Author(s): Eue Jin Jeong
The presence of the repulsive force among the same charges in capacitors has never been raised as a valid issue in consideration of the stored energy in the conventional electronic circuit theory. This energy was considered already included in the conventional calculation of the stored capacitor energy. However, when the charges in the two shells of the spherical capacitor are designated as Q1 and -Q2 of slight difference in magnitude, it becomes obvious that the conventional stored energy is only given by the term depending on Q1xQ2 and the stored energy represented by the repulsive potential energy that depends on Q1^2 and Q2^2 are not included. Not surprisingly, Nikola Tesla, Thomas Henry Moray and Stanley Meyer have patented and demonstrated energy devices in public that produces much more energy than put in in their devices. In case of Tesla and Moray, the secret was using spark gap or cold cathode tube that allows the repulsive potential energy to be materialized as additional electrical current. The excess repulsive potential energy can be as large as 8000 times the input energy in case of water cell electrolysis case according to the theoretical calculation, which allowed Meyer’s excess energy device possible. However, their inventions were buried in oblivion because the energy conservation law in physics which was borrowed from thermodynamics in early days of scientific development doesn’t allow such physical event since the principle was adapted as the absolute and unbreakable law in physics of electromagnetism. The other compelling argument against the result of thermodynamics is that magnetic field carries energy but no material can block the passage of the magnetic field which means the adiabaticity required for the strict isolation of the local energy is inherently impossible in electrodynamics. This observation opens the vast number of possibilities of acquiring energy by using various shaped permanent magnets and in combination of the repulsive potential energy utilization.
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