| Dedication |
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v | |
| Group photos |
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vi | |
| Foreword |
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vii | |
| Acknowledgements |
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viii | |
| Section I: Foundational Physics |
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1 Iterants, Braiding and the Dirac Equation |
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1 | (2) |
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1.1 Iterants and the Schroedinger Equation |
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2 | (1) |
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2 Iterants and Idempotents |
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3 | (1) |
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3 Iterants, Discrete Processes and Matrix Algebra |
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4 | (1) |
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4 Matrix Algebra via Iterants |
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5 | (3) |
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5 Iterants of Arbitrarily High Period |
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8 | (6) |
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14 | (2) |
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7 Iterants and the Standard Model |
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16 | (1) |
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8 Iterants, Braiding and the Sundance-Bilson Thompson Model for Fermions |
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17 | (1) |
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9 Clifford Algebra, Majorana Fermions and Braiding |
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18 | (2) |
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10 The Dirac Equation and Majorana Fermions |
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20 | (4) |
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10.1 Another version of U and U+ |
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22 | (1) |
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10.2 Writing in the Full Dirac Algebra |
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23 | (1) |
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10.3 Majorana Fermions at Last |
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23 | (1) |
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24 | (2) |
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2 Representations of the Nilpotent Dirac Matrices |
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26 | (1) |
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2 The Algebraic Formulations |
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27 | (1) |
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3 The Matrix Formulations |
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27 | (1) |
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28 | (1) |
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5 The Complete Set of Matrices |
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29 | (3) |
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6 The Matrices as Sources of Nilpotency |
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32 | (1) |
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33 | (1) |
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33 | (1) |
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3 Spacetime Emergence, Inertia, and Rowlands Duality |
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34 | (1) |
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35 | (1) |
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3 Equivalences and Dualities |
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35 | (1) |
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4 Inertial Forces and Gravitational Fields |
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36 | (2) |
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5 The f(R) Incentive in General Relativity |
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38 | (2) |
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6 Schwarzschild, de Sitter, and Kottler Metrics |
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40 | (1) |
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7 Newton-Hooke Potentials |
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41 | (2) |
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8 Rowlands' Version of Duality |
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43 | (3) |
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9 Discreteness/Continuity Duality |
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46 | (2) |
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48 | (1) |
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49 | (2) |
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4 Non-Conventional Effects Induced by Energy Density in Materials An Introduction to Deformed Space-Time Reactions |
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51 | (1) |
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51 | (1) |
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52 | (1) |
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3.1 Monotonic Increase of Pressure |
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52 | (1) |
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52 | (1) |
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3.3 Alpha and Neutron Emissions |
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53 | (1) |
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53 | (1) |
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5 Nucleolysis and Nucleosynthesis |
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54 | (2) |
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5.1 Nuclear Metamorphosis in Mercury |
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54 | (1) |
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5.2 Lorentz Symmetry Breakdown |
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55 | (1) |
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6 The Deformed Space-Time Theory |
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56 | (1) |
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6.1 Fundamentals of DST-Theory |
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56 | (1) |
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56 | (1) |
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6.3 DST-Theory as Unifying Vision of Non-Conventional Experimental Results |
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56 | (1) |
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57 | (1) |
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58 | (2) |
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5 Considerations about Deformed Space-Time Neutron Spectra |
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60 | (1) |
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61 | (4) |
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65 | (1) |
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65 | (2) |
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6 P, C and T: Properties on The Kinematical Level |
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67 | (1) |
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2 Helicity Basis and Parity |
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67 | (3) |
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3 Chiral Helicity Construct and the Different Definition of the Charge Conjugate Operator on the Secondary Quantization Level |
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70 | (2) |
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72 | (1) |
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73 | (1) |
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7 Are Maxwell's Equations Fundamental? |
