HARUMMMPH

If you
love physics,
love astronomy, you
will love this long file. You
will not like its length. I have opted for
a long loading file in order to have everything
in one place, easier to associate, easier to grasp
in a glance. The have-at-a-glance lenience makes the
long loading file more interesting. You will love
the long load after you have seen the long
file. I hope. (Cough clear throat)

CRISS CROSS SYMMETRIES A   OPPOSES   B,   IN A BUTTERFLY NEBULA

FUNDAMENTAL MULTIPLE CRISS-CROSS SYMMETRY IN HUBBLE 5 NEBULA

Both
twisted
and turned,
like the leading
edge of an aircraft
propeller, except here
there are two, criss crossing



















The
blades of
snowflakes in
nebula Hubble 5, as
photographed by Hubble, one
blade formed in a long forward
thrust of dust, molecules, and
gases between butterfly arms,
concentric rings faint in
the upper rear may be
signatures of
planets in
orbits
causing
disturbed
visible dust trails
and many parts of this nebula
are rilled with concentric straight edges








Hubble 5 is also imaged in GIC in context involving planetary orbital signatures.

SEEMING FUNDAMENTAL 'TWISTED' MIRROR SYMMETRY
IS EXPLAINED - IT IS NOT A MIRROR, IT
IS A MOBIUS STRIP BROKEN BY TWO
SEPARATING ROTATIONS

The
figure eight
of the 'butterfly' can be
explained in full, but it will take
some detailing, since more than
one fundamental dynamic
is occuring at once.
Two propellors
are a pair of curving
jets in symmetrical which contain
far more in their reason than flat space dynamics.
A strong propellor in two segments curves on arcing vectors
from the lower left to the upper right, the lower arc starts closer
to the camera, a second synonomous figure emerges like a mirror
image, you can see the folds of the 'mirror' at both ends of
the figure eight. But his is only part of the story,
there are four non equal segments, due to a
precise nature in spin, the jets
occur because of two
intrinsic spin
axis in
the object
in the center
blowing forth the jets


There
are four
fundamental jets
joined together at a
right angle criss-cross in the
center, each jet is on a different path
but since the jets form two pairs - upper right,
lower left, and upper left and lower right, it is
possible to see what is happening. The jetter is
spinning slowly on two simultaneous axis of
rotation, a spin counterclockwise on a
horizontal axis is causing the
lower right arm to arc from
near space away dipping
to the center, the
upper left axis
ends farther
away and
arcs
forward
Similarly, due
to simultaneous rotation
counterclockwise on a vertical axis
the upper right segment arcs outward to far
away from its source dipping into the center, and
similarly in opposite for the lower left segment. There
are two propellors seeming like a mirror to one another but
because of the two spins the result is where two jets on the
same side of center face each other one is coming forward,
the other is going back. This symmetry formula,
(criss cross)-(mirror)-(up/down twist)
is going to be found in numerous
cosmic forms which include
galaxies and elementary
particles


Here
is another
way of picturing
the amazing symmetry complex.
Place together two flexible strips such as
ties for garbage bags and bend them together into
an s-shape. Held in your finger tips, rotate one to about a
30 degree angle to the other, (not yet finished). Twist the lower
right segment up, the upper right segment down, the upper left
segment down, the lower left segment up, and holding the
construction between finger tips tilt it up about
30 degrees and counterclockwise about 30
degrees, and you will have a nearly
perfect rendering in a physical
model the exact body of
the Hubble 5 Nebula





What
a task to
scan the handmade
model. The two strips of
course did not lay flat on the
glass so would not scan, attempts to
increase all scan values to maximum ended
with one solid black image of 147 meg. It needed
some insight, which came in the convenience of a stainless
steel bowl capped over the model to cast light back onto
it and, as you can see, the insight worked. There
after it was strictly a question of best
placing of two very cranky strips
and positioning the bowl
overtop, to arrive
at a crispy
result


