Tympani resonators in
smoke and galaxies explained here
THERMODYNAMIC MOTIONS IN FLUIDS
SEEM TO BE MAJOR CONSTRUCTORS IN
GALAXY ARMS, AT ODDS WITH PURE
FUNCTIONS OF GRAVITY FORCE ONLY
This, next, volcano image from 2003 has a tympani resonator in the smoke,
it is where a cavity is seen and a thin rope issuing from the center of
the cavity. Actually, the thin rope is being drawn in, a brief video on
tv news one day revealed the truth, that the thin ropes are where matter
is being sucked into the center of giant cavities. Ropes are being drawn
into the sidewalls of the deepsink standing body vortex on Jupiter known
as the giant red spot.
It turns out that the ropes 'thin' by accelaration by second per second
causing the stream to narrow - molecules hurtling their final stretch
into a black hole have been pictured in models as thinning into a
strung out stream of atoms as the molecules stretch out, then dissolve
pulled apart as the atoms closest to the black hole accelarate faster
and faster than the atoms behind.
In smoke, speeds are far below relativistic obviously still there
are stupendous dynamo forces at work. The cavities (such as seen
volcanically above, and here in the base of a column of smoke from
an atomic bomb explosion shortly after detonation, is where pressure
(or low temperature gradiant) is lower and much lower then temps in the
surrounding maelstromes. Material of higher density close enough nearby
is drawn into the lower pressure cavity, the stream accelarating by sec
per sec, (though not per second Squared), stretches out and thins.
This as visibly exampled right here on earth explains tympany resonators
occuring in nebulas and even in giant galaxies, especially where mighty
collisions have or are occuring. In principle tympani formation formulas
and dynamo thermodynamic aspects are the same, regardless of size or
source of origin.
I have not seen a reverse (rear) side of a tympani resonator in smoke
from intense structure fires or volcanos, but certainly have in nebulas
and galaxies.
In the case of earth phenomena sources too much seeth is going on in
rapid changes in the columns and plumes where streams are being drawn
in, forming tympani resonator shapes, and so only a source face is seen
(six sided accoustic formed cavity with matter thin-streaming into the
center of the six sided cavity where all oppositive forces are equalized
(at the center where the least disruptive chaos occurs allowing the
typmani pattern to exist for enough time to be said to have a
significant lifetime before decaying).
In the case of nebulas and galaxies, the whole realm is tenuosly frail
and fragile at best, even the densest galaxy matter as seen by telescope
has nothing nowhere equivelent to the density gradiants of ordinary
clouds floating overhead in atmospheres of earth.
It means very little in the way of disruptive chaoses are present inside
a galaxy or nebula's tympani area. When the matter begins to instream it
continues to accelarate entering the depth of the six sided tympani
cavity, the accelarated moment of vector enough to keep the flow kenetic
enough to flow out the other side, in which case statics, magnetics, even
gravity, drag now against the stream forming tongs looking not at all
unlike general motors electrical generating dynamos and motors from 100
years ago (turn of the century into 1901).
I have to conject that it may be possible dynamos do not have a
tynpani on their opposite side facing away in the exact opposite
polar direction (which would be the case if the matter stream is
accelarating from a large clump and not instreaming under thinning
string accelaration), also, it should be possible (allowing full
conjectals to null and void needless speculation), that tympanis'
do not have a dynamo at their backside, the data stream being
broken up or absorbed by chaoses deep within a tympani whose
outer opening seems routinely six sided with the stream entering
into the depth of the six sided cavity.
Elbow arms are still a mystery to me, I still do not have a logically
self evident explanation for them. Elbow arms are seen most frequently
in the mighty turbulent collisions of galaxies, one travelling at a
much higher velocity then the other.
For instance a really spectacular tynpany in a cleave folding together
where two galaxies seem to have partially merged, their super dense
massive black holes now separated from their original main galaxy
pictures, now both ruined, the core of the second galaxy in
Ngc 4038 hardly slowed is sailing almost on its own straight on out
its path hardly bent (it is the smaller seen right hand core now above
and aiming away at high speed from the point of main collision at the
cleave where the tympanis have formed and still exist intact at the
cleave between two galaxies - I suspect that because of the cleave
neither galaxy is going to emerge from the collision in any way
still intact according to original formation before merging through
each other, the right hand galaxy obviously the faster traveller of
the two - zoom - the core has kept on going trajectured upper right
and vectored rearward at high enough speed to allow visually following
its telltale trail dragging foreward through the moils behind.
The most spectacular tynpani resonator I have seen yet is ,
in a super active hot new blue starbirth region of the large nearby
triangulum galaxy concidered very mysterious in astronomy storybooks
for not having an equitable sized core, in equivalent size the tiny
core of triangulum is almost none existent. It is relevant that this
galaxy has had a serious encounter impacting with something else,
the most telltale signals are the abrupt incised edge along its
left flank, as if sheered as two oceon liners sideswipe each other.
In triangulum are numerous knots of very actively intense hot blue
new star births and one of the most intense is a region called
the strawberry.
As photographed by hubble as one of Hubbles most definative earliest
images showing off hubble abilities, the image was so carefully recorded
by astronomers that it (the image) can be highly enhanced, and zoomed
into detailed closeups, without loosing image integrety or details.
Thus, witness the following 'tympani resonator' it is the most spectular
and self evident I have yet seen amongst thousands of astronomy images
available for the public to view on the internet.
The long graceful coherent thin arc of this the 'strawberry tympani'
is different from others in not have an 'eblow arm'. An elbow arm
is an abrupt right angle jog in the long rood of matter which juts
straight forward from the cavity of a potently active tympani resonator.
