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Operation: ISON Barycentrism
(O:IB, drafted on 9th Aug 2013)

This is a cometary event presentation for the incoming Comet ISON, it is from an alternative point of view in physical science based on the qualitative predictions of UVS for cometary phenomena. In a nutshell, this is a revolutionary discovery of UVS with a vortical Solar System concept perceived in a paradigm shift based on the UVS model.

For the basis of O:IB, see the UVS topic on "The gas and dust tail of comet" for elaboration.

The dual-core magnetic Ring Center of the Solar System

From the UVS perspective, the magnetic Ring Center can be perceived as a vortical gravitational singularity of the Solar System that vortically displaces aether corpuscles around it as a low pressure system of aether, which obeys the principle of inverse-square law; a Solar System manifested precursor of a smaller scale dual-core black hole.

It is known that the gas tail of a comet follows magnetic field lines while, its dust tail follows its orbital trajectory.

In the UVS worldview, the gas tail vortex in the coma of the comet points inward directly to the dual-core barycenter of the Solar System (BOTSS), which is supposedly a spinning dual-core magnetic Ring Center of the Solar System located dynamically around the Sun; the magnetic Ring Center of the Solar System have significant effects for its perturbation on the gas tail of comet.


SCUBA image of dust
around the Fomalhaut star.

Note: It was labeled as a magnetic Ring Center because this entity was postulated to significantly perturb the magnetic field of the Sun, and even causes the periodical magnetic reversal of the Sun. In Newtonian physics, the Sun has 99.8% of the total mass of the Solar System with the posit for its space in the Solar System is a vacuum, but in reality, the volume of the charged particles filled heliosphere is approximately 18.15 trillion times larger than the Sun; this significant mass factor of charged particles has been overlooked for the Solar System barycenter calculation.

See the UVS topics on "Debris disk of star" that elaborates on the Ring Center of a star, "A star is vortically formed in a larger vortical system that impels its galaxy" that illustrates the gas tail of a protoplanet was apparently tracking a vortical center of its star, see an externally linked series of video on "Primer fields" that presents an intriguing solution with a plasma experiment to explain numerous phenomena of nature from the macrocosms to the microcosms, and "Fomalhaut debris ring" that illustrates the empirically observed debris ring of a planetary system with its star off-centered by a billion miles.

Image on right illustrates the Solar System arrangement when Comet Hale-Bopp was at perihelion on April 1, 1997. Supposedly, the approximated hypothetical location for the magnetic Ring Center, was apparently tracked by Jupiter and Saturn, and at that moment it should be located outside the Sun in the angular direction that was more toward Jupiter than Saturn.

From the perspective on a post Northward equinox tilted Earth looking to the West horizon when the Sun was setting, Comet Hale-Bopp would have had appeared in the evening sky above the setting Sun, and the glowing water ion tail (aka the primary gas tail) should have been pointed directly to the dual-core barycenter of the Solar System (or the Ring Center). In essence, this is the vortical low pressure system of a Solar System object that vortically seeks its strongly perturbing vortical low pressure point of the Solar System that impels it.

UVS predicates that the gas tail of the comet points directly to the dual-core barycenter of the solar system. Empirical observation of Comet ISON had shown otherwise. *falsified


Solar System arrangement when Comet Hale-Bopp was at perihelion on April 1, 1997.

During a solar maximum, when the magnetic Ring Center of the Solar System was supposedly inside the Sun, characterized by the flipped magnetic field of the Sun, the gas tail of many comets as apparently observed have had their ion gas tail aligned to the Sun, and this is regardless to the position of the observer from Earth in its orbit, or the trajectory of the comets. This phenomenon can be seen with a SOHO's video that shows a sundiving comet recorded in year 2011, as well as many other comets that were observed during different solar maximum periods when the magnetic field of the Sun was reversed.

Comet 96P/Machholz is a short period comet that was observed for four times by the SOHO spacecraft to revolve the Sun and passed perihelion at similar maximum velocity and similar closest approach to the Sun, but demonstrated an anomaly for its gas tail deflection in its 2002 visit, which was inexplicable with conventional wisdom.

Watch video clips on "Comet Machholz Returns! (April 6, 2007)", and "Comet 96P/Machholz in SOHO field 2012" that show Comet 96P/Machholz on two occasions has had its gas tail almost aligned to the Sun, these events were during the Sun's magnetic pole was reserved, where the magnetic Ring Center of the Solar System was supposedly very near or inside the Sun, with Saturn, Sun and Jupiter arranged in their near superior conjunction. Watch another video clip on "Comet 96P/Machholz (2002)" that shows this comet has had its deflecting gas tail pivoted to a very far point from the Sun, this event was during the Sun's magnetic pole was normal, where the magnetic Ring Center of the Solar System was supposedly outside the Sun, with Saturn, Sun and Jupiter arranged in their near inferior conjunction. As observed by the SOHO spacecraft, these are the immutable observational proofs for comet gas tail does not align with the Sun; this anomaly during the perihelion visits for this short-period comet is inexplicable with conventional wisdom of cometary science.

Note: The above qualitative prediction based on the UVS model was made prior to any empirical evidence was found for the gas tail of the comet does not point directly away from the Sun; the evidence for these empirical observations were hunted and thus found after the UVS qualitative prediction was made. If BOTSS and the magnetic Ring Center of the Solar System is later discovered to be different entities, they should be electromagnetically manifested in different wavelengths and unisonally associated for their interactions.

Note: The size of the Sun is denoted by the small white circle at the center in the SOHO LASCO C3 camera images.

Click on any of the three images illustrated above to see a video clip of time-lapsed pictures for Comet 96P/Machholz captured by the SOHO spacecraft in January 2002, and watch how did the trailing dust tail dynamically behaved in bending with its deflecting vortrex when the comet near its perihelion was making its turnaround revolving the Sun, and the comet supposedly passed by an invisible magnetic Ring Center of the Solar System, with its position revealed by the vortrex of the gas tail vortex that had appeared to be deflecting around it. Evidently, the third image shows the twisted dust tails was formed by trails of dust particles oozed out from an upper section of the turned around vortrex of the gas tail vortex.

From the UVS perspective, the deflecting vortrex of the gas tail revealed a position of the dual-core magnetic Ring Center during that turnaround event, and this video footage is also an empirical evidence to support the UVS qualitative prediction that suggests the dust tail of comet is vortically formed with charged dust particles levitated in the vortrex of its gas tail vortex.

When Comet Machholz was at its near approach passing by the Sun around perihelion in Jan 2002, the gas tail vortex should be pointing to the magnetic Ring Center of the Solar System. And conceivably, the nested vortrex column of the gas tail in the coma was intensely interacting with the dust tail ejecta to lift the charged dust particles very high up the vortrex wall with its vortical momentum, and therefore in the trajectory of the comet, it formed the widely stretched parabola-shaped dust tail trails with almost perpendicular striations of escaping dust particles as observed.

