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Why the Lower Corona of the Sun Is Hotter Than the Photosphere

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posted on Nov, 24 2010 @ 03:40 PM
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Don Scott writes:


The chaos of Brownian motion produces the high temperature we see in the solar corona.
Of all the ideas offered up as being an explanation of the extreme temperature (more than 2 million Kelvin) measured in the lower corona of our Sun, the simplest is that electrically accelerated high velocity positive ions are colliding with relatively static ions and neutral atoms in that location.

The electrical properties of the Photosphere/Chromosphere/Lower corona region of the Sun’s visible boundary is dominated by a double layer (DL) of electrical charge. This double charge layer is shown in the bottom plot in the main figure of the May 11, 2010, Picture of the Day. The top and middle plots in that figure are reproduced in the image above.

Positive ions in the photospheric plasma do not experience external electrostatic forces when they are within the photosphere (region a to b in the figures). Only diffusion motion (response to a concentration gradient) and random thermal (Brownian) movement occurs. Temperature is simply the measurement of the violence of those random movements. The photosphere is where the Sun’s low ~5800 K surface temperature is measured.

The top electrical energy (voltage) plot shows that positive ions have their maximum electrical potential energy when they are in the photospheric plasma. However, their mechanical (kinetic) energy (temperature) is relatively low. At a point just to the left of the right hand edge of the photospheric energy plateau (point b), any random movement toward the right (radially outward) that carries a +ion even slightly over the edge will result in its being swept away, down the energy hill, toward the right.

The middle plot in the figure above shows the strength of the E-field (voltage gradient) consistent with this spatial voltage distribution. This electric field is the force per unit positive charge applied to any +ions in this region. In region b to d this force accelerates each such +ion in the outward direction. The acceleration produced by this E-field is a maximum at point c, and the +ions’ outward velocities reach a maximum value somewhere near point d.

As these positive ions accelerate down the steep potential energy drop, they exchange the high (electrical) potential energy they had in the photosphere into kinetic energy – they gain extremely high outward radial velocity and lose side-to-side random motion. Thus they become "de-thermalized." This is because in this region of high radial acceleration, the movement of these ions becomes extremely organized (parallel). Their temperature, which is just a measure of their random motion, drops to a minimum.

When these rapidly traveling +ions pass beyond the reach of the intense outwardly directed E-field force that has been accelerating them, they have reached the bottom of the hill and are moving much faster than when they were at the top. Because of their high kinetic energy, any collisions they have at this point with other ions or neutral atoms are violent. This creates high-amplitude random motions, thereby "re-thermalizing" all ions and atoms in this region (shown in red) to a much higher temperature. The sparkling x-ray emissions that have been observed here in the lower corona are undoubtedly due to these collisions.

Ions just above (in the diagram, to the right of) point d are reported to be at temperatures of one to two million K. Nothing else but exactly this kind of result could be expected from the Electric Sun model.

The re-thermalization takes place in a region analogous to the turbulent white water that boils up at the bottom of a smooth laminar water slide. In the fusion model no such (water slide) phenomenon exists – and therefore neither does any simple explanation of the observed temperature discontinuity.

Notice that no mention has been made in this process of magnetic reconnection or, in fact, of any magnetic mechanism whatsoever. Strictly electric forces that occur within the double charge layer above the Sun’s surface cause the observed phenomenon.

Therefore it is clear that the Electric Sun model straightforwardly predicts the existence of the observed temperature profile and demonstrates how it occurs. If there were no temperature discontinuity, this would pose a problem for the Electric Sun hypothesis.


For more information some of the actual models proposed, look here.

The electric sun model is the only model that can explain every thing we observe about the Sun without resorting to fairytale physics or outrageous hypothetical nonsense.

The physics of an electric solar model are so elegantly simple in concept and so utterly accurate in their descriptions that they make the standard model look like a sick joke by comparison.

The Sun is simple to understand.

It does not take a doctorate in theoretical physics to understand how the Sun works. It only takes a bachelors in electrical engineering and an open mind.



posted on Nov, 24 2010 @ 03:50 PM
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do you think that different plasma desitys the sun travels through could effect the distance or speed of planetary orbits?

Havent there been reports of certian planets gaining a tail? Like venus and pluto? Alsmost sounds like their orbits are adjusting due to the equalization of charge.



posted on Nov, 24 2010 @ 03:52 PM
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Had a theory that the sun functioned like a spherical laser where the balance of emitted energy to gravity/magnetism caused a shell to form around the sun & particles bounced back & forth from from the surface until they reached a sufficiently high breakout potential at the corona.



posted on Nov, 24 2010 @ 03:56 PM
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Originally posted by Wertdagf
do you think that different plasma desitys the sun travels through could effect the distance or speed of planetary orbits?

Havent there been reports of certian planets gaining a tail? Like venus and pluto? Alsmost sounds like their orbits are adjusting due to the equalization of charge.


The Sun forms a double layer boundary at the heliosphere that shields it from drastic changes in the inter-galactic plasma environment.

It has a built in regulating system that keeps its output stable.

As the density decreases in the inter-galactic environment, the heliosphere expands to soak up more electrons, and vice versa.



posted on Nov, 24 2010 @ 04:02 PM
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reply to post by mnemeth1
 


so you dont think there would be a situation where the rapid expansion or contraction heliosphere could temporarily adjust the distance or speed at which planets move. Of course it would all eventually equal out.... but arent there these pockets of differnt plasma densitys that we travel through? Im not sure how fast the suns helosphere can adjust to intergalactic conditions to prevent any disruption of its inner enviroment.



posted on Nov, 24 2010 @ 04:05 PM
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Originally posted by Wertdagf
reply to post by mnemeth1
 


so you dont think there would be a situation where the rapid expansion or contraction heliosphere could temporarily adjust the distance or speed at which planets move. Of course it would all eventually equal out.... but arent there these pockets of differnt plasma densitys that we travel through? Im not sure how fast the suns helosphere can adjust to intergalactic conditions to prevent any disruption of its inner enviroment.


I think electricity plays a role in the orbit of the planets, but I don't know if drastic changes in the inter-galactic environment could cause a change in orbits.

I do know that if a wandering brown dwarf star was captured by the Sun, such an event could disturb the orbits of the planets.



posted on Nov, 24 2010 @ 04:09 PM
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reply to post by mnemeth1
 


Well if asteroids aquire a tail beacuse of the equalization of charge wouldnt previously known stable planet or planetoids aquiring one be the evidence of a possible disruption in orbit?



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