'toppole' would be rills
somewhere in the flanges of the lower reach we may not
have enough of the construction's image to see this. And
the polar opposite for the leftwise leftfield rills
would be somewhere on a straight line axis
through the construction center to
the rightside, but, since,
the construction is
somewhat canted
leftfacing
we might
not be able to
see the 'eastpole' either.
Here goes for a look I'll be back......

I'm baaack. A
marginally resolved
rosette, so weak it might be
guesswork, out in the upper right, is
all I could find. Nothing whatever for a 'southpole'
giant moire was seen, no indication whatever. The 'westpole'
moire is at about 30 degrees declented from the upper 'northpole'
giant moire. The upper right rosette is declented by roughly
75 degrees. This raises an interesting situation, that
there may be two sets of pole polarities due to
the fact that two galaxies are colliding

Two images are better than one. These next two blue color tones have been stretched to
a larger size in display, for some reason raceway rills are easy to see, which are not seen
at all in the normal size (smaller). Click on either image for actual size. Physicists and cosmologists have a term for this, for instance in looking at a large wall map of the whole universe, when the wallmap is reduced, sudden features appear out of the overall blur of the large image, the features such as cell walls and bubbles within the universe at large, these are very interesting to those who use that term for their science and I have gone looking for that term but could not find it or the large unverse wallmap for which the term was used. So, lets just call it the 'term'. The term has produced a spendid show of raceway rills in an enlarged image. Usually, details vanish in expansion beyond true size except for very high resolution images in which zooms have been cut out as small pieces for display. Usually, the 'term' results in details vanishing, and new details totally spurious appearing in images composed of many fine lines as are these next.





Here
we have a
slight show of
the 'target' again
this time the 'term' is
working in reverse, this is a
1700 x 1225 image squeezed into a
825 x 592 display. The upper right
rosette might actually be there. As
for the raceway (fine line parallel
rills, many are so fine line you
can only see them by putting
your face close to
the screen



The rosette
is radial, like a
wagon wheel seen slanted Click
here to see a radial rosette made of galaxies

This
is the best
I can do, the Dss
Deep Space Survey image
the only Cena photograph I have
which shows profoundly booming mighty
sounds in the form of gravity waves of
stupendous size and thickness, as
well as raceways of tiny thin
parallel gravitic rills so
can't see some of them
until rubbing your
nose against the
computer, so
to speak
As for
the 'term' used
above in discussing image
stretching vrs compression to reveal
hidden contents in macroforms within the image,
here is a view of the Perseus galaxy cluster,
the large view showing raceway rills, the
compressed view showing cellwalls and
cell structure in the form of
thin edged boundries

PERSEUS GALAXY CLUSTER SHOWING GIGANTIC MACRO SUPERCELL STRUCTURES Cell walling is not easily seen in large scale image, only when the large image is reduced eliminating most of the tinyer details

Gravitic
rills, and cells,
crowd the Perseus galaxy Cluster

Here, gravitic
waves surround a large
elliptical galaxy, exposing its gravity well



The
gravity well
could have easily been
the model for the creation of
the next two images, one, a scientist's
mathematical model based on Earth weather field
densities, the other a well in the gravitic
sea surrounding M101. Another gravity
well, around M100, can be
seen here

 

SPIRAL GALAXIES COLLIDE CREATING THE HAMBURGER GALAXY (CENTAURUS A) Twin radio jets are a signal remaining in time of when the two galaxies first made superform contact when drifting together

David Malin's composite showing Cena's deep space superstructure
mine in similar scale (in purple) on the right


My composite showing somewhat less high contrast and slight less of a thin residue trailing further offscreen in the upper left, so, from this, we know that the residual optical light trail in very dim low radiant matter is a long one going back in time back beyond my picture frame. First thought to arrive is "Infra Red". Infra red does not show anything, so to
speak. ISO has had a good infra red look and the only thing ISO has to show in infra red is some red in the middle of the center cleavage. A chandra x-ray view shows more, mainly a long thin trail backward concidered a 'jet' shooting out at high velocity by Chandra telescope engineers, and nearly no x-ray in the lower half



BIFUCATED BULGING MANTLE SHOWS TWO INDEPENDENT ROTATIONS



In fact the bifurcation is most noticable on the east/west axis, the east is bulging predominantly toward us, the west side is concaving away.

