Monday, September 23, 2013

Ferromagnetism, Superconductors; Shuttle and Throttle

Theoretical oscillating superconductive / ferro magnetic molecular frame model.

Use in perhaps in magnet prone areas?  
No idea if these are actual reagents…

No way to test to see if this is actually possible, doing this just shots in the dark, hopefully somebody thinks this is cool.

Most resources were picked for conductivity or otherwise malleable applicability.

Amateur chemist here, thinking w/ the oscillating (-2/+2)

 ( 2 Mol (hex pyramid Li3N crystals as electric conduit) also

(-4)/(+4) covalent if not close to semi linear bonding

to allow oscillation of current smoothly.



Can't say how common and or even if these reagents exists,

 mainly working my offhand knowledge i've accrued


                                                                                                                                                 
 4ZrZn2  2NaOH + 4LiSiNO +  3Li2Ti  4(SnNi2) ----->

Total Equation
     -2 +2                 (-4)  (+4)(-4)  +4    (-4)    (+4)  (-4) (+4) (-4)
[ ( 2(NaLiNi)  2 (Li3N)  (Si)  (2TiNi)  (Si)  (Li2Ni)   Si    Pb   SI  Zr
                                  
Vnet-0      V                                               
      (+2)(+2)(-2) (+2)(-2) (-4)    (+6)    (-8)(+4)(+2)(+2)       
    [(Zr Zn  Ti  Ni  Zn   Ni   Sn  Zn3  Zr2 Zn2 Ti Zn )]




Port/Dock setup for The Magnetic crystal Product

      -2 +2                    (-4)  (+4)(-4)  +4    (-4)    (+4)  (-4) (+4) (-4)
[ ( 2(NaLiNi)  2 (Li3N)  (Si)  (2TiNi)  (Si)  (Li2Ni)   Si    Sn   SI  Zr  




                                                        ____
Key to Diagram = X / x < | > \ V ^ - ____  used to aid in structure...

Closed engine

Na>x\
       (X> -Ni__\ __
 Li >x/       | Li+Li |               ___
                 | +X \  |               | Ti |                  __                   ^                    __
                 | Li \ N\             // Ni \\              / Li \                /X\                /  ^  \
               <x><x><x> Si <X <> X> Si    < x Ni x > Si   << Sn >> Si <<x Zr x>>
                 | Li / N/            \\  Ni //             \  Li /                \X/                \  /
                 | + X / |              | Ti  |                                         v        
Na>x\       | Li+Li |
       (X> -Ni /
 Li >x/



Edit: tried to calibrate Throttle; X pillar jetisons heat buildup with a neutrality charge to loose the Zr Pillar back to derelict heat.

Na >x\
  (X> -Ni_\___
Li >x/   \  Li+Li | \ ___
             \+X \      | Ti |                           __                ^                   _
              \Li\N\  // Ni \\                        /Li\              /X\                / ^ \
        <X><X><X> Si < X <> X > Si <x Ni x> Si << Sn >> Si <<x Zr x>>
              /Li/N/  \\ Ni //                        \Li/              \X/                \ V /
             /+X /      | Ti |                                              V        
Na>x\  /Li+Li |  /
  (X> -Ni_/
Li >x/


No idea if anyone has ability to make these, perhaps laser precision chemistry with raw reagents in a beam.








                       Vnet-0     V
(-4)(+2)(+2)(-2)(+2)(-2) (-4) (+6)(-8) (+4) (+2)(+2)
(Zr Zn  Ti   Ni  Zn   Ni  Sn  Zn3 Zr2
Zn2 Ti Zn )  ]       


Crystalline Zircon Complex ?? Ferro-Magnet/Memory Application?
             __                                                             ____             ________          ______
           /Zn-\                                                         /-Zn->\         /X<-Zr->X\       /<-Zn->\
Zr - <X-><-X> -Ni - <X> Zn <X> Ni <X> - Sn - <X-Zn-X> - <X>-<X>-<X> - <Ti>X<Zn>
            \Ti-/                                                         \-Zn->/         \X<-Zr->X/       \<-Zn->/

w/ Gas Release   -----> (CO2)(O2) (N2O)

       Na (2/2) O -  (H 2/2) (Li 10/10) (Si 4/4 )(N 4/4) (O 6/6)  (Ti 3/3) (Sn 4/4 ) (Ni -  8/8) (Zr 4/4) (Zn 8/8

1 comment: