The Electric Sky and the Comeback of Cassiopeia A

The Electric Sky

and the Comeback of Cassiopeia A

 

 

 The M1 Pulsar - X-ray Image by Chandra

 

By Donald E. Scott, Ph.D. (Electrical Engineering)

Author of the book - The Electric Sky

  There is a revolution just beginning in astronomy/cosmology that will rival the one set off by Copernicus and Galileo.  This revolution is based on the growing realization that the cosmos is highly electrical in nature.  It is becoming clear that 99% of the universe is made up not of "invisible matter", but rather, of matter in the plasma state.  Electrodynamic forces in electric plasmas are much stronger than the gravitational force.

    Mainstream astrophysicists are continually “surprised” by new data sent back by space probes and orbiting telescopes.  That ought to be a clue that something is wrong.  New information always sends theoretical astrophysicists "back to the drawing board".  In light of this, it is curious that they have such "cock-sure" attitudes about the infallibility of their present models.  Those models seem to require major "patching up" every time a new space probe sends back data.

    Astrophysicists and astronomers do not study experimental plasma dynamics in graduate school.  They rarely take any courses in electrodynamic field theory, and thus they try to explain every new discovery via gravity, magnetism, and fluid dynamics which is all they understand.  It is no wonder they cannot understand that 99% of all cosmic phenomena are due to plasma dynamics and not to gravity alone.

    When confronted by observations that cast doubt on the validity of their theories, astrophysicists have circled their wagons and conjured up pseudo-scientific invisible entities such as neutron stars, weakly interacting massive particles, strange energy, and black holes.  When confronted by solid evidence such as Halton Arp's photographs that contradict the Big Bang Theory, their response is to refuse him access to any major telescope in the U.S.

    Instead of wasting time in a futile battle trying to convince entrenched mainstream astronomers to seriously investigate the Electric/Plasma Universe ideas, a growing band of plasma scientists and engineers are simply bypassing them.  A new electric plasma-based paradigm that does not find new discoveries to be “enigmatic and puzzling”, but rather to be predictable and consistent with an electrical point of view, is slowly but surely replacing the old paradigm wherein all electrical mechanisms are ignored.

    This web site is dedicated to explaining the basis of this ongoing scientific shift.  It also presents links to other sites where you can investigate the details of what is happening.

       These pages are designed to be read through in order, starting with the Introduction.  If you do this, the background information needed for understanding any given page will have been presented in an earlier page.  However, each of the topics below is discussed in a reasonably self-contained way for anyone who just wants to pick and choose.  Enter the site by clicking on the link to the Introduction below.

Introduction

A Model of Interstellar Space

Plasma - The Fundamental State of Matter

Missing Matter

Our Sun

Solar Neutrino Problem

Stars

Galaxies

Solar System

Red Shift

Summary

 Links

Electromagnetic Fields in Space (Published, Peer Reviewed, IEEE paper)

 Solar Surface Transistor Action

Bayes Theorem

Reply to Tim Thompson

The Comeback of Cas A

 

Cassiopeia A double layer explosion. Image in twelve-times ionized silicon light.

Credit: NASA/CXC/GSFC/U.Hwang et al

 

A New Light on the Cosmos

 

Phenomena and their explanations are moving targets. What’s considered to be a phenomenon changes over time and requires a new explanation.

If an explanation lasts long enough to enable us to do something with it, it’s a good explanation. Often the explanation will contain the seeds of its own overthrow: it will enable us to make new instruments and observations that contradict the explanation and reveal the phenomenon to be something other than what we considered it to be. The nature of considering—the ways that nerve activation evolve in our bodies—ensures that there will always be other possibilities for categorizing phenomena and explaining them.

An illustration is Cassiopeia A (Cas A) in the image above. Before modern instruments, astronomers found a few objects like Cas A: a ring of light around a central star. Since astronomical imagination was limited to mechanical explosions, the objects obviously were exploded stars. Few people doubted the accepted explanation that the ring of light was caused by limb brightening of a sphere of hot gaseous debris thrown off by the explosion.

