Two species gives two species. Product is heat. Key of E. Hear that heat beat?
Let H equal Hydrogen Atom
Let - equal electron
Let -H or H- equal Oscillation Mode Hydride Ion
Let N equal Nickel or Group 10 Atom
Let N+1 equal unstable fusion product of Nickel and Neutron
Let Stabilization equal decay process
Let E equal energy
1. H + - => [H- <=> -H]
2. [H- <=> -H] + (N) => (N+1) + -
3. (N+1) => Stabilization + E
Two species gives three species. Product is pressure. Key of G. Dance the pressure bounce.
Let **** equal Helium Atom
Let - equal electron
Let ****- or -**** equal Oscillation Mode Heluide (Helium atom + electron adduct) Ion
Let G equal noble gas atom
Let step 2. represent expansion via increase of species
Let step 3. represent expansion collapse through discharge of electron via coil
1. **** + - => [****- <=> -****]
2. [****- <=> -****] + (G) => [(G-) + ** <=> (G) + **-] + **
3. [(G-) + ** <=> (G) + **-] + ** => (G) + **** + -
And who is in charge of all this? Why the conductor of course! (AKA Programmable Electronic Control)
And who do we thank?
General necessary conditions:
a. Available electron
b. Electromagnet field to allign active species
c. RFG to maintain oscillations
d. Initiation energy via spark, heat or detonation
Composer
http://chan.host-ed.me/
Quoting Teslaalset <[email protected]>:
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Group,Recent posted foto that seems to represent a test Rossi test unit generating 1200 degrees C heat, made me wonder:Is the new unit operating at 1 Bar gas pressure? It seems to be an open setup to me.Past explanation by Rossi gave me the impression the E-cat works at quite higher gas pressures.Is it just me than is puzzled about this observation?
