The Heavens Declare His Handiwork

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Thomas Lee Abshier, ND

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The Quantum Structure of Mass: In the Theory of Absolutes, mass is a densely compacted assembly of positive and negative DPs that maintains its particulate integrity with motion. Thus, rather than simply transmitting its organizational structure to another set of DPs each moment as a wave, the particle of mass maintains its structure, roughly retaining the same DP cohort composition from moment to moment. But, to justify this dense DP assemblage we must hypothesize a force that maintains this compressed DP structure, and to this we appeal to the concepts of quantum theory. Using the analogy of the electron orbitals, and the allowed states of energy, we hypothesize that additional ultrastructural levels of allowable energies exist at the subparticle levels. In particular, that space allows for stable energy structures to exist at a variety of levels, such as the gluon and quark. These particles likewise have octaves of allowable quantum assembly that correspond to higher energy quarks.

This concept of allowed quanta of DP assembly energies opens the door for organizing particles that fill these available stable energy states. Thus, the various quarks, mesons, baryons, and pentaquark states can form and maintain their structure for a time, until the statistical forces of collision, and tunneling displacement, degrade their integrity and precipitate decay. In summary, the amount of DP-compression associated with each particle corresponds to an allowed quantum of compression above the density of the resting DP Sea.

Particles depend upon disparity in charge polarity for their attraction. That charge disparity is maintained by the presence of the central DP, but the charge effect of even the smallest particle is much larger than the point-charge of the central DP. The charge effect of every particle is organized around the central DP, but the structure of the particle is continually shifting because of the small amount of “jumping around” (as noted above) due to the random annihilations and re-materialization of the Central DPs.

The polarization of the space around the Central DP is particle-like, in the sense that some of the DPs composing it maintain their integrity and proximity around the central DP. But, the particle is also wave-like in that even the DP does not maintain its identity, and the farther away from the central DP, the less likely the DPs enrolled to be part of the particle will maintain their association with that particle in the next moment. Again, the particle congeals around the polar force of the central DP, and as the particle moves through space, the central DP will be propelled forward by E field forces generated by the building and collapse of the magnetic field associated with the movement of the central DP and its cohorts. Thus, the particle retains both particle and wave-like properties, and depending upon the conditions in which it interacts, the particle can exhibit either wavelike or particle-like properties in the interaction.

Thus, because of the requirement to move a DP, the Central DP and its close cohorts, through space, the compressed DP structure comprising the mass does not propagate its DP concentration through space at the speed of light like other correlation waves such as photons. Rather, mass moves in response to the forces of momentum acting upon it after having been accelerated by the energy transferred to that mass. The field kinetic energy of the mass is self-perpetuating because it moves the Central DP, which in turn causes an increase in the E field in the space ahead of the advancing mass, and a decrease in E field in the space behind the advancing mass. The change in E field causes the space to react by forming a Magnetic orientation corresponding to the charge polarity and direction of the advancing charge. The decline of the E field behind the retreating charge likewise precipitates the collapse of the magnetic field. And, the declining magnetic field in turn generates an E field which points in the direction of which propels the mass forward. Thus, momentum is a delicate balance between forces seeking to accelerate and decelerate the mass, mediated by changing E fields in the space ahead of, and behind, the mass, collapsing and building B fields that form in response to the changing E fields, and E fields that propel and resist the movement of the mass generated by the changing B fields. The forward force, and backward force are equal, as indicated by the fact that there is no net acceleration of particles. But, if there is an equal force acting on the particles, pointing in opposite directions, then the mass would not move. Thus, to satisfy the condition that the force forward and backward are equal, but that the particle moves under the influence of force, the forces must be acting upon the mass in a sequential manner.

In summary, the energy of motion (the momentum and kinetic energy of the mass) is carried as a complex interrelationship between the Electric and Magnetic field as they form and decay in the space surrounding each moving DP. The sequence of movement arose by the accelerating force associated with a net force in a forward direction. During this period of acceleration, the accelerating force overcame the resisting force of static inertia. After the force has been applied, and velocity generated, the forward force still generates first, and the backward force lags.