The puzzle to be solved was imagining a mechanism that could produce the astronomical amount of energy required to blast so much matter so far from the gravitational center with so large a velocity. Compared with the explosions that were imagined to cause ordinary novas and flares, these were super-explosions. The events were named supernovas and the rings were called supernova remnants (SNRs). It all made sense.

Now modern instruments are bringing a rain of observations to sprout the seeds of overthrow. The ring is a cellular structure of plasma filaments. The filaments “flicker” over periods of about a year, and they emit cosmic rays and synchrotron radiation. They contain strong magnetic fields, and their velocities are too slow. Inside the ring are a disk and several jets composed of material that is enriched with such elements as silicon and iron.

Many more objects like Cas A have been discovered, and the modern image has diverged from what was imagined. It is no longer a SNR. The libraries of explanation that burden the name of supernova are obsolete. A new name is required for the new phenomenon, and a new explanation must be imagined.

Judging from similar objects that are observed at different angles, the ring of Cas A is a region of brightening in an hourglass-shaped interstellar Birkeland current as it pinches down to power the central star. In Cas A, we’re looking down the axis of the current.

Discontinuities and leakage discharges generate webs of filaments with instabilities that flicker like lightning through clouds. In close-up views of the regions at upper left and near the center, the braided spiral structure of Birkeland-current filaments is apparent. In the video of images spanning several years, the braids appear to twist around each other. Bright knots of instabilities emerge and fade.

Fluctuations in the currents generate double layers, and the strong electric fields act as particle accelerators. Electrons and ions are boosted to speeds that are comparable to that of light. The ions escape as cosmic rays; the electrons spiral in the magnetic fields of the filamentary currents and emit synchrotron radiation. Neutral atoms may be swept along with the ions and generate shock waves—in exactly the opposite causal relationship from what is imagined for SNRs.

Nearer the center of the pinch, a toroidal (disk-like) current collects charge from the larger circuit. Occasional discharges produce narrow jets: because they are electrical currents that generate their own pinching magnetic fields, the jets tend to be self-collimating over long distances.

The attractive force of the pinch effect in Birkeland currents causes them to act like cosmic vacuum cleaners: they sweep up surrounding material. The influx of that material depends on ionization potential. Where the outward gas pressure from the increasing concentration of material balances the inward transport, elements with that ionization potential build up. The process is called Marklund convection. It sorts elements into enriched regions, such as the iron and silicon concentrations in Cas A.

Flares are the result of double layers that form and explode in one or a few of the Birkeland currents in a star’s corona or photosphere. Those double layers arise from current surges that are generated in local instabilities. Novas and supernovas may be double layers that explode from the entire surface of a star. They are like cosmic sparks that “jump the gap” when instabilities switch off the current in galactic Birkeland filaments. The sudden interruption of current in such transmission lines will cause the energy that is distributed throughout the circuit to be dumped into the spark that bridges the gap. The resulting explosion will dissipate more energy than was originally present in the circuit element that “blew”—in this case, the star.

The expansion velocities of these whole-star exploding double layers respond to the forces of the surging currents within them. Double layers explode more like a rapidly expanding balloon than like a firecracker: the force of expansion acts continuously in the layer instead of impulsively from an origin. Velocities cannot be treated as if they were the ballistic results of an initial explosion. They can speed up or slow down from moment to moment. This kind of non-ballistic behavior is typical of prominences and coronal mass ejections. That Cas A has velocities which are “too slow” for the estimated energy of a ballistic explosion is no surprise for an exploding double layer.

Supernovas and their remnants were appropriate explanations for a universe that was imagined to consist of gas and gravity. But the past century revealed a universe that consists of plasma and electricity. Now we need explanations that are appropriate for it.

Thanks to Wal Thornhill for his review and comments.

