CERTAIN FUNDAMENTAL PROPERTIES OF
GALAXY MOTIONS
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Here is a partial tumbling cylander free fall motion, a shaft of
bananas has an oscillating tumbling motion. To be fully freefall,
the bananas would have to appear at the start of the second cycle
as the bunch's rear, then back to the front starting the 3rd cycle,
etc. Assume in galaxies a gradual shifting of all alignments, such
that no two cycles are ever repeated.
Isn't this nice. After writing the above paragraph after creating
the above freefloating banana .gif, I found a tumbler at a
site calling itself 'Optimum Control Levelsets' (a headroom session
on how to set maximums to create tumbling motions). Isn't this nice, it
even looks like an authentic schematic of Ngc 2442.
The flaw is this mark of Zorro is also not a true form of free fall
tumbling cylander rotation.
Doppler velocity measures (red away,
blue toward) almost matches one phase in the animated motions of the mark
of Zorrow above.
Bar galaxy Ngc 1365 is so alike you might almost think they were natural
born twins. Even the velocity doppler chart is the same, except, the
Ngc 1365 doppler chart shows strongest blue (toward us) velocity on the
far outer left side of the nuclear core, which instantly triggers alarm
bells as to an anomaly here, until a new theorem in word form takes place
leading directly to an interpretation that the nuclear core of Ngc 1365
(next image below) is rotating like a knuckle joint on a crankshaft around
and around through space on an axis which is so churned, so wound, that
the word form theorem can seem to have no other interpretation except to
be correct, the steps demonstrating the word form theorem
here, and the steps leading to the word form theorem
here.
Description of the churning winds around the shaft are differential
best described by driving a cranky
old model T Ford. Here is a closeup of the
upper part of the Ngc 1365 demonstrative drive shaft. Here is the
lower part. Here is a
partial blowup. Here is the full large
ESO image. Some of the above clicked images are flipped.
NEXT
Now here is an interesting tumble, except it isn't interesting enough,
it has stop gap motion, a tumble along each axis one then the next then
the next - not at all like an astronaut tumbling in free fall around
all axis in the free gravity cabin of a space shuttle. (No image
has been found - in fact, tumbling seems to be a forgotten sport
in .gif animations in that a two hour search of the web, which
inlcuded searching Goggle for 'tumbling animation' led to only a
tiny handfull of tumbling .gifs.
Only one tumbling gymnasts site turned up, fortunately. (Free gravity
means the astronaut creates their own gravity as inertia in any direction
when movement or motion is stopped, the astronaut carries the free
gravity until interfered with. Inertia is gravity for free, in that
all that is needed is motion no source such as planet or sun is needed).
I tried in Google 'tumbling galax (for galaxies) and a whole page
of results appeared, for fishermen heaven Tumbling Creek in Galax VA.
As you can tell, the Internet is always full of surprises and near
or far great misses.
Try a Google search for 'tumbling galaxies'. You will see a great deal
of work has accumulated on the subject. What I saw is link after link
of verbal text pages with reams of thinking, even theorems, some with
lists of names, some with really stinky looking boolean equations,
no images, however.
WHAT HAS RESULTED
I downloaded dozens of animations. Only a few had consequence. The
rest are in a page called 'JavaJazz'.
Perhaps you might spot a motion in JavaJazz that triggers alarms that
something may have been overlooked in relating local motions to a
cosmic arena that is 3 Dimensional not a flat plane 2D Earth human
perspective.
I spotted two useful images in the JavaJazz page, one went to
Infinity waves, the other to
the Prisms page.
BACK TO BUSINESS - FREE FALL ROTATING GALAXIES
The image in mind is thus - give me an astronaut - or rather broom
with swishing broomtails at both ends tumbling through space. But,
rather than the standard pattern (all motions uniformly at the
same velocity), each velocity varies on each axis moving at a
different speed. I can see it so clearly, cannot find an animation
to show in a single picture worth a thousand words what the inner
vision sees when looking at any galaxy with long extended arms.
