The superform of Ngc 2997 is huge - it shows a major collision
INTRUDER ALERT
The superform of Ngc 2997 is huge - it shows a major collision
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GALAXY IN FIRST PRINCIPLES |
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here, the
cyclonning projectile has to
change all its vectors, it ---->>*<<----- has to reverse everthing in its angular
momentums
If the
intruder follows
a path such as this next,
it will hoop around the core and
come out the other end in reverse
direction and in reverse
angle of ascent
Although
odd to see red
slashes through the middle,
when focused in overlay, the red
slash amplifies the 3D perception in
how louie the loop can hoop
around the core
The
extra 3D
is handmade by
sliding a piece of the
right arc to the left plus a
small piece of the lower arc upward,
resulting in a dramatic 3D perhaps the
degree of 3D actually present in fierce
core areas (or nuclonnic stars) warped
by general relativity gravity effects.
Fierce means black hole outreach,
and neutron star outreach.
Why the outreach is
suggested here
Slingshot core paths for M51, M100, and Sn87 are here.
The above
loop the loops
also both model, and
are modelled by, features
of Super Nova 1987
in the LMC
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The above
loop the loop around
cores as modelled above by
scanned bent wires, was out of my
own head, I thought about it, the bent
wires the result. Today a month later
is posted a new computer generated
model image of a star class black
hole candidate orbiting in and
out of the Milky Way like a
globular cluster. Notice
the path the hole
takes around
the core
NEXT
See
these
two images
used to illustrate
a difference between intrinsically
correct stereo in these astronomy images vrs
binoccular mechanics stereo effects in hand drawn cartoons
M51 - IMPORTANT QUESTION IS ASKED ABOUT INTRUDING THE CORE
A very
intruderish
look arcs out from
the right end of the core
and comes around into the lower
left, a twin trail marking the path.
In this case it seems the intruder is
departing the core in a slingshot the
reason the parallel tracks expand
being the intruder expands in
size as it hurtles out of
the area of more
maximum
gravitational
compression near the core.
Although I am not sure. It seems
possible something has sailed
into a merry go round
into the core.
The trouble
is in trying
to figure out exactly
what has happened, if slingshotting
out, where did it come from within the region
of the core kernal, and where is the dollop ? If hurtling
in on a cometary path into the core kernal area, what is going to
happen or has happened after the comet has boomeranged the core,
for instance the opposite side of the core is flare-up and
all flares flange in the opposite direction, so is
the comet's path in some away not like a
comet around our Sun instead the
prime directive reverses
and the comet hurtles
away in entirely
the opposite
direction
than its
incoming
and curves
away in an opposite glide path.
What happens when something slingshots into the core ?
WHEN INNIES BECOME OUTIES
When
the image
is turned upside
down the intruder tracks are
seen in a different way yielding further
insight about their nature, as minefield illusions.
In fact the orientation in the image immediately above is the
same orientation used in the Hubble public release of the
coils of Methuselah. Which raises a serious question
of vital concern to real understandings
in astronomy, this is, that
pictures turned
upsidedown
can result in innies
turning into outies and visa versa. What
to do about this appalling situation. Discuss it, for one thing
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ABSTRACT Intruders on a small scale leave telltale tracks across a small piece of a galaxy, on a large scale intruders contribute to reformation even massive reformation of a galaxy's structure. Intruders invariably are something that has passed over or through arm material, leaving their telltale tracks. Intruders can range from fast travelling giant stars, to star clumps, to globular clusters, to galactic fragments, to small irregular and dwarf galaxies. Intruders can often remain peppering a galaxy over and over again in the aftermath of a collision. There is a science about intruders, including catch names such as jet engine, dollop, spoot, polyp, barnacle, slingshot, and streaks. Streaks, a subset, are highlighted here 1 as a way of tracking motions, and as woodticks trailing telltale streams of passage here 2. |
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A significantly
different kind of
intruder track is seen
in this ESO image of Ngc 2997,
rather than being parallel tracks it
is a single dark line in a perfectly straight
vector out the upper left top tunneling
under an arm, from a point of source
below the left core side
Something
is spinning in
the upper corner, seen
in the upper window it looks
like a gyroscope or a spinning top
perhaps it is similar to this spinning
top in Ngc 4603 the one seen above
only half, due to a major
straight-edge image
error
Noticed
is substantial
smoothing along the right
arm, such smoothing methinks invariably
due to collision(s) of large kind which leaves
smoothed areas and overhanging cowlings
as telltale signs of the collisions
THE WEDGE
A wide
wedge converges
to the hot yellow object.