See the UVS subtopics on "The dual-core barycenter of the Solar System - BOTSS" and "The magnetic reversal of the Sun" that elucidate on the magnetic Ring Center of the Solar System.

See also a video clip on "SkyMarvels™ SOLAR SYSTEM BARYCENTER" that illustrates a barycenter motion of the Solar System that involves Sun and its four gas giants.


Comet Hyakutake captured by SOHO LASCO C3 camera


Comet NEAT captured by SOHO LASCO C3 camera

Comet Lovejoy captured by SOHO LASCO C3 camera

Click on the above images to see their video clips showing the dynamic motion of these comets with their peculiarly deflecting gas tails caught in action.

From the UVS perspective, the above illustrations for some comets captured by the SOHO spacecraft LASCO C3 camera in each of their time-lapsed sequence of images, they peculiarly revealed the positions of a dual-core magnetic Ring Center of the Solar System (aka BOTSS; Barycenter of the Solar System) at those moments. Conjecturally, the vortically manifested water ion gas tail vortex points to a higher frequency core of the magnetic Ring Center (indicated with a blue dot), and the vortically manifested dust tail vortrex points to the other lower frequency core of the magnetic Ring Center (indicated with an orange dot). But this conjecture suggests the dust tail vortrex would lead the gas tail vortex under some circumstances, which fails on the law of noncontradiction. *falsified

Nonetheless, the magnetic Ring Center could also be a vortically manifested nested dual-core oval structure, the levitated glowing dust particles are held at the lagging side in the vortrex of the gas tail vortex along the trajectory path, and the vortrex points to a position in the outer nested ring of the magnetic Ring Center.


Dual-core structure
*falsified

Nested oval structure

Note: The geometric structure of the dual-core magnetic Ring Center as illustrated above, is merely a postulation. In the 2D images of the SOHO LASCO C3 camera without the depth of view, the gas tail of every comet can be observed to paradoxically point at two opposite directions. Nonetheless, with the depth information revealed by knowing the trajectory of the comets, their observational paradoxes can be resolved.

As inferred with the recent passing of the second peak of the "double-peaked" solar maximum for Solar Cycle 24, supposedly caused by a core of the dual-core magnetic Ring Center interacting with the Sun, as well as indicated by the gas tail deflection angle of Comet Pan-STARR in Mar 2013 and Comet Lemmon in May 2013, and with the magnetic field of the Sun starting to revert back to its normal orientation from Aug 2013 onward, all these suggest that the dual-core magnetic Ring Center was about to exit the Sun completely in those moments. Also, the higher frequency core seemed to have had already exited the Sun with these inferences, and the entire dual-core magnetic Ring Center should be positioned outside the Sun by late Nov 2013 when the solar maximum is quite over with the Sun's magnetic field reverted to normal.

Thus, when the sungrazing Comet ISON approaches its perihelion in late Nov 2013, and when it is within the field of view of STEREO spacecraft's cameras, or the SOHO's cameras, all observers can expect to see the periodically updated images from the two STEREO spacecrafts' coronagraphs or the LASCO C3 camera to observe the gas tail deflection of this comet, and the gas tail vortex peculiar pointing direction changing dynamically with the turning around comet would reveal the location of the magnetic Ring Center. (Note: At after event, it revealed there was flaw in this proposition, but it is not entirely incorrect.)


A possible gas tail deflection of Comet ISON as qualitatively predicted with UVS.


A scenario with tails ripped near perihelion

Click above for the latest LASCO C3 image

See in an external link for "Comet ISON Interactive Model" that offers an interactive software tool for perceiving the trajectory of Comet ISON.

Supposedly, the view from Earth as illustrated above with reference to Sun's North Pole is approximately pointing upward, which could be seen in the same perspective as with the periodically updated SOHO image from the LASCO C3 camera, with the dynamically sophisticated hint of Jupiter's location that closely associates with the Ring Center, and making educated guess with the gas tail of Comet Pan-STARR, so during the days between the 26th of Nov 2013 to the 1st of Dec 2013, the relatively moving magnetic Ring Center would likely be situated quite near the Sun apparently at a small arc angle to its right side around the indicative invariable plane, which is slightly tilted upward at the far side from this vantage point.

Note: The Ring Center as illustrated above was placed much farther away from the Sun than anticipated to demonstrate the pivoting effects of the gas and dust tails.

When Comet ISON approaches its perihelion from around the 27th of Nov 2013, where it might start to be angularly zipping pass the magnetic Ring Center of the Solar System at the speculated indicative location near the Sun, and viewing from the Earth position where the SOHO cameras would be pointing at, as such it thus could be observed that the gas tail vortex of this accelerating comet when approaching the Sun, would incredibly start to turnaround while it points to the magnetic Ring Center. *falsified

Note: It was also advised in Wikipedia that SOHO will be able to view C/2012 S1 (Comet ISON) starting on 27 November 2013.

If the abovementioned peculiar feat for Comet ISON is observed, it would conclusively defy the conventional wisdom for cometary science on several accounts, which one suggests the ion gas tail are caused by solar wind radiation to jet the outgasing water ions into space at directly away from the direction of the Sun. And evidently, Comet NEAT as recorded by the SOHO spacecraft demonstrated that high speed solar wind and the two corona mass ejection directly blasted at it has had no significant effect for deflecting its gas tail.

Wherever would it be for the location of the magnetic Ring Center at outside the Sun in the said period of time, and unless it is aligned with Earth and Sun when Comet ISON moves in or moves out of its perihelion, its gas tail deflection not aligning with the Sun is nevertheless expected to be observed. And if the gas tail vortrex is observed to be lagging behind its gas tail vortex, it would suggest the Ring Center has a nested ring structure, or the dust particles merely levitate in the lagging side of the nested gas tail vortrex.

And depends on the orientation of the dual-core magnetic Ring Center, as well as the composition of the comet's nucleus, it is also possible to observe two vortically manifested gas tails of this comet, and its dust tail bending from a section of a gas tail vortrex with its trails as vortical striations of escaping dust particles left behind in the direction of its trajectory after passing by the magnetic Ring Center. And like what had happened to the anti-cyclonic sungrazing Comet Lovejoy with a ripped tail in its outbound flight, there is a high possibility for the gas and dust tails of the anti-cyclonic sungrazing Comet ISON to be also ripped and snatched by the Sun's cyclonic gravity field effect.

See in an external link for a topic on "Heliospheric current sheet" that illustrates a cyclonically rotating magnetic field of the Sun, and a video clip on "Comet's Tail Ripped Off By Sun's Fury" that shows how the tail of Comet Encke was ripped off by a solar effect.

All Comet ISON enthusiasts are invited to explore and witness this paradigm-shifting discovery of UVS, and watch this comet event on satellite cameras featured in "STEREO SCIENCE CENTER", and the LASCO C3 camera of the SOHO spacecraft in late November 2013.

Peace out from team O:IB.