By Mel Acheson

 

 From http://www.thunderbolts.info/tpod/00current.htm

See http://www.electric-cosmos.org/indexOLD.htm

For more information about our electric universe see http://nexusilluminati.blogspot.com/search/label/electric%20universe 

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NASA’s Dim View of Stars: Electric Universe

NASA’s Dim View of Stars

Electric Universe

"..astronomers can tell the temperature of the central regions of the Sun and of many other stars within a few percentage points and be quite sure about the figures they quote."  - A Star Called the Sun, George Gamow.

 

The Cone Nebula is a column of dark dust, six light-years long, near some newly formed hot blue stars. The edge of the column, especially the tip, is bright with red light from ionized hydrogen. This nebula and the cluster that illuminates it are about 2600 light-years away in Monoceros. Credit: Michael Gariepy/Adam Block/NOAO/AURA/NSF. 

 
The cone nebula shows a star at the top of a conical-shaped dusty plasma, festooned with lights. The image strikes an instinctive chord—the mythical celestial world mountain around which the stars revolve; the cosmic (Christmas) tree with lights; fireworks displays against a night sky. Why? Because it reflects back to us our own prehistory when a strange drama was taking place in the sky. 

The Earth was enveloped in a towering polar auroral plasma, flashing with light and with bright celestial bodies at its distant focus. How do we know? Prehistoric mankind around the globe chiselled representations of what they saw into solid rock. The effort required was prodigious, the motivation extraordinary. Modern astronomy seems unable to address the issue, offering instead a comfortable myth of cosmic stability.

Twentieth century technologies have enabled astronomers to see the stars and planets ever more clearly, but their perceptions are clouded by centuries-old beliefs about celestial harmony; that the heat and light of stars is due to some kind of internal fire; that we understand gravity sufficiently to declare that it obeys a universal law and alone governs cosmic evolution. These perceptions have become dogma and dogma hinders progress. So it is not surprising that a growing number of critics see gravitational cosmology of the “Big Bang” as sterile and irrelevant to any real understanding of our place and history in the universe. The fact that it has nothing to say about life itself—the deepest mystery of the universe—is just one of countless signs that the present field of view is too limited.

For the moment I want to feature two reports in December that show astronomers do not understand stars. The view of stars as ‘fires in the sky’ was understandable when chemical fires were the only source of light that we knew & the only question we asked of stars was ‘how do they shine? But that view failed when we realized that stars had to burn steadily for aeons. The discovery of nuclear energy offered an answer to this new question without having to re-evaluate the accumulation of other assumptions about stars.

The thermonuclear assumption was never proved, and observations that contradicted it were never crucial enough to compel astronomers to doubt it. It came full circle and led to a futile decades-long effort to mimic the conjectured process to provide power on the Earth. All the while, a clue to a better answer stared the experimenters and theoreticians in the face: they were using electricity to trigger thermonuclear reactions; maybe the Sun was doing that, too.

We use electricity as a convenient means of lighting and heating that doesn’t require the power to be generated on site. We’ve discovered that thin transmission lines can carry great amounts of power over long distances from generator to light bulb. Nature is parsimonious in achieving its ends; why wouldn’t stars get power from natural transmission lines? The satisfying answer is that they do. Radio astronomers can trace the telltale magnetic fields in deep space. The magnetic fields mark filamentary cosmic ‘transmission lines’ carrying electrical power between galaxies and stars. 

 

 Planetary nebula M2-9. The complex Z-pinch hourglass shape of the external circuitry of a star becomes visible in a planetary nebula where the galactic power is high enough or the plasma is dusty. Gravitational models of stars fail to explain the fine detail of planetary nebulae.

NASA’s Dim View of Stars

The latest report from NASA is a fitting end to The Year of The Electric Universe. It demonstrates that the electric model of stars envisaged the latest observations while NASA researchers again mask their assumptions by stating them as facts. Ironically, the report refers to some stars as “low-energy fluorescent light bulbs.”

As usual, all the science reporting agencies repeat NASA’s words without critical comment. Mainstream media rarely do investigative science journalism. The NASA report follows, along with my comments.
 

