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Theory Presentation - UPDATED 02/17/05 Dr. Mills' Book, "The Grand Unified Theory of Classical Quantum Mechanics", Chapter 3: Electron in Free Space - UPDATED 02/17/05 Visualizing Fundamental Particles (Animation) Dr. Mills' Book - "The Grand Unified Theory of Classical Quantum Mechanics" - January 2005 Edition (Appendices III, V, VI and related materials in Chapters 1, 3, 4) - UPDATED 02/09/05 Computational Notebooks to Appendix III (UPDATED 02/09/05) PDF, Zip; Appendix V PDF, Zip; Appendix VI PDF, Zip; and Computational Appendix to the Orbitsphere Equation of Motion For 1=0 (UPDATED 01/28/05) PDF, Zip related to materials in Chapters 1, 3, 4 in Dr. Mills' Book, "The Grand Unified Theory of Classical Quantum Mechanics" - January 2005 Edition Computer Modeling of Classical Quantum Mechanics as PDF Files and Mathematica as Compressed Zip Files:Computational Appendix to the Orbitsphere Equation of Motion For 1=0 (UPDATED 01/28/05) PDF, Zip; Modeling of the Larmor Precession PDF, Zip; Modeling of the Modulation Functions PDF, Zip; Modeling of the Free Electron PDF, Zip; or Animation Files of all the Models The Nature of the Chemical Bond Revisited and an Alternative Maxwellian Approach - Associated spreadsheets protected for viewing only - NOTE: After opening, please increase magnification: anharmonicity, D2+, H2_D2, H2_D2vib_rot, H2+, H2+_D2+vib_rot; Associated spreadsheets unprotected for purpose of working in the spreadsheets: anharmonicity, D2+, H2_D2, H2_D2vib_rot, H2+, H2+_D2+vib_rot (Refer to Book Chapter 12) - UPDATED 11/03/04 Classical Quantum Mechanics - UPDATED 10/28/04 The Fallacy of Feynman's Argument on the Stability of the Hydrogen Atom According to Quantum Mechanics - UPDATED 10/28/04 Exact Classical Quantum Mechanical Solutions for Atomic Helium Which Predicts Conjugate Parameters from a Unique Solution for the First Time - Associated Excited States of Helium Spreadsheets protected for viewing only - NOTE: After opening, please adjust magnification to 400% - and unprotected for purpose of working in the spreadsheets (Refer to Book Chapter 9) - UPDATED 10/28/04 Exact Classical Quantum Mechanical Solutions for One- Through Twenty-Electron Atoms - Associated spreadsheets protected for viewing only and unprotected for purpose of working in the spreadsheets (Refer to Book Chapters 1, 7, 10) - UPDATED 10/28/04 Maxwell's Equations and QED: Which is Fact and Which is Fiction - Associated spreadsheets protected for viewing only - NOTE: After opening, please increase magnification: Fine Structure NIST, Hyperfine NIST, Lamb Shift NIST, Muonium NIST, Positronium NIST; Associated spreadsheets unprotected for purpose of working in the spreadsheets: Fine Structure NIST, Hyperfine NIST, Lamb Shift NIST, Muonium NIST, Positronium NIST (Refer to Book Chapters 2 and 23) - UPDATED 10/28/04 The Grand Unified Theory of Classical Quantum Mechanics, Summary Tables of Calculated and Experimental Parameters of Hydrogen, Hydrogen-like Molecules, One- Through Twenty-Electron Atoms, and Excited States of Helium (refer to Book Chapters 1, 7, 9, 10, 12, 27, 30) - 07/20/04 BOOK REVIEW by Dr. John Farrell - "The Grand Unified Theory of Classical Quantum Mechanics" The Grand Unified Theory of Classical Quantum Mechanics A theory of classical quantum mechanics (CQM) 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, CQM 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, rxp, 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, spin-orbital coupling, Knight shift, and spin-nuclear 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, CQM 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 blackhole 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.
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