Difference between revisions of "Thermal motion"
From apm
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| − | {{ | + | {{wikitodo|Explain why thermal motion does not make [[mechanosynthesis]] impossible}}<br> |
| − | {{ | + | {{wikitodo|Give general overview about the relevance of thermal motion in the context of APM.}} |
== Reated == | == Reated == | ||
| − | * [[The finger problems]] | + | |
| + | * [[Brownian motion]] | ||
| + | * [[The finger problems]] – in particular: [[Jittery finger problem]] and [[Sloppy finger problem]] | ||
* [[Nature does it differently]] | * [[Nature does it differently]] | ||
* [[Diffusion transport]] | * [[Diffusion transport]] | ||
Latest revision as of 18:40, 8 July 2021
(wiki-TODO: Explain why thermal motion does not make mechanosynthesis impossible)
(wiki-TODO: Give general overview about the relevance of thermal motion in the context of APM.)
Reated
- Brownian motion
- The finger problems – in particular: Jittery finger problem and Sloppy finger problem
- Nature does it differently
- Diffusion transport
- Thermally driven assembly
- Thermally driven folding
- The heat-overpowers-gravity size-scale
- Want an intuitive feel for the speed of atoms?
- Often mistaken as a reason that makes macroscale style machinery at the nanoscale (making up advanced Nanofactories) impossible.
External links
- Wikipedia: Thermal_fluctuations
- Wikipedia: Kinetic_theory_of_gases