I have no explanation for the abrupt right angle 'elbow arm jog'. In
the case of the long thin teapot handle arc of the 'strawberry tympani'
I can see that material is flowing out from (highlighted small area, and
appears to be moving very slowly rather than at high speed into the
maw of the tympani's six sided cavity. Little or minimum accelaration
will account for the more or less uniform length's cross sectional
radius, unlike other tympanis which image a noticable fact of
accelaration per second per second even if the accelatation is
very slow there is still a visible thinning in the stream as it
nears the six sided cavity's deep inner center area.
A more appropiate name is starberry, since this is by no means the
only place where a 'starberry' is found.
SOME TYMPANI RESONATORS ARE CAUSED BY RAPID ENTROPY FLOW, FROM LOWER
STATE TO HIGHER. SMOKE IS DRAWN IN BY VAVCUME AND BECOMES A THIN STREAM
ACCELATATING BY THE SECOND INTO A PORTAL
Please go easy - loooong load. You wait okay. Pictures scanned
from newspaper, degraded after a year (browned), need high DPI
in order to appear with brightness
in the low DPI of your browser. The higher DPI of a large size
original displayed small translates into a much handsomer picture
in browsers. Ergo, long load, several large pictures (you will not
see large) are coming up
TYMPANI RESONATORS IN A NUCLEAR EXPLOSION
In the
mundane local
venue of big mother Earth
tympani resonators have formed in the
superhot gases and plasmas of a nuclear explosion.
Here are two tympani, each different in form yet fundamentally
similar in being six sided - one a tympany resonator with cavity
shell and elbow arm jutting out - the other a cleaved fold
synomymous in form with atom crystals. Both tympani
are from the same base from which atop rises
an emormous billowing mushroom cloud,
the tympani in the base formed
not at the first instant
of explosion but
shortly after
In this
case, the nuclear
explosion is an atomic bomb. The
two tympani are seen in the base right near ground zero,
next. The images are shown uypsidedown, making
the tympani(s) easier to spot
ATOMIC EXPLOSION - GAS, PLASMA
SUGGESTED CAUSE FOR STRAIGHT LINE FRACTALS IN NUCLEAR PLASMA BALLOON
Round in circumpherence only, this very famous picture of an exploading
american nuke is cavitous, and is chisled with distinct straight edges
plus major tympanic outines (3 of 6 hexagram
edges against the inner edge of the protruding thong at left). The
importance is in the fractal tympanics (the different kinds of straight
edges), these are formations not found in normal thermodynamic theories
of temperature flows and plasmas
The 'brain' as it is historically called, predates the explosion into
materials and sonics, therefore the sonic fractals are operating large
scale at subatomic levels made macrocosmic by an expanding interference
pattern created in the ultra small where nuclii forged helium and the
binding energy released by the fusing baryons formed a bose condensate
whose image continued to grow to this size just before the transition
state into ruined chaotic matter being moved away (outward) by radiant
heat gradients of myriad kinds. (I think I got this correct - if not an
C+ for effort)
RUDIMENTARY TYMPANI RESONATORS IN THE SIDE OF AN ATOMIC EXPLOSION
Hexagram cavity 'tympani' version (with elbow arm jutting out)
Folded hexagram shell 'tympani' (atomic crystal version)
At least,
from these two
images from an atomic
explosion, we know that 'tympani's'
can be a function of superhot
gases and plasma physics
Click here for large image
A simple created composite eerily creates a more than 2%
approximation of the twin bellows and midrift of the Eta
Carenae Nebula, the eerie look-alike just two atomic bomb
mushroom clouds joined end to end. Interplays betwen superhot
dusts, gases, and
plasmas (all three substances) produces the energy fluid's dynamics
Download this other 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
Here
is a small
piece from a large
galaxy image of M101. The
moire in the small piece is constant
through zooms, as are the moire saturating the
field space surrounding M101. Download the original
large image and see in a graphic editor that the moire
change in density and saturation, but do not change
in form, through successive zooms, indicating
that the moire are coherent constants in
the deep space field fabrics, rather
than mere interference pattern
overlays such as seen in
this screen captured
view of that
VOLCANO - ASH
LATERAL SIDE VENTS - LIKE SMALL ARMS IN A GALAXY
Integral arms at right angles to main large
flow,
rudimentary 'ribbed' tympani near base of flow issue
Large horizontal pushouts in a vertical flank
Entropy stream joins another, round collars (wormgears) where streams join
Little 'wogs' stick out of dark portals
A GEYSER PHOTO SHOWING TWO ENTROPY STREAMS
Two ropes (entropy streams) are seen being sucked back into a geyser's
plume. In this case two portals with dark cavities with round collars,
are seen at the larger rope (outer upper right), only one portal can
be seen at the shorter rope due to orientation.
All images similar (of volcanoes, and fierce structural fires) shown
live on TV or film show smoke or flame being drawn into a narrowed
portal, the slip stream growing thin and compact as it enters a portal
(round opening).
Oddly enough, this low resolution image reveals more details when
displayed at a 50% larger size, the above geyser photo is displayed
50% larger than actual image size.
RUDIMENTARY TYMPANI RESONATORS, AND RIVERS OF ENTROPY AT ODD
ANGLES, IN A LARGE STRUCTURE FIRE
SMOKE - PARTICLES
LARGE HOT STRUCTURE FIRE
Vertical irratic sheeting fire flares not unlike similar
sheeting flares seen in the irregular
Triangulum galaxy
SEPARATING ENERGY REACTION - AND RESULT
I have
just spotted
something which could
be of greater rather than lesser
significance. Notice in the above fire picture
that flames are being drawn into a flowing stream into a
portal back into the main uprising column of dense
smoke, in the upper right corner.
