Overstretch push-out: Difference between revisions

From apm
Jump to navigation Jump to search
Newer edit →
minimal page
 
Added the simulation clip here too.
Line 1: Line 1:
{{stub}}
{{stub}}


See: [[Free floating crystolecule]]
[[File:Prototype-1-250-ps.gif|thumb|400px|right|Simulation by Philip Turner. '''Beware of [[misleading aspects in animations of diamondoid molecular machine elements]].''' Pauli repulsion pushes the piston out of the slightly too tight cylinder. The effect gets weaker with progressive push-out but still suffices for a final ejection. A bend snap makes for a sudden re-acceleration and for strong excitation of mechanical modes. As a side-note: There is also some significant conversion to kinetic energy. This is around tens to ~100m/s. '''More like a crystolecule cannon/gun than a gentle push-out.''']]
 
See: '''[[Free floating crystolecule]]'''

Revision as of 13:19, 22 September 2025

This article is a stub. It needs to be expanded.
Simulation by Philip Turner. Beware of misleading aspects in animations of diamondoid molecular machine elements. Pauli repulsion pushes the piston out of the slightly too tight cylinder. The effect gets weaker with progressive push-out but still suffices for a final ejection. A bend snap makes for a sudden re-acceleration and for strong excitation of mechanical modes. As a side-note: There is also some significant conversion to kinetic energy. This is around tens to ~100m/s. More like a crystolecule cannon/gun than a gentle push-out.

See: Free floating crystolecule

Retrieved from "https://apm.bplaced.net/w/index.php?title=Overstretch_push-out&oldid=18784"