Comet Elenin—the Debate that Never Happened

Comet Elenin by ThePerfectMinds

“Just when theory said the comet should have exhibited its greatest activity, it almost disappeared.  One would assume from the media silence that the comet’s denouement poses no mystery to science. But to those who have come to understand the electrical nature of comets, there is something particularly noteworthy in the fading of Elenin. It is now clear that the original guesses about Elenin’s mass were overstated to a spectacular degree.  It will certainly not serve the interests of scientific progress to ignore the question posed or turn away from an essential reconsideration of theory.”  David Talbott

Comet Elenin—the Debate that Never Happened

by David Talbott

October 6, 2011

The comet Elenin, a subject of intense Internet discussion for several months, seems to have disappointed everyone.  I speak here not just of the doomsayers, who were awaiting a frightful specter in recent weeks.  You might think these folks would be happy that the celebrated intruder faded fast just when it was supposed to be reaching maximum activity. But in these strange times, Doomsday seems a lot more fun than a minor distraction in our cosmic neighborhood.

Also disappointed are the many scientists who expected a more impressive display from Elenin. That expectation seemed well founded based on the growing coma of Elenin in the months following its discovery in December, 2010.  And prior space probes sent to comets helped to feed an illusion about the comet’s size.  The estimates appear to have missed the mark completely.

Strangely, the popular scientific media, insofar as they’ve shown any interest in Elenin, are satisfied to simply expose the lunacy of Internet fear-mongering.  But is that really all we should be discussing here?  Elenin has only one connection to “Doomsday.” Like every comet, it reminds us of ancient memories of a truly terrifying and destructive Great Comet, the true source of comet fears and Doomsday anxiety—a verifiable cultural conditioning that has persisted for thousands of years.  With every appearance of a comet the ancient fear resurfaces, but this fact adds nothing to scientific discussion of Elenin and its fate.

Visions of Nibiru

The little wisp of a comet has no relationship to ancient Babylonian references to “Nibiru,” a subject misrepresented up to a cosmic level by the originator of a Nibiru doomsday fantasy—Zecharia Sitchin. From the beginning, the Nibiru concept promoted by Sitchin was a meaningless fiction. A few meager examples of the word exist in Babylonian literature. Nothing in the language suggests either a comet or the rogue planet claimed by Sitchin.

Of course the spokesmen for “good science,” a phrase that too often means official dogma, delight in mocking Doomsday musings.  But that response can only distract from what should be discussed—the failure of standard comet theory to describe or predict comet behavior over the past 25 years. The ignored fact is that Elenin has only added to the list of comet “misbehavior”—throwing a spotlight once again on mistaken theoretical assumptions.

Just when theory said the comet should have exhibited its greatest activity, it almost disappeared.  One would assume from the media silence that the comet’s denouement poses no mystery to science. But to those who have come to understand the electrical nature of comets, there is something particularly noteworthy in the fading of Elenin. It is now clear that the original guesses about Elenin’s mass were overstated to a spectacular degree.  It will certainly not serve the interests of scientific progress to ignore the question posed or turn away from an essential reconsideration of theory.

Explosive brightening 

Just a few months ago, Elenin was claimed to be an “average sized long-period comet,” with a diameter “between 3 and 4 km.”

This opinion was formulated as the comet approached the asteroid belt in its rapid fall toward the Sun. Astronomers observed that Elenin was brightening faster than expected. Between April and August, the dusty coma grew from 80,000 km in diameter to 200,000 km.  Applying standard reasoning, observers agreed that Elenin, which seemed rather weak when discovered, was a “typical”-sized comet.

Elenin “looked like it was going to put on a good show,” reported “Even as recently as Aug. 19, the comet was brighter than predicted.”

Then something unexpected happened when, on August 19, the charged particles of a coronal mass ejection struck the comet. In response, the comet flared up dramatically, as seen in the image on the left below.  This image was recorded by amateur astronomer Michael Mattiazzo, and cited on the website Astroblog.

Two views of Comet EleninAmateur astronomer Michael Mattiazzo (Castlemaine, Australia) captured images of comet Elenin on Aug. 19 (left) after the nucleus was struck by a CME. The greatly diminished display on the right was captured on Sept. 6, 2011. Astronomers view the second image as an indication of disintegration. CREDIT: Michael Mattiazzo


Ian Musgrave writes, “Shortly after the coronal mass ejection the comet flared up and you could see some beautiful details in the tail, with the tail was twisting about in the solar wind.”  But over the next few days observers reported a huge decrease in the intensity of the comet, and it appeared that the comet was falling apart.

The electric comet responds

It seems that charged particles from the Sun did what the Sun’s heat couldn’t do.  But did the specialists see a clue in this electrical event? Did anyone remember how, in October 2007, comet Holmes began discharging explosively, brightening by a factor of a million after it was subjected to a huge spike in the solar wind, eventually producing a spectacular coma larger than the diameter of the Sun. The event occurred as Holmes moved away from the Sun, leaving stunned astronomers to offer wild guesses about the cause.  No mention of any connection to the surge of charged particles from the Sun, since electrical causes are so clearly outside the astronomers’ field of view.

Comet Holmes on November 4, 2007

Comet Holmes on November 4, 2007, showing the blue ion tail on the right,taken from Hungary. CREDIT: Ivan Eder.

Least of all did the the scientific media recall how, in 1991, comet Halley flared up to 300 times its normal brightness while on its long journey away from the Sun, in the distant realm between the orbits of Saturn and Uranus.  Here, a surface temperature of -200 ˚C would categorically exclude all “cometary” activity” under standard assumptions. Was it a coincidence that this occurred in the wake of near-record solar outbursts?

