About Brilliant Light Power
Lynn Kline, Assistant for Dr. Randell L. Mills
Phone: 609-490-1090 Ext. 125
How does the GUT-CP describe nature?|
According to Mills GUT-CP, nature is classical. Electrons, when bound in an atom, are considered to be discrete two-dimensional spherical membranes of charge and current that completely surround the nucleus as a bubble. These shells, called electron orbitspheres, each have an organized pattern of super-current filaments on the surface that gives rise to electron spin. The current may be modulated with a time and spherical harmonic pattern that gives rise to orbital angular momentum. Electrons obey classical physics such that the intrinsic electron angular momentum that arises from the pattern of motion is quantized, and invoking this property predicts that bound electrons are stable to emitting radiation according to Maxwellian electrodynamics. This solves the problem that has plagued atomic physics since the Bohr model of the atom: how an electron, continuously accelerating in the Coulombic field of the proton, is able to remain in a stable orbit.
This approach is extended to solve multi-electron atoms and molecules. In multi-electron atoms, bound electrons group into a series of concentric shells, each of which is an atomic orbital and may contain several electrons. In molecules, the electrons stretch over two nuclei to form a prolate spheroidal shell with the nuclei at the foci. Each reaches an equipotential, minimum energy configuration for the system, governed by Maxwellian and Newtonian laws.
From within this frame of reference, GUT-CP unwinds the mysteries of quantum theory. GUT-CP is not a “hidden variables” interpretation of the formalism of quantum theory, rather, it is a new classical theory based on Maxwell’s Equations and Newton’s Laws. It explains canonical experiments of quantum mechanics such as the double-slit experiments and the Aspect experiments classically.