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Saturday, October 24, 2009

Oct. 24 - Electric Sun Verified‏

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http://www.holoscience.com/news.php?article=74fgmwne

Electric Sun Verified

“Is it likely that any astonishing new developments are lying in wait for us? Is it possible that the cosmology of 500 years hence will extend as far beyond our present beliefs as our cosmology goes beyond that of Newton?”
—Fred Hoyle, The Nature of the Universe

NASA's IBEX (Interstellar Boundary Explorer) spacecraft has made the first all-sky maps of the boundary between the Sun’s environment (the heliosphere), and interstellar space. The results, reported as a bright, winding ribbon of unknown origin which bisects the maps, have taken researchers by surprise. However, the discovery fits the electric model of stars perfectly.

Love and Light.

David

THE ELECTRIC UNIVERSE


NEWS ITEM

20 October 2009
Electric Sun Verified


“Is it likely that any astonishing new developments are lying in wait for us? Is it possible that the cosmology of 500 years hence will extend as far beyond our present beliefs as our cosmology goes beyond that of Newton?”
—Fred Hoyle, The Nature of the Universe


NASA's IBEX (Interstellar Boundary Explorer) spacecraft has made the first all-sky maps of the boundary between the Sun’s environment (the heliosphere), and interstellar space. The results, reported as a bright, winding ribbon of unknown origin which bisects the maps, have taken researchers by surprise. However, the discovery fits the electric model of stars perfectly.


IMAGE


>>Voyagers 1 and 2 (V1 and V2 above) reached the boundary of the Sun’s influence in 2005 and 2007, respectively, taking measurements as they left the solar system. Before IBEX, there was only data from these two points at the edge of the solar system. While exciting and valuable, the data they provided about this region raised more questions than they resolved. IBEX has filled in the entire interaction region, revealing surprising details completely unpredicted by any theories. This shows some of the fine detail of the ribbon in the blow-up section. Credit: SwRI [Click all images to enlarge].


The meter-wide, hexagonal IBEX monitors the edge of the solar system from Earth orbit by “seeing” the heliosphere’s outer boundary in the “light” of energetic neutral hydrogen atoms (ENA’s). The news releases of October 15 highlighted the difficulties this discovery causes. “The thing that’s really shocking is this ribbon,” says IBEX principal investigator David McComas of Southwest Research Institute in San Antonio, Texas. Researchers had expected gusts in the solar wind blowing against the boundary to create 20% or 30% variations in ENA emissions, but the ribbon is 10 times that intense—a narrow band blazing across the sky like some Milky Way on fire. Charged particles have apparently become bunched along the ribbon near the boundary, says McComas, but how they got there “is still a big mystery. Our previous ideas about the outer heliosphere are going to have to be revised." “I’m blown away completely,” says space physicist Neil Murphy of NASA’s Jet Propulsion Laboratory in Pasadena, California. “It’s amazing, it’s opened up a new kind of astronomy.”


IMAGE


>> Annotated summary of basic findings from the ENA maps of the heliosheath by researchers from the Saturn Cassini mission. Credit: S. M. Krimigis et al., The Johns Hopkins University Applied Physics Laboratory.


"The expectations of NASA scientists are not being met because their shock front model is incorrect. The boundary that Voyager has reached is more complex and structured than a mechanical impact.” —Wal Thornhill, September 2006.


IMAGE


>> The publicized image of the Sun’s interaction with interstellar space is like the shock front of a supersonic aircraft. We are told the “magnetic bubble” of the heliosphere protects us like a cocoon as the Sun and its planets travel through the Milky Way. The concept of Langmuir’s plasma sheath is entirely missing from this picture. It is electrically inert. Image credit: Adler Planetarium/Chicago


IBEX has discovered that the heliosheath is dominated not by the Sun but by the Galaxy’s magnetic field. Since the galaxy's magnetic field traces the direction of interstellar electric current flow in space near the Sun, it is a result that conforms to the EU model of galaxies and stars.


It is necessary to acknowledge that the cometary heliosphere model seems reasonable when some images of stars do have a cometary appearance. Examples of cometary stars are provided in the NASA news report:


IMAGE

>> This image shows photographs of the heliospheres around other stars (called astrospheres) taken by a variety of telescopes. Credit: SwRI [Note that the title of the original has been changed here from “Astrospheres” because it makes the unsupported assumption that all stars have them in this cometary form].