As for Elenin, there’s apparently little or nothing left of the puny object. We’ll know shortly when it, or its residue, emerges from behind the Sun.  But consider the implications of Elenin’s fate.  If astronomers are correct in viewing comets as chunks of icy material moving through an electrically neutral domain of the Sun, imagine the absurdity of thinking that “warming” from the Sun—starting in the icy region beyond the asteroid belt!—could have caused Elenin to evaporate completely within a few months later, while only spending a few weeks inside Earth’s orbit. This is the one issue on which the standard model and the electric model deliver the same message: Elenin’s size was greatly overestimated.

The underachieving comet

If the comet was much smaller than originally supposed, what caused its noticeable display in the first place, while it was still in the icy region beyond the asteroid belt? At that distance from the Sun, where any appreciable effect of sublimation is doubtful, how did it create the illusion of a respectable size?

The answer—apparently the only plausible answer—is given by the electric comet model.  In electrical terms, when a comet drifts in from the outermost regions of the solar system, it is not reasonable to base size estimates on observation of comets with much shorter, less elliptical orbits.  Some comets we can visit because they have short periods and we know where they are.  But when seen electrically these comets cannot give us an accurate picture of comets as a whole.  Electric comets imply that the Sun is the center of an electric field. It is the most positively charged body in the solar system. A comet approaching the Sun from a much more distant region will carry far more negative charge than those orbiting closer to the Sun. And this is why comparisons based on size or strength of cometary activity alone, without reference to orbital characteristics, have never held up and never will.

The negatively charged comet nucleus of Elenin, arriving from the most remote regions of the Sun’s influence, was very likely just a small rock, perhaps a hundred meters or less. Moving through the Sun’s radial electric field, it began discharging under the electrical stress from rapid entry into a more positively charged environment. As electric arcs to the surface excavated material, accelerating it into a highly diffuse dust cloud, Elenin began to display a coma. That, not any imagined “thermal effects,” was why Leonid Elenin detected the tiny comet in December 2010, when it was well beyond the asteroid belt.

Then, on August 19, when the comet was much closer to the Sun, it was struck by the proton-bearing cloud of a CME.  Electrical breakdown occurred and the nucleus shattered like an exploding capacitor—just as we’ve seen in the case of other “inexplicable,” exploding comets.

Seeing the obvious

A “3 or 4 km-wide” chunk of ice and dirt could not just disappear at Elenin’s distances from the Sun, even with disintegration. Elenin is not a “sun grazer.” Its perihelion (closest approach to the Sun) was outside the orbit of Mercury.  But what if Elenin was, in truth, a tiny comet, but a strongly charged body for its size?  As noted above, since Elenin arrived from a very remote region, electrically-provoked brightening would be expected as it entered a more positively charged region of the heliosphere. For the same reasons, under the impact of a CME, disintegration by electrical breakdown is the obvious interpretation of what occurred.

Comet Schwassman-Wachmann 3The upper frame of this Hubble Space Telescope image captures the explosive disintegration of two separate fragments of Comet Schwassman-Wachmann 3 in April, 2006. The relationship of these two fragments to two other fragments from earlier break-up is evident in the lower Hubble image.

Would a larger comet have disintegrated so completely following the electrical explosion? For comparison purposes, the progressive disintegration of the unpredictable Comet Schwassmann-Wachmann 3 is worth noting. In the image above, the Hubble Space Telescope captured the disintegration of Schwassmann-Wachmann 3 in progress, when it was still out beyond Earth’s orbit.  Apparently, in this case a comet of more “respectable” size than Elenin exploded into fragments through phases, in the course of two or three orbits,  leading to sudden, rapid disintegration of at least two larger fragments in April, 2006.

It seems that when a comet of a more “typical” size disintegrates, it puts on a more lasting and spectacular display.  The prolonged disintegration of Comet Schwassman-Wachmann simply underscores the point noted above, that Elenin’s disintegration in a bright flash, followed by rapid disappearance of the residue, is the confirmation of a tiny nucleus.

Elenin’s predecessor—Comet Linear

A 21st century illustration of this point was the disintegration and disappearance of Comet Linear in 2000.  Indeed, Linear’s entry into the inner solar system from the outermost regions, its highly eccentric orbit, its brightening, and its demise appear to have anticipated very well the story of Elenin.  Compare the two images below to the “before and after” images of Elenin given earlier in this article.

Comet Linear on July 23, 2000

Comet Linear on July 23, 2000, in its “brightest moment” before complete disintegration.

Comet Linear on August 2, 2000

Comet Linear on August 2, 2000 after fragmentation of the nucleus

Comet Linear also provided one other clue to the electric comet. Rocky pebbles and grains of dust can quickly adjust to their electrical environment. With complete disintegration, discharge activity will quickly end. That’s what happened to Linear, and very likely what happened to Elenin. Linear was neither a dirty snowball, nor an icy dirtball.  With its disintegration, the only appreciable residue was dry dust.  In other words, though occasional water ice or other volatiles on a comet cannot be categorically excluded, there is good reason to anticipate that the remains of Comet Elenin will be almost entirely dust.  (This will most likely mean that the only “water” in the dust cloud will be the consequence of negatively charged oxygen atoms from the comet combining with hydrogen ions from the solar wind.)

For more than a quarter century now, on every major issue confronting comet science, the record is remarkably clear.  No “standard” model has withstood the surprises of the space age.  When Donald Brownlee, head of NASA’s stardust mission, confessed, “It’s a mystery to me how comets work at all,” he was simply speaking with the candor that all comet specialists owe to the tax-paying public.  Today, in the face of growing public disinterest, this candor is needed more than ever.

A comet holding its integrity year after year, then suddenly shattering at considerable distances from the Sun, was never expected. But what better way to move science forward than to ask: Why?  And what better way to re-inspire the space age than to discuss openly and publicly the sweeping evidence for electricity in space?


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