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Aerogels and the Architecture of the Void
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== <span style="color: #FFFFFF;">Creating</span> == # A thermodynamic blueprint analyzing the "Knudsen Effect" inside a piece of Silica Aerogel, mathematically calculating the exact size a nano-pore must be (e.g., 20 nanometers) to guarantee an air molecule hits the glass wall before it can hit another air molecule to transfer heat. # An essay detailing the exact physical process of "Supercritical Drying," explaining the phase-diagram of Carbon Dioxide to demonstrate how bypassing the liquid/gas boundary completely eliminates the destructive capillary forces of surface tension. # An engineering proposal for an advanced, deep-sea oil pipeline, designing a protective jacket using "Flexible Aerogel Blankets" to prevent the freezing ocean water from rapidly chilling and solidifying the crude oil, without adding massive weight to the pipe. [[Category:Materials Science]][[Category:Physics]][[Category:Engineering]] </div>
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