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you are quoting a heck of a lot there.
[QUOTE]blah blah blah[/QUOTE] to reply to ValkyrieScreams.
Please remove excess text as not to re-post tons
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[QUOTE="ValkyrieScreams:1117704"]"The reason for all this darkness is: All objects have darkness embedded within them. Every time a dark sucker operates, it pulls this intrinsic darkness out of all surfaces that are in an unobstructed path to the dark sucker... This intrinsic darkness is bound into the electrons of the surface material. We might even call a surface a "host material" for darkness. The more dulled ("darker" looking) the host material is, the more readily it gives up darkness in response to a dark sucker. (A perfectly reflective material, if such a thing existed, would give off no darkness at all.) The reason host materials get warmer as they release their intrinsic darkness is that there is a binding energy between darkness and its host material. Sucking out darkness releases that binding energy in the form of heat. The stronger the dark sucker and the duller the surface, the more darkness gets divested from the host surface and the hotter the surface becomes... Eventually, the surface can become so hot that it glows with incandescence, and becomes a dark sucker itself. It should be noted that objects which glow due to their own heat, called "blackbody radiation", always cool off as a result of this radiation. This cooling off is merely the darkness being sucked into the blackbody radiator (hot dark sucker) and making the dark sucker itself into the darkness's new host material. The darkness-to-new-host binding process consumes heat to form its new bonds, each of which has its own binding energy, and the blackbody gets colder as a result." ~Roger M. Wilcox[/QUOTE]
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