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"The strew is not random as if blown from a nostril, it is coherent, with definative physical properties, the main property being characteristic abrupt right angle jogs, called elbow arms".

COLOR CALIBRATION TEST - clarifying the elbow arms - blue removed from the red image".


"In the above image a zog sticks out to the right from above center. A torus tamarak, open at the upper west end, wraps in a broad ring around the two red flanges of infra red heat".

"The red globes are homunculus like the Eta Carina nebula. Homunculus means the dish surrounding the dumbell double puffs".

"Next, the red

Ngc 1275 image with blue included".

"Each of the thin red tendrils has a polar opposite counterpart on the opposite side of the galaxy. The zog does not have a counterpart".

"Next. Here is a dramatic change in persective by rotating the image. The Zog cannot be seen, it is zogged in the opposite direction, away.This is the same as whipping around in space and seeing the galaxy from the other side, the same as seeing the opposite side of the planet".


"This peer through the netherworld features the globular cluster population (white dots) in the Ngc 1275 mantle, and the black hole core. The vague grecian gods looming around the center are in the mantle of Ngc 1275".


"Another zog, in M87 in the neaerby Virgo galaxy cluster, does not go far past the elbow armjog. Pros are not sure why, and have never mentioned the jog. Stellar winds keeps knocking the stream off one side of the cafeteria at the confererence who are arguing against the other side who think it is ray shutdown. It is possible there are winds, think I. There may be streams in deep space itself, causing jogs and elbow arm in X-ray jets, galaxy arms, and the ejecta trails of tympani resonators. This cosmic wind is not unidirectional, it is not an ether. The cosmic winds flow in all directions though not all at the same time. Which is why you get zogs bending one way over here, and a bend another wat over there, between galaxies, and even within galaxies where magnetics take a more vibratorily intense piece making role tied to tympani impact vibration, powered by sonic stereo".

"The lazer itself is not seen. Too thin. What is seen is a long thin blazer as the hard lazer ray passes through stuff and both illuminates and spreads in compton scattering. There is little strew in the M87's zog mainly because at the moment M87 is acting only with itself".

"If it happens that all zogs bend in the same direction, in keeping with a ready made vector in the universal single spin vector of neutrinos, then the zog we see in M87 is by looking at the galaxy from behind, relative to looking at the zogs at Perseus, except, - Finger Up's finger is on the way up when it pauses, and comes back down, when Occam continues, "zogs on the uiniverse's biggest galaxy Ngc 1275, are sticking out all over".

"Except when you peer through the murky fish tank, you see that zogs on one side of Ngc 1275 bend in one direction, and those on the polar opposite side exacly across the diameter, are bending in the opposite direction. Spin properties of elementary particles are being revealed by the zogs. Which takes us straight back to universal cosmic bilaterial symmetry physics. Universal cosmic bilateral symmetry physics is one word".

"I am bringing back neutrino spins. The bottom line is that one half of the galaxy is separated from the other half by gravity. When gravity separates the intertia of neutrino single spin, the inertia gets around the block by recollecting and spinning at another angle, 90 degrees, that is not recognized by the interia in the other gravity half's neutrino environment. Gravity relativistic warping of both mass weight and space, is how neutrinos can recognize which inertia to use".



"A zog in the rubble at Centaurus A is similar to a zog in Perseus galaxy cluster's biggest elliptical galaxy, Ngc 1275".

"We know at once that the Big Zog in perseus is collision splatter. What about the possibility Gofast raised, that the splatter is a momentary leak from a black hole the hole impacted so hard it had not time to oscillate feeding on everything, instead it momentarily breached at the point of maximum oscillation - weakest horizon". No one answers. No one answered the last time this question was raised, and apparently Occam is not having inclination to put this in the classroom agenda.

"You know how intuitive ideas can hit with a sudden illumination. It has just occured, flash, that black holes may be generating the seek engines which are all over the universe.

"Finger Up! "Flash?" "An old hippy expression meaning got it in one, intensly", replies Gofast.