The
flames start
well evolved out in the
open and narrow into the small suckhole
portal in the rearwall mass of dark uprising smoke.
Two views next are shown each pair focused in overlay
together better revealing how the stream flows
backward and up into the suckhole.
(Go crosseyed or
drift forcus to merge image
pairs. Works for me. Should work for you).
Any of you.
newcomer to my
particular ways of thought,
will be thinking what is the big deal.
Everybody knows what pictures of major fire
structures are like and who sees anything but
what everyone sees, in them. But watch.
Read the next paragraph. Then,
keep reading on.
ENERGY FIREBOXES
Someone
looking at
this picture from
any other angle other than
upright, and not recognizing horizontal
sitting building structures for reference (not by
stupidity but happenstance due to particular cropping in
the image), would conclude that the tongue of flame is
issuing from a small portal out into the open to
finally appear fully evolved.
This
is exactly
the case in tympani
resonators seen issuing from six
sided energy constructions in galaxies and
nebulas, that even, as well, from atomic bomb explosions.
tympanis and sundry matter streams seem to issue from
small portals, expanding into large presentations
out in the open.
So now
there are two
possibilities, which, both,
are probably correct. Some celestial flows
do issue from portals into the open, and some, it
now seems, may be slipstreaming slipstreaming in the opposite
direction, being drawn into the portals,
which are thus suckholes.
The
atomic bomb
six sided tympani
resonator seen in the upper
left of the opening image, seems probably
an issue out of the portal. The flange of flame in the
above fire view is obviously a withdraw sucking
into the suckhole.
Do not forget
that flames as above,
are oxygen based chemical reactions,
totally unlike star field and galaxy based nuclear
processes which energy react matter in particular
in creating superhot ionnized fields which
behave totally unlike normal chemical
laboratory bench test flames.
There
has to be a
difference between
the two reaction forms, but,
perhaps, fundamentally, both processes
reach back further into fundamental thermodynamics
and entropy properties and this point are similar
if not identical in principles.
What this
could mean is
the source of celestial
energies is nuclear and the results
of the energies can be chemical in fundamental
property behaviors, that is, the same as how the chemical
results behave, yet not sourced from how chemical reactions occur
from one electron transition to another giving off and absorbing
units of heat. It is now the result itself, that contains the
picture of certain chemical reactions, not the heat
exchanging reactions per se.
In inevitable word,
the energy reaction, and result,
may be two entirely separate phenomena merged together.
Something like electricity and magnetism, two different manifestations
merged together, rather than energy and mass which are the
same manifestion in two different forms.
TYMPANIS
Rudimentary
tympani come and
go in manifestations lasting
only long seconds at most in seething
heat gradients the tympanis made by explosive
fluid pressure differences as one part
in fire turns on, another
weakens or fades
Fire
arc in
horizontal
plane around base
has been seen in a pair of
colliding galaxies, note how alike
The
difference
between the remarkable
verisimilitude between fire and similar
forms found in galaxies, is the fire forms last but a
few seconds at the very most so most all go unnoticed except
when chance captured in photo, whereas galaxy forms of a similar
nature to fire go on for nations and histories of evolution
their forms capture also by change of frequencies and
exposure time and particular telescope optical
or electronic. Two images of a galaxy by
two different machines may look so
different you may have to
stretch your lobes
to see the two
as the same
galaxy but
the thermodynamic
forms go on anyway whether we
capture them or not. Fire forms will be gone
in a minute. Volcano forms of similar kind are longer lasting
(tautology said), except, good photos showing volcano plumes
fully evolved and in sharp detail are very few, very far
between, you just cannot find good images of
volcano smoke. But, now, the search
is on, fires too, plus atomic
explosions, what else.
The search is on
THERMODYNAMIC DISTINCTIONS IN SMOKE
Thermodynamic
compositions in clouds
can be similar, yet also different,
than smoke in a large structure fire or volcano
which can be very similar. The composition difference
is in temperature and densities. Clouds are cool with molecules
of fog at low concentrations per cubic centimeter. Volcano plumes
and large structure fires are very hot with thick high temporature
concentrations per cubic centimeter. The hot high density smokes
pour and stream in concentrated cords and flows at odd
angles to the basic updraft of the smoke cloud
as a whole. This is different angular
momentums directing the different
heat concentrations in
entropies which
stream and
flow
like rivers.
Heat gradiants between
smoke flows can be great even extreme
in small areas of compact concentration while heat
gradiants in clouds are slight at best over large and very
large areas. In between these two extreme forms (clouds, and smoke)
are galaxies whose thermodynamic properties comprise comparative slight,
main, and extreme, heat gradiants between concentrations which are
of profound low density. The chism between heat and density
is so far apart in galaxies that temperatures at super
cooled degrees co-exist with high degrees far
hotter than the corona of the sun, but
in concentrations so low that only
a few molecules exist per
cubic centimeter down
to intense heat
sources (individual stars)
each separated by a light year or more.
And yet, galaxy formations and formations in arms
and thermodynamic functions in arms can be similar if not the
same to those found on Earth in large structure fires, clouds, and
volcanos. Let's enter the amateur experimentor phase. The steam kettle
in your kitchen fills the kitchen with steam. It is similar to clouds
(a fog), is thicker and hotter than fog (steam) yet comprises a
low concentration of molecules per cubic centimeter by a
ratio of about 1800 to one compared to water. A
star fills space at a concentration of one
point source particle per cubic light
year or less. The nearest star
appears as a scintillating
point of light on Earth
and in space a piercing
pin point without scintillation
caused by Earth atmosphere. Look at any
galaxy photo with enough resolution to photograph
stars and there they are, all clustered together like dimly
glowing poppy seeds held together by mixtures of thick liquids. The
texture of the mixture, and size of the stars, is entirely due to the fact
that no Earth instrument is capable of achieving resolution to the maximum
range of showing galaxy stars as each a single non-scintillating point
source separated by distances each of a light year or more. The
amateur experimet phase continues by going to outer space
and seeing two stars, our Sun, and the next nearest
star over. If both radiated so bright, or were
so large, that radii filled the space of
four light years between with two
single objects, these would
be the stars seen in
galaxy images
that show
individual stars.
