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Sunspots Much HOTTER Than Sun's Surface
Sunspots Much HOTTER Than Sun's Surface Contrary to currently-accepted theory, sunspots are actually much HOTTER than the surrounding surface of the Sun. The dark center ("umbra") of each sunspot is much hotter ("ULTRA HIGH TEMPERATURE") than the surrounding "penumbra", which in turn is much hotter ("INTERMEDIATE TEMPERATURE") than the remaining surface, as evidenced by the very bright boundary line surrounding the penumbra. Sunspots result from "ULTRA HIGH TEMPERATURE" material from the Sun's core coming to the surface along magnetic lines. These true facts are part of the ONLY "theory of everything" that WORKS, called the "Reciprocal System", developed by the late Physicist Dewey B. Larson. See http://www.rstheory.com . Study BOTH of these two web pages: http://library.rstheory.com/articles/KVK/SunPartI.html http://library.rstheory.com/articles/KVK/SunPartII.html See also http://members.aol.com/GalactcFed/universe.txt . Robert E. McElwaine B.S., Physics and Astronomy, UW-EC http://members.aol.com/rem547 PLUS http://members.aol.com/rem460 Preserve BOTH on CD-R and PRINT-OUTS P.S.: PASS IT ON ! "EVERYTHING you know is WRONG." "The Truth IS STRANGER than fiction." "The Truth is ALWAYS the FIRST CASUALTY OF WAR." "OFFICIAL LIES are ALWAYS the BIGGEST LIES OF ALL." "The more things change, the more they STAY THE SAME." |
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Sunspots Much HOTTER Than Sun's Surface
-- May the Universe give back 100 times what you give out. wrote in message oups.com... Sunspots Much HOTTER Than Sun's Surface Contrary to currently-accepted theory, sunspots are actually much HOTTER than the surrounding surface of the Sun. The dark center ("umbra") of each sunspot is much hotter ("ULTRA HIGH TEMPERATURE") than the surrounding "penumbra", which in turn is much hotter ("INTERMEDIATE TEMPERATURE") than the remaining surface, as evidenced by the very bright boundary line surrounding the penumbra. Extremely Blue shifted? |
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Sunspots Much HOTTER Than Sun's Surface
On Feb 13, 10:00 pm, Sam Wormley wrote:
Laidback wrote: wrote in ooglegroups.com... Sunspots Much HOTTER Than Sun's Surface Contrary to currently-accepted theory, sunspots are actually much HOTTER than the surrounding surface of the Sun. The dark center ("umbra") of each sunspot is much hotter ("ULTRA HIGH TEMPERATURE") than the surrounding "penumbra", which in turn is much hotter ("INTERMEDIATE TEMPERATURE") than the remaining surface, as evidenced by the very bright boundary line surrounding the penumbra. Extremely Blue shifted? The Sun's outer visible layer is called the photosphere and has a measured temperature of about 6,000°C . Sunspots are dark depressions on the photosphere with a measured temperature of about 4,000°C . Oh, I dunno, Samm. I kinda like the idea of a temperature so high that there are no atoms; just energy whizzing around. And the only way it gets away from the Sun is if it forms into linked symmetrical rotations of one-to-one and leaves at lightspeed as radiation, or if it falls into linked rotations of one-to-two and leaves with the Solar Wind as newly-created matter. I like simplicity. John Galaxy Model http://users.accesscomm.ca/john |
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Sunspots Much HOTTER Than Sun's Surface
In sci.physics, Sam Wormley
wrote on Wed, 14 Feb 2007 04:00:45 GMT NPvAh.1194736$084.182625@attbi_s22: Laidback wrote: wrote in message oups.com... Sunspots Much HOTTER Than Sun's Surface Contrary to currently-accepted theory, sunspots are actually much HOTTER than the surrounding surface of the Sun. The dark center ("umbra") of each sunspot is much hotter ("ULTRA HIGH TEMPERATURE") than the surrounding "penumbra", which in turn is much hotter ("INTERMEDIATE TEMPERATURE") than the remaining surface, as evidenced by the very bright boundary line surrounding the penumbra. Extremely Blue shifted? The Sun's outer visible layer is called the photosphere and has a measured temperature of about 6,000°C . Sunspots are dark depressions on the photosphere with a measured temperature of about 4,000°C . The corona is far hotter -- if far less dense -- than either sunspots or the "normal" sun surface (which looks rather "granular" on most pictures I've seen). Not that McElwaine has a clue anyway; has he found either Pole Hole yet? :-) -- #191, Windows. Because it's not a question of if. It's a question of when. -- Posted via a free Usenet account from http://www.teranews.com |