Even a gyroscope animation does not help. This next has only one motion,
instead of at least three. The one motion (except for Andromeda) is what
many people expect of a galaxy in deep space.
Andromeda is known to be flipping up, the rear to be disappearing
soon below the rear horizon, the front lip lifting up to be soon seen
on full edge, as the vortex dish itself spins around lazily like a
carousel each object passing our faces right to left.
A tree root animation helps a bit, for instance
in showing how long jutting arms will turn in a cylander foward and around
through deep space, rather than spinning like a
pinwheel (the standard perception of galaxy rotations).
This herky jerky tree root rotation is the bext I have been able to
do with one scan of a tree root, Paint Shop Pro to rotate and deform
images, and a small program named Animagic to create simple animated
.gifs. Think of the root spike sticking out, as a galaxy longarm,
and note how it pokes foreward through space as it rotates, this has
the sense of 'cylander' rotation, as entirely opposed to a mere
pinwheel or carosal rotation.
A dainty snowflake is almost perfect, except it is flat, no arms
vortexing through deep depths in deep space,
and no thickness (flat perception of galaxies is widespread in the world,
which is false).
This uniquely proper elegant animation from a private new technolgy
company looking for venture capital whose owner I knew until a large
wad of email addresses abruply vanished from my Eudora email program,
has two motions, both reflected in a mirror, giving illusion of more
motions.
Of the
4 motions
in animation,
there are 3 different,
the mirror image (virtual) of the
turntable rotation (spin) is identical to
the original, whereas the two revolutions turn
in opposed directions. Mirror principle
changes only one property. There
are two 'simultaneous' spins
illustrated. See if you
can figure a third.
(Pssst - if the
object is
also
spinning
end over end)
Image of
rotating 2-torque
bearing two rotations each
on a spearate axis one at 90 degrees to
the other - 90 degree axis a similar sight in
galaxies, for instance in rattles that form
separate 90 degree axis collars
around arms
Astroid Eros tumbles through space in free fall. The above movie may
not be a true stationary laboratory frame with you (the stationary
laboratory) watching the asteroid tumbling by, in that the images
were photographed (I think) with moving apparatus adding extra
motion to the Eros free fall (I may be wrong about the extra
motions input). Furthermore, in real space, the astroid should
not be expected to be tumbling in a smooth recurring differential
curve which keeps repeating unchanged. There should be drifts, at
least three different gradual progressing drifts if not more, in
the overall free fall motion through space.
However, the above Eros movie does reveal another intriguing
possibility in galaxy free fall motions. Eros is not fully
rotating around its long axis, a pock mark appears, then
rotates back, a 'rocking boat' oscillation. It sure would
be impactive in concepts if galaxies also have 'rocking boat'
in their collective free fall motions.
Let the object tumbling, rotating, and revolving simultaneously in
freefall be a tree stump with arms (roots) sticking out. When you see
the fingertip of a tree root spiking end first through space because the
whole tree stump is rotating like a long
cylander, you have instantly solved one of the doppler messages in the
doppler reader's composite.
When you see the rear end of the tree stump also lifting overhead
tumbling end over end on an angled path toward you, you will instantly
see a second set of doppler motion frequency shift registers resolved
out of the composite.
And when you see the tree stump also rotating crazily a pinwheel,
cacoons flying off, you will pretty much get the whole picture. The
missing gas is irrevelant.
In fact, what are the odds that cylander rotation - arm spiking
end first through space - is the faster preferred motion in galaxies.
Who wants to be the first to calculate how much 'missing mass' is
instantly recovered when the motions of cylander rotation with cylander
tumbling in a state of gravity freefall
in deep space are included in calculations of speeds of the machine in
galaxy arms?
These 'cylander rotation' and 'cylander tumbling' deep space notions
of galaxies in freefall, (elevator gravity-free existences,) came at the
end of a long road lasting nearly 5 years. These notions did not come
up front with a long saga after finding information to fit the notions.
The long saga gradually accumulated information until a sudden doppler
image epiphanation blipped into place only one interpretation that
explained how the blue and red motions the doppler image revealed
could possibly happen.