Radio jets from the Hamburger galaxy are self evident, matter jets shooting out of the poles in radio frequencies are spreading apart, extending longer (above) passing through a flow zone of similar charge, and diffusing (spreading out in a bunched up wad when encountering matter of opposite charge (lower).

Jetted matter is starting to curl back being pulled back by strong power from gravity central, which explicitely accounts for the bulging tongue in the lower half, and the overhanging lily in the upper half. The direction of both curls, tells us the Hamburger galaxy is sweeping end over end the top half away from us, the lower toward us, as one of its principle motions.

Bulging forward on the right, concave receeding on the left, tells us Centaurus A also has a horizontal rotation, the right side toward us, the left side away. In fact the horizontal boomerang rotation is rapid, fast enough to straighen out the boomerangs on either side of the galaxy center (including a sequence of miniature rods shooting out along the length like miniature core rods, sourced from somewhere within the deeper bowels of the galaxy), where strength strength in the core rod is strong enough to keep the core rod from warping in the horizontal rotation.





Include in the engineering a sequence of miniature thrusts shooting out along the length some like miniature core rods, sourced from somewhere within the deeper bowels of the galaxy.

Pink color tones seem to show more, the center glow reduced reveals more of the 'Z' shaped crack, the fact of the 'Z' shape extended by a hard push bulging foreward noticably (in 3D) in the upper right joint of the 'Z'





If the
upper crack
(right) and lower
crack (left) are rotating
at different velocities, the result
might clockwind into multi decks in the galaxy

Since
I could not
find an original
of the Cena big grey
image I made my own. You can
calibrate mine against the big grey by
the bright blue color enhancement, my image
shows that the cleavage at center is far more global than
any other image has shown, the cleavage continues well around
the left flank, telling us at once that we are actually seeing
a side view, looking at Cena from toward the left side
rather than straight down upon the front as every
other Cena (ie Centaurus A) image has imposed.
Also, the central brightest area (it stays lit
through any degree of enhancement),
is lopsided, roundish in the upper
and leaned slighty right, slab
like a flat tongue below the
direction this way ahead.
This very assymetrical
nature is further
suggestion of
construction
changing events
going on under the
overpall of diffuse hazes.
The 'Z' shape of the crack is even
more pronounced. At the right the bulge jutting
forth is actually a large vertical round opening, which may
be a show of one of the galaxies. One thing not seen in enhancement is
continuation of the long thin streamer behind into deep space countered
by the bunchup at the other end (front) in the outer edge of the lower
deck nearer us. Neither of these very dim luminance material is
sustained in high enhancements but that only means the
media density in the image per se is too weak for
easy fine tuning in an image editor

ITS A SIDE SCAN - NO DOUBT ABOUT IT



The
collision
can now be seen
as a great angle. Not
exactly head on, a shallow
oblique angle is the glide path,
the upper body moving in from rear
regions at slight downward and canted
slightly right, the lower critter coming
in more on horizontal about straight up
into the center screen. Gravitic shock
waves can be seen shooting off the
right flank in small parallel
rills as the whole tangle
moves slightly in that
direction. The
center
is a large
prominant bulge at
a slight easterly angle toward
us - a comet head with widening conal tail
not unrealistic as an image model. both galaxies, being
fluid, have had complete disruption, unlike planet tectonic plates
or ice floes which crunch against each other at their leading edges even
as their rears continue plowing forward at full velocity, being solid
all of their impact acts at their leading edges, their weakest
points for maximum kenetic exchanges. Galaxies, being
fluid, do not react in impacts quite the same
way, the crushing kenetic exchanges
move throughout the whole body
not exactly evenly distributed
but definately distributed front to
rear so crumpling occurs at the rear side coming
to a fast crashing stop (not really) even as their leading edges
start to fold and ruin each other's constructions from incompatible angular
momentums trying desparately to sort each other out into new patterns. In
the case of Cena, the fluid shock waves have smoothed most of both
spirals leaving little left except the merger of two central
plane spiral parts in the middle (the cleaved bi-lateral
'Z' shape crack around Cena)

