Classical Quantum Mechanics
(CQM) model of the structure of the electron and the photon
used to solve atoms and their states and the subsequent closed-form
solutions of the fundamental experiments of atomic physics.
The solution of the 26 parameters
of hydrogen molecular ions and molecules from two basic equations,
one to calculate geometric parameters and the other to calculate
energies, and the extension of these results to solve the majority
of the important functional groups of chemistry that serve as
building blocks to give the exact solutions of the majority
of possible molecules and compositions of matter.
Collective phenomena such
as the basis of the statistical thermodynamic relationships
and superconductivity, the basic forces and structure of matter
on the nuclear scale and the cosmological ramifications of CQM
such as the identity of absolute space that unifies all frames
of reference, solves the nature of the gravitational and inertial
masses and their equivalence, gives the derivation of Newton's
second law, and solves the origin of gravity, the families and
masses of fundamental particles, and large-scale features and
dynamics of the universe including the prediction of the current
acceleration of the cosmic expansion. The central enigmas of
quantum mechanics mainly regarding the wave-particle duality
are also resolved classically.
