Modeling Energy Creation with a Lagging Current and a Quasi-Sinusoidal Variance in Capacitance

Abstract

The law of conservation of energy has yet to be disproven. However, an inability to disprove this law is no proof of its validity. Energy creation was modeled with a lagging current and a quasi-sinusoidal variance in capacitance. A quasi-sinusoidal variance here is a sinusoidal waveform whose mean is larger than its median. The stator’s quasi-sinusoidal variance in capacitance is formed by the rotors’ electrostatic induction within its conductive segments, which is induced by the stator’s charge. The stator, connected to a dc voltage source, an electrical load, and an oversized inductor, form an RLC circuit. In combination with the dc voltage source and oversized inductor, the stator’s quasi-sinusoidal variance in capacitance establishes a lagging-alternating current. The lagging charge’s corresponding peaks occur once while the stator’s capacitance is slowly decreasing and once while the stator’s capacitance is quickly increasing. This difference in the stator’s variance in capacitance enables energy to be created. Variations of this device were modeled within Ansys and Maplesoft. In one variation, 10.77 Watts of average electrical power, 6. 5S Watts of average mechanical power, and 1.11 Watts of average power within the dc voltage source were created. Therefore, this device was modeled as having over-unity energy conversion.