 Astronomers Find the Two Dimmest Stellar Bulbs

 This artist's concept shows the dimmest star-like bodies currently known -- twin brown dwarfs referred to as 2M 0939. The twins, which are about the same size, are drawn as if they were viewed close to one of the bodies. Picture credit: NASA/JPL-Caltech.

 
It's a tie! The new record-holder for dimmest known star-like object in the universe goes to twin "failed" stars, or brown dwarfs, each of which shines feebly with only one millionth the light of our sun.


Comment: As we shall see, the notion of “twin failed stars” is a theoretical assumption and not a fact!

In an Electric Universe there is no such thing as a “failed” star. They have no thermonuclear “engine” to fail. All bodies in the galaxy receive external electrical energy from the galactic circuit. Radio astronomers (for the most part unwittingly) trace the circuit by mapping the magnetic fields of galaxies and stars, which fields are generated by the electric current flowing in the circuit. The circuits are unrecognized due to the mistaken conviction that magnetic fields can be ‘frozen in’ to plasma. The ‘father’ of plasma physics, Hannes Alfvén, appealed against this mistaken notion in his Nobel Prize acceptance speech in 1970. But to give up this false belief would require discarding decades of theoretical work and reputations built upon it.

The report continues:
Previously, astronomers thought the pair of dim bulbs was just one typical, faint brown dwarf with no record-smashing titles. But when NASA's Spitzer Space Telescope observed the brown dwarf with its heat-seeking infrared vision, it was able to accurately measure the object's extreme faintness and low temperature for the first time. What's more, the Spitzer data revealed the brown dwarf is, in fact, twins.

"Both of these objects are the first to break the barrier of one millionth the total light-emitting power of the sun," said Adam Burgasser of the Massachusetts Institute of Technology, Cambridge. Burgasser is lead author of a new paper about the discovery appearing in the Astrophysical Journal Letters.

Brown dwarfs are the misfits of the cosmos. They are compact balls of gas floating freely in space, but they are too cool and lightweight to be stars, and too warm and massive to be planets. The name "brown dwarf" comes from the fact that these small, star-like bodies change color over time as they cool, and thus have no definitive color. In reality, most brown dwarfs would appear reddish if they could be seen with the naked eye. Their feeble light output also means they are hard to find. The first brown dwarf wasn't discovered until 1995. While hundreds are known today, astronomers say there are many more in space still waiting to be discovered.

Comment: All stars are an electrical phenomenon. There are no “misfits” in an Electric Universe. All of the assumptions being heaped upon the meagre photons received from deep space merely serve, as usual, to force fit the data to the standard model of stars. The very name, brown “dwarf,” assumes that these stars are “compact balls of gas floating freely in space.”

In stark comparison, the electric model describes them as “huge” because the light from a star is a plasma discharge phenomenon with only a loose relationship to the physical size of the star and a strong dependence on the electrical environment. Brown dwarfs do not simply cool down over time and wink out. They are externally powered electric lights.

In December 1999 I wrote, “The apparent size and color of an electric star is an electrical phenomenon. If Jupiter's magnetosphere were lit up it would appear the size of the full Moon… The light of a red star is due to the distended anode glow of an electrically low-stressed star… Red Giants are a more visible and scaled-up example of what an L-type Brown Dwarf star might look like close-up.”

The report continues: 
Astronomers recently used Spitzer's ultrasensitive infrared vision to learn more about the object, which was still thought to be a solo brown dwarf. These data revealed a warm atmospheric temperature of 565 to 635 Kelvin (560 to 680 degrees Fahrenheit). While this is hundreds of degrees hotter than Jupiter, it's still downright cold as far as stars go. In fact, it is one of the coldest star-like bodies measured so far.

To calculate the object's brightness, the researchers had to first determine its distance from Earth. After three years of precise measurements with the Anglo-Australian Observatory in Australia, they concluded that the star is the fifth-closest known brown dwarf to us, 17 light-years away toward the constellation Antlia. This distance, together with Spitzer's measurements, told the astronomers the object was both cool and extremely dim.