Cometary phenomena are not a simple mechanical effect of an object plowing through a thin gas. Comets are an electrical phenomenon where the comet nucleus is a negative cathode in the Sun’s plasma discharge. Examples of cometary stars are uncommon because stars are normally a positive anode in the galactic discharge. Characteristically, cathodes tend to jet matter into the plasma to form spectacular comas and tails, as seen above. Stars may become comets in the process of electrical capture by a more highly charged star. It is a mistake to assume a cometary astrosphere model for all stars.


However, a more fundamental conceptual error is to invoke stellar and galactic “winds” and the notion of tails being “swept downstream.” Astrospheres and comets are plasma discharge phenomena! Electrodynamic forces govern them. Discussions about the “external magnetic forces of the galactic wind” dominating the shape of the heliosphere highlights a curious blindspot in astrophysics. In 1970 the late Hannes Alfvén counseled against the notion that magnetic fields can exist in space while ignoring their origin in cosmic electric currents and their circuits. Alfvén predicted an imminent “crisis in cosmology.” I’m sure he never imagined that scientific revolutions could take a century or more in this era of global communication. But specialism and specialist jargon is the enemy of communication and the wide-ranging investigation needed to compose the “big picture” we call cosmology. And no scientist likes to admit their specialty is in crisis.


For a more detailed perspective on the astrophysical crisis, I recommend my earlier article of April 2007, “The Astrophysical Crisis at Red Square.” There I wrote, “Alfvén pioneered the stellar circuit concept and it seems his 'wiring diagram' is essentially correct but incomplete because it does not show the star's connection to the larger galactic circuit. Alfvén remarked, "The [stellar] current closes at large distances, but we do not know where." Plasma cosmologists have supplied the answer by mapping the currents flowing along the arms of spiral galaxies. It is but a small step from there to see that all stars are the focus of Z-pinches within a galactic discharge. Normally the current flows in 'dark mode' so we don't usually see the spectacular bipolar 'wiring harnesses' of hyperactive stars.” The diagram appearing in that article is shown below, re-annotated.


IMAGE

>> In 2007, twenty years after it was discovered, “the origin of the triple-ring nebula [of Supernova 1987A] has so far not found a satisfactory explanation.”


Meanwhile, in 2005 I explained all three rings of supernova 1987A in terms of a stellar plasma Z-pinch. Above we see the essential features of a plasma Z-pinch experiment (left); the details of the concentric Birkeland current filament cylinders (center); and the 'witness plate' resulting from the galactic Birkeland current filaments in that cylinder striking the matter in the disk expelled from the star at the focus of supernova 1987A. The bright beads are like the effect of a ring of searchlights punching through a thin cloud. The tendency for pairing of the bright circular spots and the extremely slow expansion rate of the equatorial ring suggest the Z-pinch model is correct.


A normal star will have the same Z-pinch environment as a supernova but at a much lower energy. So instead of a brilliant ring of lights in the sky, astronomers detect a ‘bright ribbon’ of ENA’s, caused by modest excitation of matter from the Sun’s stellar “wind” by the local galactic Z-pinch.


IMAGE


>> This diagram shows a conceptual cross-section along the central axis of the stellar Z-pinch at the Sun’s position. Whether the double layers exist within or outside the heliosphere is unknown. The diameter of the encircling cylinder is unknown. That of supernova 1987A is of the order of a light-year, which would make the diameter of the heliosphere more than 600 times smaller! Note that as a rotating charged body the Sun’s magnetic field is not aligned with the interstellar magnetic field and Z-pinch axis. The Sun’s magnetic field only has influence within the tiny heliosphere but it is modulated by galactic currents. Alfvén’s axial “double layers” (DLs) have been included although their distance from the Sun is unknown. DLs are produced in current carrying plasma and are the one region where charge separation takes place in plasma and a high voltage is generated across them (see discussion below).


The Z-pinch model offers a simple explanation for the “giant ribbon” found wrapped around the heliosphere. The Z-pinch is naturally aligned with the interstellar magnetic field. Solar “wind” ions are scattered and neutralized by electrons from the Birkeland current filaments to form ENA’s coming from the Z-pinch ring, a giant ring about the solar system and orthogonal to the interstellar magnetic field.