"The grabbling crackle that would seem to occure the second a black hole is breached may be where the patterns that make engineered machineries come from, from withinside the black hole were all matter is reduced to its compton mass energy and wavelength formulas. Speed of light keeps atoms apart from each other. This speed is not there inside a black hole. Inside it is proton Mev's and their compton wavelengths, electron Mevs and their compton wavelengths, and so on. The particle's compton wavelengths (compton wavespace) keep each other apart at their specific compton wavespace distances.

"The ion tower, and the spine, exist instead of atoms and molecules, inside a black hole".

Finger Up! "What's an ion tower?" "You'll see", says Gofast. "Check 'particleplanets.com'". "Crystal lattices and atomic structures become virtual, inside a black hole, not there in manifested form, there in potentials. When breached, the ion tower and spine revert to virtual and atomic crystal lattices become manifest in scales greater than fundamental physics by magnetudes of (10 x 10 to the power 27) and greater".


"These are long distance X-ray filaments crackling between giant galaxies in the Perseus cluster. They stay the same for millions of years".

Immediately, Sonic Shift picks up the slack and moves it right along:

"Show image of galaxy cluster dark matter ring around cluster dome center", instructs Occam.

Up comes, with text:

"Perseus at deep space in search of dark matter, the blue density rosette is definately blue. Galaxies in the middle are giants, so small, because of such large area in surrounding blue".

"Tiny galaxies are floating everywhere at every incline, no preferencial alignement or stacking. Every tiniest dot is a galaxy, elliptical dwarfs, very small".



Punch and Judy, the married couple, help rearrange some equipment Occam has brought in through a floor door by technicians. In a jiffy the whole front end of the classroom looks different, not of this solar system, so to speak. Step aside, chinese fireworks. The spectacles happening in the front of the room are better than black holes colliding, these black holes rupture, and burst out clouds of extraordinarily eerie steam, all in broad daylight for the roof of the classroom has disappeared and the sonic booming loudspeakers have kicked in.

Then presto, the technicians appear from the 5th dimension and cart everything away standing still. Then fade too.

Occam standing there as usual, begins:

"Thousands of galaxies. Every dot is a galaxy. The left of the two big dots is giant Perseus A elliptical galaxy. Gravity waves are in an ovular formation below Perseus A. Many elliptical galaxies (in strings), are revealed to be lined up mostly riding crests along peaks (not the valleys) of the waves. Your exercise for this month is to see if you can figure which came first, the galaxies, or the waves. Submit nothing if no answer is found a month from now", says Occam. Why wait, here is the answer".

"There is a trail converging upward, crossing the waves, and vanishing into the rosette. It means a massive intruder has plowed into the deep space of dwarf elliptical (small) galaxies creating the rosette by its doppler velocity punch. The size of the rosette is far bigger than the largest of the nearby galaxies".

"Next, there is something more of interest. There is another ring, made of medium sized elliptical galaxies, almost a perfect circle intrupted by the white giants. The galaxy circle follows troughs of gravity doppler waves".

"The trail through the ridges into the rosette includes small elliptical galaxies in a row going into the rosette. (Small are larger than dwarf, not as large as mediums or giants). Seeing a river of small ellipticals in a string to the rosette is another scale as to the sheer magnetude size of the Rosette. What appears to have gone into the maw is another galaxy cluster".






"I had to use close cousins for the above images, comparing two back to back reveals more details amongst the assults of information overload".


"More than a dozen galaxies including some medium sized glowballs are strung along peak ridges in the ovals. Only a couple are in valleys. Moire rill patterns are easy to obtain, a bit of windex sprayed on your computer screen will produce concentric moires though not necessarily full ovals, this suggests that cleaning solution on a curved telescope lens may be the culprit, except the moire rills in Perseus are occupied with galaxies. Super power engineering physics is at work rather, than mere spurious lens rills". It seems Occam is finished with the subject. No more is said. Moving on, Occam says: "Next".

"Immediately above and slightly to the right of giant Perseus A is a rosette made of galaxies. All of the galaxies, in the conventric circles formation, are smaller. The center seems indented. Your second assignment for this month is to determine if the smallness is nearby choice, or, if the rosette is a tunnel reaching much farther away in rearspace. If you end up booking telescope time, the observation time is added to the month. The only images so far seen showing the rosette are old black and whites taken with full spectrum Kodac astronomy grade emulsion plates. I could arrange to send you back in time but am not sure if all of your pieces would arrive back intact". This is a joke by Occam, not necessarily a joke.

