Molecular Machinery: различия между версиями

88 байт убрано ,  13 января 2023
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With practice, an experienced user can create this bearing in 10-15 minutes. NanoEngineer-1 includes an extrusion tool for creating rods and rings from a molecular fragment (called a chunk in NanoEngineer-1).
With practice, an experienced user can create this bearing in 10-15 minutes. NanoEngineer-1 includes an extrusion tool for creating rods and rings from a molecular fragment (called a chunk in NanoEngineer-1).
<gallery>
Image:Sleevebearing construction.gif
Image:Sleevebearing pov1.png
</gallery>


The contraption with spokes connected to the inner shaft is called a [http://nanoengineer-1.net/mediawiki/index.php?title=Feature:Rotary_Motor Rotary Motor]. This is a type of jig in NanoEngineer-1 that applies torque to the atoms to which it is attached during a molecular dynamics simulation, driving the inner shaft. The rotary motor here had a torque setting of 1.0 nN-nm and a speed of 10 GHz. These values are extreme and were used to produce an interesting simulation as quickly as possible. A serious engineer assessing the operating conditions of this bearing would have used more reasonable numbers.
The contraption with spokes connected to the inner shaft is called a [http://nanoengineer-1.net/mediawiki/index.php?title=Feature:Rotary_Motor Rotary Motor]. This is a type of jig in NanoEngineer-1 that applies torque to the atoms to which it is attached during a molecular dynamics simulation, driving the inner shaft. The rotary motor here had a torque setting of 1.0 nN-nm and a speed of 10 GHz. These values are extreme and were used to produce an interesting simulation as quickly as possible. A serious engineer assessing the operating conditions of this bearing would have used more reasonable numbers.
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