But something was puzzling. The brightness of the object was twice what would be expected for a brown dwarf with its particular temperature. The solution? The object must have twice the surface area. In other words, it's twins, with each body shining only half as bright, and each with a mass of 30 to 40 times that of Jupiter. Both bodies are one million times fainter than the sun in total light, and at least one billion times fainter in visible light alone.

"These brown dwarfs are the lowest power stellar light bulbs in the sky that we know of," said Burgasser. "And like low-energy fluorescent light bulbs, they emit most of their light in a narrow range of wavelengths, in this case in the infrared."

Comment: Burgasser’s description of brown dwarfs as “low-energy fluorescent light bulbs” is the closest he comes to the truth. Like fluorescent lights, brown dwarfs require electricity! And the solution to the problem is simple—a single red dwarf with a distended red anode-glow can provide the extra brightness without postulating an unlikely twin.

The report continues: 
According to the authors, there are even dimmer brown dwarfs scattered throughout the universe, most too faint to see with current sky surveys. NASA's upcoming Wide-Field Infrared Survey Explorer mission will scan the entire sky at infrared wavelengths, and is expected to uncover hundreds of these inconspicuous characters.

"The holy grail in the study of brown dwarfs is to find out how low you can go in terms of temperature, mass and brightness," said Davy Kirkpatrick, a co-author of the paper at NASA's Infrared Processing and Analysis Center at the California Institute of Technology, Pasadena. "This will tell us more about how brown dwarfs form and evolve."

Comment: In an Electric Universe, stars do not evolve. The notion of stellar evolution and the age of stars is an invention of the standard thermonuclear model of stars. And for so long as scientists cling to an unworkable theory of stellar formation by gravitational accretion, new findings will serve only to add to the confusion.

I predict that further discoveries by the Wide-Field Infrared Survey Explorer in this category will require the same ad hoc assumption that the radiant surface area, based on standard theory, must be accommodated by multiple star systems. The odds against finding so many multiple systems will become astronomical.
 

 Success for the Electrical Model of White Dwarf Stars

The Hertzsprung-Russell diagram is a plot of observations which must be explained by the chosen model of stars. The electrical model of stars reverses the direction of the x-axis to show the direct relationship between an increase in current density at the surface of a star and the higher temperature of that star, reflected by its change in color from red hot to white hot to blue hot.

 
 The main sequence is the backbone of the observations but there are sharp discontinuities between the main sequence, the giant stars and white dwarfs. In the standard thermonuclear model of stars, the explanations for these discontinuities are beset by many observational discrepancies and ad hoc patches.

In the electric star model such discontinuities are a natural feature of a plasma discharge. Main sequence stars operate like arc lights in a cinema projector. The plasma discharge at their photospheres is in arc mode. The main sequence is a direct result of increasing the current density at the surface of a star.

The white dwarfs operate more like fluorescent lights, where a fainter coronal glow-mode discharge provides the light. If you can imagine the Sun’s bright photosphere being replaced by faint white coronal light, you have the picture. White ‘dwarfs’ are not dwarfs at all. They are faint, not because they are small but because they produce their light in a different mode of plasma discharge from stars like the Sun. The current density scale for white dwarfs is different to that of the main sequence and this is why they are scattered along a lower-luminosity sequence.

In the case of giant stars, the star’s ‘surface’ is bloated like the glow of a neon light as the star seeks to satisfy its current requirements. The red light comes from a low current density at the large diameters of the (virtual) anode of these stars.

The stellar thermonuclear evolutionary story is that a star of intermediate mass (1-8 solar masses) terminates its life as an Earth-sized white dwarf after the exhaustion of its nuclear fuel. During the transition from a nuclear-burning star to the white dwarf stage, the star collapses to about one fiftieth of the solar radius and becomes very hot. Many such objects with surface temperatures around 100,000 Kelvin (K) are known. Theories of stellar evolution predict that these stars can be much hotter. However, the probability of catching them in such an extremely hot state is low, because this phase is short-lived.

