The Grand Unified Theory of Classical Physics
Short AbstractDr. Mills has replaced the field generally known as Quantum Mechanics which postulates that classical physical laws do not apply at the atomic scale by deriving a new atomic theory of from those first principles, which unifies Maxwell’s Equations, Newton’s Laws, and General and Special Relativity. The central feature is that physical laws hold over all scales, from the scale of subatomic particles to that of the cosmos. Quantum Mechanics has remained mysterious to all who have encountered it. Schrödinger postulated a boundary condition Ψ → 0 as r → ∞ of a wavelike positional probability for a singularity that is everywhere at once until measurement. The result was a purely algorithmic mathematical model of the hydrogen atom. In contrast, Mills solved the exact structure of matter and energy and related phenomena from known classical physics, (e.g., Maxwell’s Equations wherein under special conditions, an extended distribution of charge may accelerate without radiating energy). This leads to a physical model of subatomic particles, atoms, and molecules. The closedform solutions containing fundamental constants only agree with experimental observations demonstrating that the fundamental quantum mechanical postulate, “classical physical laws do not apply to the atomic scale”, was erroneous. From two basic equations, the key building blocks of organic chemistry have been solved, allowing the true physical structure and parameters of an infinite number of organic molecules up to infinite length and complexity to be obtained. These equations were also applied to bulk forms of matter, such as the allotropes of carbon, the solid bond of silicon and the semiconductor bond; as well as fundamental forms of matter such as the ionic bond and the metallic bond; and major fields of chemistry such as that of silicon, tin, aluminum, boron, and coordinate compounds. Further, the Schwarzschild Metric is derived by applying Maxwell’s Equations to electromagnetic and gravitational fields at particle production. This modifies General Relativity to include the conservation of spacetime and gives the origin of gravity, the families and masses of fundamental particles, the acceleration of the expansion of the universe (predicted by Dr. Mills in 1995 and since confirmed experimentally), and overturns the Big Bang model of the origin of the universe. Partial List of Physical Phenomena Solved by Classical Physics 

About the AuthorDr. Randell Mills holds a Doctor of Medicine degree from Harvard University and a BA degree in Chemistry from Franklin and Marshall College. He began his research on the unified field theory while studying electrical engineering at MIT. He has published widely and filed patents in the areas of hydrogen energy technology; magnetic resonance imaging; Millsian computational chemical design technology based on The Grand Unified Theory of Classical Physics (GUTCP), a revolutionary approach to solving atomic and molecular structures; Mossbauer cancer therapy (Nature, Hyperfine Interactions); Luminide class drug delivery molecules; genomic sequencing; and artificial intelligence. He is President, Chairman and CEO of Brilliant Light Power, Inc. More about the author. 

Reviews“Mills proposes such a basic approach to quantum theory that it deserves considerably more attention from the general scientific community than it has received so far. The new theory appears to be a realization of Einstein’s vision and a fitting closure of the “Quantum Century” that started in 1900…” “Dr. Mills has apparently completed Einstein’s quest for a unified field theory… without largesse from the US Government, and without the benediction of the US scientific priesthood.” “Mills’ ingenious way of thinking creates in different physical areas astonishing results with fascinating mathematical simplicity and harmony. And his theory is strongly supported by the fact that nearly all these results are in comfortable accordance with experimental findings, sometimes with breathtaking accuracy.” “Mills’ theory explains the answers to some very old scientific questions, such as ‘what happens to a photon upon absorption’ and some very modern ones, such as ‘what is dark matter.’ …Lastly, Mills has made an extremely important contribution to the philosophy of science. He has reestablished cause and effect as the basic principle of science.” 

The Grand Unified Theory of Classical Physics (GUTCP) is derived from first principles that successfully applies physical laws on all scales. Using the classical wave equation with the constraint of nonradiation based on Maxwell’s equations, GUTCP gives closed form solutions for the atom including the stability of the n=1 state and the instability of the excited states, the equation of the photon and electron in excited states, the equation of the free electron, and photon which predict the wave particle duality behavior of particles and light. The current and charge density functions of the electron may be directly physically interpreted. For example, spin angular momentum results from the motion of negatively charged mass moving systematically, and the equation for angular momentum, r x p, can be applied directly to the wave function (a current density function) that describes the electron. The magnetic moment of a Bohr magneton, Stern Gerlach experiment, g factor, Lamb shift, resonant line width and shape, selection rules, correspondence principle, wave particle duality, excited states, reduced mass, rotational energies, and momenta, orbital and spin splitting, spinorbital coupling, Knight shift, spinnuclear coupling are derived in closed form equations based on Maxwell’s equations. The calculations agree with experimental observations. For any kind of wave advancing with limiting velocity and capable of transmitting signals, the equation of front propagation is the same as the equation for the front of a light wave. By applying this condition to electromagnetic and gravitational fields at particle production, the Schwarzschild metric (SM) is derived from the classical wave equation which modifies general relativity to include conservation of spacetime in addition to momentum and matter/energy. The result gives a natural relationship between Maxwell’s equations, special relativity, and general relativity. It gives gravitation from the atom to the cosmos. The universe is time harmonically oscillatory in matter energy and spacetime expansion and contraction with a minimum radius that is the gravitational radius. In closed form equations with fundamental constants only, GUTCP gives the deflection of light by stars, the precession of the perihelion of Mercury, the particle masses, the Hubble constant, the age of the universe, the observed acceleration of the expansion, the power of the universe, the power spectrum of the universe, the microwave background temperature, the uniformity of the microwave background radiation, the microkelvin spatial variation of the microwave background radiation, the observed violation of the GZK cutoff, the mass density, the large scale structure of the universe, and the identity of dark matter which matches the criteria for the structure of galaxies. In a special case wherein the gravitational potential energy density of a black hole equals that of the Plank mass, matter converts to energy and spacetime expands with the release of a gamma ray burst. The singularity in the SM is eliminated. Molecular and Atomic Physics Summary Tables The geometrical parameters and total bond energies of over 800 exemplary organic molecules have been calculated from the functional group composition. Includes calculated and experimental values for Condensed Matter Materials, Ratios of Masses of Fundamental Particles, Electron gfactor, Excited State Lifetimes, Excited States of Helium, One Through TwentyElectron Atoms, the Hydrogen Molecular Ion and Hydrogen Molecule, and Diatomic and Triatomic Molecules. 