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Discussion and Debate
Discussion and Debate
Physical & Life Sciences
Micheal's solar model
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<blockquote data-quote="Michael" data-source="post: 70487459" data-attributes="member: 627"><p>Not exactly. The sun's surface isn't that "hot" compared to the plasma atmosphere anymore than the surface of that metal sphere in that video is "hot". The plasma above the sphere is however being bombarded by electrons and the atmosphere around the sphere is picking up heat that way. That heat is continuously *carried away* from the surface of the sphere by the kinetic energy of the electrons which tend to push all particles they collide with (positive and negative) away from the surface. </p><p></p><p>The density of the material, the conductivity of the material, and it's proximity to the surface determine the amount of "heat" that's ultimately transferred to each layer of the plasma. The outer layers are hotter than the inner layers, and all the atmospheric layers are conducting current.</p></blockquote><p></p>
[QUOTE="Michael, post: 70487459, member: 627"] Not exactly. The sun's surface isn't that "hot" compared to the plasma atmosphere anymore than the surface of that metal sphere in that video is "hot". The plasma above the sphere is however being bombarded by electrons and the atmosphere around the sphere is picking up heat that way. That heat is continuously *carried away* from the surface of the sphere by the kinetic energy of the electrons which tend to push all particles they collide with (positive and negative) away from the surface. The density of the material, the conductivity of the material, and it's proximity to the surface determine the amount of "heat" that's ultimately transferred to each layer of the plasma. The outer layers are hotter than the inner layers, and all the atmospheric layers are conducting current. [/QUOTE]
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