 

Note: In the UVS worldview, with reference to Sun's North Pole pointing in the upward direction, the Solar System is cyclonically impelled by its underlying cyclonic vortex, therefore Sun and all its eight major planets spiral in counterclockwise direction around the BOTSS, which also vortically wobbles to revolve on an axis of approximately 60 degree inclination in the galactic plane around the Galactic Center. The trajectory of Comet ISON suggests it is impelled by a resonated anti-cyclonic vortex with a substantial inclination to the underlying cyclonic vortex, and based on the unisonal vortex mechanism of UVS, it suggests this would greatly intensify the Sun's cyclonic gravity field effect acting on Comet ISON for approaching in an opposite direction to intensely flare up the comet at its near encounter, the effects with magnetic reconnection might also rip the optically invisible nested coma to severe its tails from the comet, or even rip apart the nucleus of this sungrazing comet.

Useful tools for broad-based comet trajectory studies of known comets:
- "Previous Picks of The Week" from SOHO website.
- JPL Small-Body Database Browser in an interactive 3D model.

 


O:IB - The photo of conviction

The photo of solar eclipse in 1919 taken by Arthur Eddington, although cannot be considered as a beautiful picture by photography standard, it was significantly the initial proof for Einstein's theory of relativity; this is a breathtaking photo of conviction in the twentieth century that had made its mark for the paradigm shift to modern physics.

Before the empirical evidence for comet gas tail does not align with the Sun as observed by the SOHO spacecraft was discovered, one main objective of O:IB was to raise the awareness of well-equipped astrophotographers from all over the world who have the required expertise to photograph this peculiar comet gas tail phenomenon in daylight, and then provides them the necessary information and details for taking the photos of the Sun with Comet ISON in near vicinity at the right moment to capture photos of the gas tail when it is peculiarly not aligned with the Sun.

The aforementioned was considered because of Earth rotates, local weather hindrances, no certainty on the timing of the comet approaching the indicative position of the Ring Center, and the very crucial moment for the event would be over within a few hours, therefore, with more well-equipped astrophotographers scattered all over the globe than just us doing it alone, it would increase the chances of success for its photo taking. The thought at then was, if the anticipated event happens, these captions might be the twenty-first century photos of conviction that mark another paradigm shift of physics and cosmology.


The 1919 solar eclipse photo
taken by Arthur Eddington

Nonetheless, we now know this anticipated phenomenon of Comet ISON would be seamlessly captured by the cameras of several satellites, but it can still be very sensational for the mass public with the showcasing of the imagery from an earthly perception as emulated below.


An emulation of sunrise in Singapore at 6:52 a.m. local time on the 28th of November 2013 with the spotting of Sun, Comet ISON, Mercury and Saturn.

Note: The Ring Center as illustrated above was placed much farther away from the Sun than anticipated to demonstrate the pivoting effects of the gas and dust tails.

Then later by about 18:00 hour Singapore time (10:00 hour UTC) on the 28th of November in Singapore, Comet ISON having moved nearer to the setting Sun at then would be about to pass by the indicative magnetic Ring Center, and if the Ring Center was there, the gas tail pivoting to the Ring Center would peculiarly start to turnaround before passing by the Sun. But soon after, Comet ISON will be setting from the horizon, and then return to the sky the next morning if it manages to survive after having passed its perihelion through the solar corona at its maximum velocity of more than 370 km/s.

Based on the current information for the trajectory of Comet ISON, as illustrated in the emulation as shown below with the speculated location of the Ring Center, the few hours of critical moment for the peculiar gas tail deflection would be best observed from sunrise in the southern hemisphere at location such as Chile. As such, the incredible deflection of gas tail and dust tail that pivots around the dual-core Ring Center at it best, would be observable throughout the day in the sky of South America.


An emulation of sunrise in Chile at 6:25 a.m. local time on the 28th of November 2013 with the spotting of Sun, Comet ISON, Mercury and Saturn.

Circumstantially, all astrophotographers going for comets would naturally be compelled to take their photographs just before sunrise or after sunset; this is a prerequisite for capturing beautiful photographs of comets that are most brilliance in those best moments.

However, for the picture of conviction for cometary science, as with the potential of Comet ISON for how its gas tail could be peculiarly deflected in a unique way, the opposite has to be attempted; the image for the peculiar defected gas tail of Comet ISON not aligned to the Sun has to include Sun in the field of view for its photograph.

Although Comet ISON might be visible in the daylight when it is near perihelion, using the correct filter such as a polarizer, or a graduated netural density filter, and blocking the Sun in the field of view with an improvised corona mask (can be a small circular dark film cut out with a paper hole puncher), can help to better reveal the tails of the comet. Also take note on photo taking for celestial objects near the horizon can be subjected to all sorts of optical phenomenon.

And for those who manage to make some good shots, do remember to record the geological coordinates where the pictures were taken at their UTC time.

We wish all participating astrophotographers good luck and every success.

Note: The real-time location of Comet ISON's in the sky and its other details can be monitored at "The Sky LIVE".

Warning: Because of the hazard and high risk from looking at the sun even for one second accidently through telescope can cause permanent damage to eyesight, it is strongly not advisable for novice to attempt without expert guidance, taking necessary precaution, and proper supervision. Moreover, the satellite captions for Comet ISON can be safely watched over Internet with periodical live updates, therefore it is not necessary to take any unwarranted risk, so for goodness sake of those with no experience, please do not attempt by yourself at all.

 

O:IB disclaimer: This alternative point of view in the UVS research , in no way may be considered as a finalized or completed study for the phenomena of comet. And some of the objects labeled in the images illustrated herein, such as the gas tail #2 of Comet Lovejoy and the arrangement of Comet ISON's tails on different dates, were merely speculation. Many propositions of cometary phenomena in its mostly qualitative form based on the alternative hypothesis, were merely the one man's view of a vortical universe, construed with the visions of a vortical Solar System conceived in his daydreams.

 

Clarification: The image on right is a caption of Comet McNaught taken by Terry Cuttle on the 21st of Jan 2007 at Mt Coochin, Glasshouse Mountains, Queensland, Australia, was previously indicated by myself that the orange color glow on the horizon was from the Sun. With special thanks to Terry Cuttle for his reply that had clarified the orange color glow in the image is not the location of the Sun, and with his detailed advice and information for this image was taken at about 8 p.m. on the 21st of Jan 2007, as advised, it therefore could simply be verified by using any suitable planetarium program for locating the position of the Sun, which is about 15 degree below the horizon as mentioned when this image was captured.

Also, another later found image for Comet McNaught as presented by S. Deiries (ESO) and M. Fulle (INAF) with the physical location of the Sun indicated, had confirmed its exact location in this image was below the horizon. This is a more reliable empirical observation for the actual location of the Sun as compared with the apparent observation, which could be rendered by optical illusions to different degree as a result of possible atmospheric refraction, or false sunset that couples with the elevated observation from higher altitude.

 


Debrief for O:IB
(Updated on 4th Dec 2013)

Comet ISON has had eventually come by and swung past the Sun. Notably, it was observed with several spacecrafts, and especially it was seamlessly observed from three vantage points by the STEREO Ahead, the STEREO Behind, and the SOHO spacecrafts.