Whether it is a bright foreground
star near us in the way or there at Ngc 2997
is a mystery I have not been able to converge in on, in
not finding any other image which shows a big yellow hot spot there.
The wedge definately seems a factor due to intruder of some kind
but no smoking gun intruder is seen (except for the bright
yellow hot spot). I can show the 'indruder' wedge,
but no smoking gun intruder which
caused the wedge
I may
be wrong but
don't think so. Zoom
and enhancement has exposed two
tympani's (six sided geometry) one partially
bummed by the hots of the bright yellow
object the other cozied deep
down in a dark valley
of the wedge
In this
above view
revealing tympani,
a very thin string meanders
straight up the image middle, this looks
like the path of a small or very small intruder
leaving not much foam in its wake, the problem is
the image is riddled with straight line
image patches making it all but
impossible to suggest the
meander be used to
tell the slip
stream
velocities
where the path
meanders. Most intruders
appear to be small class such as a
globular cluster or star forming clumb of
mass. Major paths such as the marathon downhill
skier's slope seen in M101 are by dwarf or irregular
small galaxies or split or clumped remants of
larger bodies from collisions.
If there is
a candidate for
an intruder which caused
the wedge, it is no obvious fact in
the area to the right in the highlighted
window in this very smurry image
of Ngc 2997
Click to see the tympani in the Dss image.
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Note
the length
of the residual ghost
arm trailing away vertically up
the right into deep space. Collider(s)
have this way been. The next two
closeup views are featured
as a rattle
There
is little (no)
doubt that Ngc 2997 has
experienced a major disrupting
collision. This above enhanced Dss image
shows a gigantic superform, with arms strung
out sweeping long distanced through deep space,
as well, two streaks seen dim vectoring west
like precise twins, and origination
in the vacinity of the major
blunt on the right side
suggest something
large came in
at an angle
below from the
lower right and banged
through the outer right edge and
kept on going rearward to the upper right
in deep space, no doubt a ring was heard throughout
the galaxy as loud as a hammer banging a
piece off a drummer's cymbol. It is
possible the left side may have
been clobbered in the same
event. This would be
possible if (say)
a large spiral
galaxy
travelling
upright graced past
Ngc 2997, the lower reaching
arms not the main body of the collider
brushing past and a lower reaching arm on the
right in the collider punching the nuclear creator on the
right side of Ngc 2997, a fainter (less massive) arm
on the left side trowelling the Ngc 2997 arm
smooth and perhaps dragging the arm a
short distance in a momentary
snag cause the abrupt
elbow joggle.
This event
scheme
does not account
for the creation of the wedge
but encounter sure makes an interesting story
HOW CAN COLLISIONS COMMONLY OCCUR
Since
galaxy collisions
seem so common, when the aftermaths
are noticed, it seems galaxies are more commonly
colliding than is normally suspected. But tracking the motions
by deep space surveys does not present rich fields around many galaxies,
or even galaxies anywhere in the region, so how can two frisbees on
either side of the moon find each other. Remember Micholas
Telsa who worked for Edison then George Westinghouse
then on his own broadcast hydro generated power
long distances through the air and under
ground by having the tranmitter at
a certain frequency the
reciever (both air
antenna and an
underground) tuned
to the same frequency, when the
power went out it went out starting as a field
saturating around the transmitter radiating out long distances
and as soon as a feeler detected the same frequency at the reciever
swoop the whole thing folded and converged into a single narrow
beam straight to the other frequency ergo power in massive
amounts was transmitted without wires. Suppose gravity
does have the nature and instincts of
elctromagnetic
behavior it could suggest galaxies send out gravity
en mass and feelers detecting
another galaxy
cause extra gravity to flow between the
two galaxies drawing them together
from long distances the only
escape being one galaxy
travelling too fast
to actually
collide.
In this sense
galaxies are basically
racing toward each other due to
feelers finding similar gravity feelings.
It implies that there is a common frequency in all
galaxies such that all galaxies can feel each other. A candidate
for the carrier waves which can focus gravity between two objects
are the gravitic seas of energy which may saturate space, the
gravitic seas discussed and explored here 1
and here 2, and
demonstrated here 3 and
here 4. Also check
here 5 and here 6
In
this sense,
galaxies are migrating
through deep space, not merely travelling.
As suggested here,
a long distance sensor
causing or assisting the migration
may be guage field charges
For more insights, try these other links
here 1 here 2
here 3.
Here
is the normal
view usually used by
astronomers for staging Ngc 2997.