The discrepency between real
stars (infitinetisally small point sources)
and apparent stars (poppy seeds pushed together in
compacts) is due to lack of impossible resolution in imaging
means. Now, the amateur experiment phase shifts back to smoke
and entropy heat flows in fog and fires. Even though fog (molecules) and
smoke (particles) seem to form vaporously solid surfaces to the naked
eye which sees only in low resolution composites, yet individual point
sources in each media are so far apart the spaces can be measured.
An individual arm of smoke pouring out of a towering billow
of smoke and flame in a fire (particles) is little
different, in fact can look exactly the same
as, a long thin arm bursting laterally
out of the side of a volcano (ash).
Such arms are seen prolifically
in galaxies, particularly in
galaxies which are chaotically
irregular such as Triangulum, and Ngc 4414.
Within anomalous arms such as cited, individual turmoils
localize in irregular patterns which can range from diffuse clumps
or star birth regions, to corded segments of length with ribbed collars
wrapped around in regular order not unlike viewing a segment
of artery or vein whose muscle structure forms cords
their whole length. We know what causes the
cording around segments of artery or
vein but what in galaxies can
do similar work. It is
possible that
high frequency and
super high frequency gravity
waves have in them the kind of polarization
and/or phasing to create such structures, as seen in the
midsts of an arm in the Triangulum galaxy (see detailed image below).
The amateur experiment phase ends. The amateur turns off the steam
kettle. The amateur lets the steaming fog leave the kitchen.
The amateur closes the lab door and goes home. Now,
amateur is not the reincarnation of Isaac
Newton. The amateur did not spell
out every detail in the
form of rigorouly
crafted equations,
so crafted so rigorous
that not even a techno babble
specialist let alone a macro babble pro
could understand them for at least a half a century.
The amateur did what the amateur does best, spell
text out in word formulas and let the nobel
prize winners spin out the equations.
Deed done. Smoke, clouds, and
galaxies, know similar
thermodynamic
properties.
Deed done. I
do not have to
explain why they are
similar. I only have to show that they are
similar. Add to the list slipstreams. Deed done - GM
MASSIVE TYMPANI IN GALAXY NGC 4414
From
the side of
Ngc 4414 an arm
initiates a strong out-thrust
thermodynamically behaving like a lateral
arm of smoke into space to abruptly jog in a
right angle to stream trailing along
the left plane of the galaxy
3D VOLCANO DEMONSTRATES ABRUPT RIGHT ANGLE JOG IN KENETICS
3D volcano - view with red/blue 3D glasses
The
abrupt right
angle jog of a plume
from a volcano is easy to understand
in prosaic terms, as the point where kenetic energy
and heat reservoir in a rising column reach an altitude where
the driving updraft kenetic energy is depleted enough for the
plume to stop against a ceiling where angular momemtum in
prevailing winds immediately takes over carrying the
plume along in a long right angle trail. On the
moon IO of Jupiter, the plume continues
to rise until a height of 200 or more
kilometers is reached and the plume
spreads out into a wide umbrella
gradually showering back to the
surface. In a galaxy, or nebula
the jetting plume reaches cold
outer space but is this enough
to cause an abrupt right angle
jog, and furthermore what is the
prevailing drift that extends a plume
into a long trailing galaxy arm, or a tightly
contained jet object such as in Eta Carenae nebula,
other than the plume coming effectively to a halt as its
initial kenetic energy runs out then stays behind as the galaxy
or nebula continues to move, carrying the plume source with it, which,
continuing to jet, creates a long trailing plume aftermath, the opposite of
of the mechanics of plumes which can drift a trail across an oceon on the Earth.
The endstop in kenetic drive from a galaxy portal can explain why galaxy arms
that string out in a trail from an abrupt jog are very irregular, the arm
is being formed continuously in real time by uneven puffs which form
the cotton ball look which many galaxy arms have. A long thin
dark along the middle triangular ridge of an arm is a
different matter, like the central nerve string
in a lobster or shrimp, it may be tidal
forces at work, one side of the arm
travelling at a velocity slowed
slightly to the other, the
result a dark valley in
a line where the two
velocities try to
equalize, like
bands around
Jupiter. You
would think
the puffs jetting
from the side of a galaxy
would continue to drift along with
the same angular momentum as the jet source,
forming a bulging bulb, but gravitational tide
has enough effect to deem the puffs at the end of
their kenetic outhrust to 'orbit' at a slightly
slower velocity and so inexorably drag out
into a gradually extending trail of
slower motions weakening
Turned
sideways, the
volcano is a little
more like an arm issuing out
into the open from the side of a galaxy,
and its operating 2-color stereo is
effectively squelched
RIGOROUS TEEMING ORDER WITHIN APPEARENT DISORDER
(IN TRIANGULUM GALAXY)
The
area zoomed
in the above image is
a prismatic circular round where
the jutting arm pouring forth from under the
core abruptly jogs back and ploughs into the round.
A cube seems to be floating along like an ice
cube riding high in a river of slush
Click here for large image with highlighted windows
The
little
woggle upper
left, a super hot star
field area of prolific new star
births, is the famed 'Hubble photo' astronomy
object within which is the even more famed 'stawberry'
center. This anomaly is so large it can be seen in
easy view in the Triangulum galaxy at large.