Watch a video clip on "NASA | Comet ISON's Full Perihelion Pass" with Comet ISON observed by the SOHO and the STEREO A spacecrafts.

Despite those anecdotal evidence previously collected, which prompted O:IB, the gas tail deflection of Comet ISON before perihelion did not happen like how it was anticipated to be observed. Nonetheless, the full extend empirical observations by the three spacecrafts from all angles for the Comet ISON event, were sufficient to conclude that comet gas tail does not always point directly to the proposed magnetic Ring Center of the Solar System.

However, this also does not conclude that the comet gas tail does not point directly to the postulated magnetic Ring Center at all; this null result cannot conclude the magnetic Ring Center does not exist. There are circumstantial evidence with 20 years of data recorded for more than 10 comet gas tails of sungazing comets at post-perihelion, could be somehow pointed to the trajectory of the magnetic Ring Center as it was apparently traced, and it cannot be ruled out that the gas tail of comet could be always aligned with different counteracted spoke lines of the Solar System while it moves around the Sun. The gas tail of a comet could be resonated to point at one magnetic core of a dual-core magnetic center for its inbound flight, and then resonated to point at the other magnetic core for its outbound flight.


Spoke lines of star

UVS predicates that the gas tail of the comet is always aligned with different counteracted magnetic spoke lines of the Solar System while it moves around the Sun. Revamped.

The magnetic reversal of the Sun cyclically occurs every 11 years approximately as empirically observed, suggests the postulated magnetic Ring Center of the Solar System could exist, and this is regardless of the comet gas tail does not directly point at the proposed magnetic Ring Center for the Comet ISON event. A Flip Ring as illustrated in an ingenious plasma experiment (@10:20 of the video clip), demonstrates a mechanism for how the Sun could flip its magnetic field when it enters and exits the postulated magnetic Ring Center.

The Newtonian Solar System model does not factor in the mass effect of the ejected charged particles encapsulated in the wobbling heliosphere, which is approximately 18 trillion times the volume of the Sun. This suggests the actual barycenter of the Solar System is not the conventional barycentric coordinate of the Solar System, which was calculated without considering the mass effect of those ejected charged particles that propagate in spiral motion at an average velocity of 400-500 km per second away from the Sun in the Solar System to fill the entire heliosphere. Volume of the Sun is ~1.412×10^18 cubic km, mass of the Sun is ~1.9891×10^30 kg, heliosphere has an approximate radius of 122 astronomical units, density of the Solar Wind is 4.0 atoms per cubic centimeter, the mass of a proton is ~1.6726×10^-27 kg. And therefore a very sketchy calculation with omission errors for the total mass of supersonic protons in the heliosphere is only roughly 1.70x10^20 kg, but this could have a significant precessing effect on the Solar System in an overall angular momentum of 7.67x10^28 kg m s^-1 with its 450 km average velocity, and this is apparently not a miniscule effect. If consider an upper limit for the density of solar wind at ~7.0 atoms per cubic centimeter as suggested by the other solar wind research, the potential mass effect of protons in the heliosphere is approximately 6.75% of the Sun's mass. And by considering the dragging effect by all other Solar System rocks and stuff beside Sun, Jupiter and Saturn, this is very potentially the catalyst that can drag to alter the ~20 year solar cycle of Sun, Jupiter and Saturn for manifesting the ~22 year solar cycle for BOTSS and Sun.

Comet ISON managed to survive its close approach to the Sun, and continued to emit water ions on its perihelion passage, suggests this comet might not be a dirty snowball. This anomaly was also empirically observed by the SOHO spacecraft in the Comet C/2011 W3 (Lovejoy) event in year 2011, as well as some other comet events.

On the perihelion passage of Comet ISON, the cone-shaped gas and dust tails that fanned out to form the fan-shaped structures on its exit path, are evidence for these are vortical structures manifested in the coma; the axis of the gas tail vortex in the coma was precessing around the Sun with vortical striations of its dust tail. Such phenomenon were also empirically observed by the SOHO spacecraft for the Comet 96P/Machholz event in year 2002, as well as in several events of other comets.

The blasts of corona mass ejections apparently did not deflect the gas tail of Comet ISON. This anomaly was also empirically observed by the SOHO spacecraft for several other comets, such as the Comet NEAT event, and this can be further confirmed by checking the solar wind speed data recorded by the SOHO spacecraft. These showed the conventional wisdom that suggests solar wind causes the gas tail of comet to always point directly away from the Sun, is a myth.

Last but not least, with thanks to a member of the public who posted a link for UVS on "The Galactic Mosh Pit", which is an empirical evidence that suggests the Milky Way Galaxy and its star systems with their planetary systems, are fractals of vortical structure.

Peace out.


Operation: ISON Barycentrism
(O:IB, drafted on 9th Aug 2013)

This is a cometary event presentation for the incoming Comet ISON, it is from an alternative point of view in its physical science research based on the qualitative predictions of UVS for cometary phenomena. In a nutshell, this is a revolutionary discovery of UVS with a vortical Solar System concept perceived in a paradigm shift based on the UVS model.

For the basis of O:IB, see the UVS topic on "The gas and dust tail of comet" for elaboration.

The dual-core magnetic Ring Center of the Solar System

From the UVS perspective, the magnetic Ring Center can be perceived as a vortical gravitational singularity of the Solar System that vortically displaces aether corpuscles around it as a low pressure system of aether, which obeys the principle of inverse-square law; a Solar System manifested precursor of a smaller scale dual-core black hole.

It is known that the gas tail of a comet follows magnetic field lines while, its dust tail follows its orbital trajectory.

In the UVS worldview, the gas tail vortex in the coma of the comet points inward directly to the dual-core barycenter of the Solar System (BOTSS), which is supposedly a spinning dual-core magnetic Ring Center of the Solar System located dynamically around the Sun; the magnetic Ring Center of the Solar System have significant effects for its perturbation on the gas tail of comet.


SCUBA image of dust
around the Fomalhaut star.

Note: It was labeled as a magnetic Ring Center because this entity was postulated to significantly perturb the magnetic field of the Sun, and even causes the periodical magnetic reversal of the Sun. In Newtonian physics, the Sun has 99.8% of the total mass of the Solar System with the posit for its space in the Solar System is a vacuum, but in reality, the volume of the charged particles filled heliosphere is approximately 18.15 trillion times larger than the Sun; this significant mass factor of charged particles has been overlooked for the Solar System barycenter calculation.

See the UVS topics on "Debris disk of star" that elaborates on the Ring Center of a star, "A star is vortically formed in a larger vortical system that impels its galaxy" that illustrates the gas tail of a protoplanet was apparently tracking a vortical center of its star, see an externally linked series of video on "Primer fields" that presents an intriguing solution with a plasma experiment to explain numerous phenomena of nature from the macrocosms to the microcosms, and "Fomalhaut debris ring" that illustrates the empirically observed debris ring of a planetary system with its star off-centered by a billion miles.