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Sunspots Much HOTTER Than Sun's Surface
On Feb 13, 11:51 pm, Sam Wormley wrote:
malibu wrote: On Feb 13, 10:00 pm, Sam Wormley wrote: Laidback wrote: wrote in ooglegroups.com... Sunspots Much HOTTER Than Sun's Surface Contrary to currently-accepted theory, sunspots are actually much HOTTER than the surrounding surface of the Sun. The dark center ("umbra") of each sunspot is much hotter ("ULTRA HIGH TEMPERATURE") than the surrounding "penumbra", which in turn is much hotter ("INTERMEDIATE TEMPERATURE") than the remaining surface, as evidenced by the very bright boundary line surrounding the penumbra. Extremely Blue shifted? The Sun's outer visible layer is called the photosphere and has a measured temperature of about 6,000°C . Sunspots are dark depressions on the photosphere with a measured temperature of about 4,000°C . Oh, I dunno, Samm. I kinda like the idea of a temperature so high that there are no atoms; just energy whizzing around. And the only way it gets away from the Sun is if it forms into linked symmetrical rotations of one-to-one and leaves at lightspeed as radiation, or if it falls into linked rotations of one-to-two and leaves with the Solar Wind as newly-created matter. I like simplicity. Then you'll like black holes, John. Yes, Sam. The Black Hole is the vortex that splits the virtual particle into negative and positive plasma by its intense rotation. These plasmas are ejected in opposite directions by its magnetic poles (the so-called 'pillars of creation) at right-angles to the galactic disc. As the disc sweeps round, the two types of plasma co-mingle into spheroids of turbulent energy (stars) in which the positive and negative try frantically to rejoin. They do this by becoming radiation and matter. As the energy slowly bleeds away as radiation and matter, the 'density' decreases, until it reaches a critical point, where the star dies, by going nova or otherwise, and one is left with the matter produced and the radiation. This happens constantly, and there are large amounts of planets, moons, meteorites and dust and neutron stars left overin the so-called dust-lanes quite visible to us, which eventually fall back into the *Black Hole*. Thanks, Sam! John Galaxy Model for the Atom http://users.accesscomm.ca/john |
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Sunspots Much HOTTER Than Sun's Surface
On Feb 14, 7:09 am, "malibu" wrote:
On Feb 13, 11:51 pm, Sam Wormley wrote: malibu wrote: On Feb 13, 10:00 pm, Sam Wormley wrote: Laidback wrote: wrote in ooglegroups.com... Sunspots Much HOTTER Than Sun's Surface Contrary to currently-accepted theory, sunspots are actually much HOTTER than the surrounding surface of the Sun. The dark center ("umbra") of each sunspot is much hotter ("ULTRA HIGH TEMPERATURE") than the surrounding "penumbra", which in turn is much hotter ("INTERMEDIATE TEMPERATURE") than the remaining surface, as evidenced by the very bright boundary line surrounding the penumbra. Extremely Blue shifted? The Sun's outer visible layer is called the photosphere and has a measured temperature of about 6,000°C . Sunspots are dark depressions on the photosphere with a measured temperature of about 4,000°C . Oh, I dunno, Samm. I kinda like the idea of a temperature so high that there are no atoms; just energy whizzing around. And the only way it gets away from the Sun is if it forms into linked symmetrical rotations of one-to-one and leaves at lightspeed as radiation, or if it falls into linked rotations of one-to-two and leaves with the Solar Wind as newly-created matter. I like simplicity. Then you'll like black holes, John. Yes, Sam. The Black Hole is the vortex that splits the virtual particle into negative and positive plasma by its intense rotation. These plasmas are ejected in opposite directions by its magnetic poles (the so-called 'pillars of creation) at