Sun Responds Electrically to Cometary "Sungrazers": a History

Plasma and electricity in space. Failure of gravity-only cosmology. Exposing the myths of dark matter, dark energy, black holes, neutron stars, and other mathematical constructs. The electric model of stars. Predictions and confirmations of the electric comet.
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Brigit
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Sun Responds Electrically to Cometary "Sungrazers": a History

Unread post by Brigit » Sat Mar 11, 2023 2:59 am

Can a tiny object initiate a response from the sun, in certain conditions?

Sungrazers

Some comets fly in close to the Sun and then loop back into the outer reaches of the Solar System, with unusual results.

Comets are described as "dirty snowballs" by the astronomical community, despite images returned from space probes such as Giotto and Deep Impact that show them to have blackened, cratered, and fractured surfaces. No snowy fields, high albedo crust, clouds of water vapor, or other indications of icy conditions have been observed. In fact, Giotto's close approach to Halley's comet revealed it to be the blackest object ever seen, with isolated energetic plumes erupting out of a dense nucleus.

The Deep Impact mission encountered comet Tempel 1 in June 2005, and launched a projectile designed to strike the surface with the force of an artillery shell. While research team members at the time wondered if they would see anything of note, Electric Universe theorist Wal Thornhill predicted several results that subsequently proved correct, validating his ideas about the electrical nature of comets.

Tempel 1 was thought to correspond with the conventional theory of comet evolution. Comets are supposed to be cold remnants from the primordial nebular cloud out of which the Solar System is theorized to have condensed. They are said to be "leftovers" that did not consolidate into large planetary bodies, so they remain orbiting the Sun at a distance of several billion kilometers in perpetual deep freeze.

The remote sphere of debris is occasionally perturbed by a passing planetoid or a wandering star, whereupon several of the fragments lose their orbital equilibrium and begin to fall inward toward the Sun. As they gain proximity to solar radiant emissions they heat up, which causes their icebound surfaces to sublimate, forming a coma that is gradually pushed back by the solar wind. The elongated coma forms a tail.

However, Tempel 1 resembled an asteroid more than anything else. A large crater, boulders, and cliffs were plainly visible—nothing like the prevailing theory of snowballs and steam vents. Although water was discovered in the comet's environment, there was far too little ice on the surface to account for it.

Other comets have defied convention, as well. Shoemaker-Levy 9 exploded into shards when it crossed Jupiter's powerful magnetosphere, but the freshly broken pieces did not expel any of the volatile compounds astronomers hoped to see. When Deep Space 1 flew by comet Borrelly in 2001 it was found to be hot and dry instead of cold and wet. The Stardust mission to comet Wild 2 discovered a great deal of dust nearby, but no trace of water could be found on its surface.

Sungrazers tend to reaffirm the Electric Universe opinion about comets. If comets are the remains of electrical events that took place early in the life of the Solar System, then their "anomalous" behavior can be easily explained. Since there is a radial electric field from the Sun permeating the Solar System, as comets come closer to its greater charge density they experience a breakdown in their electrical equilibrium and begin to glow. The charged material, or plasma sheath, surrounding the cometary nucleus is accelerated out and away, sometimes forming a tail millions of kilometers long.

The increased electric charge that comets accumulate as they near the Sun is demonstrated by sungrazers.Since the Sun's e-field is a dynamic structure, it changes in strength and size depending on the electric currents flowing into it from the galaxy. It is in a state of constant flux, requiring only a small trigger for it to discharge violently. Such discharges are known as solar flares or coronal mass ejections (CME).

Comet NEAT swung close by the Sun in 2003, apparently initiating a CME eruption that appeared to impact the comet. Astronomers at the time discounted any relationship between the two events because of the size differential between the comet and the Sun. However, several other sungrazers have been associated with violent flares. One event can be a coincidence, two can be long odds, but three or more can not be dismissed as mere oddities.

When comet 96P/Machholz circled the Sun, it came so close that if it were composed of ice with a small percentage of rock and dust it would have certainly disintegrated. It did not rapidly dissipate, however. Instead, its intense charge differential caused a gigantic CME to discharge from the Sun, blasting out for millions of kilometers.

The electrical connection between comets and the Sun seems certain. If that is the case, then the electrical connection between the Sun and its entire family of planets and moons is certain. Changes in solar input and output can affect the environments of every member in that family: weather, orbits, magnetic fields, and surface features.

Stephen Smith
Last edited by Brigit on Sat Mar 11, 2023 3:10 am, edited 1 time in total.
“Oh for shame, how these mortals put the blame upon us gods, for they say evils come from us, when it is they rather who by their own recklessness win sorrow beyond what is given…”
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Brigit
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Re: Anode Sun Responds Electrically to Cometary "Sungrazers": a History

Unread post by Brigit » Sat Mar 11, 2023 3:03 am

The Dragon's Den

"The Sun's radial e-field is a dynamic structure, changing in strength and size depending on the corresponding strength of electric currents that flow into it. For that reason, it is in a state of constant flux, requiring just a small trigger for it to explosively discharge with solar flares or coronal mass ejections (CME).