Note how the topology dramatically changes
by changing the perception by flipping
the image. It is at risk to conclude
anything about a galaxy unless
its true orientation
in deep space is
correctly known
and the image shown
correctly. It is not known
which of these used orientations is
correct, the orientation next below is used
in context as an illustration of vortexing galaxies
Moonwalking
backward one pace
it is also possible to
picture how the other galaxy
is right there right now in an octupus
merge with Ngc 2997 the collider merged to the
Ngc 2997 backside and out front all we can see is
one major arm of the intruder sweeping up from the
far right and more of the collider comprising
the giant fog horn at the far left, in
the standard orientation of
Ngc 2997 above
A full color,
full superform image,
should show if the collider is
still there, by revealing differences in
spectra between the Ngc 2997 mass areas and
mass from the collider (it will be a different
tone of color). It could be possible to tell
if enough different color is there to
piece together the collider
still merged, or are
there just residuals
stolen from the collider now
mixing in with the newly re-organizing friend
Next,
meantime
is a collisions
event in progress let
us say heating up ready for
full involvement as (hypothetically)
the small guy to the rear is going to keep
on coming forward its arms set in place to
start carving chuncks out of Ngc 2997
(hyothetically). A standup spiral
munching through a horizontal
spiral is how I conjecture
the trashing happened
to Ngc 2997
HISSSS CRACKLE
It
was the
time warp, we
hit the Cosmic Quark
at too high a speed, Robin.
There's Zarcozia, and right in
front of it our real destination
Zarcozium
Holy urchins,
Batman, don't let us glance off
and careen right out of the gol darn universe
Don't worry,
Robin, if we hit
Zarcozium too hard it will
merely ring like a bell, as it always does
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Marathon downhill ski slope meanders in a rush up the
inside track at M101.
A jet engine (dollop spooting out into the open) at the end of a trail
circumventing the right flank of the M101
core. This particular item is featured with more images in bright colors
here.
A very large dollop seems to have been
slingshot out from the core across through an arm into the open
in a valley, in M100. This is an intruder trail that is obvious.
Mysterious cross hatch patterns
are easily explained as a barrage of intruders initiating on the left
coreside, hammering an upper right arm in Bodes galaxy. The fact that
the paths are not perfectly straight means some calculation can be
done as to slip stream velocities
in the different media differentials through which the intruders
have passed.
BENDNG INTRUDER TRAIL IN NGC3310
A trail
extending
past a thin arm
winding over the left eye
of the nuclear arm continues in a
slewed parallel streak converging at a tony
hot point within a larger hot clump, the rate of slewing
should be convertable to relative motions in the slip streams. The
thin arm, expanding from a thin stream issuing from behind
the core at the bottom, and winding over the left eye,
may not be an arm per se but the trail left by
the fast travelling path of an intruder
slingshoting out and around over
the core into the hot
mass clump. Which
raises another
possibility, that
the intruder was attracted on
a bending trajectory by gravity of the clump.
In which case I will feel I have lost a round to Rambo and
keep looking for another bending vector that well calculates slip stream.
The learning curve continues - the arm over the eye, and the bending
intruder trail, are separate events. The arm over the eye
would continue up over top to the right expanding
into the frothy arm surge if it were not
for the wedge shaped incise
In these
next two red and
silver exposures, more
attention is given to how
the intruders have actually
spun across the upper armwall
An intruder seems to have wedged its way into the middle of Ngc 1232,
perhaps causing the extraordinay
'Jack Frost' formation. The wedge may not point to the source of Jack
Frost but just the idea helps fuel interest in what has caused such an
eerie formation as Jack Frost, because, surely, the answer will make
way for prizes.
In the
upper right
is Jack Frost, you
will recognize it the
moment you click
this link
An intruder event as large as they get in here between Andromeda
and M110 recently just departed the Andromeda flank.
Striations from a past collision described as occuring between
Andromeda and Triangulum are interrupted in the Andromeda mniddle
where M110 has sailed forth into the open. The width of the
interruption suggests a wide object rather than just the
small elliptical brightly seen was involved, the extra wide
width in the form of skeleton arms.
COUNT LOOK-AT-THAT
A residual
galaxy fragment
is actually caught in
the act, spooting out into
deepspace from below the Bodes
quarterdeck, a demonstration in
action that fragments large
enough to do change do
shoot and rocket
around into
then out
of galaxies
Here
is where the
Count is actually
coming from, under Bodes.
There is no Bodes reference
citing this, so, see how such
fragments occur within a
scenescape involving
glimpses and rim
shots in Bodes
The
Count is
easily seen here
rummaged from an image
designed by pros to show a
collision between Bodes
and nearby M82
THE MANHATTEN BULLET |
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Two intruders one small beside the core the other large beginning in the upper outer right fringe, are easy to see in Ngc 1808. The small intruder beside the core is a classic jet engine example (dollop at end of vapor trail). The tongue sticking out - the end of the nuclear core - is not unusual being tongue shaped. The subject of tongues in galaxy cores is covered here.