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74 | (1) |
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2 Multidimensional Geometries, A Different Approach to Unified Theory and the Role of Multidimensional Electromagnetism |
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74 | (1) |
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3 Generalized Canonically Conjugate Variables |
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75 | (2) |
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4 Electric and Magnetic Parried Variable Relations, Canonical Conjugate Phase Spaces and Metric Spaces |
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77 | (2) |
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79 | (1) |
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79 | (1) |
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Appendices: Tables 1 to 3 |
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80 | (5) |
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8 (Trans.): Quaternions and Elliptical Space, (Quaternions et Espace Elliptique) |
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85 | (13) |
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86 | (1) |
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86 | (1) |
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86 | (1) |
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86 | (1) |
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87 | (1) |
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87 | (1) |
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88 | (1) |
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89 | (1) |
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89 | (1) |
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89 | (1) |
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90 | (1) |
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90 | (1) |
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90 | (1) |
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91 | (1) |
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91 | (1) |
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91 | (1) |
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92 | (1) |
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92 | (1) |
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93 | (1) |
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93 | (1) |
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94 | (1) |
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95 | (1) |
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23 Representations of Elliptical Euclidean Space |
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95 | (1) |
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24 Representations of Spherical Space |
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95 | (1) |
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96 | (1) |
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Appendix A: Brief Definitions of Terms |
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96 | (1) |
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Appendix B: Erlangan Program |
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97 | (1) |
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Appendix C: Lemaitre Biographical Note |
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97 | (1) |
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References (Translators) Annotated/Notes |
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97 | (1) |
| Section II: Special and General Relativity |
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9 Derivation of the Inertial Mass m = E0/c2 of an Electron Composed of a Circling Spin-1/2 Charged Photon |
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98 | (1) |
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2 Some Background About the Electron |
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99 | (1) |
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3 E0 = mc2 and Einstein's Theory of Relativity |
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99 | (1) |
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4 Justifications for Modeling Elementary Particles by a Circulating Photon-like Object |
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99 | (1) |
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5 Derivation of the Resting Electron's Inertial Mass m = E0/c2 |
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100 | (1) |
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6 Calculated Magnitudes of the Internal Angular Frequency, Internal Momentum, Internal Centripetal Acceleration, and Internal Radial Force in a Spin-1/2 Charged-Photon Model of a Resting Electron |
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101 | (1) |
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6.1 The Internal Angular Frequency |
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101 | (1) |
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6.2 The Internal Momentum |
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101 | (1) |
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6.3 The Internal Centripetal Acceleration |
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101 | (1) |
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6.4 The Internal Radial Force |
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102 | (1) |
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7 The Equations for the Transluminal Energy Quantum Spin-1 and Spin-1/2 Photon Models |
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102 | (1) |
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103 | (2) |
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105 | (1) |
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105 | (1) |
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10 Kinematic Solutions to the Twin Paradox in Special Relativity |
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106 | (1) |
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2 The Ambiguity of the Notion of Relative Motion of Two Point Objects |
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106 | (1) |
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3 The Observer's Circular Motion |
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107 | (1) |
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4 The Rectilinear Motion of the Observer |
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108 | (1) |
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5 Regarding the Relative Motion of Intrinsic Inertial Systems |
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109 | (1) |
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6 A Solution to the Twin Paradox in Special Relativity |
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110 | (1) |
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7 A Solution to the Twin Paradox in the Ether Theory |
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110 | (1) |
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111 | (1) |
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111 | (1) |
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11 The Non-Relativistic Models of the Relativistic Bell's Paradox |
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112 | (1) |
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2 The Break of the String and the Essence of the Relativistic Bell's Paradox |
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112 | (1) |
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3 The Conditions of Reversibility of the Proper Distance Between the Rockets Upon Return to Their Initial State |
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113 | (1) |
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4 The Relativist Concept in Bell's Problem Solution and Modifications Thereof |