Image on right illustrates the Solar System arrangement when Comet Hale-Bopp was at perihelion on April 1, 1997. Supposedly, the approximated hypothetical location for the magnetic Ring Center, was apparently tracked by Jupiter and Saturn, and at that moment it should be located outside the Sun in the angular direction that was more toward Jupiter than Saturn.

From the perspective on a post Northward equinox tilted Earth looking to the West horizon when the Sun was setting, Comet Hale-Bopp would have had appeared in the evening sky above the setting Sun, and the glowing water ion tail (aka the primary gas tail) should have been pointed directly to the dual-core barycenter of the Solar System (or the Ring Center). In essence, this is the vortical low pressure system of a Solar System object that vortically seeks its strongly perturbing vortical low pressure point of the Solar System that impels it.

UVS predicates that the gas tail of the comet points directly to the dual-core barycenter of the solar system. Empirical observation of Comet ISON had shown otherwise. *falsified


Solar System arrangement when Comet Hale-Bopp was at perihelion on April 1, 1997.

During a solar maximum, when the magnetic Ring Center of the Solar System was supposedly inside the Sun, characterized by the flipped magnetic field of the Sun, the gas tail of many comets as apparently observed have had their ion gas tail aligned to the Sun, and this is regardless to the position of the observer from Earth in its orbit, or the trajectory of the comets. This phenomenon can be seen with a SOHO's video that shows a sundiving comet recorded in year 2011, as well as many other comets that were observed during different solar maximum periods when the magnetic field of the Sun was reversed.

Comet 96P/Machholz is a short period comet that was observed for four times by the SOHO spacecraft to revolve the Sun and passed perihelion at similar maximum velocity and similar closest approach to the Sun, but demonstrated an anomaly for its gas tail deflection in its 2002 visit, which was inexplicable with conventional wisdom.

Watch video clips on "Comet Machholz Returns! (April 6, 2007)", and "Comet 96P/Machholz in SOHO field 2012" that show Comet 96P/Machholz on two occasions has had its gas tail almost aligned to the Sun, these events were during the Sun's magnetic pole was reserved, where the magnetic Ring Center of the Solar System was supposedly very near or inside the Sun, with Saturn, Sun and Jupiter arranged in their near superior conjunction. Watch another video clip on "Comet 96P/Machholz (2002)" that shows this comet has had its deflecting gas tail pivoted to a very far point from the Sun, this event was during the Sun's magnetic pole was normal, where the magnetic Ring Center of the Solar System was supposedly outside the Sun, with Saturn, Sun and Jupiter arranged in their near inferior conjunction. As observed by the SOHO spacecraft, these are the immutable observational proofs for comet gas tail does not align with the Sun; this anomaly during the perihelion visits for this short-period comet is inexplicable with conventional wisdom of cometary science.

Note: The above qualitative prediction based on the UVS model was made prior to any empirical evidence was found for the gas tail of the comet does not point directly away from the Sun; the evidence for these empirical observations were hunted and thus found after the UVS qualitative prediction was made. If BOTSS and the magnetic Ring Center of the Solar System is later discovered to be different entities, they should be electromagnetically manifested in different wavelengths and unisonally associated for their interactions.

Note: The size of the Sun is denoted by the small white circle at the center in the SOHO LASCO C3 camera images.

Click on any of the three images illustrated above to see a video clip of time-lapsed pictures for Comet 96P/Machholz captured by the SOHO spacecraft in January 2002, and watch how did the trailing dust tail dynamically behaved in bending with its deflecting vortrex when the comet near its perihelion was making its turnaround revolving the Sun, and the comet supposedly passed by an invisible magnetic Ring Center of the Solar System, with its position revealed by the vortrex of the gas tail vortex that had appeared to be deflecting around it. Evidently, the third image shows the twisted dust tails was formed by trails of dust particles oozed out from an upper section of the turned around vortrex of the gas tail vortex.

From the UVS perspective, the deflecting vortrex of the gas tail revealed a position of the dual-core magnetic Ring Center during that turnaround event, and this video footage is also an empirical evidence to support the UVS qualitative prediction that suggests the dust tail of comet is vortically formed with charged dust particles levitated in the vortrex of its gas tail vortex.

When Comet Machholz was at its near approach passing by the Sun around perihelion in Jan 2002, the gas tail vortex should be pointing to the magnetic Ring Center of the Solar System. And conceivably, the nested vortrex column of the gas tail in the coma was intensely interacting with the dust tail ejecta to lift the charged dust particles very high up the vortrex wall with its vortical momentum, and therefore in the trajectory of the comet, it formed the widely stretched parabola-shaped dust tail trails with almost perpendicular striations of escaping dust particles as observed.

See the UVS subtopics on "The dual-core barycenter of the Solar System - BOTSS" and "The magnetic reversal of the Sun" that elucidate on the magnetic Ring Center of the Solar System.

See also a video clip on "SkyMarvels™ SOLAR SYSTEM BARYCENTER" that illustrates a barycenter motion of the Solar System that involves Sun and its four gas giants.


Comet Hyakutake captured by SOHO LASCO C3 camera


Comet NEAT captured by SOHO LASCO C3 camera

Comet Lovejoy captured by SOHO LASCO C3 camera

Click on the above images to see their video clips showing the dynamic motion of these comets with their peculiarly deflecting gas tails caught in action.

From the UVS perspective, the above illustrations for some comets captured by the SOHO spacecraft LASCO C3 camera in each of their time-lapsed sequence of images, they peculiarly revealed the positions of a dual-core magnetic Ring Center of the Solar System (aka BOTSS; Barycenter of the Solar System) at those moments. Conjecturally, the vortically manifested water ion gas tail vortex points to a higher frequency core of the magnetic Ring Center (indicated with a blue dot), and the vortically manifested dust tail vortrex points to the other lower frequency core of the magnetic Ring Center (indicated with an orange dot). But this conjecture suggests the dust tail vortrex would lead the gas tail vortex under some circumstances, which fails on the law of noncontradiction. *falsified

Nonetheless, the magnetic Ring Center could also be a vortically manifested nested dual-core oval structure, the levitated glowing dust particles are held at the lagging side in the vortrex of the gas tail vortex along the trajectory path, and the vortrex points to a position in the outer nested ring of the magnetic Ring Center.


Dual-core structure
*falsified

Nested oval structure

Note: The geometric structure of the dual-core magnetic Ring Center as illustrated above, is merely a postulation. In the 2D images of the SOHO LASCO C3 camera without the depth of view, the gas tail of every comet can be observed to paradoxically point at two opposite directions. Nonetheless, with the depth information revealed by knowing the trajectory of the comets, their observational paradoxes can be resolved.