In the
twister image
is a fundamental symmetry
principle which can probably be called
'(W/X - Y/Z) criss cross symmetry', because of the
complimentary four twists added to the s-shaped arms, and comes
solely from an object spinning simultaneously on two different axis at
right angles to each other forming four poles in jetting or controlling
matter. It certainly models s-shaped bi-lateral symmetry involving
black hole poles and core dynamics in galaxies, and may be
modelling a meson if a meson can be thought of as
having 2 simultaneous spin axis, in contrast
to a baryon which will have
3 simultaneous
spin axis:
two quarks,
three quarks





MOBIUS STRIP





Actually,
the whole Hubble 5
Nebula is nothing more or less
than a mobius strip, but this has been
physically caused, so there is a displacement
at both ends due to a rotation that has created the
gaps, since each long wave is being created end
to end by a polar pair of engines jetting
in opposite directions


Note
the way
the symmetry
in the Hubble 5
Nebula actually works

 

        Twist in each segment

     down  \                 /  down
      \               /
        \           /
          \       /
            \   /
            --------------------  *  -------------------------
            /   \
          /       \
        /           \
      /               \
    up    /                     \   up



        S-shape in each segment

        down  \                 /  down
         \               /
           \           /
             \       /
               \   /
            --------------------  *  -------------------------
               /   \
             /       \
           /           \
         /               \
       up    /                     \   up



 Separating rotation in each axis cannot be shown in this
 rudimentary text form. There are two rotations to cause
 the mobius separation in Hubble 5. Turn one axis about
 30 degrees around the nebula nucleus, then raise the
 axis by about 30 degrees. Cited degrees are pursuent
 to the Nebula's orientation in space as we see it from
 Earth. It can be that the degrees of separation in the
 actual nebula if it could be cruised by a satellite from
 Earth will be different

RUBIC CUBE MODELS MANY SYMMETRIES

Test. Where is the left hand, where is the right. Answer, both are left. Test. Is there a break in symmetry. Yes, the orange and yellow have changed places, green has opposed facing	Test. Can all three colors have the same, but opposed, facings. Answer, yes, the same three colors will appear on the rubic when one rubic is rotated 1 spin on an axis through the jutting corner point

Here is why there is a break in symmetry

Image 1 - mirror - impossible

Evenly
appears the
same. Rubic7.jif is
flipped (top to bottom) and
rotated 180 degrees to mirror all faces
and hand. No color combinations (flavor) can be
achieved by rotations of the cube. The 3-color state of
the left hand cube cannot be achieved by any rotations of
the right hand cube nor can any other flavor result. Mirror
symmetry requires an east/west rotation and a down/up hand
flip. No down/up hand flip creates an anti-mirror yet
with no violation in its anti-mirror symmetry.
(Rule of direction, in this example,
is created by the image, not
by fundamental law)

Test. Where is the left hand, where is the right. Answer, both are here. Hold your right hand out to the left and hold your left hand out to the right to make Image 1. Is there a break in symmetry. Yes, even though the three colors are perfectly mirrored to each other	Test. Can all three colors have the same, but opposed, facings. Answer. No, the left hand color flavor seems as excluded without a mirror, no rotates can produce the mirror's flavor. One rotation will produce the following, the backside colors, except, the color order in the backside flavor seems impossible, the flavor should be blue right, white up, purple dn, in this cube

Horizontal
rotation, not
spin but (+) to (-)
produces blue left, white
up, purple dn. Rotating vertically
produces white left, blue up, purple dn.
Both of these combinations seem excluded
from the mirror's cubefaces where the
two possible rotations produce the
following color flavors, in
both cases the up/dn
colors are hung.
You cannot
change
mirror color
flavor, without
also changing the state

Image 2 - two color flavors have up/dn reversed (hung)


Image 3 - anti-mirror created by no up/down flip

But,
everything
is locked out, so
to speak. The left cube
is an 'anti-charge' to the
right cube, the color flavors
cannot be changed (rotated)
in parallel move without
manifesting a new
color, but,
flip works,
in rotating
the left cube
up produces white,
and rotating the right
cube down also produces white,
so similar facings can be maintained and
so color flavors (combinations) can be predicted