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114 | (1) |
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5 Solutions to Bell's Problem Within the Framework of the Ether Concept |
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114 | (1) |
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6 The Circular Model of Bell's Effect |
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115 | (1) |
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7 The Simulation of Bell's Paradox in Aqueous Medium |
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116 | (1) |
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117 | (1) |
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118 | (1) |
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118 | (1) |
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12 Quantum Gravitational Applications of Nuclear, Atomic and Astrophysical Phenomena |
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119 | (1) |
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2 Two Basic Assumptions of Final Unification |
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120 | (1) |
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2.1 Key Points to be Noted |
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120 | (1) |
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3 Role of the Newtonian Gravitational Constant in Nuclear Physics |
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121 | (1) |
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4 To Estimate the Gravitational Assumed to be Connected with Proton |
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122 | (1) |
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5 To Estimate the Gravitational Assumed to be Connected with Electron |
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122 | (1) |
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6 To Estimate the Magnitudes of (GS,Ge,GN,alphaS) |
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122 | (1) |
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7 Characteristic Atomic and Nuclear Applications |
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122 | (1) |
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8 Characteristic Sub-Nuclear Applications |
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123 | (1) |
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9 Characteristic Astrophysical Applications |
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123 | (1) |
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10 About Avogadro's Number |
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123 | (1) |
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124 | (1) |
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124 | (1) |
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124 | (3) |
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13 The Velocity Addition Formula According to Special Relativity-The Most Unsustainable Formula in All Physics |
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127 | (1) |
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2 The Derivation of The Velocity Addition Formula |
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127 | (2) |
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3 The Functional Aspect of The Velocity Addition Formula |
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129 | (1) |
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130 | (1) |
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131 | (1) |
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14 Newton-Einstein G-Duality and Dirac-Majorana Fusion Modeling as Mediated by Ontological-Phase Topological Field Theory |
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132 | (1) |
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2 Cosmology of G-Shock Waves, and Newton-Einstein G-Duality |
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133 | (2) |
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3 From Geometric Phase to Ontological Phase |
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135 | (2) |
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4 Tight-Bound States and New Spectral Lines |
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137 | (1) |
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5 Additional Dimensionality and Topological Transformation |
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137 | (4) |
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6 Toward Experimental Design-Empirical Tests |
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141 | (1) |
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142 | (1) |
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142 | (2) |
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15 On the Test of Newton's Inverse Square Law and Unification of Gravitation and Electromagnetism |
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144 | (1) |
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2 Limitations of Newton and Einstein |
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144 | (2) |
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2.1 Errors Due to Inadequacy in Mathematics |
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145 | (1) |
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2.2 Inadequacy in Physics |
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146 | (1) |
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3 The Repulsive Gravitation and Necessary Extension of General Relativity |
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146 | (2) |
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3.1 The Reissner-Nordstrom Metric and the Repulsive Gravitation |
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147 | (1) |
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3.2 The Extension of General Relativity and Einstein's Unification |
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147 | (1) |
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3.3 The Attractive Current-Mass Interaction |
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147 | (1) |
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4 Einstein's Theory of Unification and the Five-dimensional Relativity |
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148 | (1) |
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5 Applications of the Charge-Mass Repulsive Force and Anomaly of the Space Probes |
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149 | (1) |
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6 Conclusions and Discussions |
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150 | (2) |
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152 | (1) |
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Appendix A: Influence of the Temperature of a Body on its Weight |
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152 | (1) |
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Appendix B: The Space-Time Singularity Theorems and the Unique Sign of Couplings |
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152 | (1) |
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Appendix C: The Principle of Causality and the Physics of Plane-Waves |
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153 | (1) |
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154 | (2) |
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156 | (2) |
| Section III: Aspects of Unified Theories |
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16 Unified Discrete Mechanics: Bifurcation of Hyperincursive Discrete Harmonic Oscillator, Schrodinger's Quantum Oscillator, Klein-Gordon's Equation and Dirac's Quantum Relativist Equations |
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158 | (1) |
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2 Incursive Discrete Harmonic Oscillators |
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159 | (1) |
