User contributions for Apm

24 April 2025

• 01:1701:17, 24 April 2025 diff hist −2 m Gemstone-like molecular element →Nomenclature: Nomenclature => terminology
• 01:1601:16, 24 April 2025 diff hist +2 m Gemstone-like molecular element →Beware of the nanodiamond-is-jelly availability bias misjudgement
• 01:1501:15, 24 April 2025 diff hist +704 Gemstone-like molecular element added section = Beware of the nanodiamond-is-jelly availability bias misjudgement =
• 01:0501:05, 24 April 2025 diff hist +28 m Atmosphere sentinels No edit summary current
• 01:0501:05, 24 April 2025 diff hist +64 m Atmosphere sentinels No edit summary
• 01:0401:04, 24 April 2025 diff hist +147 m Atmosphere sentinels added related section with back-links and additional links
• 01:0201:02, 24 April 2025 diff hist +5 m Atmosphere sentinels No edit summary
• 00:0000:00, 24 April 2025 diff hist +307 Why ultra-compact molecular assemblers are too difficult →When too difficult as a far term ideal target: improved headline and added a tl;dr intro-section current

23 April 2025

• 23:5423:54, 23 April 2025 diff hist +19 Why ultra-compact molecular assemblers are too difficult →Lack of system modularity (BIG ISSUE): slightly more wordy for netter comprehenibility.
• 23:5323:53, 23 April 2025 diff hist +160 Why ultra-compact molecular assemblers are too difficult →Unreliability of estimations due to inapplicability of EE: some cleanup and improvements
• 23:4623:46, 23 April 2025 diff hist +37 m Why ultra-compact molecular assemblers are too difficult →Why too difficult as a near term bootstrapping pathway
• 23:4423:44, 23 April 2025 diff hist +393 Molecular assembler (disambiguation) added an important pre-intro
• 23:3723:37, 23 April 2025 diff hist +334 Why ultra-compact molecular assemblers are too difficult →When too difficult as a far term ideal target: cleanups and improvements
• 23:2723:27, 23 April 2025 diff hist +7 Why ultra-compact molecular assemblers are too difficult shifted the SPM stuff into the bootstrapping section
• 23:2223:22, 23 April 2025 diff hist +365 Why ultra-compact molecular assemblers are too difficult →Progress towards 3D capabilities: added note on limits due to tip surface folding shadows
• 23:1423:14, 23 April 2025 diff hist +64 m Why ultra-compact molecular assemblers are too difficult →Progress towards 3D capabilities
• 23:1223:12, 23 April 2025 diff hist 0 m Why ultra-compact molecular assemblers are too difficult →Capabilities and limits of SPM technology: some typofixes
• 23:1023:10, 23 April 2025 diff hist +112 Why ultra-compact molecular assemblers are too difficult →Capabilities and limits of SPM technology: added sub-headline == Concluding with identification of much better approaches ==
• 23:0823:08, 23 April 2025 diff hist +1,955 Why ultra-compact molecular assemblers are too difficult Added section = Capabilities and limits of SPM technology =

20 April 2025

• 07:3507:35, 20 April 2025 diff hist −136 m Linear reciprocative pseudogears No edit summary
• 07:3407:34, 20 April 2025 diff hist +136 Linear reciprocative pseudogears No edit summary
• 07:3207:32, 20 April 2025 diff hist +105 Linear reciprocative pseudogears added an illustrative image
• 07:2807:28, 20 April 2025 diff hist +116 N Multi V-groove self-centering minimal skeleton page
• 07:2707:27, 20 April 2025 diff hist +26 Design principle of passive pretension →Related: added link to * Crystolecule design
• 07:2407:24, 20 April 2025 diff hist 0 m Design principle of passive pretension No edit summary
• 07:2307:23, 20 April 2025 diff hist +54 Design principle of passive pretension added infographic
• 07:2007:20, 20 April 2025 diff hist +108 N File:TensioningDovetailPrinciple.png Author: Lukas M. Süss aka mechadense <br> License: CC-BY-SA-4.0 <br> {{wikitodo|find and add svg version}} current
• 07:0707:07, 20 April 2025 diff hist +1 m Design principle of passive pretension No edit summary
• 07:0707:07, 20 April 2025 diff hist +642 N Design principle of passive pretension basic page – added link to * Potential early crystolecular building blocks#Puzzle piece building blocks
• 07:0007:00, 20 April 2025 diff hist +1 m Potential early crystolecular building blocks →Puzzle pice building blocks
• 06:5806:58, 20 April 2025 diff hist +45 Scale agnostic mechanical design principles added * Design principle of passive pretension
• 06:5606:56, 20 April 2025 diff hist +12 m Potential early crystolecular building blocks →Puzzle pice building blocks
• 06:5506:55, 20 April 2025 diff hist −1 m Potential early crystolecular building blocks →Puzzle pice building blocks
• 06:5406:54, 20 April 2025 diff hist +76 Potential early crystolecular building blocks →Puzzle pice building blocks: added 🧩
• 06:4406:44, 20 April 2025 diff hist 0 m Potential early crystolecular building blocks →Self centering building blocks
• 06:4406:44, 20 April 2025 diff hist +79 Potential early crystolecular building blocks note on earlier non-strained structure accessibility
• 06:4206:42, 20 April 2025 diff hist +159 Potential early crystolecular building blocks →1D chainable reciprocative pseudogears: added illustrative image
• 06:3906:39, 20 April 2025 diff hist +51 N File:Linear-reciprocative-pseudogears.jpg Author: Lukas M. Süss aka mechandense License: CC0 current
• 06:3006:30, 20 April 2025 diff hist −61 m Potential early crystolecular building blocks No edit summary
• 06:2906:29, 20 April 2025 diff hist +14 Potential early crystolecular building blocks →Self centering building blocks
• 06:2906:29, 20 April 2025 diff hist −98 m Potential early crystolecular building blocks →Space-filling polyhedra holding together via vdW forces
• 06:2806:28, 20 April 2025 diff hist +188 Potential early crystolecular building blocks →Space-filling polyhedra holding together via vdW forces: added graphic screencap from simulation video
• 06:2406:24, 20 April 2025 diff hist 0 N File:Philip Turner 2024 -- Strength of vdW adhesion.png No edit summary current
• 06:2206:22, 20 April 2025 diff hist −43 m Potential early crystolecular building blocks →Slot in plates
• 06:1906:19, 20 April 2025 diff hist +144 Potential early crystolecular building blocks →Slot in plates: added image of GIK modular building block system
• 06:1506:15, 20 April 2025 diff hist +99 N File:GIK--19.09.Langford.pdf-Fig3.2-Lego-GIK.jpg GIK--19.09.Langford.pdf-Fig3.2-Lego-GIK <br> MIT center for bits and atoms <br> Assuming fair use. current
• 06:0506:05, 20 April 2025 diff hist +384 Potential early crystolecular building blocks →Space-filling polyhedra holding together via vdW forces: added link to video with rhombic dodecahedron building blocks
• 05:5905:59, 20 April 2025 diff hist +99 Potential early crystolecular building blocks →Space-filling polyhedra holding together via vdW forces: added wikitodo
• 05:5505:55, 20 April 2025 diff hist +37 N Design principles for crystolecular systems Redirected page to Design of crystolecules current
• 05:5405:54, 20 April 2025 diff hist +70 File:Movie 30fps.gif →Summary current