Now
note, it
gets very kinky.
The Image 1 right hand
view is achieved by holding
the cube in your left hand and
bending your arm at the elbow so
your left hand is on your right
side with cube facing your way.
The left hand view as you see
it in Image 1, cannot be
physically achieved. It
appears as a mirror
image when your
left hand held
sideways
gripping
the cube is
reflected in a
mirror. So a question
is raised as to if or if not
Image 1 is a CP violation in the
symmetries, C for charge conjugation and
P for 'parity' which includes a mirror
of C, such as seen in Kaon mesons
due to a strange quark, and
now in B mesons due
to a bottom quark

TWO QUARKS

Let us say this is a strange quark, and a bottom quark



Image 4 - no exclusion violation - the left cube's flavor can convert to the right cube's flavor by one rotation

FORMAT

The cube
was rotated around
the 'Z' cartesian axis before
making the second scan, and the hand
was not flipped, resulting in two breaks in
mirror symmetry, creating a violation where in this
asymmetry the flavor of the rubic (colors) cannot be
rotated in lockstep with rotations in Image 1,
a different color must result. Strange
particles come hither


Three
color combos,
and flavor hung two color
combos - wiffs of quantum chromodynamic
theory fills the colliders

HOW IT WORKS IN 3D








Incidentally
if you take the
trouble to focus this image
pair in stereo you will be pleased to
learn that these images have not been altered
in any way to produce 3D, the 3D is inherent in
the images themselves, there is only one (mono)
image for each pair, their stereo though not
a real blast is more than enough to turn
heads, enough to impress you with
a realization that all mono
images have stereo
content


Once again, for convenient second look








A PROPELLER


A twist
in each blade
of a propeller completes
the topology finess of the dynamic
figure seen as twin longblades
in Hubble 5


Perfect
topology
is found in the
propellor blade contours
of the hands, it is a mobius strip
with a gap at both ends (filled here by cubes).
It matches the basic symmetry of this butterly nebula,
the topology is identical to this Butterly nebula

PROBLEMS IN SPIN

Problems
instantly arise
in the concept of spins,
unless some breaks in runaway
thinking are applied. If the spins are
very rapid there has to be a periodicity in
which jetting does not occur until the poles are
re-arrived at laboratory reference co-oridinates at
which time very brief jetting occurs, with a very
slow drift in the 'period equals jetting'
frequency to allow the jets to
assume long curving arcs
as above detailed.
If the star is
oscillating
on two
different
longshafts it
might be possible for
the 'broken mobius' jetting to
occur but unfortunately I do not have
insights or acquired accumen to pose how the water
sloshing in the water balloon would have to form such jets

CRYSTALIZING THE VIBES

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)

THE SPIDER NEBULA

Propeller
nebula called the
'Spider' in astronomyworld
has partial propeller blades and
an unusually interesting center, super
solar flares arc up, and also around
in a 90 degree re-oriented
horizon plane

SNOWFLAKE BLADES IN NGC 2440

On
its way to
a geriatric white
dwarf it metaphorphizes
into blaring blasts of pointed leaves

















If re-oriented
to a plane more in
match with Hubble 5, the
'V' shaped blades might be
more similar in look to
jutting blades in
Hubble 5

PLANETARY ORBITAL SIGNATURES IN NEBULA NGC 3224

NGC 3224 - concentric rings may be signatures of planetary orbits

PLANETARY ORBITAL SIGNATURES IN THE EGG NEBULA NGC 2688

Another
nebula this
one super gigantic
and super hot, photo by
Hubble, has criss-cross straight
beams like two lighthouses, the beams as
visible a seeming combination of very tight
ultra-violet light bands (perhaps laser)
intermittantly passing through dusts
so that jagged jets are seen and
fattened pods where scattered
light rather than only
a narrow beam itself
is also producing
visibly in the 'X'
criss cross


Three
different
stages of enhancement
are needed to reveal details which
would otherwise be confusing without comparisons

CRISS CROSSING 'X' RAYS IN THE EGG NEBULA

The
criss cross
of the 'X' rays lay
in planes easily described -
raise your left arm horizontally
in front of you bent at a right angle at
the elbow. Move the arm out by about 60 degrees,
and raise it up by about 30 degrees. This is the spacial
vector of the lower left to upper right 'X' ray in Cartesian
co-ordinates. Now, create an axis of rotation straight out in
front of you through the center of your arm, and rotate
your arm in a canter (end over end and sideways)
in a turn of 165 degrees - 15 degrees short
of 180 - (you can't) and it will be
in the Cartesian plane of
the other 'X' ray,
upper left
end farther away,
lower right end closer