THE ABRUPT JOG

The abrupt
jog is caused
by the fact that
objects across the front
slit continue jutting out into deep
space on the left, while the curvature of the
oblong sphere continues around behind to the left, creating
an impression of an abrupt jog which isn't there, two formations
are in place together but both formations are separate. Better
pictures revealing this are here.



To rejuvinate
brain cells already
settled down and dormant,
the side-scan is learned from the
above stereos (focus each pair of two images
together to see the stereo) show the larger white area
comprising the deep space body is tilted to the left, like a
shallow cliff face, it is not flat on. The major degree of
rifting along the inner crack, plus the fact that the
crack jogs abruptly back, both indicate this left
side tilted plane has been the major arena
of the collision. Ps., arms that jog
back abruptly are found in most
giant spiral galaxy images
and have always seemed
mysterious. Now
that we are
looking
at a
major
jog as it
happens, explains
such jogs as being obvious

Here
are galaxies
well known which have
abrputly jogging main arms
(not well known). The jogs are
seen best in stereo, trust me

NGC 2997



Here we see the 'rattle' (caused by a collision), more exposed by color tone enhancement

Here we see the missing mass (what astronomers overlooked) more exposed by color tone enhancement

This
long blue
arm in Ngc 2997
abruptly jogs back. Here
we are seeing the jog at an entirely
different angle of view, looking almost straight
up the jog. In M101 below, two abruptly jogging
long thin arms, the lower jog (arm heading
left) is almost the same as that
seen in my Cena images

M101 - TWO ABRUPTLY JOGGING ARMS





These
views are from
M101's supergalaxy overview
(a very large galaxy revealed by enhancements)

Here we see the 'rattle' (caused by a collision), more exposed by color tone enhancement

Here we see the other elbow arm (what astronomers don't know they are missing). Residues are so faint it takes mind boggling levels of green color tone screech to show it







The M101
hypnotic rattle
featured here, is the
tiny bright prong sticking
out from the lower left end of the core

GYROSCOPES ON PARADE

One
has no
choice but to
try and conjecture how
it is possible for elbow arms to
stay intact for a long time. Since I am
into angular momentums. The only conjecture I can
comprise at the moment is just that, angular momentums.
Notice I used plural. The conjecture has a bunch of spinning
tops, gyroscopes, all lined up in a row the axis all leaned at the
same tilt and all spin speeds geared in synch. The gyroscopes
each are clumps of matter, each concentration, all along the
arm. In other words the arm is not consisting of one
long spiral flow it is a composite of as many
tiny segments of gyroscope as it takes
to keep the arm coherent in time
travelling entirely intact
the whole path despite
rotational and
drifting
motions,
the tops
(gyroscopes)
would have to speed
up to keep the construction in
place the further out along the elbow arm
the net sum in each gyroscope stating the top's vectors.
Which brings us back to cometary jets shooting out of arms like white
volcanos along an arm's length, the matter in each jet is composed of
gyroscopes all whirring their own signals in unison like schools
of codfish, the 'gyroscope' angular momentum components
exactly enough to keep the cometaries from
jetting in out into deepspace or
from curling right around
back into the arm's
gravity. This
is just
for
comets,
such as in
the Cartwheel, and
galaxy Ngc 5236. In most cases
expecially near a core the cometary jets do
curl around and get dragged back into the mixmaster. It is
also very much an element of simple chaos. You have a thick layer of
smoke wafting in your kitchen from burnt toast, or a layer of mosquitos
over the barbecue. When you wave your hand vertically through the waft a
whole bunch of small smoke vortexes or mosquitos spin vertically, in
simple chaos. Now, picture a hurtler punching through a galaxy arm
at right angles to the flow of the arm, presto, a whole bunch
of small vortexes are spinning vertically, in simple
chaos, forming rattles for example in the arm
where it was punched like a river of
mosquitos drifting hazily
over your barbecue.
If your fingers
are spread
when
waving
your hand
through the waft,
many more, tinier, chaos
spinners appear, the same as if a
small galaxy with open shapes hits the big
one's giant arm. The trouble with smoke from
the toaster experiments is you can only do
it once then you have to burn more
toast to try it again. Or,
get a stenchy cigar,
it's smoke will
spin as well
in many tiny
gyroscopes on parade.
The point is seeing how angular
momentums of one vector in a fluid made of
mass, can be altered to flow intact in another direction