This epiphanation came about viewing a doppler image of
Ngc 1365.
A second doppler image found five weeks later had the same self
evident information in it - that both bar galaxies were rotating
on their long shafts like cylanders, and also tumbling end over
end - ergo free fall motion. Next, doppler images for Ngc 1365
(left), Ngc 2442 (right).
PINWHEEL VRS 'FREE FALL' ROTATION
Evereyone
assumes a galaxy
is spinning like a pinwheel.
There is nothing out there preventing
a galaxy revolving as a cylander, its
whole body rotating in free fall as
an object nearly 'frozen' in
time, the shape and
form gradually
morphing as
slipstreaming
material bunches
up and stretches out
along arms and in core regions
A model of a'pinwheel' rotating is shown next. Then, the same model is
shown in cylander 'free fall' rotation, rotating (in this case just
around one axis) as if the tree branch model is floating on its
own in a gravity free cabin in a space craft. Tumbling, and
pinwheel rotation is too difficult for me to do with
just one image to start with and I do not see an
easy time trying to scan and calibrate to
exact correct synch scale a number of
different images which can be
compiled into an animation.
(I have always used
only a program
called
Animagic)
Cylander
rotation only
will looks as above,
just one tree branch image (above)
was used to make 4 frames for a movie animation
hence the herk jerk motion. The orginal (above) was vertically
stretched in a simple graphic editor, and both original and stretched
images were rotated 90 degrees, flipped, and rotated back by 90 degrees
to provide the 3rd and 4rth frames for the kerky jerky amination
to illustrate a cylander rotation. Better than nothing.
Getting both cylander and rumbling rotations
using the tree branch took effort
Experience
a psychedelic
circus. Focus the two
animations together and keep
them in focus (if you can) as
they rotate out of synch
(I am able to)
As you can see in an instant, the two different forms of rotation are
very fundamentally different, and it is the 'free fall' form of rotation
which explains most galaxies in deep space.
There is no doubt that some of a galaxy may be spinning like a pinwheel.
The actual fact is, the whole pinwheel is also on flapjack move as an
entire object. It leaves little to the imagination to picture how much
missing mass is instantly recovered by seeing that long arms are
spiking through space at thus a much higher
velocity than seen if the arms merely pinwheel, such that enormous
theoretical conjectures are given to the mystery of how the arms their
lengths can appear to be pinwheeling so fast, ergo missing mass, which
isn't there because the arms in toto are also spiking as objects their
whole length, nearly frozen in time, hurtling in cylander mode revolving,
evolving, tumbling around, in gravity free 'free fall' through deep space.
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LOOPING PATHS OF MOTION TAKEN BY OBJECTS SLINGSHOTTING
THROUGH A CORE
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Paths of motions around a fierce core have been identified, using
intruders in galaxies as examples.
FUNDAMENTAL PROPERTIES IN LONG TERM SHAPE AND MOTIONS
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Jupiter's giant red spot rotates counter
clockwise as it drifts along to the
right in slip stream atmosphere bands. The red inner tubes are vortices
and do not whirlpool like coriolis funnels, nor spinning tornados.
Galaxy images, even in 3D, cannot tell you if matter is moving out, or
in, or in both directions. A slip stream effect
is assumed, like bands moving in opposite directions around Jupiter.
If Jupiter was also rotating up and down to some degree via its pole
axis flipping through the bare air with planetary stuff around it, there
is a visionary image of Jupiter unravelling as a globe and becoming much
more distinctly like a galaxy, in which case Jupiter's core could be
exposed, or at least glimpsed.
A discombobulated Jupiter models only some galaxies, such as
Ngc 2997, it does not model more established
rotating galaxies which are more disk shaped with
centers pulled in as modelled by a pin cushion whose button pinches the
surface closer together from both sides, or, better yet, a dish shaped
electromagnetic with its north pole - south pole magnetic field lines
visible, and pinched in the middle at both poles, top and bottom.
If Jupiter had little or no polar flipping motion and spun faster it could
spread out into a dumbbell disk pinched in the middle if the rotational speed
was fast enough, yet not fast enough to throw the matter away into space.
