<div dir="ltr">On Tue, Sep 10, 2013 Andrew Mckee <span dir="ltr"><<a href="mailto:andymck35@gmail.com" target="_blank">andymck35@gmail.com</a>></span> wrote:<br><div class="gmail_extra"><div class="gmail_quote"><br>
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>> I think we could probably detect a Dyson sphere with its distinctive<br>
infrared signature if it were within several thousand light years of us,<br>
and we could see a galaxy of Dyson spheres if there were one anywhere in<br>
the observable universe. But we see nothing.<br>
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> I wonder how water tight the idea is - that Dyson spheres would emit infrared radiation?<br></blockquote><div><br></div><div>If the first law of thermodynamics is correct then the amount of energy emitted from a Dyson sphere into space would be equal to the amount of electromagnetic energy the naked star would have emitted if the sphere were not there. And if the second law of thermodynamics is correct then the frequency of those emitted electromagnetic waves will be shifted downward from visible light and ultraviolet into the infrared, or perhaps even more into microwaves.<br>
<br></div><div>Incidentally if there were one of our laws of physics that I think even a civilization a billion years more advanced than ours would find just as true as we do it would be the second law of thermodynamics. The first law, the conservation of energy, is just a empirical observation, we've never seen it violated and use induction to conclude that we never will. But the second law is not like that, the second law is based on logic. In every one of Everett's Many Worlds where 2+2 is still equal to 4 the second law holds true. <br>
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> Maybe dark matter is Dyson spheres whose inhabitants have figured out perfect or near perfect complete thermal management</blockquote><div><br></div><div>We know very little about Dark Matter but one thing we do know is that it doesn't interact with electromagnetic waves, that's why it's so hard to detect. <br>
<br></div><div> John K Clark<br></div><div><br><br><br><br><br><br></div></div><br></div></div>