Cometary jets shoot vertically from a core rim of the Cartwheel galaxy





Cometary jets and clusters shoot from v-breaching power cord arms in Ngc 5236



Cometary jets curl around and get dragged back in, in M51 near the core



Cometary jets curl out and back in along a long thin slip streaming arm
in Bodes galaxy (M81)

SUPERSONIC COSMIC BOOMS The San Andreas fault - every square inch has rills, a gravitic showcase

Seashore
rills can be
seen streaming in
thin lines along the left edge
of the San Andreas fault. Tectonic plates
chatter in tiny high frequency vibrations caused by
nearly constant very low energy rapid earth tremors rather
than stupendous shocking booms that rock around the planet.
These San Andreas tectonic rills are caused more by
jitterbugging than by supersonic cosmic booms.
In Centaurus A we are seeing all three
kinds of rills, the seashore,
the tectonic plates,
(both caused
by jitterbugging
as frictional objects rub
and bump past each other), and
huge supersonic cosmic booms as whole
massive bodies of rest mass ponderously move
leaving giant sucking sounds of vacuun behind
them and higher frequency sounds of pressure
compression in front of their motions,
these supercosmic gravity wave
forms sometimes strongly
expressed as vertical
bullseyes that
encircle a
pole axis
upright at
right angles
to the plane of a long axis,
the bullseye forms a moir in model behavior
exactly upon supersonic shock waves of fast travelling
objects at Earth, that is, the bullseye moire form is expanding
conal concentrics receeding further back exactly as does a
man made sonic boom shock wave behave conally locally.
A sonic boom shock wave made of gravity energy
vibrations can be seen trailing behind
the head of a comet. As is usual
with infra red images the
details (Soho) are
a bit blurred

SUPERSONIC SHOCK WAVE MADE BY A COMET A comet, snapped by a collision sweeps through space with a wide sonic boom shock wave following along

A comet
creates gravitic
shock waves, but, not
at the very front, the shock
waves are following along a
short distance behind
like a sonic boom

The
reason why
there is a wider
swath on the eastern side
with larger gravitic sonic shock
waves, is, the comet has broken. At the
lumps a short distance back is a clear break the
front length with cometary head now vectored slightly
sideways, the head already slightly toward us. Behind the
break there was one single streaming tail, now the
comet is skewing like the front coaches in a
train skidding sideways. It may have
hit something like an asteroid
to cause the break. The
impact has imparted
some transversal
momentum to the
comet so that
now as well as
travelling ahead
it is also moving out
at a slight angle its new tail
growing out longer through time from the
jog at the original tail. It seems that abruptly
jogging long elbow arms in galaxies have a cause after all

Transversal
motion (sideways
drift) is 100% illustrated
by this Nasa movie of comet Linear 1994

   

Just so
you won't
loose time looking
for these bright comethead
images, there are none to be found,
they are strickly my enhancements. The originals
are dull one hard to see at all, my interest captured by the
fact that one showed rills. I was looking for a big fancy handsome
picture of Centaurus A on the Internet and none was to be found.
Along the way I happened to spot the comet images and of
course downloaded for a look later. The two images
are both filenamed 'Soho..." but I'll be
darned if I have since been able
to find the site where
these two images
came from

