Self-Field Theory : A New Mathematical Description of Physics book cover
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Self-Field Theory
A New Mathematical Description of Physics




ISBN 9789814303002
Published December 20, 2011 by Jenny Stanford Publishing
276 Pages 30 Color & 43 B/W Illustrations

 
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Book Description

This is the first text to be written on the topic of Self-Field Theory (SFT), a new mathematical description of physics distinct from quantum field theory, the physical theory of choice by physicists at the present time. SFT is a recent development that has evolved from the classical electromagnetics of the electron’s self-fields that were studied by Abraham and Lorentz in 1903-04. Due to its bi-spinorial motions for particles and fields that obviate uncertainty, SFT is capable of obtaining closed-form solution for all atomic structures rather than the probabilistic solutions of QFT.

Table of Contents

Introduction
Classical Origins
1671–1903
1903–2010
Self-Field Theory
Introduction
Self-Field Theory
Solving Maxwell’s Equations Using Bi-spinors
The Hydrogen Atom: Principal Mode
Forces and Energies of the Principal Mode
Analytic Solution for Infinite Mass Proton
Complete Azimuthal Mode Solution: Balmer Formula
Stability
The Proton’s Motion in the Hydrogen Atom
Comparison of EMSFT Solution with Other Field Solutions
Planck’s Constant
SFT and Its Applications to Other Physical Phenomena
SFT Gravitational Model Based on Dielectromagnetics
Strong Nuclear Fields
Photonic States and Compounds
The Photon
Introduction
Analytic Estimate for the Mass of the Photon
Spin and Elementary Particles
Electron–Proton Shells and the Pauli’s Exclusion Principle
Boson Structure
Gravitational Structure of the Universe
Photon Transit Across the Cosmos and Cosmic SFT Binaries
The Phonon
Introduction
Brief Outline of Recent Acoustic and Vibrational Research
The Phonon and Cosmology
Solving the Equations of Electromagnetoacoustics
Self-Field Theory: A Mathematical Model of Physics
Repairing Past Inaccuracies
Appendix A: Mathematical Preliminaries
Solving Maxwell’s Partial Differential Equations
Electromagnetic Particle and Field Motions Described via Spinors
Centre-of-Motion E- and H-Fields
Imaginary Numbers in 4-D Coordinate Systems
The Condition for Zero Nett Radiation by Dipole Antennas
The Condition for Zero Nett Radiation in Atoms
Uncertainty
Over-constraint of Classical and Quantum EM Equations
Appendix B: Comments on Physical Constants, Equations, and Standards
Appendix C: Self-Field Theory: New Photonic Insights
The Equations of CEM, QFT, and SFT
The Electric and Magnetic Fields of CEM, QFT, and SFT
Appendix D: Frequently Asked Questions
Appendix E: The Search for a General Physical Mathematics
Single-Time and Single-Coordinate Data. Determining the Velocity of a Rod Based on the Readings of the Synchronized Clocks Appurtenant to It
Relation of Rod Velocity and Coordinate Uncertainties Calculated Using Single-Time Data
Relation of Rod Energy and Time Uncertainties Calculated Using Single-Coordinate Data
A Physical Clock. Relation of the Impulse and Coordinate Uncertainties of a Spatially Extended Body
Conclusion

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