The Sun’s heliospheric circuit is connected to the galaxy via the central column and the disk of charged particles. The current path is traced by magnetic fields. The “open” helical magnetic fields discovered high above the Sun’s poles by the Ulysses spacecraft are supportive of Alfvén’s stellar circuit model. And the solar “wind” would seem to connect to the broader disk of charged particles about the heliosphere.


Given the detail in this model we should expect, as more data comes in, that researchers may find in the ENA “ribbon,” bright spots, filamentary structures, and movement of the bright spots consistent with rotation of Birkeland current filament pairs and their possible coalescence.


The Science journal reports the opinion of one of the researchers that
“sorting out the heliosphere’s true shape will take more time …the geometry’s tough. The shape is no doubt somewhere between the two extremes of ideal comet and pure bubble, but all agree that researchers will have to understand how the ribbon forms to know the heliosphere’s true shape.” That is true, but scientists will continue to suffer surprises while they have “no doubt” that the galactic wind and the interstellar magnetic field are the dominant forces that shape the heliosphere.


Researchers are keen to see how changes in the solar wind affect the ENA observations as the sun moves toward the maximum of its 11-year cycle. Such observations are very important. The solar cycle is controlled by its local galactic Z-pinch, so any variation in ENA’s may provide some clues about the origin of the quasi-cyclic variability in the circuit supplying DC electrical power to the Sun or “solar cycle.” The “brightness” of the ENA’s should vary, probably out of phase with the solar cycle.


In 1984 Alfvén predicted from his circuit model of the Sun there are two double layers, one connected to each pole at some unknown distance from the Sun or heliosphere. He wrote,
“As neither double layer nor circuit can be derived from magnetofluid models of a plasma, such models are useless for treating energy transfer by means of double layers. They must be replaced by particle models and circuit theory... Application to the heliospheric current systems leads to the prediction of two double layers on the sun's axis which may give radiations detectable from Earth. Double layers in space should be classified as a new type of celestial object.” — H. Alfvén, Double Layers and Circuits in Astrophysics, IEEE Transactions On Plasma Science, Vol. PS-14, No. 6, December 1986.


There is some other research to be encouraged by this ENAs discovery, which should throw further light on the Sun’s electrical environment. The axial double layers should be detectable as nearby, fluctuating radio and cosmic ray sources. In fact their oscillation may modulate the current flow and be a source of the solar cycle. Already there has been a report of an unexplained high-energy cosmic ray “hot spot” roughly in the direction of the inferred “heliotail.” The energies of the cosmic rays are in the range possible by acceleration in a galactic double layer (Carlqvist). Confirmation may soon come from observations of high-energy cosmic-ray electrons. The electrons undergo synchrotron and inverse Compton scattering losses and thus cannot travel very far from their sources, which makes them sensitive probes of nearby galactic sources and propagation. If the diagram above is close to the real situation then we might expect cosmic-ray electrons to arrive from the double layer in the opposite direction in the sky to the nuclear cosmic rays.


IMAGE


The EU model is based on a hierarchy of repeated patterns of plasma behavior, from the size of a galaxy down to a few centimeters in the laboratory. Therefore it is subject to experimental confirmation, unlike most astrophysical theory today. So discoveries from space like this one should trigger experiments in plasma laboratories around the world instead of theorists wasting resources by conjuring up ever more complex and unlikely models based on invalid concepts of space plasma. IBEX's recent results that have taken researchers by surprise have given yet more strength to the EU model, a model that confidently predicts that the shape of the Sun’s galactic plasma environment is the hourglass, Z-pinch shape of planetary nebulae and supernovae, aligned with the local interstellar magnetic field. The beautiful symmetrical patterns that arise in plasma discharges from very simple principles renders all modeling that ignores the electrical nature of matter and the universe worthless.


Wal Thornhill


From:
http://www.holoscience.com/news.php?article=74fgmwne

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SUBTITLES IN ENGLISH, ESPAÑOL, PORTUGUÊS

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MUFON

How to Digitally Record/Video a UFO sighting:


Como registar digitalmente ou gravar um vídeo de um avistamento de um UFO:




Stabilize the camera on a tripod. If there is no tripod, then set it on top of a stable, flat surface. If that is not possible lean against a wall to stabilize your body and prevent the camera from filming in a shaky, unsteady manner.

Estabilize a camera com um tripé. Se não tiver um tripé, então coloque-a em cima de uma superfície estável. Se não for possível, então encoste-se a uma parede para estabilizar o corpo e evitar que a camera registe de maneira tremida e instável.