Originals reduced to caption size



RIPPLING VIBRATING SUN



Are these
gravity waves
(actually lens rills)
in the super atmosphere of
the Sun, hugging the surface of the
Sun. If totally regular, it would suggest
equipment in the Soho satellite, being irregular
(the dip to the left) suggests celestial rather than Soho).
The movie movie is two time delayed images showing a
comet fragment plunging into the Sun. The sun's actual
disk is shielded by a disk to prevent the Sun's
intense blare from frying all details
surrounding. The image
wiggles in 3D
because
the movies
are out of synch so no
perfect stereo, but willness and
keen eye still lets you see how the magnetic
fronds warp and transmute, enough to make the try worthwhile

THE X-RAY LMC

In an
x-ray of the
LMC 30 Doradus star
field - being the Tarantula
Nebula - gravitic rills are everywhere,
the longer streaks may be the gravitic tracks
of fast travelling intruders and hurtling around
hither and thither (if not merely kenetic roil,
the many small conal concentrics are seen
as being gravitic in nature (may
be wrong but no pain
no gain

Click here for large version

HOW CAN THE HAMBURGER HAVE SUCH LONG SHAPE

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

THE TONGUES OF FLAME IN RADIO ENERGY

The
thickened
flange in the lower
portion has been seen in radio
and a colored version publically released.
The upper flare follows the time stamped streamer
and seems canted at a different angle, according to
image biases in the falsely colored radio view.
I am going to go along with the radio view
assuming it could not have been put
together (composited) with
better astronomer's
craft, this the
best there is
no one could
do better

Both
the upper
radio jet, and
long streamer of dim
optical matter, spear out at a
70 degree angle to the center slash,
confirming that the upper radio stream,
as well as lower bunchup, match
contructions seen in
visible light



Radio
signals in
isobaric relief
show the same contours
as the colored radio tongues
of fire in the radio view
further above



This
APOD site
describes this
image (radio tracks
superimposed over normal
light image) as a barred
spiral galaxy behind
Centaurus A. I
have looked
at the
image and
honestly cannot
see it as described, for
two reasons. First is the deep space
view, by David Malin of Australia, which I have
duplicated in part with my own version, showing long thin
trails extending rather long distances in space, the image made
by the trails not unlike the tool machinists use to ream threads.

Since some astronomers use the shorthand term 'Cena' for this
galaxy I will do the same. The second intuition I have about
Cena is that it in not round in the sense of being a
sphere such as a weather balloon. Instead place
your hand against a large gooey ball with
a slice through its center, push your
palm forward against the ball,
smearing it out, the upper
smeared away from you,
the lower still
toward you,
the center crack
pushed slightly back. This
is the image I see of Cena viewed in virtual
3D (superimposing two side by side images together and focusing
a 3rd image in between, the 3rd image will have true 3D content regards
Cena). The smeared out smooth planes upper and lower, with a vertical
rising crack separating the upper plane (rear) from the lower
plane (foreground) is intriguing. I see two galaxies in
process of collision, meeting almost perfect head
on like two ice floes drifting together one
sliding over the other even as the
two experience some crunching
the fact that one of the
black hole cores is
exposed nearly
up on the
surface,
just below the
surface but close enough
that Hubble's near infra red camera can
see it, suggests that main bodies of original galaxy
contruction have been taken away since it is a disk which holds
the exposed core, normally you have to look down on top of a galaxy
to see the core and thus if possible the black hole at center.
Here at Cena this is simply not the case the core is there
its overshielding wiped away, it seems. This itself is
all interesting in conjecture, but there is another
possible probable cause accounting for the
radio traces. Two formal presentations
have been made about these, when
originally revealed to the
public the claim was
jets issuing from
both poles at
high speed
out into space,
this text seems to have
been taken away from internet sites
replaced by text suggesting a bar galaxy is seen
behind Cena. In both cases the radio traces can be explained
by a property which might be found in gravitic vibrations, gravity
waves, which would have surrounded both two spiral galaxies heading
for a head on edge-to-edge collision, as follows - speculation
entirely by me only me to be blamed if the speculation
proves wildly offside. (Hope you don't mind the
word Me Me Me, english does not lend itself
to writing first person processes in
though without referring to
first person (Me Me Me)