A pie shaped wedge incises through an arm of M74.
In this
image of Lmc a
long channel can be
seen starting at a circular
rosette at the top, and ending below
in bright clumps which include the
Tarantula nebula (largest clump),
it is suggested the channel
is the path the clumps
have taken to
arrive at
their
current
position,
the migration
itself a fact of a
collision currently taking
place with LMC and another small galaxy
An intruder event as small as they get is here in a highly enhanced zoom image, a faint trajectory running counter to the path caused by the 'woodtick' gliding along an outer limb of Ngc 1365.
Intruder trails as small as they get are exampled in a tiny piece of Andromeda. From Noao a tiny piece of Andromeda, a section here along the outer (lower) rim, shows two hair line streaks so thin they are about the width of individual stars, and a dark straight rift (in green).
Such thins as these are seen in any galaxy image of quality. This piece exampling hairlines, enhanced with a huge push on 'luminance', shows two intruder hairlines each on a slighty different trajectory and not travelling very far. The Noao host piece is so accute individual stars are seen captured while testing new scopes just come online with atmospheric jiggle correcting faceted lenses stationed on Earth as 'ground based' telescopes.
It looks
like a large
intruder has plowed
a trench up the inside left of
the core departing with a smack through
the arm. The V-breach is to the right of the smack.
A hesitator's guess suggests (if intruder) it punched into
the lower west side of Ngc 5236 leaving a smoothed patch
of grey matter and perhaps causing the core nerve
to split into two diverging strings
AN AAO IMAGE REVEALS MORE
Something
has happened.
The right side is
scintillating with small
thrills and fronds wanding up in
cyclonic swirl patterns, the left side is
smoothed in an amorphous lack of scintillating
details, as if a thumb has run a vertical course
smoothing details away as if smearing a path
in wet clay. In fact the whole left side
is smoothed as if by an artist's
brush made by arm(s) of
another galaxy
This
AAO image
in particular
has concentrated into
high contrasts zones between
different moving areas so that mobile
tectonnic disk shaped cyclonnic plates
are strikingly noticable the tectonnic
disks from absolute different rates
of angular momentum seen marked
by sharp thin dark
outlines of the
plates which
are rotating
within the major
body at different slip
stream rates, velocities, and angles
No other
galaxy seems in
the immediate vacinity
acting as probably cause of a
collision, however, a residual ghost
arm of some kind in nearby deep space indicates
that the Ngc 5236 past history has not been quiet
INTRUDER ALERT |
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Intruder Alert! Two narrow thin white streaks arcing over the core of Ngc 4526 are so faint the image pair has to be seen in overlay by merging the two images together (force your eyes to refocus) to see them. The intruder alert image below is featured here.
The
concepts
of 'intruder;
and jet engine are
interchangeable, in that a
jet engine is simply an intruder
in which the intruder is still visible
in the form of a dollop, or a spoot shooting out.
Another related concept is 'polyps' in which
the dollop has become glued to an arm
and stuck there now moves along
in the arm's drift
INTRINSIC PATH OF MOTION IN A SLINGSHOT AROUND A CORE
Path of
M51 slingshot
intruder either cometing into
the core area, or slingshotting out after doing
a loop the loop around the core changing directon and ascent angle
The M100
slingshot may very
well have travelled a path as
shown, through the kernal core area, and
is currently at position indicated by the white bar
SUPER NOVA 1987
Looking
at the path and
shape of the Sn87 super nova
in the LMC, a duplicate of the Sn87 image
made by appropriate bending of a single piece of wire
SPACE BI-LATERALLY WARPED BY GENERAL RELATIVITY
In fact
this path, or
that is, two of them
each 1/2, may be exactly what
happened at Sn87 (Super Nova 1987).
There may have been two giant planets or two
dark stars, close enough to be slingshot from the core,
heating up to spit out on exactly opposite paths in their
motions the two incinerated kernals temporarily on fire.
The paths of the two kernals is perfectly modelled
by a bent wire. The eye formation at center,
resulting from the only allowable path
of motion around a core (or
fiercely nuclonnic
star), is seen
all over
the
place
in nebulas.
This requires
that field forces
are stronger than gravity
in determining path and direction,
unless gravity itself can do
this at super tense
strength. Is
this the
famed warping of
space that gravity is supposed
to do according to terms of general relativity ?
Which means mobeus strip symmetry
is the result of motions
through twisted space intensely modified by warping power of
general relativity effects. The warping power effects
spin directions in angular momentum vectors
into up, down, left, and right
choices