As inferred with the recent passing of the second peak of the "double-peaked" solar maximum for Solar Cycle 24, supposedly caused by a core of the dual-core magnetic Ring Center interacting with the Sun, as well as indicated by the gas tail deflection angle of Comet Pan-STARR in Mar 2013 and Comet Lemmon in May 2013, and with the magnetic field of the Sun starting to revert back to its normal orientation from Aug 2013 onward, all these suggest that the dual-core magnetic Ring Center was about to exit the Sun completely in those moments. Also, the higher frequency core seemed to have had already exited the Sun with these inferences, and the entire dual-core magnetic Ring Center should be positioned outside the Sun by late Nov 2013 when the solar maximum is quite over with the Sun's magnetic field reverted to normal.

Thus, when the sungrazing Comet ISON approaches its perihelion in late Nov 2013, and when it is within the field of view of STEREO spacecraft's cameras, or the SOHO's cameras, all observers can expect to see the periodically updated images from the two STEREO spacecrafts' coronagraphs or the LASCO C3 camera to observe the gas tail deflection of this comet, and the gas tail vortex peculiar pointing direction changing dynamically with the turning around comet would reveal the location of the magnetic Ring Center. (Note: At after event, it revealed there was flaw in this proposition, but it is not entirely incorrect.)


A possible gas tail deflection of Comet ISON as qualitatively predicted with UVS.


A scenario with tails ripped near perihelion

Click above for the latest LASCO C3 image

See in an external link for "Comet ISON Interactive Model" that offers an interactive software tool for perceiving the trajectory of Comet ISON.

Supposedly, the view from Earth as illustrated above with reference to Sun's North Pole is approximately pointing upward, which could be seen in the same perspective as with the periodically updated SOHO image from the LASCO C3 camera, with the dynamically sophisticated hint of Jupiter's location that closely associates with the Ring Center, and making educated guess with the gas tail of Comet Pan-STARR, so during the days between the 26th of Nov 2013 to the 1st of Dec 2013, the relatively moving magnetic Ring Center would likely be situated quite near the Sun apparently at a small arc angle to its right side around the indicative invariable plane, which is slightly tilted upward at the far side from this vantage point.

Note: The Ring Center as illustrated above was placed much farther away from the Sun than anticipated to demonstrate the pivoting effects of the gas and dust tails.

When Comet ISON approaches its perihelion from around the 27th of Nov 2013, where it might start to be angularly zipping pass the magnetic Ring Center of the Solar System at the speculated indicative location near the Sun, and viewing from the Earth position where the SOHO cameras would be pointing at, as such it thus could be observed that the gas tail vortex of this accelerating comet when approaching the Sun, would incredibly start to turnaround while it points to the magnetic Ring Center. *falsified

Note: It was also advised in Wikipedia that SOHO will be able to view C/2012 S1 (Comet ISON) starting on 27 November 2013.

If the abovementioned peculiar feat for Comet ISON is observed, it would conclusively defy the conventional wisdom for cometary science on several accounts, which one suggests the ion gas tail are caused by solar wind radiation to jet the outgasing water ions into space at directly away from the direction of the Sun. And evidently, Comet NEAT as recorded by the SOHO spacecraft demonstrated that high speed solar wind and the two corona mass ejection directly blasted at it has had no significant effect for deflecting its gas tail.

Wherever would it be for the location of the magnetic Ring Center at outside the Sun in the said period of time, and unless it is aligned with Earth and Sun when Comet ISON moves in or moves out of its perihelion, its gas tail deflection not aligning with the Sun is nevertheless expected to be observed. And if the gas tail vortrex is observed to be lagging behind its gas tail vortex, it would suggest the Ring Center has a nested ring structure, or the dust particles merely levitate in the lagging side of the nested gas tail vortrex.

And depends on the orientation of the dual-core magnetic Ring Center, as well as the composition of the comet's nucleus, it is also possible to observe two vortically manifested gas tails of this comet, and its dust tail bending from a section of a gas tail vortrex with its trails as vortical striations of escaping dust particles left behind in the direction of its trajectory after passing by the magnetic Ring Center. And like what had happened to the anti-cyclonic sungrazing Comet Lovejoy with a ripped tail in its outbound flight, there is a high possibility for the gas and dust tails of the anti-cyclonic sungrazing Comet ISON to be also ripped and snatched by the Sun's cyclonic gravity field effect.

See in an external link for a topic on "Heliospheric current sheet" that illustrates a cyclonically rotating magnetic field of the Sun, and a video clip on "Comet's Tail Ripped Off By Sun's Fury" that shows how the tail of Comet Encke was ripped off by a solar effect.

All Comet ISON enthusiasts are invited to explore and witness this paradigm-shifting discovery of UVS, and watch this comet event on satellite cameras featured in "STEREO SCIENCE CENTER", and the LASCO C3 camera of the SOHO spacecraft in late November 2013.

Peace out from team O:IB.

 

Note: In the UVS worldview, with reference to Sun's North Pole pointing in the upward direction, the Solar System is cyclonically impelled by its underlying cyclonic vortex, therefore Sun and all its eight major planets spiral in counterclockwise direction around the BOTSS, which also vortically wobbles to revolve on an axis of approximately 60 degree inclination in the galactic plane around the Galactic Center. The trajectory of Comet ISON suggests it is impelled by a resonated anti-cyclonic vortex with a substantial inclination to the underlying cyclonic vortex, and based on the unisonal vortex mechanism of UVS, it suggests this would greatly intensify the Sun's cyclonic gravity field effect acting on Comet ISON for approaching in an opposite direction to intensely flare up the comet at its near encounter, the effects with magnetic reconnection might also rip the optically invisible nested coma to severe its tails from the comet, or even rip apart the nucleus of this sungrazing comet.

Useful tools for broad-based comet trajectory studies of known comets:
- "Previous Picks of The Week" from SOHO website.
- JPL Small-Body Database Browser in an interactive 3D model.

 


O:IB - The photo of conviction

The photo of solar eclipse in 1919 taken by Arthur Eddington, although cannot be considered as a beautiful picture by photography standard, it was significantly the initial proof for Einstein's theory of relativity; this is a breathtaking photo of conviction in the twentieth century that had made its mark for the paradigm shift to modern physics.

Before the empirical evidence for comet gas tail does not align with the Sun as observed by the SOHO spacecraft was discovered, one main objective of O:IB was to raise the awareness of well-equipped astrophotographers from all over the world who have the required expertise to photograph this peculiar comet gas tail phenomenon in daylight, and then provides them the necessary information and details for taking the photos of the Sun with Comet ISON in near vicinity at the right moment to capture photos of the gas tail when it is peculiarly not aligned with the Sun.

The aforementioned was considered because of Earth rotates, local weather hindrances, no certainty on the timing of the comet approaching the indicative position of the Ring Center, and the very crucial moment for the event would be over within a few hours, therefore, with more well-equipped astrophotographers scattered all over the globe than just us doing it alone, it would increase the chances of success for its photo taking. The thought at then was, if the anticipated event happens, these captions might be the twenty-first century photos of conviction that mark another paradigm shift of physics and cosmology.


The 1919 solar eclipse photo
taken by Arthur Eddington

Nonetheless, we now know this anticipated phenomenon of Comet ISON would be seamlessly captured by the cameras of several satellites, but it can still be very sensational for the mass public with the showcasing of the imagery from an earthly perception as emulated below.