Thick
and thin
in the 'X' rays
show where something
needle thin even invisible
is hitting pockets of material in
bands of expanding sideways dispersions,
the fact of sidways crescents suggesting
the arcs are heated material still
glowing and orbiting after
being excited, a
straight
edge along
the inside of the
lower right 'X' ray segment
initiates arcs which primarily orbit
to the right, suggesting an orbital cause
is creating the bright crescents after matter
has been excited and is radiating long after
the heating invisible x-ray laser beam
has energized the matter. Another
explanation for the straight
edge, of course, is
obscuring dust
on the inside of
the 'X' but this begs
to be explained as to how
the obscuring dust can be straight
edged and have an asymmetry bias to the right

A TEST FOR TRUE PLANAR POLARITY

The
idea of
twin searchlight
beams casually crossing
like two dropped pickup sticks
may be misleading. It is possible the
two beams are actually jetting in a true
polarity in a right angle figure. Hold two
pencils gripped in your fingertips in a cross
out in front of you at a slight downward tilt
so you can see two pencils split apart by
about 15 degrees. Rotate the cross to
your left. If the two pencils
still cross at right
angles the upper
left segment
farther
away will
be shorter, as
the lower right segment
will be longer and closer. This
is what is seen in the Egg's 'X' rays, just.
A close look at the images shows the upper left ray
slightly shorter, the lower right ray slightly longer, but
not by much in this Hubble image whose frame has cut off
nibbles of the whole nebula. The subtle aspect of two
different lengths in the beams indicates the rays
are polarized more toward a 90 degree criss
crossing, and seem scissored by the
oblique angle and orientation
in which we must view the
object in perspective.
If means were
available
to view the
object in full 3D
there is a chance it will
look in its Cartesian plane like
a four arm boomerang held very obliquely.
But, more likely, (since you can shift the arms
of a boomerang to visualize it), the beams
might be departing at (say) 60 degrees


CRISS CROSSING MONORAIL TRAIN TRACKS


The Egg
nebula, when
very highly enhanced,
reveals faint concentric rings very
similar to the rings seen clearly in Hubble 5,
except, the Egg's concentric rings are different in
that although the 'X' rays continue end to end as straight
lines the body is folded in the middle not as a true 'mirror'
but a folded piece of paper, and the concentric rings which
may be planetary orbital signitures lie distinctly in
two separate planes, each plane associated
with the plane of one of the 'X' rays.
The two concentric orbital disks
merge at the fold and may
very well continue
behind as disks.
If true, this
is two solar systems
interleaved, with two different
tilts in the two ecliptic axis, the fact
such disks visible at all (if orbitals) are heavy
planets wallowing through thick environments in a disky
way the planet gravity's sheepherding the heavy into
thin streams around the orbit paths, the effect
like the rings of Saturn with different
rings in different densities. Tell
tail would be to see planets
in the rings. Otherwise
the disks would be
really more like
Saturn rings,
with perhaps small
moons rather than planets
forcing concentrations to form rings.
Several tiny white hot 'popcorn' kernals can
be seen in Hubble 5 but it cannot be seen if these
are in any way orbital (such as 'popcorn' in twin rings
in Super Nova 1987. The Sn1987 kernals are in rings
which are not flat. Break open a key chain ring
into two circles then stretch out the ends
at which you use to force in the keys,
and this stretched out keychain
is the kind of topology
at Sn 1987


Orbital shells and interleaving shell 'clips' are examined here.

SUPER NOVA 1987 SPUTS ITS STUFF

The
cherry red
image was deliberately
photographed by Hubble to capture
the star field background. The brighter
image from an earlier Hubble episode shows
twisted knotting in the upper left ring
and seemingly short parallel blue
vectors entering a small knob
at the back of the center
eye. Most important
of all, however,
is how the
two outer rings
curve. The upper ring
circles back in a vertically arc
from right to left, the lower arc swings around
forward and back from left to right horizontally. Most
all spiral galaxies have such a biased asymmetry, one
half in a vertically rise, the other half slicing
around in a more horizontal plane

THE SUGARLOAF CONSPIRACY

Signatures of planetary orbits scooped through dust.