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3 Hyperincursive Discrete Harmonic Oscillator Separable into Two Incursive Oscillators |
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160 | (4) |
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4 Bifurcation of Differential Continuous Derivative into Two Difference Discrete Derivatives |
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164 | (2) |
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5 Two Quantum Harmonic Oscillators Similar to the Two Discrete Incursive Oscillators |
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166 | (3) |
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6 The Solutions of the Equation of the Schrodinger Quantum Harmonic Oscillator |
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169 | (1) |
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7 Hyperincursive Discrete Time Equation of the Schrodinger Quantum Oscillator |
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170 | (1) |
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8 Survey of the Klein-Gordon and Dirac Quantum Relativist Equations |
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171 | (1) |
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9 The Hyperincursive Discrete Klein-Gordon Second Order Equation Bifurcates to the 4 Dirac First Order Equations |
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172 | (3) |
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175 | (1) |
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176 | (2) |
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17 Fundaments of Ontological-Phase Topological Field Theory |
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1 Abductive a Priori a Posteriori Tautology |
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178 | (1) |
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2 The Phasor (Phase Vector) Complex Probability Amplitude |
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179 | (3) |
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180 | (1) |
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2.2 Geometric Phase-Berry Phase |
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181 | (1) |
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182 | (1) |
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3 Transitioning from TQFT to OPTFT |
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182 | (2) |
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3.1 The A and B-Models of Topological Field Theory |
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183 | (1) |
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3.2 Dualities Between Topological String Theories (TSTs) |
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183 | (1) |
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3.3 The Holomorphic Anomaly |
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183 | (1) |
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4 Topological Vacuum Bubbles by Anyon Braiding |
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184 | (1) |
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5 Topological Switching-Key to Ontological-Phase |
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184 | (8) |
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6 Dual Amplituhedron Geometry and 'Epiontic' Realism |
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192 | (2) |
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7 Generalizing Topological Phase Transitions in Homological Mirror Symmetric Brane Dynamics |
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194 | (2) |
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7.1 Higher Dimensional Space and the Klein Cycle |
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195 | (1) |
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196 | (2) |
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18 Neo-Cartesian Unified Fluid Theory: From the Classical Wave Equation to De Broglie's Lorentzian Quantized Mechanics and Quantized Gravity |
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1 On Continuity, Field, Force and Extension |
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198 | (4) |
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1.1 On Continuity and Discreteness |
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198 | (1) |
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1.2 On Field, Force and Discreteness |
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199 | (1) |
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1.3 On Extension, Atomism and Discreteness |
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200 | (2) |
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2 Reinstatement of Aether |
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202 | (6) |
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2.1 Sagion Aether as a Classical Fluid Equation |
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202 | (1) |
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2.2 Classical EM Theory and Fluid Equations |
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203 | (1) |
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2.3 Gravity and the Fluid Equations |
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204 | (4) |
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2.4 Quantum Theory and Fluid Equations |
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208 | (1) |
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3 New Solutions of Classical Wave Equation |
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208 | (2) |
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3.1 Traditional Harmonic Solutions |
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208 | (1) |
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209 | (1) |
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209 | (1) |
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3.4 Four Families of Relativistic Aether |
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210 | (1) |
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4 Sagion-Sagion Interactions and Coalescence |
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210 | (3) |
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4.1 Coalescence of Sagions |
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211 | (1) |
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4.2 Principle of Intrinsic Discreteness |
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212 | (1) |
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4.3 Physical Properties of the Sagion |
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212 | (1) |
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5 Neo-Cartesian Universal Acceleration Curve |
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213 | (2) |
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5.1 Acceleration by a Succession of Pushes |
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213 | (1) |
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214 | (1) |
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6 Closing Remarks: is Curved Motion Natural? |
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215 | (1) |
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216 | (1) |
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216 | (5) |
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19 Quantized Space-Time Structure: The 0-D Point/Twist Void Co-Creator of the Continuum and Single Field |
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221 | (3) |
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224 | (1) |
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3 Enfolding/Unfolding a 4-D Object |
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225 | (1) |
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4 Sphere, Discrete and Singularity |
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226 | (2) |
