From: treon3verdery@gmail.com   
      
   NOR computer logic form   
      
   Sensors   
      
   Transport mechanisms   
      
   Hamster balls ac like electret pulsing polarization, wind up clock with piezo   
   hands strobes outer surface to repel and attract on U (actually O) segments,   
   hamster ball can carry cargo   
      
   Bootstrap nanoassembler   
      
   SiO2 ic chip lithography isotopic electret paths, molecule sorting dot twister   
   mats, mems or 3 nm vacuum huts, hamster ball transporters made with material   
   that sublimes to leave an empty compartment, a Tetris piece maker, an annular   
   vibrating circle    
   that vibra-plate and/or radial isotopic electret sorts Tetris pieces into   
   separate piles, then   
      
   Audi/olympic circles with an inactive one (or several) that turns on after the   
   Tetris piece sorter has grouped the Tetris pieces, at the overlapped part of   
   the next Olympic circle a blend of two Tetris pieces occurs, and their   
   compatible electretness or    
   mechanics sticks them together, piezoelectric or other motion jiggles them   
   outward to another annulus, that annulus has electret surface patterns that   
   favor a particular configuration and form to probabilistically attach and stay   
   around even with    
   jiggling, the overlap with the next Olympic circle can have electret patterns   
   on it that favor uniting two groups of two Tetris pieces, there is also a   
   piezo pattern that vibrates things on the previous annuluses back to a   
   stochastic distribution so the    
   Tetris pieces that have not successfully matched and travelled out of   
   stochastic I at I on range have another go at combining   
      
   Another ic 3nm technology is to make a coil spring @, toss it on an electret   
   alignment maker and cause it to change shape with piezo electricity, storing   
   tension and mechanical energy (it is encircled or point-kept from expanding,   
   then when the    
   piezoelectric energy is no longer supplied or the coil @ is moved it can   
   supply continuous mechanical power   
      
   Quantum linked photon communication UV sticky tape/peel, parabolic dish 3nm ic   
   size   
      
   Pinball bumpers that sort and decrease stochasticism imparting energy to   
   things that bounce into them with vase/face contours, high up get energized,   
   vase/face could be improved with flexi-shingles that dampen velocity rather   
   than impart velocity and    
   reflect to be nearer the base electret surface, vase/face with shingles could   
   be made with 3-7nm IC technology, a nanoassembler making nanoassemblers   
   component could be making vase/face with shingles from Tetris pieces sorted   
   with annuli   
      
    with piezo electricity makeable from storing tension and mechanical energy at   
   the wound @, then when the piezoelectric energy is no longer supplied or the   
   coil @ is moved it can supply continuous mechanical power   
      
   I think non-drexlarian nanoassembler are possible (notes), some drexlerian   
   nanotechnology has possible new technologies and improvement    
      
   I saw a Drexlarian nanotechnology video and at it they had a bunch of what   
   looked like AFM tips on the perimeter of a wheel, to have them do pick and   
   place of single atoms or entire Tetris pieces actual AFMs modulate charge,   
   that would at first seem to    
   go with e- conduction pathways to every AFM tipped wheel but another way to do   
   it is to have a tall chunk of piezoelectric material, taller than the AFM tip   
   that contacts a strike plate nest to the thing being built, that pulse of e-   
   provides the energy    
   to glom or unglom the atom or Tetris piece at the tip, another possibility is   
   to have the flat sides of the afm-tread wheel have a (circle of) little raised   
   columns that are struck periodically (or programmatically) and then conductive   
   pathways (or    
   possibly just electrostatic charge distributing ridges) cause e-changes at the   
   AFM tips to vary their glommingness, this is kind of like a disk (rather than   
   cylinder) music box   
      
   One Drexlerian nanotechnology uses C2H2 to make diamond, isotope and spin   
   effects of deuterium could cause more maneuverability and responsiveness to   
   varied kinds of electricity like exposure to spin polarized electrons,   
   published material says that    
   oxidizing No with spin polarized O2 is 40% different   
      
   Doped diamond can be a p or n semiconductor, it is possible that diamond   
   sponge could be nano manufactured, with the possible advantage that the edge   
   of each hollow would have surface-like charge anisotropy, the surface charge   
   anisotropy would make the    
   diamond more reactive, causing the 0°C or STP growth of diamond at the   
   surface to be more chemical physics favored, perhaps even with Drexler's C2H2   
   acetylene feedstock, spintronics does varied things with crystal lattice   
   anomalies (hollows, edges), and    
   different versions of acetylene (C2D2, or even C2DH) are likely to grow, or   
   AFM tip place differently and with a wider latitude of engineering material   
   characteristics   
      
   Sticky tape x ray diamond dust maker, the cover of Science had a light and   
   X-ray emitting roll of unpeeling sticky tape, it is possible that the light   
   came from a line of plasma produced from the minute area of "nothing there"   
   (vacuum) making plasma,    
   there are are 273 kelvin plasma diamond CVD machines, so perhaps a sticky tape   
   plasma nanotechnology could make diamond chunks at varied sizes   
      
   Are there "endothermic" (cooling) physics "reactions", like throwing a tarp on   
   a pile of dust, a dendritic tree with electret branches, inserting rebar into   
   premade holes at a column that is swaying, these could contact another system   
   to make it jiggle    
   less (cool it) that could benefit nanotechnology, an AFM tip with an annulus   
   of dendritic tree electret material like an anti-wriggle wreath at the base of   
   a AFM tip cone could wiggle less   
      
   There is a little more to this endothermic like physics, rather than just   
   damping vib there is the p   
      
   Grapheme net with hexanes between cycles could be a cling to fit tarp over a   
   pile of diamond nanodust or Tetris pieces   
      
   Little edge and chunk disturbances in electrets make them last longer, and   
   putting 500 nm chunks has been published as doing this, so making Gaussian or   
   other patterns of nanothings could benefit electret applications,  electret   
   sides at Tetris pieces    
   and at material and nanoobject paths could have these as internal   
      
   It is likely genetic algorithms to heighten the capability of nanoassembler is   
   described online, a bootstrap IC wafer version makes millions or billions of   
   nanoassemblers then the ones best at assembling things are found, studied,   
   their capabilities    
   concatenated and genetic algorithm screened again   
      
      
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