It has physics dynamic principles
in it you wouldn't believe
until you see them
with your own
keen eyes
here
Click here to see what this little orniment has to reveal about cosmic physics
INDIVIDUAL STARS SEEN IN A CLOSE ZOOMED TINY SEGMENT OF NGC 206
4
6
Note
similarities
to this zoom and above
zoom of a tiny segment of Triangulum.
The look and feel of galaxy media mix is like
this, seemingly, in every galaxy except in diffusive
elliptical galaxies which have little to no thermodynamic
gradiants in their greater outer shells. Gravity
waves from turbulence and chaos are a
galaxy's way of restoring and
evolving its chaos
toward harmony
and peace
completed in
the arrival of highest
intensities and frequencies imaginable,
so high frequency that some of the evolutionary
processes in galaxies have arrived at a status where the
processed forms are no longer detectable in normal thought views
APOD source for
DIRECT project image of individual stars in Ngc 206 near Andromeda
Ngc 206
is a small elliptical
galaxy which hoves over the rear
of Andromeda (backside) after having ripped
up through Andromeda off the greater left foot of the
core. Ngc 206 is still tied to Andromeda by many tethers
of drag, and tiny filamental fingers which arc back into the
nearest neaby Andromeda regions above the rear rim up in the
space-air well forward of the rear rim. The passup through
Andromeda can well account for the existence of hot
new stars the existence of great puzzle and
excitement to serious astronomers
Rapsody
in blue. An
integral arm jetting
from the side of Bodes galaxy
streams in a long trail backwards from
the assumed forward rotation of the galaxy
side from whose underdeck the arm is
issuing at a right angle to the
galaxy plane before taking
an abrupt right angle
jog backwards. Oh
those jogs are
sooo right
angle
See more bode here
ANCIENT SEDIMENATRIES ON MARS A GOOD LOOK-ALIKE FOR ANALOGY
OF GRAVITY WAVES
Ribs at
right angles to
main lines seen in gravitic
waves for instance here at M101,
are modelled by cross ribs
in the Mars ancient
sediments photo
Here is
an example of
what happens when
a good astonomy image is
extemporized for the expedience
of good show in pro circumstances, the
Mars sedimentary image re-hashed to suit an
international news media site's low content high
volume Internet news site, the Mar image reduced to
a vestigual of its former glory, nothing in the image
at all which can be used for definitions, yet used by
the site (unnamed for lawsuit reason) screaming
the image as cutting edge. It is no wonder
that so many pros in astronomy are
amateurs and so many amateurs
are hopelessly lost
For one thing,
the image is upsidedown
Web site/display/designs/image enhancements - Greydon Moore
World's largest cosmic teaching site - Ottawa 2001/2004
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THERMODYNAMIC MOTIONS IN FLUIDS SEEM TO BE MAJOR CONSTRUCTORS IN GALAXY ARMS, AT ODDS WITH PURE FUNCTIONS OF GRAVITY FORCE ONLY |
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As photographed by hubble as one of Hubbles most definative earliest images showing off hubble abilities, the image was so carefully recorded by astronomers that it (the image) can be highly enhanced, and zoomed into detailed closeups, without loosing image integrety or details. Thus, witness the following 'tympani resonator' it is the most spectular and self evident I have yet seen amongst thousands of astronomy images available for the public to view on the internet.
The long graceful coherent thin arc of this the 'strawberry tympani' is different from others in not have an 'eblow arm'. An elbow arm is an abrupt right angle jog in the long rood of matter which juts straight forward from the cavity of a potently active tympani resonator. I have no explanation for the abrupt right angle 'elbow arm jog'. In the case of the long thin teapot handle arc of the 'strawberry tympani' I can see that material is flowing out from (highlighted small area, and appears to be moving very slowly rather than at high speed into the maw of the tympani's six sided cavity. Little or minimum accelaration will account for the more or less uniform length's cross sectional radius, unlike other tympanis which image a noticable fact of accelaration per second per second even if the accelatation is very slow there is still a visible thinning in the stream as it nears the six sided cavity's deep inner center area.
A more appropiate name is starberry, since this is by no means the only place where a 'starberry' is found.
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| Please go easy - loooong load. You wait okay. Pictures scanned from newspaper, degraded after a year (browned), need high DPI in order to appear with brightness in the low DPI of your browser. The higher DPI of a large size original displayed small translates into a much handsomer picture in browsers. Ergo, long load, several large pictures (you will not see large) are coming up |
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TYMPANI RESONATORS IN A NUCLEAR EXPLOSION
In the
mundane local
venue of big mother Earth
tympani resonators have formed in the
superhot gases and plasmas of a nuclear explosion.