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5 Cosmic Inflation and Space |
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228 | (2) |
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6 The Driving 'Force' Behind Inflation |
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230 | (2) |
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7 Physicality of Space and Matter |
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232 | (3) |
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8 Big Bang Begat the Big Blowout |
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235 | (2) |
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237 | (2) |
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239 | (1) |
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240 | (2) |
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20 Modern Applications of Boscovich's Unified Field Theory |
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242 | (1) |
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2 The First Unified Field Theory |
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242 | (1) |
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242 | (2) |
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4 Dragoslav Stoiljkovich's Work |
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244 | (2) |
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5 Part of Paper by Augustus Prince (Given Permission to Include) Dealing with Unified Force of Boscovich |
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246 | (3) |
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6 Point-Atom Versus Point-Particle |
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249 | (1) |
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249 | (1) |
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250 | (2) |
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21 Centres of Force and Point-particles in Boscovich's Unified Theory |
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252 | (1) |
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252 | (1) |
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3 Singularity Versus Classical Point-Particle |
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253 | (2) |
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4 Failure of Newton's Theory of Light |
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255 | (1) |
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5 Infinite Density and Boscovich's Point-Particles |
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256 | (1) |
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257 | (1) |
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257 | (1) |
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Appendix: Boscovich's Citations |
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258 | (2) |
| Section IV: Quantum Mechanics and Statistical Mechanics |
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22 A Not So Impossible Machine Based on the GHZ Paradox |
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260 | (1) |
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260 | (1) |
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261 | (1) |
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4 Oh, but it can be built! |
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261 | (2) |
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263 | (1) |
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6 Under the mathematical microscope |
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264 | (3) |
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267 | (1) |
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267 | (1) |
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23 Covariant Formulation of Aharonov-Bohm Electrodynamics and Its Application to Coherent Tunneling |
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268 | (1) |
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2 Lagrangian Formalism and Field Equations |
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269 | (1) |
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3 A First Possible Application: Locally Non-Conserved Current in Phenomena of Coherent Tunnelling |
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270 | (1) |
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271 | (1) |
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272 | (1) |
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24 The Second Law and Entropy Increase |
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273 | (1) |
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2 Traditional Attempts to Deduce the Idea of Entropy Decrease |
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273 | (2) |
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3 Some Further Comments Relating to Irreversible Thermodynamics |
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275 | (1) |
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4 Further Thoughts on 'Entropy' |
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276 | (1) |
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277 | (1) |
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277 | (1) |
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25 Some Thoughts on Magnetic Reconnection |
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278 | (1) |
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2 Astrophysical Applications |
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279 | (2) |
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281 | (1) |
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281 | (1) |
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281 | (1) |
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26 Are Adiabatic Work Processes in the Classical Ideal Gas Intrinsically Irreversible? |
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282 | (2) |
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2 Intrinsic Reversibility |
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284 | (2) |
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286 | (4) |
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290 | (1) |
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291 | (1) |
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27 The Schrodinger Equation from the Viewpoint of the Theory of Hidden Variables |
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1 Interpretation Crisis of Quantum Mechanics |
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292 | (1) |
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2 Schrodinger's Work "Quantization as an Eigenvalue Problem" |
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293 | (1) |
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3 The Schrodinger Equation as a Condition of Stability |
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294 | (2) |
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4 Electron in the Field of an Atomic Nucleus Rydberg Formula |
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296 | (1) |
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5 The Precession of the Electron's Spin in an Atom |
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297 | (1) |
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297 | (1) |
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297 | (1) |
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28 From Nonlinear Quantum Physics to Eurhythmic Physics |
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298 | (1) |
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2 Basics of Nonlinear Quantum Physics |
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299 | (3) |
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2.1 Master Nonlinear Equation |
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300 | (1) |
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2.2 Beyond Fourier Ontology |