An emulation of sunrise in Singapore at 6:52 a.m. local time on the 28th of November 2013 with the spotting of Sun, Comet ISON, Mercury and Saturn.

Note: The Ring Center as illustrated above was placed much farther away from the Sun than anticipated to demonstrate the pivoting effects of the gas and dust tails.

Then later by about 18:00 hour Singapore time (10:00 hour UTC) on the 28th of November in Singapore, Comet ISON having moved nearer to the setting Sun at then would be about to pass by the indicative magnetic Ring Center, and if the Ring Center was there, the gas tail pivoting to the Ring Center would peculiarly start to turnaround before passing by the Sun. But soon after, Comet ISON will be setting from the horizon, and then return to the sky the next morning if it manages to survive after having passed its perihelion through the solar corona at its maximum velocity of more than 370 km/s.

Based on the current information for the trajectory of Comet ISON, as illustrated in the emulation as shown below with the speculated location of the Ring Center, the few hours of critical moment for the peculiar gas tail deflection would be best observed from sunrise in the southern hemisphere at location such as Chile. As such, the incredible deflection of gas tail and dust tail that pivots around the dual-core Ring Center at it best, would be observable throughout the day in the sky of South America.


An emulation of sunrise in Chile at 6:25 a.m. local time on the 28th of November 2013 with the spotting of Sun, Comet ISON, Mercury and Saturn.

Circumstantially, all astrophotographers going for comets would naturally be compelled to take their photographs just before sunrise or after sunset; this is a prerequisite for capturing beautiful photographs of comets that are most brilliance in those best moments.

However, for the picture of conviction for cometary science, as with the potential of Comet ISON for how its gas tail could be peculiarly deflected in a unique way, the opposite has to be attempted; the image for the peculiar defected gas tail of Comet ISON not aligned to the Sun has to include Sun in the field of view for its photograph.

Although Comet ISON might be visible in the daylight when it is near perihelion, using the correct filter such as a polarizer, or a graduated netural density filter, and blocking the Sun in the field of view with an improvised corona mask (can be a small circular dark film cut out with a paper hole puncher), can help to better reveal the tails of the comet. Also take note on photo taking for celestial objects near the horizon can be subjected to all sorts of optical phenomenon.

And for those who manage to make some good shots, do remember to record the geological coordinates where the pictures were taken at their UTC time.

We wish all participating astrophotographers good luck and every success.

Note: The real-time location of Comet ISON's in the sky and its other details can be monitored at "The Sky LIVE".

Warning: Because of the hazard and high risk from looking at the sun even for one second accidently through telescope can cause permanent damage to eyesight, it is strongly not advisable for novice to attempt without expert guidance, taking necessary precaution, and proper supervision. Moreover, the satellite captions for Comet ISON can be safely watched over Internet with periodical live updates, therefore it is not necessary to take any unwarranted risk, so for goodness sake of those with no experience, please do not attempt by yourself at all.

 

O:IB disclaimer: This alternative point of view in the UVS research, in no way may be considered as a finalized or completed study for the phenomena of comet. And some of the objects labeled in the images illustrated herein, such as the gas tail #2 of Comet Lovejoy and the arrangement of Comet ISON's tails on different dates, were merely speculation. Many propositions of cometary phenomena in its mostly qualitative form based on the alternative hypothesis, were merely the one man's view of a vortical universe, construed with the visions of a vortical Solar System conceived in his daydreams.

 

Clarification: The image on right is a caption of Comet McNaught taken by Terry Cuttle on the 21st of Jan 2007 at Mt Coochin, Glasshouse Mountains, Queensland, Australia, was previously indicated by myself that the orange color glow on the horizon was from the Sun. With special thanks to Terry Cuttle for his reply that had clarified the orange color glow in the image is not the location of the Sun, and with his detailed advice and information for this image was taken at about 8 p.m. on the 21st of Jan 2007, as advised, it therefore could simply be verified by using any suitable planetarium program for locating the position of the Sun, which is about 15 degree below the horizon as mentioned when this image was captured.

Also, another later found image for Comet McNaught as presented by S. Deiries (ESO) and M. Fulle (INAF) with the physical location of the Sun indicated, had confirmed its exact location in this image was below the horizon. This is a more reliable empirical observation for the actual location of the Sun as compared with the apparent observation, which could be rendered by optical illusions to different degree as a result of possible atmospheric refraction, or false sunset that couples with the elevated observation from higher altitude.

 


Debrief for O:IB
(Updated on 4th Dec 2013)

Comet ISON has had eventually come by and swung past the Sun. Notably, it was observed with several spacecrafts, and especially it was seamlessly observed from three vantage points by the STEREO Ahead, the STEREO Behind, and the SOHO spacecrafts.

Watch a video clip on "NASA | Comet ISON's Full Perihelion Pass" with Comet ISON observed by the SOHO and the STEREO A spacecrafts.

Despite those anecdotal evidence previously collected, which prompted O:IB, the gas tail deflection of Comet ISON before perihelion did not happen like how it was anticipated to be observed. Nonetheless, the full extend empirical observations by the three spacecrafts from all angles for the Comet ISON event, were sufficient to conclude that comet gas tail does not always point directly to the proposed magnetic Ring Center of the Solar System.

However, this also does not conclude that the comet gas tail does not point directly to the postulated magnetic Ring Center at all; this null result cannot conclude the magnetic Ring Center does not exist. There are circumstantial evidence with 20 years of data recorded for more than 10 comet gas tails of sungazing comets at post-perihelion, could be somehow pointed to the trajectory of the magnetic Ring Center as it was apparently traced, and it cannot be ruled out that the gas tail of comet could be always aligned with different counteracted spoke lines of the Solar System while it moves around the Sun. The gas tail of a comet could be resonated to point at one magnetic core of a dual-core magnetic center for its inbound flight, and then resonated to point at the other magnetic core for its outbound flight.


Spoke lines of star

UVS predicates that the gas tail of the comet is always aligned with different counteracted magnetic spoke lines of the Solar System while it moves around the Sun. Revamped.

The magnetic reversal of the Sun cyclically occurs every 11 years approximately as empirically observed, suggests the postulated magnetic Ring Center of the Solar System could exist, and this is regardless of the comet gas tail does not directly point at the proposed magnetic Ring Center for the Comet ISON event. A Flip Ring as illustrated in an ingenious plasma experiment (@10:20 of the video clip), demonstrates a mechanism for how the Sun could flip its magnetic field when it enters and exits the postulated magnetic Ring Center.