right-angles to the galactic disc. As the disc sweeps round, the two types of plasma co-mingle into spheroids of turbulent energy (stars) in which the positive and negative try frantically to rejoin. They do this by becoming radiation and matter. As the energy slowly bleeds away as radiation and matter, the 'density' decreases, until it reaches a critical point, where the star dies, by going nova or otherwise, and one is left with the matter produced and the radiation. This happens constantly, and there are large amounts of planets, moons, meteorites and dust and neutron stars left overin the so-called dust-lanes quite visible to us, which eventually fall back into the *Black Hole*. Thanks, Sam! John Galaxy Model for the Atomhttp://users.accesscomm.ca/john oops http://users.accesscomm.ca/john |
#7
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Sunspots Much HOTTER Than Sun's Surface
-- May the Universe give back 100 times what you give out. "ma1ibu" wrote in message oups.com... On Feb 14, 7:09 am, "malibu" wrote: On Feb 13, 11:51 pm, Sam Wormley wrote: malibu wrote: On Feb 13, 10:00 pm, Sam Wormley wrote: Laidback wrote: wrote in ooglegroups.com... Sunspots Much HOTTER Than Sun's Surface Contrary to currently-accepted theory, sunspots are actually much HOTTER than the surrounding surface of the Sun. The dark center ("umbra") of each sunspot is much hotter ("ULTRA HIGH TEMPERATURE") than the surrounding "penumbra", which in turn is much hotter ("INTERMEDIATE TEMPERATURE") than the remaining surface, as evidenced by the very bright boundary line surrounding the penumbra. Extremely Blue shifted? The Sun's outer visible layer is called the photosphere and has a measured temperature of about 6,000°C . Sunspots are dark depressions on the photosphere with a measured temperature of about 4,000°C . Oh, I dunno, Samm. I kinda like the idea of a temperature so high that there are no atoms; just energy whizzing around. And the only way it gets away from the Sun is if it forms into linked symmetrical rotations of one-to-one and leaves at lightspeed as radiation, or if it falls into linked rotations of one-to-two and leaves with the Solar Wind as newly-created matter. I like simplicity. Then you'll like black holes, John. Yes, Sam. The Black Hole is the vortex that splits the virtual particle into negative and positive plasma by its intense rotation. These plasmas are ejected in opposite directions by its magnetic poles (the so-called 'pillars of creation) at right-angles to the galactic disc. As the disc sweeps round, the two types of plasma co-mingle into spheroids of turbulent energy (stars) in which the positive and negative try frantically to rejoin. They do this by becoming radiation and matter. As the energy slowly bleeds away as radiation and matter, the 'density' decreases, until it reaches a critical point, where the star dies, by going nova or otherwise, and one is left with the matter produced and the radiation. This happens constantly, and there are large amounts of planets, moons, meteorites and dust and neutron stars left overin the so-called dust-lanes quite visible to us, which eventually fall back into the *Black Hole*. Thanks, Sam! John Galaxy Model for the Atomhttp://users.accesscomm.ca/john oops http://users.accesscomm.ca/john My reasoning is as follows.. The first consideration is in what are we dealing with... Keeping in mind all areas of our Universe is a ratio of kinetic and Potential energy that is part of how Electromagnetic waves function, in fact mass is at all times propagating {jiggling} the whole spectrum, this is how each area is perceived and detected with a given Kelvin or Temperture/colour etc, and importantly how relatively solid an area is. Our sun is an area of Space-Time that is quite considerably compressed via the RELATIVE ratios of kinetic and Potential energy {velocities}, so this infers the Electromagnetic Spectrum {including part of the spectrum of light} is already quite significantly blue shifted in the first place.. Note that the propagation of Electromagnetic waves are much slower in solids and because the suns area is highly compressed Time is shifted. As the electromagnetic waves leave the suns Local Space-Time the wave accelerates, due to