An article was published on December 12 this year in Astronomy & Astrophysics Letters which claims to have discovered one of these white dwarfs, “one of the hottest stars ever known with a temperature of 200,000 K at its surface.” The temperature is deduced from the emission from nine-fold ionized calcium atoms thought to be in the star’s photosphere. It is the highest ionization level of a chemical element ever discovered in a photospheric stellar spectrum.

The stellar atmosphere modelling of a white dwarf based on thermodynamic equilibrium will give erroneous conclusions because charged particles in an electric field will be dethermalized (their random motion reduced while their kinetic energy increases). So it easy for a white dwarf to multiply ionize calcium atoms because the electrical energy required is equivalent to a mere 211 electron volts and not random thermal energy equal to a temperature of 200,000 to 300,000 K. Using thermal (mechanical) energy is the most difficult and unlikely way of explaining the data.

The white dwarf also challenges the standard stellar evolution concepts because it has a chemical surface composition rich in calcium and helium that is not predicted by stellar evolution models. A paper in the Astrophysical Journal of February 2005 shows the surprise and confusion created by this star. As usual, mechanical energy in the form of a supposed “shocked wind” is proposed as the origin of weak X-ray emission at 1 keV. And despite the almost infinite number of “knobs” available to twiddle on the standard model, a match with observations has not been reached.

The obstacle to an understanding of white dwarfs comes from using heat (mechanical energy) from within a star to explain highly energetic phenomena outside the star. It is precisely the difficulty encountered with the Sun and its phenomenally hot corona. The conceptual hurdle is exemplified by the paradigm set out in the introduction to the above paper: “The hot 10⁶-10⁷ K coronae on the Sun and other late-type stars are  

believed to be sustained by mechanical energy in their outer convection zones, which is dissipated at the surface through the medium of magnetic fields generated and amplified by differential rotation and convection in the interior.” [Emphasis added].

In other words, our present understanding of the Sun and therefore most other stars is based on this simple belief that to this day has not been verified. In this circumstance it would be scientifically responsible to question that belief when new data fails to satisfy predictions. As Eddington, the theoretician who gave us the standard model of stars, wrote of white dwarfs when first discovered, “Strange objects, which persist in showing a type of spectrum entirely out of keeping with their luminosity, may ultimately teach us more than a host which radiates according to rule.” But beliefs are very difficult to shift.

In July this year I wrote, “A white dwarf is a star that is under low electrical stress so that bright ‘anode tufting’ is not required. The star appears extremely hot, white and under-luminous because it is equivalent to having the faint white corona discharge of the Sun reach down to the star’s atmosphere. As usual, a thin plasma sheath will be formed between the plasma of the star and the plasma of space. The electric field across the plasma sheath is capable of accelerating electrons to generate X-rays when they hit atoms in the atmosphere. And the power dissipated is capable of raising the temperature of a thin plasma layer to tens of thousands of degrees.”

Of course, this model will need to be reviewed in the light of new data. But at least it is a new, quite different model that easily meets the basic observational fact of high-energy phenomena outside a star. The strong magnetic fields of some white dwarfs are diagnostic of external electric currents. The spectral line broadening indicates the presence of a strong electric field in the light-emitting region. The electrical energy focussed on the white dwarf is dissipated in an extensive, cool corona instead of a hot, arc-tufted photosphere.

So it is significant that the spectrum of the white dwarf in the cited paper was interpreted as “evidence that the X-rays originated not from deeper atmospheric layers but from a coronal plasma encircling the star.” The white dwarf “became the first white dwarf thought to have a corona, albeit a cool one.” The weak X-ray emission is attributed, in ad hoc fashion, to “a shocked wind.” It’s like a dentist using a jet engine to X-ray your teeth.

The presence of anomalies in the star’s spectrum, both in the elements present and their state of ionization, is more accurately explained by the electrical model of stars, which have a cool core of heavy elements. The authors note, “a coronal model requires a total luminosity more than two orders of magnitude larger than that of the star itself.” An electric white ‘dwarf’ emits light from both the corona and the thin, brighter plasma sheath that forms its photosphere.