The Newtonian Solar System model does not factor in the mass effect of the ejected charged particles encapsulated in the wobbling heliosphere, which is approximately 18 trillion times the volume of the Sun. This suggests the actual barycenter of the Solar System is not the conventional barycentric coordinate of the Solar System, which was calculated without considering the mass effect of those ejected charged particles that propagate in spiral motion at an average velocity of 400-500 km per second away from the Sun in the Solar System to fill the entire heliosphere. Volume of the Sun is ~1.412×10^18 cubic km, mass of the Sun is ~1.9891×10^30 kg, heliosphere has an approximate radius of 122 astronomical units, density of the Solar Wind is 4.0 atoms per cubic centimeter, the mass of a proton is ~1.6726×10^-27 kg. And therefore a very sketchy calculation with omission errors for the total mass of supersonic protons in the heliosphere is only roughly 1.70x10^20 kg, but this could have a significant precessing effect on the Solar System in an overall angular momentum of 7.67x10^28 kg m s^-1 with its 450 km average velocity, and this is apparently not a miniscule effect. If consider an upper limit for the density of solar wind at ~7.0 atoms per cubic centimeter as suggested by the other solar wind research, the potential mass effect of protons in the heliosphere is approximately 6.75% of the Sun's mass. And by considering the dragging effect by all other Solar System rocks and stuff beside Sun, Jupiter and Saturn, this is very potentially the catalyst that can drag to alter the ~20 year solar cycle of Sun, Jupiter and Saturn for manifesting the ~22 year solar cycle for BOTSS and Sun.

Comet ISON managed to survive its close approach to the Sun, and continued to emit water ions on its perihelion passage, suggests this comet might not be a dirty snowball. This anomaly was also empirically observed by the SOHO spacecraft in the Comet C/2011 W3 (Lovejoy) event in year 2011, as well as some other comet events.

On the perihelion passage of Comet ISON, the cone-shaped gas and dust tails that fanned out to form the fan-shaped structures on its exit path, are evidence for these are vortical structures manifested in the coma; the axis of the gas tail vortex in the coma was precessing around the Sun with vortical striations of its dust tail. Such phenomenon were also empirically observed by the SOHO spacecraft for the Comet 96P/Machholz event in year 2002, as well as in several events of other comets.

The blasts of corona mass ejections apparently did not deflect the gas tail of Comet ISON. This anomaly was also empirically observed by the SOHO spacecraft for several other comets, such as the Comet NEAT event, and this can be further confirmed by checking the solar wind speed data recorded by the SOHO spacecraft. These showed the conventional wisdom that suggests solar wind causes the gas tail of comet to always point directly away from the Sun, is a myth.

Last but not least, with thanks to a member of the public who posted a link for UVS on "The Galactic Mosh Pit", which is an empirical evidence that suggests the Milky Way Galaxy and its star systems with their planetary systems, are fractals of vortical structure.

Peace out.

 


A suggestive prediction for the coma outburst of Comet C/2013 A1 Siding Spring
(made on the 26th of July, 2014):

Comet C/2013 A1 Siding Spring around 15th August 2014, despite would be quite below the invariable plane, it would be quite near to the L3 Lagrangian point of a barycenter rendered by the four gas giants.

This L3 Lagrangian point of the four gas giants should be a very significant charge field, therefore given the correct atoms are present, there is a good possibility for this long period retrograde comet to significantly flare up its coma when it gets nearer to this invisible node and managed to achieve its striking voltage.

And on 5th September 2014, this comet will be at its nearest approach from Earth at around 0.892 AU away. So if it managed to flare up and maintains it glow, like the position of Comet 17P/Holmes in November 2007, it could offer its brightened up cometary display at its up-close for most land-based observations on Earth for all night long around this date.

The latest details for Comet C/2013 A1 Siding Spring can be checked with "The Sky Live".

   

- 19th Aug 2014: This comet has passed its near approach to the barycenter of the four gas giant, but no outburst was reported around that day.

This event suggests other than a comet with potential for outbursting approaching near a significant barycenter is an important factor, another coupling factor is the alignment of such comet with significant planets or barycenters.

 

 

~ With many thanks to anonymous for his private message with links to "IBEX spacecraft images the heliotail" and "Interstellar Wind Changes Reveal Glimpse of Milky Way's Complexity" that report on comet-liked tails of various celestial objects, and his contributions to the case studies on the comet outburst events.

 

References and links:
Comet - From Wikipedia, the free encyclopedia
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Newton's law of universal gravitation - From Wikipedia, the free encyclopedia
Solar wind - From Wikipedia, the free encyclopedia
Outer Solar System - From Wikipedia, the free encyclopedia
Sublimation - From Wikipedia, the free encyclopedia
Heliosphere - From Wikipedia, the free encyclopedia
Comet Hale-Bopp - From Wikipedia, the free encyclopedia
Inertial electrostatic confinement - From Wikipedia, the free encyclopedia
Inverse-square law - From Wikipedia, the free encyclopedia
SOHO spacecraft - From Wikipedia, the free encyclopedia
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Comet 29P have had frequent periodical outbursts of its coma - Seiichi Yoshida
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Mystery of Cometary X-Rays Solved - CHANDA X-RAY OBSERVATORY
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Fomalhaut debris ring - ScienceDaily
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Reactive centrifugal force - From Wikipedia, the free encyclopedia
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Oxygen - From Wikipedia, the free encyclopedia
Scientists create never-before-seen form of matter - ScienceDaily
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- From Wikipedia, the free encyclopedia
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Image of Comet McNaught over the Pacific Ocean - Image credit: S. Deiries/ESO
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- NASA
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Graphic showing the approximate positions for the STEREO spacecrafts for July 2014 - Image Credit: NASA/Goddard Space Flight Center, with C/2012 K1 inserted by Vincent Wee-Foo
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SCUBA image of dust around Fomalhaut - By Joint Astronomy Centre with James Clerk Maxwell Telescope
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- NASA/JPL/Space Science Institute
Video clip on "NASA | IBEX Provides First View of the Solar System's Tail" - NASA/Goddard Space Flight Center
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Video clip on "Comet NEAT" - Video image credit by ESA/NASA, SOHO spacecraft
Video clip on "Comet Machholz Returns! (April 6, 2007)" - Video image credit by ESA/NASA, SOHO spacecraft
Video clip on "Comet 96P/Machholz in SOHO field 2012" - Video image credit by ESA/NASA, SOHO spacecraft
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- Video image credit by ESA/NASA, SOHO spacecraft
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A video clip of SOHO for Comet McNaught - Video image credit by ESA/NASA, SOHO spacecraft

 

 

 

Disclaimers: The treatise of Universal Vortical Singularity (UVS) in its epistemological paradigm shift, is fundamentally unconventional. Its hypotheses based on a generally unheard-of UVS model, bound to have shortcomings, loose ends, and errors. Many details and assumptions in its propositions have yet to be further researched, probed, evaluated, validated, or verified. Its implicit explanations are for casual understanding of the UVS topics presented in the UVS worldview, so if any term or statement is offensive in any manner or from whatsoever perspectives, is most regretted. Links to other sites do not imply endorsement of their contents; apply appropriate discretion whenever necessary. For whatsoever reasons, at times the viewing for some of its contents could helplessly experience text corruptions, disorganized content layouts, missing images, failed animations, and some external links simply had ceased to exist.

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