"A weird thing, the closer to the view images focused as one, the more the concentric rings are easier to see, as are several straight line radians feeding from the south west hemisphere converging straight into a snall centerpoint to the left of the main center". Occam turns and adressed one of the students, who has a glass eye that sees nothing but black. "I can't help you, 3d is a luxury you will have to forget, viewing the rosette, use your higher consciousness, you can still see it is a rosette, righTTT. Get that frown off your face".

"A final runthrough of 3 radial rosette xooms cinches the existence of a powerfull deep space radial rosette made of galaxies".

Occam resumes the room.

"The chandra X-ray image, next, is impossible to understand in 2d without 3d.   If 3d is not your thing, schroll up going down and resume at the Crawford wide field cluster photo below". Occam waits enough time, then scrolls up down to the wide field. Meanwhile says Occum; "look closely in 3d to the bands of materials arcing around into depths, at polar torque angles analogous to the pullmotor neutrino's yin yang symmetries in the Crab Nebula. Awesome pullmotor, big enough to be easily seen beyond the next dimension".

"A long tympanic cylander of stupendous size is poking out of the deep hole in the Perseus X-ray vortex. The tympanic X-ray cylander is pointing past your left shoulder".

"Several thick donuts knotted twisting and turning, no donut continues between quadrants".

"A major parsing error is revealed in stereo, a razor edge slanting through the image center".

"Next. Booming sound waves (heaving gravity occilations) ripples seen in different X-ray's after 53 hours exposure by Chandra. The energy in the waves is said to help heat up gases enough for each of the red filaments, see next below, to stay stable for millions of years. This is quite the pullmotor. Modicum virtual 3d is enough to reveal that there are heights and depths in the peaks and valleys of the waves".

"The sonic booms, and X-rays masks, are a match. In the image below, go cross eyed. The two merge into one, their topologies are identical. The thin blue horizontal arc in mid pic in the X-ray appears in place in the corresponding arc in the sonic boom, the blue arc is tiny, you must fight your eye to get the blue arc ringing the white tip in the booms. Focusing is instant if you move closer to the screen, then you can pull back".

Assignment number 3 is to explain what the red dots are around the perifery of the sonic booms, seen the same as tiny green dots in the X-ray. They are there. Perseus is too far away for these to be seen as individual stars, we assume. So, they are, quess, quess ...... quesses are not an answer".

"Next. Perseus cluster photo by Crawford shows how thousands of galaxies can exist in this field, the field is the most massive object so far known weighing trillions of suns. Overlaying Milky Way stars have spikes".

"Thin red filaments comprising millions of solar masses each, are held in place by stupendous magnetic fields, which can do their thing using heat inputted by the sonic booms, according to year 2009 professional's concenses".

"With blue removed".

"Since most of the red flat lines are elbow joints bent at an albow sharp angle, the elbows are suggesting the flat red lines may each be attached to a different pole in an inner core area unseen behind the scenes. There may be more than one pole attaching the strings".

Slowfast, usually the quiet one, raises a hand and asks, "what if a black hole banged another too fast to be absorbed and dissolved the event horizon so that all this stringy matter came spewing out of the former black hole. Ruptured it. Rent it assunder. An exploding black hole. A breach opens, then immediately closes". The hand goes back down. Everyone is silent.

Occam resumes out of the silence.

"Next. Dark lava splatter is not explained in public domain official astronomy sites. Concidering the size of big elliptical galaxy Ngc 1275 - Perseus A - in the center of the fuss, the lava spew has significant mass".

"The two clone strews are hiding something behind them. Assignment number four is to find an infrared image showing how much mass is behind the optical barrier. Notice, meanwhile, there are artifacts in the strew the strew is partially coherent. Making hexagonal straight edges. Better resolution may show the central dark engine is a tympani resonator with a tiny elbow arm jutting out of a crystal cavity. Engineering physics is at work, not just gravity. And, what are the tiny yellow dots". "By the way", Occam adds, "blurry rags like this are better than the majority of astronomy images available for public downloads on the internet. Have you checked lately"?

