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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: 70444323" data-attributes="member: 627"><p>Ferrofluids are an example of a liquid with the ability to hold angular shapes in the presence of magnetic fields. The plasma underneath could have a more dense, and cooler composition, and therefore be less "viscous" than lighter, thinner, hotter plasma layers above.</p><p></p><p>IMO it's the way that active regions form and stay localized to a region, along with the way that running difference images hold their angular patterns for long periods of time that favors a thin volcanic surface model IMO. </p><p></p><p>In theory however, the cathode surface could simply be a more dense plasma layer that is located under the surface of the photosphere.</p></blockquote><p></p>
[QUOTE="Michael, post: 70444323, member: 627"] Ferrofluids are an example of a liquid with the ability to hold angular shapes in the presence of magnetic fields. The plasma underneath could have a more dense, and cooler composition, and therefore be less "viscous" than lighter, thinner, hotter plasma layers above. IMO it's the way that active regions form and stay localized to a region, along with the way that running difference images hold their angular patterns for long periods of time that favors a thin volcanic surface model IMO. In theory however, the cathode surface could simply be a more dense plasma layer that is located under the surface of the photosphere. [/QUOTE]
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Micheal's solar model
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