Comet NEAT initiated a CME eruption that appeared to impact the comet. Several other sungrazers have been associated with violent flares. When comet 96P/Machholz circled the Sun its intense charge differential caused a gigantic CME to blast out from the Sun for millions of kilometers.The electrical connection between comets and the Sun seems certain. If that is the case, then the electrical connection between the Sun and its entire family of planets and moons is certain. Changes in electrical activity affect the environments of every member in that family."
“Oh for shame, how these mortals put the blame upon us gods, for they say evils come from us, when it is they rather who by their own recklessness win sorrow beyond what is given…”
~Homer

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Brigit
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Sun Responds Electrically to Cometary "Sungrazers": a History

Unread post by Brigit » Sat Mar 11, 2023 3:06 am

Dawn of the North Wind

"Earth’s aurorae demonstrate the electrical connection between our planet and the Sun.

The Sun unleashed another coronal mass ejection (CME) on October 22, 2011, causing an outburst of colorful displays in nighttime skies as far south as Arkansas, in the United States.

There is an electrically active structure called a magnetotail (or plasma tail) extending for millions of kilometers from Earth, always pointing away from the Sun. The flow of charged particles ejected from the Sun, called the solar wind, is captured by our planet’s magnetosphere, collected in a plasma sheet within the magnetotail, and held together by our magnetic field.

Energetic ions stream into Earth’s magnetic field down into the poles, exciting atmospheric molecules to the point where they emit various colors of light: red frequencies from oxygen at high altitudes, green from oxygen at lower altitudes, and blue light from nitrogen.

Electromagnetic instabilities also occur when a bright aurora is seen. In 1903, Kristian Birkeland and a Norwegian research team undertook an expedition to the Arctic, where they discovered that electric charge from the Aurora Borealis flowed parallel to the auroral formation.

In 1966, the U.S. Navy satellite, TRIAD, recorded those magnetic disturbances as it passed over Earth’s polar regions and through what were named the Van Allen Radiation Belts. Those vertical electric currents that flow to Earth from the solar wind were named, “Birkeland currents” by Alex Dessler in 1969. During the recent substorm, Norwegian scientists again detected electricity flowing through the ground under the auroral glow.

Birkeland’s polar electric currents are known today as auroral electrojets, and they are connected to electric circuits following Earth’s geomagnetic field into and away from the Arctic and Antarctic regions. NASA scientists label this electric effect a “new” discovery. Although they acknowledge the electric currents in their published papers, conventional theorists persist in seeing them as “magnetic collision” effects in plasma rather than the fundamental cause of auroral phenomena.

One of the most interesting aspects to the latest auroral episode is not its display, but its origin. Just before the CME, a comet was seen entering the Sun’s corona and then failing to reappear. In previous Picture of the Day articles, several other examples were discussed of comets “crashing” into the Sun just before large CMEs. One comet in particular, 96P/Machholz, did not strike the Sun it skimmed around it, apparently causing a CME in the process.

According to solar physicists, there is no way for a “loosely held-together blob of ice and rock” to initiate an electromagnetic eruption moving at 2500 kilometers per second. What they fail to consider is that there is a radial electric field from the Sun permeating the Solar System. As charged comets move rapidly through that field, they may experience a sudden breakdown or discharge across the giant plasma sheath surrounding the cometary nucleus.

The Sun’s continuous discharge is a dynamic process requiring only a small external electrical trigger like that provided by a comet for it to discharge violently. By way of contrast, astronomers discount any relationship between comets and CMEs based simply on their enormous physical size difference. However, several other sungrazers have been associated with violent flares. One event can be a coincidence, two can be long odds, but three or more cannot be dismissed as mere oddities."

Stephen Smith and Wal Thornhill



One of the implications of an Electric Sun model is, simply put, it's sensitivity to foreign or introduced charged bodies within its efield.

How does an electric sun respond to the steep charge difference of an interloper, when it quickly approaches, within its plasma environment? Can a tiny object initiate a response from the sun, in certain conditions?

This is the kind of question that an electric sun model raises, and these are the kinds of events that the thermonuclear sun model has no explanation for, nor any ability to even perceive through observations.
“Oh for shame, how these mortals put the blame upon us gods, for they say evils come from us, when it is they rather who by their own recklessness win sorrow beyond what is given…”
~Homer

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Brigit
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Sun Responds Electrically to Cometary "Sungrazers": a History

Unread post by Brigit » Wed Mar 15, 2023 5:38 pm

Why Don't Comets Melt in the Sun? | Space News
https://www.youtube.com/watch?v=mRRpcEDX7Vc
CH: Thunderbolts Project
dur. 7:34

"Sungrazer comets that survive perihelion extremely close to the Sun is a longstanding puzzle for comet science. In reality, observations going back centuries reveals that a comet’s activity has little or nothing to do with solar warming. Comets sometimes flare or even explode at impossibly vast distances from the Sun. What does the electric comet theory tell us about these enduring comet mysteries?"

In this presentation, several examples of sungrazer comets are seen at close approach to the sun, and appear to be strongly associated with a CME.

0:31 SOHO 2875
1:06 unnamed
1:17 unnamed
“Oh for shame, how these mortals put the blame upon us gods, for they say evils come from us, when it is they rather who by their own recklessness win sorrow beyond what is given…”
~Homer

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