"Task number 4 is to determine if the central figure is a tympani resonator, if so, it is of unusual size compared to tympanis' in spiral galaxies and nebulas".

"It could be strew from torn up disks of former elliptical galaxies. Friction could have caused enough charge to cause connections plugging into the big galaxy's core", says Babbet, delayed, quietly. Everyone has to stop moving to hear. "How come everywhere there are elbow joints? It looks like a hairdryer Telsa would have made".

"Assignment number 5", says Occam, after the laugh.

"Both Finger Up and IQ are absent today, which is why today's cosmic translation class went so smoothly".

Time passes as the classroom absorbs their tasks.

The giant 3d front wall vanishes, as does Occam.


Later today, Astronomy Guy from the telescope installation is in the class room arriving under tow of cosmic translation class participant Neapvajeep. Astronony Guy was not prepared for what follows shortly after arrival. The giant wall screen has been cleared of all information. And now in front of it is Greatstarr with an emergency presentation. The emergency is in the information coming out of the routine ongoings of the past two days. Some of the information seems contradictory and confusing. Greatstarr is here to set the translation straight.


In a presentation by Greatstarr. The descriptions are accompanied by motions images and many kinds of sounds on the giant wall.

"Motions of M101 can be inferred by ordinary sonic doppler shift rules, that motion toward increases pitch shortens wavebands, motion away stretches wavebands lowers pitch".

"The north east quadrant of M101 is rotating away from us. The south east quadrant is rotating toward us. Obsticles in the paths of the rotation effect local timbre, for instance the rattle and extended long thin west side arm are hammering through the thick space mediums around M101 causing vigrous cross current excitements of moire phased thin wave bands generated closely together. The north east quadrant of M101 has a long round edged contour with few obstacles. The result is less cross hatching, and fewer short waveband forms".

"In the north east, most of the gravitics are longer wavebands spaced farther apart. This is normal doppler shifting, the same as we hear when a loudspeaker on the back of a pickup truck races up the street. Lowwwwwww. When the pickup u-turns and comes racing back up the street the rock and roll increases in pitch. Higherrrrrr. And increases in volume as the truck careens nearer. The same volume increase can be made simply by turning up the loudspeaker volume when the pickup is standing still. In steady state volume fluctuations there is no change in pitch when there is change in volume. In moving dopplers the pitch goes up and volume increases as the pickup truck approaches".

"Common inference believes pitch decreases when sound waves stretch as being pulled like a piece of elastic candy. The clear picture of gravity doppler is, in receeding, the distance between wave fronts increases, and cross section width of each wave decreases. In the Andromeda bullseye, the east Andromeda end moving away has vertical bullseye fronds that are farther apart between fronds and thicker per each frond, than gravity motion doppler waves at Andromeda's west end which are thinner and closer together and horizontal. These waves are steady state, like a sonic boom travelling along with an aircraft, the gravity doppler waves of Andromeda stay much the same shape as Andromeda drifts along through deep space". The more dust and atoms in deep space through which Andromeda is drifting and rotating, the stronger the engineered gravity dobbler waves".

These waves are not oscillating, are not changing to another shape then back. They are in fact steady state. Start vibrating the school bus and its violin sound (kids all moving simultaneously together) will stay the same until the kids stop vibrating. The busy bus violin stays the same violin, it does not oscillate to viola then back to violin, unless the kids changed their vibratory pattern. Galaxies like Andromeda and M101 will oscillate their gravitic standing waves by a change in the galaxy, for instance when hit by an intruder or colliding".

"However the changed gravitic will not change back to original sound. There is no oscillation. Except when regular pulsations occur. For instance larger then smaller star diameter will produce oscillating recurring gravitics, as long as the star continues breathing (pulsing in size)".

"In keeping with rules of sonic doppler shifts, stronger gravity doppler waves equates to louder volume (more strength per beat). A beat is distance between wave front. Pitch is due to how fast the beat and volume is travelling. A stationary loudspeaker producing rock and roll does not change pitch. If the loudspeaker is on the back of a fast moving pickup truck the pitch varies according to which way the truck is travelling.

