Re-examination of Energy Conservation Principle in Charged Capacitors and the Reported Anomalous Energy Devices: A New Perspective | Chapter 10 | Current Research Progress in Physical Science Vol. 4

Energy conservation is one of the most fundamental and well-established principles of physics. Repeated testing has provided evidence that the thermal energy conversion from heat energy to kinetic energy is complete as long as there is no heat loss. E. Noether extended the energy conservation principle to the quantum field theoretical domain in empty space by relating the time-translation invariance of the universe with energy conservation. While this is the case in an open empty space, it seems that the local space enclosed by conducting metallic plates has an unexpected property, suggesting that the energy conservation principle may not necessarily apply to localized bound systems of capacitors in electrodynamics. This point of view was raised by noting that the spherical capacitor has calculable electrostatic self-potential energy in both the inner and outer shells, which is not considered in the conventional consideration of the total energy stored in the capacitors. It seems that the concept of moving charges one by one into the capacitor plates has helped bypass the necessary steps to account for the additional repulsive self-potential energy that accumulates simultaneously in both capacitor plates in the process of charging the capacitor. While electrons are free to move around inside the metal, they are not free to escape the metal surface because of the work function potential. This fact raises the possibility that electrons can accumulate repulsive potential energy among themselves that was not previously considered possible to be included as a meaningful form of energy.

 

Also, contrary to thermodynamics where the fundamental basis of local energy conservation principle in physics was originated from, magnetic field which carries energy does not obey the adiabaticity as a precondition for local energy conservation because magnetic field cannot be blocked by any material. This indicates that the local energy in charged capacitors in electrodynamics may not need to obey the energy conservation principle established by thermodynamics in the first place. We present itemized details of the repulsive potential energy stored in the capacitors and discuss its physical reality in relation to the anomalous energy devices reported in the past.

 

Author (s) Details

Eue Jin Jeong
Tachyonics Institute of Technology Austin, TX-78741, USA.

 

Please see the book here:- https://doi.org/10.9734/bpi/crpps/v4/2719