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301 | (1) |
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302 | (5) |
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304 | (1) |
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3.2 The Concept of Mass and Charge |
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304 | (1) |
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305 | (1) |
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306 | (1) |
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307 | (2) |
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29 A Particle Model Explaining Mass and Relativity in a Physical Way |
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309 | (1) |
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2 A Brief Look at the History of Relativity |
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310 | (1) |
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310 | (2) |
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3.1 Special Relativity, the Way of Einstein |
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310 | (1) |
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3.2 Special Relativity, the Lorentzian Way |
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310 | (1) |
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3.3 Use of Parameters in the Lorentzian Way |
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310 | (1) |
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3.3.1 Contraction of Extended Objects |
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310 | (1) |
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311 | (1) |
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3.3.2.1 The Indications for Internal Oscillations |
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311 | (1) |
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3.3.2.2 The Internal Oscillation |
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311 | (1) |
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311 | (1) |
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4 The Basic Particle Model |
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312 | (2) |
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4.1 Structure of an Elementary Particle |
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312 | (1) |
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4.2 The Mass of an Elementary Particle |
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312 | (1) |
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4.2.1 The Bond within an Elementary Particle |
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312 | (1) |
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4.2.2 The Behaviour in Motion |
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313 | (1) |
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4.2.3 The Force in the Case of Constant Acceleration |
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313 | (1) |
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4.3 The Relativistic Mass |
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314 | (1) |
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4.3.1 The Increase in the Mass During Motion |
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314 | (1) |
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4.3.2 The Relationship Between Mass and Energy |
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314 | (1) |
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4.3.3 The Experimental Situation of the Electron |
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314 | (1) |
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4.3.4 The Comparison with the Higgs Model |
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314 | (1) |
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314 | (4) |
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5.1 Gravitation According to Einstein |
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314 | (1) |
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5.2 Gravitation as a Physical Process |
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315 | (1) |
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5.2.1 Speed of Light in a Gravitational Field |
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315 | (1) |
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5.2.2 Gravitational Lensing |
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315 | (1) |
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5.2.3 Gravitational Acceleration for a Particel at Rest |
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315 | (1) |
|
5.2.4 The Equivalence Principle |
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316 | (1) |
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5.2.5 The Lorentzian Path to General Relativity |
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316 | (1) |
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5.2.6 The Schwarzschild Solution |
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316 | (1) |
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5.2.7 The Cause of Gravitation |
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317 | (1) |
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5.2.7.1 Varying Speed of Light |
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317 | (1) |
|
5.2.7.2 Determination of the Reduction in Speed |
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318 | (1) |
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318 | (2) |
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318 | (1) |
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319 | (1) |
|
6.2.1 Inflation According to(Einstein) |
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319 | (1) |
|
6.2.2 The Horizon Problem Explained by the Varying Speed of Light |
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319 | (1) |
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319 | (1) |
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320 | (1) |
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321 | (1) |
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30 Advanced Waves, Absorber Theory, Quantum Equations and Negative Mass |
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322 | (1) |
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2 About the Solutions of the Wave Equation |
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322 | (2) |
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2.1 Solutions in a 1-Dimensional Space |
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322 | (1) |
|
2.2 The Arrow of Time in Classical Kinematics |
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323 | (1) |
|
2.3 Solutions in a 3-Dimensional Space |
|
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323 | (1) |
|
2.4 The Point of View of Special Relativity |
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324 | (1) |
|
3 Time Inversion in the Framework of Quantum Theory |
|
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324 | (1) |
|
4 Discussion of the Absorber Theory and its Experimental Test |
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325 | (1) |
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5 About Computational Discrete Derivative Equations |
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325 | (2) |
|
5.1 Deduction of the Klein-Gordon Quantum Relativist Equation |
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326 | (1) |
|
5.2 Deduction of the Schrodinger Quantum Equation |
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326 | (1) |
|
6 About a Possible Negative Rest Mass |
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327 | (2) |
|
6.1 Negative Energies Predicted by the Relativist Quantum Theory |
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327 | (1) |
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6.2 Interpretations of Negative Solutions of Dirac Equation |