"The same rules are true for gravity doppler waves. Waves produced around M101 by M101's rotation are stationary and do not change. The wave pattern around M101 will shift its moire patterns moving around M101 synchronized to M101's rotation. The longest waves, currently off M101's north east, will be off M101's south west travelling along with M101's rotation around to the south west, where M101's northeast features have rotated around to be in the south west".

"In this regard, M101's gravity doppler waves are standing waves, they do not hurtle forward or away or change location at all, they are station, a buzz being created by M101's rotation around M101".

"In motion through deep space medias the faster the travel of M101 the higher the pitch, and the denser the medias the louder the pitch. The volume is seen in the thickness of each wave".

"To hear the sound in the waves of M101's rotation, you have to pass through them, since they are not coming to you".

"As M101 plows through deep space it becomes conjecture as to whether M101 creates waves that do racing off in their own directions, or do the waves arrise, and subside at M101 staying at M101 as M101 plows through thick then thin cosmic dusts".

"If drift travel waves are also stationary and steady state around M101, it completes a new rule for gravity doppler waves that are opposite to rules of sonic vibrations. Sonic waves (loud music) are produced from a stready state source (louspeader) which can be stationary (no change in pitch). "Timbre is the difference in the same sound, for instance the same note on an oboe and a flute sound distinctly different because of timbre. M101 travelling through deep space thick with debris and heavy molecules will produce a different sonic timbre than travelling at the same velocity through near empty space. Assuming steady state for all gravity doppler waves creation, you have to pass through M101's travel waves, which are intermingled with M101's rotation waves, to hear the timbre and to hear the pitch. There will be at least two distinct timbre's, akin to hearing an oboe and a flute playing the same notes together. One timbre is by M101's rotation. The other timbre is by M101's velocity through space.

"I am able to easily decribe the rules of doppler gravitics and sonics. They can be expressed in the normal physics fashion in equations. I do not like equations because only equation writers can understand them. A verbal description is one everyone can understand. Some physics material can't be transcribed in word form and need equations. The information in 'particleplanets.com' is in simple equations throughout. They are simple to equation writers and to chartered accounts but not to people who do not read or write equations. The 'particleplanet' equations do not have verbal counterparts, except in double checking intended meanings of the equations". "Another situation which needs clarification is to cast out the notion of lineal sound waves propigating forward, then back when reflected. The real notion is propigating wave fronts, the wavelength is the distance between each front. A stone dropped on the surface of a pond causes ripples to move out in wavefronts expanding in circumpherence as the waves move forth. The distances between circumpherences are the wavelengths. The thickness of the wavefront is the volume. A thicker front hits with more impact, causing more of the same response. Drop a heavier stone of same size on the pond demonstrate volume".

"Doppler rules are too numerous to set up in a newtonian check list, with rules clone facts memorized by clone students. Each person understands intuitively the same, in different ways, which is okay as long as one understander does not misfire and start passing on damaged information. The daily monthly and yearly astrophysical clock also changes the according ways each soul intuits the information, so once again, lockdown lists of rules harm rather than assist absorbing and understanding the gravitic information. Gravitics means the patterns in doppler wave harmonics".

'The advantage in viewing gravity doppler waves is we can see sonic vibrations in action, through their gravitic counterparts, which are stark and real and clearly seen in telescope photographed images. Not the musical score, but the musical physics itself, is visible to us in real images out in deep space. If sound waves in a room could be imaged, for instance by laser rays firing through dust in a room excited by sound waves, a visible presentation of the music physics itself might be possible. The startling news will be that the room sized sonic wavelengths vibrate in recurring fractal patterns large and small based on basic six sided geometry and getting multiplex complex from there".

"The hexagrams do not move through space as sound propigates. The hexagrams build up in steady state standing locations throughout the room (positively re-enforcing concentrations of hexagram standing patterns are nodes, also called hot spots - a term high fi owners use when setting up their hi fi, and laying out the wiring), and pass the sound signal by standing hexagrams passing vibrations from one to the next hexagrams in contact at compton wavelength radius's from each other. I like to call these sound hexagrams snowflakes, because of their fundamental hexagram matrixes, and sometimes floating pancakes".