First,
let's assume
the concentric rings
are signatures of planetary
orbits being scooped out of dust,
planets whizzing around clearing a path
and sheep herding ring rock fragments - think
of Saturn - into orbits. In fact, tiny hot dots can be
seen just in the right place to score as some sheep
herders. Secondly, the entire concentric array is
two-faced, two sets of concentrics face each
other, interleaved, just as exactly is
the criss crossing interleaved
concentrics of the Egg
nebula show above

Note that opposed corners are bi-symmetric, in two ways - upper left tog sticks up, upper right togs are down, also, lower right tog is down (opposite to upper left) and lower left tog is up (opposite to upper right). In just this single nebula, leading basic statements about nebula symmetry principles are found. The same is found in star field nebula, the large Tarantula star field nebula in LMC has similar symmetry. The symmetry extends to the sugarloaf itself, the sugarloaf is folded in the middle. Actually, the sugarloaf is such a busy nebula, the Hubble view as rendered by image engineers, then assuaged by myself (a moi) hardly does the thing justice. For instance, the upper right tog pokes out of an opening. And the bands within the sugarloaf stand up at right angles to the central sugarloaf east-west longtitudinal axis. These are just two notable properties, for starters. A better factored image of this nebula is going to show you a whole lot more. What the heck, gotta mention the center right thang juts up, the lower left thang is down. Just two more symmetries mentioned for the heck of leg up. Don't forget, in the middle of all this, we still have no idea what star or stars causes all this, but one thing we know for certain is the cause has intelligence that loves fundamental energy principles If the axis were the centers of books with pages open, the pages would fold toward each other along the crease when the books are closed, which is exactly what the concentrics of each nebula are doing, they are folded slightly toward each other and interleaved along the central creases

The brown
bands twining
across the sugarloaf
are residues of old gas shells,
each brown thread is a residual gas shell hem

Captions at a Nasa Hubble nebula picture gallery site do not seem to embody any larger pictures or enhanced overviews. Different than theirs, my captions read such as: ' Tracers fire from the rims of hot nebula', and 'Two symmetrically facing sets of concentric arcs may be the signatures of planetary orbits, planets carving orbits through nebular dust in an analogue to tiny moons gravitationally sheepherding rubble to carve rings around Saturn, except, in nebulas, there seem at least two stars involved each star with a planetary system, each system tilted at a different ecliptic axis so that the two orbital systems interleave modelled by fingers meshed together

Another Suglarloaf Conspiracy GIC view is here in context of planetary orbital signatures.

GAS BUBBLE NEBULAS

HUBBLE NEBULAS IMAGES SOURCE

HUBBLE NEAR INFRA RED CAMERA



HUBBLE MULTI-OBJECT SPECTROMETER IMAGE







THE CATSEYE GAS BUBBLE NEBULA



THE HOURGLASS GAS BUBBLE NEBULA

IC 418 - THE "SPIROGRAPH" NEBULA

A residual
cold shell surrounds
the outer circumpherence
of the Spirograph nebula

NGC 3132 - OLD SHELLS SECRETED IN DARK MEDIAS

Similar
residual gas
shell hems, seen as
brown bands twining across
the center, are also seen in Ngc 3132
This page is a large indepth overview of gas shell nebulas

CROSSBOW SYMMETRY

Another
symmetry is
here revealed. The
red flyers at either end
both curve toward the camera,
(picture the longbow of a bow and arrow)

NGC 6210 - bi-lateral symmetry 4-ways

Here
is a really
good example of 4-way
up/down criss cross symmetry.
The image came from Hubble screecher
red but does show more than adequately
the symmetry form many nebula take


More on fundamental bi-polar, by-lateral, and handedness symmetry in galaxies is here
Bi-lateral symmetry in galaxy cores is explored here

More Egg nebula images are found   here 1   and   here 2

A phenomena called 'Masers' may help explain the existence of 'bangles' in nebulas, here. If 'masers' are not the answer, then 'masers' may point insight to other causative phenomena. (Masers are twin energy jets).

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