An electric white dwarf is a far simpler model than the “collapsed degenerate stellar corpse” model. The star is not “dying.” It has not evolved from another type of star. It is not an impossible object—a Sun squeezed to twice the diameter of the Earth. Stars cannot suffer gravitational collapse to a theoretical form of ‘degenerate matter’ that has never been observed—where atoms are squeezed together so strongly that only electrons in adjacent atoms prevent further collapse because they cannot share orbits. Just how far-fetched this notion is can be gauged if we consider that the electric repulsive force exceeds the gravitational force by 39 orders of magnitude!!

Subrahmanyan Chandrasekhar was awarded the Nobel Prize in 1983 for his theoretical work on electron degenerate white dwarfs, which predicted the existence of a relationship between mass and radius for a degenerate white dwarf. This theoretical mass-radius relation is a generally accepted underlying assumption in nearly all studies of white dwarf properties. In turn, these studies, including the white dwarf mass distribution and luminosity function, are foundations for such varied fields as stellar evolution and galactic formation. The notion of stellar collapse led on to more extreme theoretical fictions—neutron stars and black holes. The damage wrought by such an assumption for our understanding of stars and the cosmos cannot be overstated! A recent paper in The Astrophysical Journal warned, “One might assume that a theory as basic as stellar degeneracy rests on solid observational grounds, yet this is not the case. Comparison between observation and theory has shown disturbing discrepancies.” The paper cited here adds to the discrepancies. 
 

In summary: nearby red and white stars that appear faint are not different to other stars. Red dwarfs are physically much smaller than the Sun but their visible glow discharge is large and of low current density and energy (red). 

 

White ‘dwarfs,’ on the other hand, are physically larger than red dwarfs but generally smaller than the Sun. Lacking bright anode tufting they have an extended coronal type discharge and photosphere that emits faint whitish light, ultraviolet light and mild X-rays. The spectral lines are broadened, sometimes to the point of disappearance, due to the coronal electric field. This gives the misleading impression that hydrogen (whose spectral lines are smeared the most) is missing in many of these stars and that therefore they are remnants of larger stars that have lost or burned their hydrogen fuel.

Significantly, the larger the white dwarf, the lower the current density and the lower the apparent temperature. This trend has been noted with some puzzlement by researchers. White dwarfs the size of the Sun and a little larger are stars under lower electrical stress than normal. This may occur, for example, in binary star systems like that of Sirius, where one star usurps most of the available electrical energy.

There are no collapsed stars of extraordinary high density. The story of stellar evolution is fiction. The numbers of small red and white stars exceed the number of bright stars. They are formed in the same Z-pinch mechanism in dusty plasma as are all other stars. Or they may be born later by parturition (nova) of an unstable larger star. The economy and success of the Electric Universe model is readily apparent.
The Electric Universe paradigm continues its successful run of discovery and prediction in 2008

In January I declared 2008 The Year of the Electric Universe. And so it has proved to be. Confirming and supportive evidence arrives almost daily. Along with my associated THUNDERBOLTS.INFO website we attract tens of thousands of visitors each month. This month set a new record. The scientific literacy of visitors is exceptionally high, and a consistent pattern has emerged, verified by hundreds of comments. When newcomers compare the direct evidence for the Electric Universe to conventional interpretations of the same data, offered here and in “Thunderbolts Picture of the Day,” the conclusion becomes clear. We do indeed live in an Electric Universe.

The Thunderbolts Project is attracting volunteers and people wanting to undertake serious study to further their understanding of plasma and the Electric Universe. New books, educational e-books and videos are being produced and a Japanese version of Thunderbolts of the Gods is due to go on sale in that country early in the new year.

The future is bright in an Electric Universe! 

 

 - Wal Thornhill   

From http://www.holoscience.com/news.php?article=b8zgwr0h  

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