"Compton wavelength radii means the distance at which two separate objects make contact with each other at their outermost edges. The compton wavelength of an inflated six foot weather balloon is longer than the compton wavelength of a party balloon. So to know a compton wavelength you must know which object you are describing, since there are two compton wavelengths when a weather balloon and party balloon touch each other. The point in space where the two waves touch is a node. Node is a word borrowed from other nodes for this node. Compton wavelength is the length from each balloon's centerpoint to its shell".

"Determining galaxy compton wavelengths is uncertain because of the uncertainly as to just where a galaxy's radius actually starts. In a star like the sun, determining the compton wavelength is easy simply the surface of the sun, except in including the diffuse corona around the sun where most of the sun's radiant energies arrise, where does the corona begin relative to us (the other compton wavelength). One more step into the deeper archanes of formal physics: the two compton wavelengths, us and the sun, are apart by a distance equal to earth's orbit minus the earth's radius, to the outer radius of the sun. This compton measure is different than mean measure, which is the distance between earth's centerpoint of orbit and the centerpoint of the sun".

"It is compton wavelengths, not centers of radii, which become meaningful inside a black whole where spaces are stipped of distances of velocities apart since there is no speed of light of motions of anything inside the blackhole, the patterns inside a black hole can be crystal latticed and steady state. In total holograph recurrancing of all patterns. I am not going to say if the holograph can be played back to give the original picture of a galaxy now inside a black hole. What the hologram will give you is how the galaxy's hadron matter has re-organzid in 'ion tower' electron and particle mass energy oscillations and 'spine' frequency harmonics. See particleplanets.com

"The above black hole remarks are good enough for modelling ideas. In ascending in consciousness to higher dimension frequencies it is white hole physics, not black hole physics, that are being remarked. The farther out from the higher frequencies the blacker it gets. The closer in to higher cause the lighter it gets. It gets so light the light itself becomes a power capable of doing work not by propigation but by resonances and steady state oscillations".

"I can see that many in the room are beginning to nod off from psycic impositions due to information overloaded. I shall conclude by finishing".

Greatstarr is finished. Horty assists Occam in resetting the room for today's cosmic translation class. Today's subject is gravity doppler waves around galaxies (patterned with frond leaf and moire matrixes), and as concentric ripple ovals on their own out in deep space".

Greatstarr is one who speaks in the voices of many.

Greatstarr is back, for another emergency appearance. Too many cosmic translation class members are being confused by illuminati lore learned in the schooling system. Illuminati means what the system wants you to learn. It can often have nothing to do with the real information. Real information is knowledge. Knowledge leads to illumination. Simple enough".

Greatstarr begins:

"For a moment, a temporary discussion about photon frequencies and wavelengths. Wavelength is the distance a photon of a given frequency travels in a second, the frequency is how much energy the photon has. The frequency is expressed in parts per Million Electron Volts, the wavelength in centimeter units, both systems totally incompatable since both were created independently by the minds of men using the old law of 108 in consciousness for guidance. A fello named plank became aware that a single simple equation converted the value of a photon wavelength to an equivalent energy value in Mevs. A fellow named compton observed that the same equation could also translate the mass energy equivalent of elementary particles such such proton and electron, to equivalent 'compton wavelengths' for each particle. The compton formula included the plank term, and terms for wavelength or mass energy converting one to the other, wave to mass, for instance. In fact the compton factor can be used for photons, when the photon space and energy properties are converted through simple terms another guy named rydberg introduced before plank". "Today we can simply dismiss the history of who, and use the compton equation for all conversions between wavelengths and mass energies. The compton equation is the same as the plank's equation except it includes everything that can be measured having distances and masses and mass energies. The two are different. Mass is hard. It bongs when it hits the cathedral bell. Mass energy is not a solid, it changes the cathedral bell, it heats it up, it burns holes in the metal. A laser ray is energy. A particle beam is mass. That should straighten up some of you pentacosts".

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