Here are two tympani, each different in form yet fundamentally
similar in being six sided - one a tympany resonator with cavity
shell and elbow arm jutting out - the other a cleaved fold
synomymous in form with atom crystals. Both tympani
are from the same base from which atop rises
an emormous billowing mushroom cloud,
the tympani in the base formed
not at the first instant
of explosion but
shortly after
In this
case, the nuclear
explosion is an atomic bomb. The
two tympani are seen in the base right near ground zero,
next. The images are shown uypsidedown, making
the tympani(s) easier to spot
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SUGGESTED CAUSE FOR STRAIGHT LINE FRACTALS IN NUCLEAR PLASMA BALLOON
Round in circumpherence only, this very famous picture of an exploading american nuke is cavitous, and is chisled with distinct straight edges plus major tympanic outines (3 of 6 hexagram edges against the inner edge of the protruding thong at left). The importance is in the fractal tympanics (the different kinds of straight edges), these are formations not found in normal thermodynamic theories of temperature flows and plasmas
The 'brain' as it is historically called, predates the explosion into materials and sonics, therefore the sonic fractals are operating large scale at subatomic levels made macrocosmic by an expanding interference pattern created in the ultra small where nuclii forged helium and the binding energy released by the fusing baryons formed a bose condensate whose image continued to grow to this size just before the transition state into ruined chaotic matter being moved away (outward) by radiant heat gradients of myriad kinds. (I think I got this correct - if not an C+ for effort)
RUDIMENTARY TYMPANI RESONATORS IN THE SIDE OF AN ATOMIC EXPLOSION
Hexagram cavity 'tympani' version (with elbow arm jutting out)
Folded hexagram shell 'tympani' (atomic crystal version)
At least,
from these two
images from an atomic
explosion, we know that 'tympani's'
can be a function of superhot
gases and plasma physics
Click here for large image
| A simple created composite eerily creates a more than 2% approximation of the twin bellows and midrift of the Eta Carenae Nebula, the eerie look-alike just two atomic bomb mushroom clouds joined end to end. Interplays betwen superhot dusts, gases, and plasmas (all three substances) produces the energy fluid's dynamics |
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Download this other 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
Here
is a small
piece from a large
galaxy image of M101. The
moire in the small piece is constant
through zooms, as are the moire saturating the
field space surrounding M101. Download the original
large image and see in a graphic editor that the moire
change in density and saturation, but do not change
in form, through successive zooms, indicating
that the moire are coherent constants in
the deep space field fabrics, rather
than mere interference pattern
overlays such as seen in
this screen captured
view of that
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LATERAL SIDE VENTS - LIKE SMALL ARMS IN A GALAXY
Integral arms at right angles to main large flow,
rudimentary 'ribbed' tympani near base of flow issue
Large horizontal pushouts in a vertical flank
Entropy stream joins another, round collars (wormgears) where streams join
Little 'wogs' stick out of dark portals
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Two ropes (entropy streams) are seen being sucked back into a geyser's plume. In this case two portals with dark cavities with round collars, are seen at the larger rope (outer upper right), only one portal can be seen at the shorter rope due to orientation.
All images similar (of volcanoes, and fierce structural fires) shown live on TV or film show smoke or flame being drawn into a narrowed portal, the slip stream growing thin and compact as it enters a portal (round opening).
Oddly enough, this low resolution image reveals more details when displayed at a 50% larger size, the above geyser photo is displayed 50% larger than actual image size.
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LARGE HOT STRUCTURE FIRE
Vertical irratic sheeting fire flares not unlike similar
sheeting flares seen in the irregular Triangulum galaxy
SEPARATING ENERGY REACTION - AND RESULT
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Ngc 206
just spotted
something which could
be of greater rather than lesser
significance. Notice in the above fire picture
that flames are being drawn into a flowing stream into a
portal back into the main uprising column of dense
smoke, in the upper right corner.
The
flames start
well evolved out in the
open and narrow into the small suckhole
portal in the rearwall mass of dark uprising smoke.
Two views next are shown each pair focused in overlay
together better revealing how the stream flows
backward and up into the suckhole.
(Go crosseyed or
drift forcus to merge image
pairs. Works for me. Should work for you).
Any of you.
newcomer to my
particular ways of thought,
will be thinking what is the big deal.
Everybody knows what pictures of major fire
structures are like and who sees anything but
what everyone sees, in them. But watch.
Read the next paragraph. Then,
keep reading on.
ENERGY FIREBOXES
Someone
looking at
this picture from
any other angle other than
upright, and not recognizing horizontal
sitting building structures for reference (not by
stupidity but happenstance due to particular cropping in
the image), would conclude that the tongue of flame is
issuing from a small portal out into the open to
finally appear fully evolved.
This
is exactly
the case in tympani
resonators seen issuing from six
sided energy constructions in galaxies and
nebulas, that even, as well, from atomic bomb explosions.
tympanis and sundry matter streams seem to issue from
small portals, expanding into large presentations
out in the open.
So now
there are two
possibilities, which, both,
are probably correct. Some celestial flows
do issue from portals into the open, and some, it
now seems, may be slipstreaming slipstreaming in the opposite
direction, being drawn into the portals,
which are thus suckholes.
The
atomic bomb
six sided tympani
resonator seen in the upper
left of the opening image, seems probably
an issue out of the portal. The flange of flame in the
above fire view is obviously a withdraw sucking
into the suckhole.
Do not forget
that flames as above,
are oxygen based chemical reactions,
totally unlike star field and galaxy based nuclear
processes which energy react matter in particular
in creating superhot ionnized fields which
behave totally unlike normal chemical
laboratory bench test flames.
There
has to be a
difference between
the two reaction forms, but,
perhaps, fundamentally, both processes
reach back further into fundamental thermodynamics
and entropy properties and this point are similar
if not identical in principles.
What this
could mean is
the source of celestial
energies is nuclear and the results
of the energies can be chemical in fundamental
property behaviors, that is, the same as how the chemical
results behave, yet not sourced from how chemical reactions occur
from one electron transition to another giving off and absorbing
units of heat. It is now the result itself, that contains the
picture of certain chemical reactions, not the heat
exchanging reactions per se.
In inevitable word,
the energy reaction, and result,
may be two entirely separate phenomena merged together.
Something like electricity and magnetism, two different manifestations
merged together, rather than energy and mass which are the
same manifestion in two different forms.
