Abstract
A candidate hyper-light drive is discussed that benefits from increasing electromagnetic effects when a spaceship moves at, or faster than light speed. To emphasize these effects, an alternative derivation of Maxwell's equations is presented for treating magnetic/electric charges by using an 'inverse' Lorentz gauge condition considering pseudoanalytical functions. Similarly, vector and scalar electromagnetic potentials may create a pseudo-ether with no discernable magnetic or electric field. These may result in dormant electric and/or magnetic fields which impact the cosmology of the moon and understanding this phenomena may lead to a better understanding of a hyper-light propulsive duct. Limitations and effects of a General Relativity Framework in lieu of Special Relativity are examined that allow additional terms to enter into the equations of motion. Effects near light speed tend to favor an accelerating or decelerating spacecraft. Specific use of ball lightning for this drive is outlined. Finally, the trajectory equations of motion for this spacecraft are transformed into a second-order equation with an embedded light speed switch that changes the canonical form of the resulting partial differential equation. Nomenclature
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