Space-Time not being as compressed the further we are away from a compressed area, this acceleration is our Blue shift.. I should point out all areas of our Universe is relatively compressed into areas that infer High potential energy that is with a ratio of very low kinetic energy, and these areas are OUR relative Solids, Planets, Stars, {Galaxies with their respective cores known as Super Black Holes}, Galaxy Clusters so on and so on - All are the result of said areas being once highly kinetic energy or better expressed as velocities much faster than "c" as in Dark Matter or Dark Energy {higher Kelvin temperatures} that are now compressed via Gravity, to which I should point out is why I insist gravity is not the result of a perception, known as attraction, but rather I see all solid objects are the result of the whole of the universes exertions, which is better explained via the study of RELATIVITY... BTW I have one more statement, to which if you are familiar with relativity should make real good sense.. Black holes are compressed Space-Time areas; the more compressed the area the slower the time rate via more kinetic energy has been converted to more Potential energy.. If we were in such a compressed area and peered out to areas that were not compressed, don't you think we would see our Universe expanding in an accelerating manner? Think about it, and if you have time, model the dynamics to a Klein Bottle, let me say if you hold the flawed Big bang as on the money, your notion of the big bang may quite correctly be disbanded. |
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Sunspots Much HOTTER Than Sun's Surface
Sam Wormley wrote:
malibu wrote: On Feb 13, 10:00 pm, Sam Wormley wrote: Laidback wrote: wrote in ooglegroups.com... Sunspots Much HOTTER Than Sun's Surface Contrary to currently-accepted theory, sunspots are actually much HOTTER than the surrounding surface of the Sun. The dark center ("umbra") of each sunspot is much hotter ("ULTRA HIGH TEMPERATURE") than the surrounding "penumbra", which in turn is much hotter ("INTERMEDIATE TEMPERATURE") than the remaining surface, as evidenced by the very bright boundary line surrounding the penumbra. Extremely Blue shifted? The Sun's outer visible layer is called the photosphere and has a measured temperature of about 6,000°C . Sunspots are dark depressions on the photosphere with a measured temperature of about 4,000°C . Oh, I dunno, Samm. I kinda like the idea of a temperature so high that there are no atoms; just energy whizzing around. And the only way it gets away from the Sun is if it forms into linked symmetrical rotations of one-to-one and leaves at lightspeed as radiation, or if it falls into linked rotations of one-to-two and leaves with the Solar Wind as newly-created matter. I like simplicity. Then you'll like black holes, John. ROLF! |
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Sunspots Much HOTTER Than Sun's Surface
On Feb 15, 7:34 am, ah wrote:
Sam Wormley wrote: malibu wrote: On Feb 13, 10:00 pm, Sam Wormley wrote: Laidback wrote: wrote in ooglegroups.com... Sunspots Much HOTTER Than Sun's Surface Contrary to currently-accepted theory, sunspots are actually much HOTTER than the surrounding surface of the Sun. The dark center ("umbra") of each sunspot is much hotter ("ULTRA HIGH TEMPERATURE") than the surrounding "penumbra", which in turn is much hotter ("INTERMEDIATE TEMPERATURE") than the remaining surface, as evidenced by the very bright boundary line surrounding the penumbra. Extremely Blue shifted? The Sun's outer visible layer is called the photosphere and has a measured temperature of about 6,000°C . Sunspots are dark depressions on the photosphere with a measured temperature of about 4,000°C . Oh, I dunno, Samm. I kinda like the idea of a temperature so high that there are no atoms; just energy whizzing around. And the only way it gets away from the Sun is if it forms into linked symmetrical rotations of one-to-one and leaves at lightspeed as radiation, or if it falls into linked rotations of one-to-two and leaves with the Solar Wind as newly-created matter. I like simplicity. Then you'll like black holes, John. ROLF! rolling on a large floor? |
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