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327 | (1) |
|
6.3 Study of Negative Mass Properties |
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328 | (1) |
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329 | (2) |
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31 Super-Coherent Quantum Dynamics of Zero-Point Field and Superluminal Interactions in Matter |
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|
Luigi Maxmilian Caligiuri |
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331 | (1) |
|
2 Dynamical Evolution of a Generic Matter and Electromagnetic Field Coupled System from the Standpoint of Coherent QED and the Origin of Quantum Fluctuations |
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332 | (1) |
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3 The Dynamics of Coherent and Incoherent Matter-Electromagnetic Field Coupled Quantum Fluctuations |
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333 | (1) |
|
4 The Spectrum of Quantum Fluctuations |
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334 | (3) |
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5 Small Oscillations Regime |
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|
337 | (1) |
|
6 The Emergence of Super-Coherence and of Superluminal Interactions in Matter |
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338 | (4) |
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342 | (1) |
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342 | (2) |
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32 Did the Kabbalah Anticipate Heisenberg's Uncertainty Principle? |
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344 | (1) |
|
2 Clarifications and Disclaimers |
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345 | (1) |
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345 | (1) |
|
3.1 Historical Perspective |
|
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345 | (1) |
|
3.2 The Heisenberg Uncertainty Principle |
|
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345 | (1) |
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346 | (1) |
|
4.1 The Sefirot and Partzufim |
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346 | (1) |
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347 | (1) |
|
5 The Radla and Quantum Uncertainty |
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347 | (3) |
|
5.1 The Fabric of Reality |
|
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347 | (1) |
|
5.2 The Intrinsically Incomprehensible Universe |
|
|
348 | (1) |
|
5.3 Translation of Indeterminacy into Experiential Reality |
|
|
348 | (1) |
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349 | (1) |
|
5.5 The Inherently Paradoxical Universe |
|
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349 | (1) |
|
5.6 Unicity on a Grand Scale |
|
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350 | (1) |
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350 | (2) |
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352 | (1) |
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352 | (1) |
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352 | (2) |
|
33 Kabbalah and the Physics of David Bohm |
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354 | (1) |
|
2 Clarifications and Disclaimers |
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|
354 | (2) |
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356 | (1) |
|
4 The Physics of David Bohm |
|
|
356 | (3) |
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356 | (1) |
|
4.2 Hidden Variables and the Implicate Order |
|
|
357 | (1) |
|
4.3 The Holographic Universe |
|
|
358 | (1) |
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359 | (5) |
|
5.1 Sefirot, Partzufim and Worlds |
|
|
360 | (1) |
|
5.2 Hitlabshut, Hitkallelut and Hitkashrut |
|
|
361 | (3) |
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364 | (1) |
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365 | (1) |
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366 | (1) |
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366 | (1) |
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366 | (3) |
| Section V: Astrophysics and Cosmology |
|
|
34 Lorentz Violation and CMBR Anisotropy |
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|
1 Local Lorentz Invariance Violation |
|
|
369 | (1) |
|
2 Helmholtz Coil Experiments Lorentz Invariance Violation |
|
|
369 | (1) |
|
3 CMBR Anisotropy and LLI Asymmetry |
|
|
370 | (1) |
|
4 Correlation between CMBR Anisotropies and LLI Violation Directions |
|
|
371 | (1) |
|
5 Anisotropic Emissions of DST Neutrons and LLI Violation Directions |
|
|
372 | (1) |
|
6 CMBR Anisotropy and DST Neutrons Asymmetry |
|
|
372 | (1) |
|
7 Correlation Between CMBR Anisotropies and DST Neutron Emission Asymmetry |
|
|
373 | (1) |
|
8 The Spearman Correlation Index |
|
|
373 | (1) |
|
9 Terrestrial Scale Experiments and Cosmological Scale Phenomena Common Asymmetry |
|
|
373 | (1) |
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373 | (1) |
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374 | (1) |
|
35 Advanced Response of the Baikal Macroscopic Nonlocal Correlation Detector to the Heliogeophysical Processes |
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375 | (1) |
|
2 Causality and Nonlocality |
|
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376 | (1) |
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377 | (1) |
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378 | (1) |
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379 | (1) |
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379 | (2) |
|
36 Interpretation of LIGO Results Using an Extended Form of Boscovich's Unified Field Theory |
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381 | (1) |
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381 | (1) |
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|
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382 | (1) |
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|
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382 | (1) |
|
5 Analytic Interpretation of Boscovich's Force Curve |
|
|
383 | (1) |
|
6 The Investigation of the LIGO Observations |
|
|
384 | (4) |
|
7 Interpretation of LIGO Observations |
|
|
388 | (1) |
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389 | (2) |
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391 | (1) |
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392 | (1) |
|
37 Relative Movement of Two Bodies-Hubble's Law, Expanding Universe and Newton's Laws Controversies |
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|
|
1 Hubble's Law and Expanding Universe |
|
|
393 | (1) |
|
2 Boscovich's Comprehensions of Absolute and Relative Movements |
|
|
393 | (2) |
|
3 Parallel Movements of Two Bodies |
|
|
395 | (1) |
|
4 Crosswise Movements of Two Bodies |
|
|
396 | (2) |
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398 | (1) |
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398 | (1) |
| Section VI General Physics |
|
|
38 Why Do Quarks Have Electric Charges? |
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|
|
1 Electric Charges in Quarks and Leptons |
|
|
399 | (1) |
|
2 The Most Fundamental Symmetry in Physics |
|
|
400 | (1) |
|
3 The Fundamental Symmetry-Breaking |
|
|
401 | (1) |
|
4 The Origin of the Dirac Equation |
|
|
402 | (1) |
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|
402 | (2) |
|
6 Vacuum Space and Charge |
|
|
404 | (1) |
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405 | (1) |
|
8 Strong Interaction Solution |
|
|
406 | (2) |
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408 | (2) |
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410 | (1) |
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410 | (2) |
|
39 What is Time? What Time is it? |
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412 | (1) |
|
