home | mission | contact
+ Book Notes

+ Concepts

+ Essays

+ FAQs

+ Format

+ Lab Reports

+ Logic & Math

+ Members

+ Patents

+ Press

+ Rules

+ Search

HSG Notes on Dr. Randell Mills'

The Grand Unified Theory
of Classical Quantum Mechanics

(January 2000 Edition)

The central feature of the theory advanced in this book can be summarized in one sentence:
The same physical laws apply on all scales.

Specifically, Dr. Mills identifies a comprehensive set of experimentally verified standards defined by classical physical laws (including relativity) and then shows how his novel theory adheres to those standards.

The table of contents below will give you an idea of the book's material. Ultimately, each chapter listed will have a hyperlink to a full notes section.

The HSG is in the process of generating voluminous web notes as well as supplemental documents to assist HSG members in digesting the book's many equations and mathematical models.

Some notes will include animations and "live equation" links. Here is a list of free software you will want to download to get the most from these notes.

+ Adobe Acrobat Reader
+ Mathcad 8 Explorer
+ MathReader: Mathematica Notebook Reader
+ Windows Media Player


Table of Contents

+ Symbols
+ Introduction

  1. Atoms and Molecules
    1. The One-Electron Atom
    2. Excited States of the One-Electron Atom (Quantization)
    3. Electron in Free Space
    4. Equation of the Photon
    5. Atomic Coulomb Field Collapse--Hydrino Theory-- BlackLight Process
    6. Stability of Atoms and Hydrinos
    7. The Two-Electron Atom
    8. Derivation of Electron Scattering by Helium
    9. Excited States of Helium
    10. The Three-Electron Atom
    11. The Electron Configuration of Atoms
    12. The Nature of the Chemical Bond
    13. Molecular Coulomb Field Collapse--BlackLight Process
    14. Diatomic Molecular Energy States
  2. Collective Phenomena
    1. Statistical Mechanics
    2. Superconductivity
    3. Quantum Hall Effect
    4. Aharonov-Bohm Effect
  3. Gravity, Cosmology, Elementary Particles and Nuclear Physics
    1. Creation of Matter from Energy
    2. Pair Production
    3. Positronium
    4. Relativity
    5. Gravity
    6. Unification of Spacetime, the Forces, Matter, and Energy
    7. Inertia
    8. Possibility of a Negative Electron Gravitational Mass
    9. Leptons
    10. Proton and Neutron
    11. The Weak Nuclear Force: Beta Decay of the Neutron
    12. Quarks
    13. The Strong Nuclear Force
    14. K-Capture
    15. Alpha Decay
    16. Mossbauer Phenomenon
  4. Retrospect
    1. The Schrödinger Wavefunction in Violation of Maxwell's Equation
    2. Classical Electron Radius
    3. Wave-Particle Duality
    4. The Hydrogen Atom Revisited
  5. Quarks to Cosmos to Consciousness
    1. Nature of Consciousness
  6. Astrophysics
    1. Spectral Data of Hydrinos from the Dark Interstellar Medium and from the Sun

Web server space and design for this site was generously donated by Alpha 3