Basic Principles Summary |

Outline of Concepts |

Overview of Concepts |

Glossary |

Field Shell Concept |

Force Particle Concept |

B Field Concepts |

Dynamic EM Fields |

Search Site |

Personal History |

Political Philosophy |

Acknowledgements |

Mass Energy Summary |

Theory Summary |

Origin of Good and Evil |

Neutral Space |

Force Particles 2 |

Force |

Time 2 |

Time 3 |

Grid Points |

Acceleration |

Energy 2 |

Kinetic Energy 2 |

Kinetic Energy 3 |

Kinetic Energy 4 |

Kinetic Energy 5 |

Kinetic Energy 7 |

Kinetic Energy 8 |

Momentum & KE |

Momentum, KE & Inertia |

Speed of Light 2 |

Photon Velocity |

Force Particle Velocity |

Mass 2 |

Mass 3 |

Mass 4 |

Mass & Fields |

Two Wires with Current |

Dynamic Magnetic Fields |

Current Flow |

Fields & Moving Charge |

Moving Charge Effects |

Magnetic Induction |

Lenz's Law |

Field Energy |

Sub-Nuclear Forces |

The Strong Force |

Special Relativity & MMX |

Sound and Light Compared |

Photon Structure |

Photon Emission |

Photon Capture |

Photon Reflection |

Refracted Light |

Polarized Light |

Diffraction |

Interference |

Photon Scattering |

Wave Particle Duality 4 |

Big Bang & Momentum |

Photon Generation |

Allowed Orbitals |

Spectral Line Emission |

Laser Light Emission |

Blackbody Radiation |

Particle Decay |

Pair Annihilation |

Cherenkov Radiation |

Photon Generation 1 |

Particle Decay & Relativity |

Pair Annihilation 2 |

Cherenkov in Space |

Photon Absorption |

Pair Production |

Pair Production 2 |

Pair Production 3 |

Photon Reflection in Depth |

Photon Metallic Reflection |

Electron-Crystal Reflection |

Photon Reflection 1 |

Refractive Phenomena |

Refraction 2 |

Compton Scattering |

Wave Particle Duality 2 |

Wave Particle Duality 3 |

Dipole Sea Structure |

Dipole Sea & Ether Theory |

Dipole Sea & Energy Xfer |

FP Spheres & Charge Motion |

Battery Energy Storage |

Electromagnetic Concepts 2 |

Magnetic Permeablity |

Collison & Reference Frame |

Momentum, Inertia, & Momentum |

Mu Epsilon of Space |

Electron & DP Sea |

B Field from Electron Velocity |

Gyroscope |

The Inverse Square Law 2 |

Evolution vs. Creation |

Entropy |

Particles Complexes & Spirit |

EMG Interactions |

Summary of Concepts |

Particles & Fields |

Dipole Sea Particles 4 |

Local Light Speed |

Parallel Universes |

Quantum Jumps |

Quark Theory |

Fermions & Bosons |

Neutron Structure |

Neutrinos |

Subatomic Structure |

Neutrino Theory |

Quark Theory 2 |

Time Dilation 2 |

Light - Mass Interaction |

Orbital Superconductivity |

Orbital Uncertainty |

Electron Mass Persistence |

Dual Slit Interferometry |

Wave Particle Duality |

Uncertainty Principle2 |

DeBroglie Wavelength |

Lesson 1 |

Lesson 2 |

Lesson 3 |

Lesson 4 |

Ecumenical Solution |

Neutral Space |

Force Particles 2 |

Force |

Time 2 |

Time 3 |

Grid Points |

Acceleration |

Energy 2 |

Kinetic Energy 2 |

Kinetic Energy 3 |

Kinetic Energy 4 |

Kinetic Energy 5 |

Kinetic Energy 7 |

Kinetic Energy 8 |

Momentum & KE |

Momentum, KE & Inertia |

Speed of Light 2 |

Photon Velocity |

Force Particle Velocity |

Mass 2 |

Mass 3 |

Mass 4 |

Mass & Fields |

Two Wires with Current |

Dynamic Magnetic Fields |

Current Flow |

Fields & Moving Charge |

Moving Charge Effects |

Magnetic Induction |

Lenz's Law |

Field Energy |

Sub-Nuclear Forces |

The Strong Force |

Special Relativity & MMX |

Sound and Light Compared |