CI, QM, Masse

The Copenhagen Interpretation assumes an objective Universe ruled by causality is nonexistent. However, the deterministic derivation of Schrödinger’s wave equation from classical field theory shows that causality and determinism prevail at all macroscopic and microscopic levels in nature.. The CI relies heavily on the probabilistic interpretation of the wave function ($\psi$), originally proposed by Born.. [who] postulated that $|\psi|^2$ at any point indicates the probability density of finding a particle at that point. [This is wrong].. probability is not a real physical medium capable of supporting waves..

The true meaning of the wave function $\psi$ is related to the spatial dependence of the resultant electric field intensity ($E_R$) of standing transverse elastic waves in aether that exist within and surrounding an atom. These standing waves result from the continuous electromagnetic waves emitted by the atom's stationary electrons and positrons. Since $Q \propto \psi^2$ (where Q is energy density), $\psi$ is expected to have larger values near an electron, making Born’s probabilistic interpretation consistent with the energy density but incorrect in its fundamental assumption that the electron position is defined by probability..

Stern-Gerlach Experiment: The CI was used to assert that angular momentum is spatially quantized, meaning electrons have only two possible magnetic moment orientations. However, the sources explain the two observed deflection lines by recognizing that the electron (which is a vortex ring of aether) possesses an inherent acceleration force. When the electron enters the inhomogeneous magnetic field, it rotates immediately until its acceleration force and the magnetic field force are approximately parallel, resulting in all electrons having one of two possible polarities/orientations that cause the observed split pattern. This result is explained without appealing to the "quantum mysteries" of the Copenhagen interpretation