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- * this is only true for large chunks (bulk) wherein there always will be flaws at which cracks can start. This may allow simpler and higher performance designs. <br>14 KB (2,088 words) - 11:02, 5 December 2023
- ...omechanical converter]]s that sidestep the fundamental Carnough efficiency limit by <br> * a. Ohmic: Losses under conservative assumption of the conductivity of bulk macroscale aluminum: ~0.1pW13 KB (1,930 words) - 16:51, 10 August 2022
- ...her bulk macroscale designs could be ported over to nanoscale crystolecule designs. ...ild up a collection of 3D-printable 3D-models (mainly in ''atom aware bulk limit'') that will hopefully turn out to be useful in the development and underst9 KB (1,422 words) - 12:01, 1 November 2022
- = Crystolecules - Designs finer than the bulk limit =5 KB (583 words) - 09:47, 30 January 2017
- * … to nanoscale target designs (out of [[gemstone like compounds]]) … * … nanoscale physics of eventual target designs …19 KB (2,779 words) - 10:58, 18 December 2023
- ...even slower than with the layer method due to the [[fractal growth speedup limit]]. ...looks more like a nanofactory or more like an assembler system (assembler designs often skipped all assembly levels above I though). Those steps are implemen16 KB (2,394 words) - 15:01, 21 July 2021
- For now see "[[Vacuum lockout]]" for a bulk limit design that cold be converted to a model with atomic detail. and thus things come a little closer in looks to [[bulk limit designs]].14 KB (2,106 words) - 10:45, 20 May 2023