TYMPANIS
Rudimentary
tympani come and
go in manifestations lasting
only long seconds at most in seething
heat gradients the tympanis made by explosive
fluid pressure differences as one part
in fire turns on, another
weakens or fades
Fire
arc in
horizontal
plane around base
has been seen in a pair of
colliding galaxies, note how alike
The
difference
between the remarkable
verisimilitude between fire and similar
forms found in galaxies, is the fire forms last but a
few seconds at the very most so most all go unnoticed except
when chance captured in photo, whereas galaxy forms of a similar
nature to fire go on for nations and histories of evolution
their forms capture also by change of frequencies and
exposure time and particular telescope optical
or electronic. Two images of a galaxy by
two different machines may look so
different you may have to
stretch your lobes
to see the two
as the same
galaxy but
the thermodynamic
forms go on anyway whether we
capture them or not. Fire forms will be gone
in a minute. Volcano forms of similar kind are longer lasting
(tautology said), except, good photos showing volcano plumes
fully evolved and in sharp detail are very few, very far
between, you just cannot find good images of
volcano smoke. But, now, the search
is on, fires too, plus atomic
explosions, what else.
The search is on
THERMODYNAMIC DISTINCTIONS IN SMOKE
Thermodynamic
compositions in clouds
can be similar, yet also different,
than smoke in a large structure fire or volcano
which can be very similar. The composition difference
is in temperature and densities. Clouds are cool with molecules
of fog at low concentrations per cubic centimeter. Volcano plumes
and large structure fires are very hot with thick high temporature
concentrations per cubic centimeter. The hot high density smokes
pour and stream in concentrated cords and flows at odd
angles to the basic updraft of the smoke cloud
as a whole. This is different angular
momentums directing the different
heat concentrations in
entropies which
stream and
flow
like rivers.
Heat gradiants between
smoke flows can be great even extreme
in small areas of compact concentration while heat
gradiants in clouds are slight at best over large and very
large areas. In between these two extreme forms (clouds, and smoke)
are galaxies whose thermodynamic properties comprise comparative slight,
main, and extreme, heat gradiants between concentrations which are
of profound low density. The chism between heat and density
is so far apart in galaxies that temperatures at super
cooled degrees co-exist with high degrees far
hotter than the corona of the sun, but
in concentrations so low that only
a few molecules exist per
cubic centimeter down
to intense heat
sources (individual stars)
each separated by a light year or more.
And yet, galaxy formations and formations in arms
and thermodynamic functions in arms can be similar if not the
same to those found on Earth in large structure fires, clouds, and
volcanos. Let's enter the amateur experimentor phase. The steam kettle
in your kitchen fills the kitchen with steam. It is similar to clouds
(a fog), is thicker and hotter than fog (steam) yet comprises a
low concentration of molecules per cubic centimeter by a
ratio of about 1800 to one compared to water. A
star fills space at a concentration of one
point source particle per cubic light
year or less. The nearest star
appears as a scintillating
point of light on Earth
and in space a piercing
pin point without scintillation
caused by Earth atmosphere. Look at any
galaxy photo with enough resolution to photograph
stars and there they are, all clustered together like dimly
glowing poppy seeds held together by mixtures of thick liquids. The
texture of the mixture, and size of the stars, is entirely due to the fact
that no Earth instrument is capable of achieving resolution to the maximum
range of showing galaxy stars as each a single non-scintillating point
source separated by distances each of a light year or more. The
amateur experimet phase continues by going to outer space
and seeing two stars, our Sun, and the next nearest
star over. If both radiated so bright, or were
so large, that radii filled the space of
four light years between with two
single objects, these would
be the stars seen in
galaxy images
that show
individual stars.
The discrepency between real
stars (infitinetisally small point sources)
and apparent stars (poppy seeds pushed together in
compacts) is due to lack of impossible resolution in imaging
means. Now, the amateur experiment phase shifts back to smoke
and entropy heat flows in fog and fires. Even though fog (molecules) and
smoke (particles) seem to form vaporously solid surfaces to the naked
eye which sees only in low resolution composites, yet individual point
sources in each media are so far apart the spaces can be measured.
An individual arm of smoke pouring out of a towering billow
of smoke and flame in a fire (particles) is little
different, in fact can look exactly the same
as, a long thin arm bursting laterally
out of the side of a volcano (ash).
Such arms are seen prolifically
in galaxies, particularly in
galaxies which are chaotically
irregular such as Triangulum, and Ngc 4414.
Within anomalous arms such as cited, individual turmoils
localize in irregular patterns which can range from diffuse clumps
or star birth regions, to corded segments of length with ribbed collars
wrapped around in regular order not unlike viewing a segment
of artery or vein whose muscle structure forms cords
their whole length. We know what causes the
cording around segments of artery or
vein but what in galaxies can
do similar work. It is
possible that
high frequency and
super high frequency gravity
waves have in them the kind of polarization
and/or phasing to create such structures, as seen in the
midsts of an arm in the Triangulum galaxy (see detailed image below).
The amateur experiment phase ends. The amateur turns off the steam
kettle. The amateur lets the steaming fog leave the kitchen.
The amateur closes the lab door and goes home. Now,
amateur is not the reincarnation of Isaac
Newton. The amateur did not spell
out every detail in the
form of rigorouly
crafted equations,
so crafted so rigorous
that not even a techno babble
specialist let alone a macro babble pro
could understand them for at least a half a century.
The amateur did what the amateur does best, spell
text out in word formulas and let the nobel
prize winners spin out the equations.
Deed done. Smoke, clouds, and
galaxies, know similar
thermodynamic
properties.