Even so, if Jupiter's inner exposed center (also flattened out by
spinning forces) was rotating at different velocities and vectors
compared to the outer disk, then the spread out Jupiter definately
would also well model more established disk shaped galaxies.
In a sunspot, matter simultaneously moves into the center, and out
from the edges. This image is featured in an examination of slip
stream motions.
DIFFERENT DISK SHAPED (PIPE STEM) GALAXIES
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Here is an image of a disk shaped galaxy
with more abundant matter in the outer disk relative to the amount of
matter in the core area. This galaxy has obviously been disturbed and
has billows of low luminant dust strewn around at either end.
Ngc 4565, a real pipestem, no visible flanging
or flukes at either end at all, it is straight and thin all the way across,
according to this
Noao image.
A pipestem (seen on edge) by ESO shows sheeting
(when the image is enhanced) in the form of deep space
drifts overlaying part of the galaxy.
PINCHED IN CORE IN NGC 4526
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Here is an image of a disk shaped galaxy
which has more abundant matter in the inner core area relative to the
amount in the outer disk, with a shallow central buldge inside which
nevertheless may be a pinched in strongly energetic central core, as
does Ngc 4526 in the next image. Click
here for original.
MOTION STATES
It does not seems likely that any matter in a galaxy is stationary,
that is, moving only along with the prevailing galaxy drift through
deep space at the same point of station keeping along an arm. I assume
that all galaxy matter is on the move, streaming in one direction or
another within and around a galaxy.
It also seems likely in interpreting galaxy images, that matter streaks
outward from the inner regions at right angles to the plane of rotation
of the outer arms, and, at a certain point there is a change in state
of momentum factors, where the matter than becomes bound into any one
of the possible dominant outer rotations a galaxy may have.
Since the inner core is rotating and flipping in one set of vectors,
the central region around the core in another set of vectors, and the
outer main arms in yet another set of vectors, the overall long term
scene for a galaxy is short lived, that is, a galaxy actually changes
rapidly, writhing and seething while seeming to drift along serenely
in space. Speed up the action (the reverse of slowing down the camera
to see a bumblebee's wings in motion) and the galaxy might even seem
to be snapping and crackling as if composed of thin wires of electrical
energy snapping and writhing around the globe of a Van De Graph generator.
NO SWISHING BROOM TAILS
Ngc 7479 does not appear to have broom tails swishing broadly through
space but perhaps it does, if rotated to different view angles it
is possible swishing broom tails may be seen. However, Histrogram
(right image) reveals some kind of commotion at the upper left corner,
and a clear cell bubble off the lower left arm. The
LMC (Large Magellanic Cloud galaxy) has very dominant cell walls
and bubbles. The above Ngc 7479 enhanced views are from the following
original.
SWISHING BROOM TAILS
Next, large broom tails sweep through outer space off either end
of Ngc 2442. You have to view this blue image in stereo to understand
how far forward the lower armchair elbow thrusts powerfully forward
toward us in space. This Ngc 2442 image is being used to illustrate a
point here.
And here, this next image is used
to illustrate prominent vertical drops in the core arena.
MOMENTUMS OF A REVOLVING CYLANDER BODY
It is vital you read here which explains
the difference between mere broom tail swishing, and full rotational
revolving of a cylander in deep space involving arms whose shapes are
'frozen' as the cylander revolves in a total whole contruction that
stays intact through short terms of time.
THIN BANDS OF ANGULAR MOMENTUMS IN DIFFERENT HORIZON PLANES
This view of Ngc 1232 showing extreme thin strong bands of differing
angular momentums laying at different polar planes in complete 3D
co-ordinates, is being used to illustrate a point
here.
DIFFERENT PROGRESSIVE VIBRATORY MOTIONS AND PROGRESSIONS
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Images were gained from a serious scientist's site but, now, source
is unknown.
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Web site/display/designs/image enhancements - Greydon Moore
World's largest cosmic teaching site - Ottawa 2001/2004
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