Provide visual reference points for comparison. This includes the horizon, treetops, lampposts, houses, and geographical landmarks (i.e., Horsetooth Reservoir, Mt. Adams, etc.) Provide this in the video whenever is appropriate and doesn’t detract from what your focus is, the UFO.

Forneça pontos visuais de referência para comparação. Isso inclui o horizonte, cimo das árvores, postes de iluminação, pontos de referência geográficos (como o Reservatório de Horsetooth, Mone Adams, etc) Forneça esses pontos no vídeo sempre que for apropriado e não se distraia do que é o seu foco, o UFO/a Nave.

Narrate your videotape. Provide details of the date, time, location, and direction (N,S,E,W) you are looking in. Provide your observations on the weather, including approximate temperature, windspeed, any visible cloud cover or noticeable weather anomalies or events. Narrate on the shape, size, color, movements, approximate altitude of the UFO, etc and what it appears to be doing. Also include any unusual physical, psychological or emotional sensations you might have. Narrate any visual reference points on camera so they correlate with what the viewer will see, and thereby will be better able to understand.

Faça a narração do vídeo. Forneça pormenores sobre a data, hora, local e direcção (Norte, Sul, Este, Oeste) que está a observar. Faça observações sobre as condições atmosféricas, incluindo a temperatura aproximada, velocidade do vento, quantidade de nuvens, anomalias ou acontecimentos meteorológicos evidentes. Descreva a forma, o tamanho, a cor, os movimentos, a altitude aproximada onde se encontra o UFO/nave, etc e o que aparenta estar a fazer. Inclua também quaisquer aspectos pouco habituais de sensações físicas, psicológicas ou emocionais que possa ter. Faça a narração de todos os pontos de referência visual que o espectador irá ver e que, deste modo, será capaz de compreender melhor.

Be persistent and consistent. Return to the scene to videotape and record at this same location. If you have been successful once, the UFO sightings may be occurring in this region regularly, perhaps for specific reasons unknown, and you may be successful again. You may also wish to return to the same location at a different time of day (daylight hours) for better orientation and reference. Film just a minute or two under “normal” circumstances for comparison. Write down what you remember immediately after. As soon as you are done recording the experience/event, immediately write down your impressions, memories, thoughts, emotions, etc. so it is on the record in writing. If there were other witnesses, have them independently record their own impressions, thoughts, etc. Include in this exercise any drawings, sketches, or diagrams. Make sure you date and sign your documentation.

Seja persistente e não contraditório. Volte ao local da cena e registe o mesmo local. Se foi bem sucedido uma vez, pode ser que nessa região ocorram avistamentos de UFOs/naves com regularidade, talvez por razões específicas desconhecidas, e talvez possa ser novamente bem sucedido. Pode também desejar voltar ao mesmo lugar a horas diferentes do dia (durante as horas de luz)para ter uma orientação e referência melhor. Filme apenas um ,inuto ou dois em circunstâncias “normais” para ter um termo de comparação. Escreva tudo o que viu imediatamente após o acontecimento. Logo após ter feito o registo da experiência/acontecimento, escreva imediatamente as impressões, memórias, pensamentos, emoções, etc para que fiquem registadas por escrito. Se houver outras testemunhas, peça-lhes para registar independentemente as suas próprias impressões, pensamentos, etc. Inclua quaisquer desenhos, esbolos, diagramas. Certifique-se que data e assina o seu documento/testemunho.

Always be prepared. Have a digital camera or better yet a video camera with you, charged and ready to go, at all times. Make sure you know how to use your camera (and your cell phone video/photo camera) quickly and properly. These events can occur suddenly, unexpectedly, and often quite randomly, so you will need to be prepared.

Esteja sempre preparado, Tenha sempre uma camera digital, melhor ainda, uma camera vídeo consigo, carregada e pronta a usar sempre que necessário. Certifique-se que sabe como lidar com a sua camera (ou com o seu celular/camera fotográfica) rápida e adequadamente. Esses acontecimentos podem acontecer súbita e inesperadamente e, por vezes, acidentalmente, por isso, necessita estar preparado.

Look up. Be prepared. Report. Share.

Olhe para cima, Esteja preparado, Relate, Partilhe.

MUFON.COM

ESOTERIC



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