Deed done. I
do not have to
explain why they are
similar. I only have to show that they are
similar. Add to the list slipstreams. Deed done - GM
MASSIVE TYMPANI IN GALAXY NGC 4414
From
the side of
Ngc 4414 an arm
initiates a strong out-thrust
thermodynamically behaving like a lateral
arm of smoke into space to abruptly jog in a
right angle to stream trailing along
the left plane of the galaxy
3D volcano - view with red/blue 3D glasses 3D VOLCANO DEMONSTRATES ABRUPT RIGHT ANGLE JOG IN KENETICS
The
abrupt right
angle jog of a plume
from a volcano is easy to understand
in prosaic terms, as the point where kenetic energy
and heat reservoir in a rising column reach an altitude where
the driving updraft kenetic energy is depleted enough for the
plume to stop against a ceiling where angular momemtum in
prevailing winds immediately takes over carrying the
plume along in a long right angle trail. On the
moon IO of Jupiter, the plume continues
to rise until a height of 200 or more
kilometers is reached and the plume
spreads out into a wide umbrella
gradually showering back to the
surface. In a galaxy, or nebula
the jetting plume reaches cold
outer space but is this enough
to cause an abrupt right angle
jog, and furthermore what is the
prevailing drift that extends a plume
into a long trailing galaxy arm, or a tightly
contained jet object such as in Eta Carenae nebula,
other than the plume coming effectively to a halt as its
initial kenetic energy runs out then stays behind as the galaxy
or nebula continues to move, carrying the plume source with it, which,
continuing to jet, creates a long trailing plume aftermath, the opposite of
of the mechanics of plumes which can drift a trail across an oceon on the Earth.
The endstop in kenetic drive from a galaxy portal can explain why galaxy arms
that string out in a trail from an abrupt jog are very irregular, the arm
is being formed continuously in real time by uneven puffs which form
the cotton ball look which many galaxy arms have. A long thin
dark along the middle triangular ridge of an arm is a
different matter, like the central nerve string
in a lobster or shrimp, it may be tidal
forces at work, one side of the arm
travelling at a velocity slowed
slightly to the other, the
result a dark valley in
a line where the two
velocities try to
equalize, like
bands around
Jupiter. You
would think
the puffs jetting
from the side of a galaxy
would continue to drift along with
the same angular momentum as the jet source,
forming a bulging bulb, but gravitational tide
has enough effect to deem the puffs at the end of
their kenetic outhrust to 'orbit' at a slightly
slower velocity and so inexorably drag out
into a gradually extending trail of
slower motions weakening
Turned
sideways, the
volcano is a little
more like an arm issuing out
into the open from the side of a galaxy,
and its operating 2-color stereo is
effectively squelched
RIGOROUS TEEMING ORDER WITHIN APPEARENT DISORDER
(IN TRIANGULUM GALAXY)
The
area zoomed
in the above image is
a prismatic circular round where
the jutting arm pouring forth from under the
core abruptly jogs back and ploughs into the round.
A cube seems to be floating along like an ice
cube riding high in a river of slush
Click here for large image with highlighted windows
The
little
woggle upper
left, a super hot star
field area of prolific new star
births, is the famed 'Hubble photo' astronomy
object within which is the even more famed 'stawberry'
center. This anomaly is so large it can be seen in
easy view in the Triangulum galaxy at large.
It has physics dynamic principles
in it you wouldn't believe
until you see them
with your own
keen eyes
here
Click here to see what this little orniment has to reveal about cosmic physics
INDIVIDUAL STARS SEEN IN A CLOSE ZOOMED TINY SEGMENT OF NGC 206
4
6
Note
similarities
to this zoom and above
zoom of a tiny segment of Triangulum.
The look and feel of galaxy media mix is like
this, seemingly, in every galaxy except in diffusive
elliptical galaxies which have little to no thermodynamic
gradiants in their greater outer shells. Gravity
waves from turbulence and chaos are a
galaxy's way of restoring and
evolving its chaos
toward harmony
and peace
completed in
the arrival of highest
intensities and frequencies imaginable,
so high frequency that some of the evolutionary
processes in galaxies have arrived at a status where the
processed forms are no longer detectable in normal thought views
APOD source for
DIRECT project image of individual stars in Ngc 206 near Andromeda
is a small elliptical
galaxy which hoves over the rear
of Andromeda (backside) after having ripped
up through Andromeda off the greater left foot of the
core. Ngc 206 is still tied to Andromeda by many tethers
of drag, and tiny filamental fingers which arc back into the
nearest neaby Andromeda regions above the rear rim up in the
space-air well forward of the rear rim. The passup through
Andromeda can well account for the existence of hot
new stars the existence of great puzzle and
excitement to serious astronomers
Rapsody
in blue. An
integral arm jetting
from the side of Bodes galaxy
streams in a long trail backwards from
the assumed forward rotation of the galaxy
side from whose underdeck the arm is
issuing at a right angle to the
galaxy plane before taking
an abrupt right angle
jog backwards. Oh
those jogs are
sooo right
angle
See more bode here
ANCIENT SEDIMENATRIES ON MARS A GOOD LOOK-ALIKE FOR ANALOGY
OF GRAVITY WAVES
Ribs at
right angles to
main lines seen in gravitic
waves for instance here at M101,
are modelled by cross ribs
in the Mars ancient
sediments photo
Here is
an example of
what happens when
a good astonomy image is
extemporized for the expedience
of good show in pro circumstances, the
Mars sedimentary image re-hashed to suit an
international news media site's low content high
volume Internet news site, the Mar image reduced to
a vestigual of its former glory, nothing in the image
at all which can be used for definitions, yet used by
the site (unnamed for lawsuit reason) screaming
the image as cutting edge. It is no wonder
that so many pros in astronomy are
amateurs and so many amateurs
are hopelessly lost
For one thing,
the image is upsidedown
Web site/display/designs/image enhancements - Greydon Moore
World's largest cosmic teaching site - Ottawa 2001/2004
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