TREMENDOUS SHORT STORY

Day after
christmas I went
back to the Digitalized
Sky Survey site and downloaded a
fresh image of Cena with Hubble co-ordinates
overlay. It may be the source image of the big grey,
because I now have a big grey to play with, first
result a show of 'seashore' gravitic rills
along the western flank of the inner
bright optical object plus a
few more inches of the
rear vectored elbow
cut jutting back,
and more to
show at
right

Getting more
photo exposure
of the haze obscured
crack along the jogging elbow
arm has proven to be very illusive. Here are
more attempts using color tone enhancements.
A better complication might be had by a
telescope specifically focused
to include depth as well
as breadth





With
help from
the cousin we
can see EXACTLY
how these radio flares operate

Turn Cena
horizontally around
to the right so the radio flares
spool from either side (rather than from behind
the core as is the case with the upper flare), and there
is excellent reason to believe that Cena and Ngc 3718
would be an almost perfect match in energy and
shape configurations. Proof will be to
see if Ngc 3718 has bi-polar
radio flares

Cena in X-rays - by the Chandra telescope

From APOD, , an X-ray 'jet', from Cena, a 3rd possible manifestion of
excited gravitic energy field fluxes from an edge-on collision in progress

More Chandra x-ray This
stereo, if
correct, in a Chandra
X-ray showing the same jet as
seen in radio, is bent, an
abrupt elbow jog part
way up the jet's
length



Chandra
pros think Cena
is a spiral galaxy merged
with an elliptical galaxy, which may be correct







Scale bars
(lower left) do not
help much in guaging a length
of the x-ray spike in position within
the longer optical tail, except
the x-ray spike is a lot
shorter



It is
hard to get
a reading on the
length of the upper red
x-ray string, the only clue as to
its length from comparative eyeballing of
the enhanced Dss image, where two strong globular
clusters (or small galaxies) are near each other in the
lower left of the central glowing bole, in the x-ray
image two bright spots seem to be in the same
region of space, lets hope the compare
is correct, in which case the
x-ray string is much
longer than the
optical trail

Either
the Chandra
composite was whammed
in place a bit off kilter, or the
x-ray string is off angle to the optical trail.
I vote for a bad landing by chandra composite makers,
in that two bright white dots in the Chandra composite
are exactly in the right position to match two white
dots in the Dss image, but the central crack in
the Chandra image is rotated clockwise
way way too far around the dial

Going
by the width
of the central crack in
the Chandra x-ray composite, the
x-ray string is not very long in fact
probably does not reach the upper boundry
where the end of the globe becomes the
start of the optically visible
trail back in time Cena in infra red - by the ISO people - the strip of red is all there is



SPECULATION - GRAVITY WAVES ACTIVITIES REVEAL COLLISION IN PROGRESS

GRAVITIC SEAS AT CENTAURUS A ?

Click either image for large

     

Gravitic
formations of very
short lengths and chaotic,
seem to surround this image, Click on
images to see large. In the resolution gained from
the Noao black white original it is hard (impossible)
to declare which moire rills and circles are gravitic
and which are merely spurious pixel dances Pixel
dances are common in a large image reduced,
interesting forms can seem to appear,
then vanish, through various
stages of reduction.
Try this one as
an example
enjoy it
Gravitic
rills are
also visible in
this next image from
an entirely different physics
being an extreme enhancement of the Dss
images shown above. Click here for the Dss original.

