Cold electricity

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Cold electricity is a process that involves two phenomenon of physics, electron avalanche in a high voltage spark gap exposed to open air at atmospheric pressure and electron-positron annihilation. Gain is a term in electrical engineering that is used to describe a ratio of increase. Electron avalanche in an open air spark gap can be employed in an electric circuit to provide a gain in current in the circuit. Electron-positron annihilation is a process by which electrons combine with positrons to produce radiant energy.

The production of gamma radiation and magnetic longitudinal waves can be employed to induce a voltage gain in an electric circuit by means of the photoelectric effect. Thus, electron avalanche and electron-positron annihilation can be utilized to produce a gain in current and voltage within an electric circuit to produce electric power.

[edit] References

1) Kouropoulos, C. P., Classically Bound Electrons; EVs, Chemistry & Cold Electricity, 2005

2) Lindemann, Peter, DSc., The Free Energy Secrets of Cold Electricity Metaline Falls, WA, Clear Tech, Inc., 2001

3) Loeb, Leonard B. and Meek, John M., The Mechanism of the Electric Spark Stanford, CA, Stanford University Press, 1941

4) Shoulders, Ken and Shoulders, Steve, Charge Clusters in Action Bodega, CA, 1999