Three different reductions of the same large image yields three
different moire rill and grid patterns. This is the only
image I have ever seen which changes drastically
through changes of reduction



Download this busy   atomic   image and in a
graphic editor toggle its size up and down (zoom in, zoom out).
If the image does the same as it does in my editor (Paint Shop Pro)
you will see dot matrix patterns then moire come and go. The image
was scanned from a newspaper. Photo quality scan captured the
individual dots used to print the picture on newsprint.
Scan in 'newsprint' mode adjusted for dot matrix
producing a more even picture without bold
moire patterns when zoomed through
certain sizes. The reason shown
(offered to you for download)
is there is always a chance that
the phenomenal gravity waves seen in
images around galaxy M101 have external cause in
imaging processes but the likehood of that is concidered slim,
for instance the M101 rills do not change in toggles through various
stages of reduction in image size, the rills are constant in the image

RILLS STAY SAME SIZE

This is
a very small
piece from a very
large image of M101. The
gravity wave rills surrounding
M101 do not change through successive
zooms in or out (larger), which goes to the
gong saying R E A L. An image whose scotch plaid
matte changes drastically through successive
size changes is seen here A scotch
plaid matte
has shown up in a
Soho flare image of the
Sun, the utter regularity of the
matte rules out gravitics (I'm sure). The
time-lapse movie showing the flare in action, a
half hour separates first to last so these big
tongues certainly move fast. The streaks are
high energy protons hitting the detectors.
The virtuaL 3D version does not work
very well because the movie
frames are not staying
in sequence






Image 1

Regards
Image 1 - shown
toned here for reference,
this image is peculiar in that it
also shows eyeballs, several tiny little
dark openings with a white toggle sticking out,
one for instance lower left, another lower right,
if you look around like a gnome strobing a dark
cave with twin beams issuing from the gnome's
eyes like searchlights, you will see there
are at least several tiny 'eyeballs'
peppering the images. Eyeballs
are peculiar, in four
years I have not
seen them any
where else

Grrrrr
I have to
tell you in utmost
sincerity the frustration
of trying to follow a lead. Doing a
Sherlock Holmes through site after site on the
internet without success. Two hours spent alpine skiing
the internet the dark hours of christmas day (25/Dec/2000)
trying to find a source site for the big grey image of
Cena with radio antenna superimposed. Do you think
I found it? I suspect it may be a Hubble
preliminary, Hubble astronomers do
several low context images of
an object before focusing
in on exactly what they
want where all the big
bucks get spent in the
use of a multi billion
dollar machine, the main
problem with Hubble preliminaries
is that usually you cannot find them, there
are Hubble archive sites where you can go but must input
exact co-ordinates, date, researchers, before gaining an image and
the one site I know where archives are publically available almost
invariably gives you only pro's proposals and abstracts and the
telescope machine specifics prior to view all text not one
image only a handful of images in total available
coming up in the same cluster, search after
search, regardless of search term used.
So, on Christmas day, I could not
find the source of the above
Cena image, only all of the
facts astronomers were using to
attach significance to that special image,
and even at that, the facts were few and far between.
And so, I did what any hungry soul would do, I made my own image Here
is another
utmost true and
sincere confession. When
first viewing the above big grey
Cena image with antenna superimposed, I
looked at the caption and agreed, thought Uh, what
a dud, all of the work done the previous day (day before
Christmas), conjecturing that gravity waves interfering with each
other had caused antenna, seemed stupid, waste of time, how could
I have gotten so wrong off track when one good image changed
everything. Then today, noon on Christmas day, I had
another real close look at the big grey Cena
and thought the opposite - there is
nothing in this image that
changes anything - the
big gravitic wave
speculation
was back on line
in full fury, and expanded,
added was the deep space image showing
long streams of thin optical matter, and an x-ray
jet by Chandra. With all of this, my gravitic energy field
concept seems more clear than ever. Now, if I seem too confident,
too smug, perhaps I am. I do know that astronomy is ridden
with conjectures which in hindsight seem utterly
droolish (worse than foolish) and these
come and go with the regularity
of lightning flashes during
a tornodo. Let me add
mine to the blow,
and if it fades
into a clear
blue day
without a
cloud in the sky,
so be it, I did have the
15 seconds of fame in the spotlight

LENTICULAR GALAXY NGC 3718





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

ANDROMEDA'S BULLSEYE



EXPOSED CENA CORE (with black hole just below the surface)

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