2 Some Modern Concepts about the Nature of our Universe |
|
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413 | (2) |
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415 | (3) |
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|
418 | (1) |
|
5 Black Holes and Other Matters? |
|
|
419 | (1) |
|
6 Macroscopic Remote Interconnectedness by Mach's Principle |
|
|
420 | (1) |
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421 | (3) |
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424 | (1) |
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425 | (1) |
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425 | (3) |
|
40 The Observer Omission in Einstein's Rail-Car Experiment |
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|
|
1 The Train-Embankment Thought Experiment |
|
|
428 | (2) |
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|
|
430 | (3) |
|
2.1 Interpretation of Clock Rates |
|
|
431 | (1) |
|
2.2 What Problem was Einstein Solving? |
|
|
432 | (1) |
|
3 The Alternative Interpretation |
|
|
433 | (3) |
|
3.1 The Event Oriented World View |
|
|
434 | (1) |
|
3.2 The Special Relativity Experiment in the New World View |
|
|
435 | (1) |
|
4 Clock Rates in a Gravitational Field |
|
|
436 | (2) |
|
4.1 Internal Observer Effects |
|
|
436 | (1) |
|
4.2 Experimental Support for Varying Speed of Light |
|
|
437 | (1) |
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|
|
438 | (1) |
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|
|
438 | (2) |
|
41 Genus Two Prime Form Formula for Vertex Operator Characters |
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|
|
440 | (1) |
|
2 Genus One Prime Form Formula and Supporting Results |
|
|
440 | (1) |
|
2.1 General Parameter Formula |
|
|
440 | (1) |
|
2.2 The Character Formula in the Self-Sewn Formalism |
|
|
441 | (1) |
|
3 Self-Sewn Genus Two Prime for Formula for Characters |
|
|
441 | (1) |
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|
|
442 | (2) |
|
|
|
442 | (1) |
|
4.2 Self-Sewing of a Riemann Surface |
|
|
442 | (1) |
|
4.3 The Free Fermion Vertex Operator Superalgebra (VOSA) |
|
|
443 | (1) |
|
4.4 The Invariant Form on M |
|
|
443 | (1) |
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|
|
444 | (1) |
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444 | (1) |
|
42 On Neutrino Oscillations and Flavour Persistence |
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|
|
445 | (1) |
|
2 Neutrino Oscillations, Flavor Persistence |
|
|
445 | (1) |
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|
|
446 | (1) |
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|
446 | (1) |
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446 | (1) |
|
43 BiEntropy of Knots on The Simple Cubic Lattice |
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|
|
447 | (1) |
|
2 Shannon Entropy, Binary Derivatives & Weighting Methods |
|
|
447 | (1) |
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|
|
447 | (1) |
|
2.2 Binary Derivatives, Binary Knot Derivatives & Periodicity |
|
|
447 | (1) |
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|
|
448 | (1) |
|
|
|
448 | (1) |
|
4 Minimal Knots in the Simple Cubic Lattice |
|
|
449 | (1) |
|
5 Binary Encodings of Trefoils, Knots & Controls |
|
|
449 | (1) |
|
5.1 Selection of Encoding Bits |
|
|
449 | (1) |
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|
|
450 | (1) |
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|
|
450 | (1) |
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|
|
450 | (1) |
|
5.5 Randomised Trefoil and Knot Controls |
|
|
450 | (1) |
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|
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450 | (1) |
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451 | (1) |
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452 | (1) |
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452 | (1) |
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452 | (2) |
|
44 Interactions, Symmetry, Lorentz Invariance: The Struggle of Physicists About These Concepts |
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|
|
|
1 The Problem of Complexity |
|
|
454 | (1) |
|
2 The Possible Loss of Lorentz Invariance |
|
|
455 | (1) |
|
3 The Inadequacy of Particle Concept in Quantum Field Theory |
|
|
456 | (1) |
|
4 The 'Unreasonable' Effectiveness of Quantum Mechanics in Accounting for Macroscopic Cognitive Phenomena |
|
|
457 | (1) |
|
5 The Existence of Both Bottom-Up and Top-Down Types of Causation |
|
|
458 | (1) |
|
6 The Intrinsic Unpredictability of Complex Systems Behaviours |
|
|
458 | (1) |
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458 | (1) |
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459 | (2) |
|
45 What Physics Needs Today: A Few Good Anachronisms |
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|
|
461 | (1) |
|
2 The Differential Equations |
|
|
462 | (2) |
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|
|
464 | (1) |
|
4 The Boundary Conditions |
|
|
464 | (1) |
|
5 A Reasonable Model for Signal Speed |
|
|
465 | (1) |
|
6 The Difference the Signal Model Makes |
|
|
465 | (1) |
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466 | (1) |
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466 | (2) |
|
46 Projective Geometrical Space, Duality, Harmonicity and the Inverse Square Law |
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|
468 | (1) |
|
2 The Axioms of Projective Space |
|
|
468 | (1) |
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|
|
468 | (1) |
|
2.2 The Axiom of Order and the Axiom of the Projective Character of the Direction of Movement |
|
|
469 | (1) |
|
2.3 Dedekind's Continuity Axiom |
|
|
469 | (1) |
|
3 Remarks on the Axioms of Projective Geometry |
|
|
469 | (1) |
|
3.1 The Six Positional Axioms Were Named so to Place Emphasis on the Importance of "Position" |
|
|
469 | (1) |
|
3.2 The Axioms of Projective Geometry Introduce Automatically to the Projective Space |
|
|
469 | (1) |
|
3.3 The VII Axiom of Order "closes" the Straight Line |
|
|
469 | (1) |
|
3.4 The Six Positional Axioms Were Formulated Utilizing Three Concepts: Point, Straight Line and Plane |
|
|
469 | (1) |
|
3.5 Projective Space was Established with The First Eight Axioms |
|
|
470 | (1) |
|
4 The Principle of Duality in Projective Geometrical Space |
|
|
470 | (1) |
|
5 The Theory of the Harmonicity of the Field of Light |
|
|
470 | (2) |
|
5.1 The Philosophy of the Theory |
|
|
470 | (1) |
|
5.2 The First Fundamental Hypothesis of the Theory |
|
|
470 | (1) |
|
5.3 The Concept of the Linear Array of Synchronized Clocks (LASC) |
|
|
471 | (1) |
|
5.4 Kinematics of the Material Point Moving with Subluminal Speed (upsilon less than c) Measured by the LASC |
|
|
471 | (1) |
|
5.5 Kinematics of the Material Point Moving with Superluminal Speed (upsilon greater than c) Measured by the LASC |
|
|
472 | (1) |
|
6 From the Projective Space to the Duality in Physics |
|
|
472 | (1) |
|
7 From the Projective Principle of Duality to the Inverse Square Law |
|
|
473 | (3) |
|
8 The Inverse Square Law in the Electric Field |
|
|
476 | (3) |
|
8.1 The Relationship between the Electrostatics and the Kinematics of the Material Point in the Projective Space |
|
|
476 | (2) |
|
8.2 What is the Electric Field? |
|
|
478 | (1) |
|
|
|
479 | (1) |
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|
479 | (2) |
|
47 A-Units and A-Quantum of Action Have They Any Physical Sense? |
|
|
|
|
|
1 Introductory Historical Data |
|
|
481 | (1) |
|
2 The Physical Meaning of the Physical Quantity Called Action |
|
|
482 | (1) |
|
3 Some Historical Data Concerning the Physical Quantity Called Action |
|
|
482 | (1) |
|
4 Planck's and Stoney's Quanta of Action are Very Small and Constant |
|
|
483 | (1) |
|
5 Micro Quanta of Action Interpreted as Elementary Extended Physical Events |
|
|
483 | (1) |
|
6 Lambda-Units and Lambda-Mega Quantum of Action |
|
|
483 | (1) |
|
7 Charge of Lambda-Interactions in a Causally Linked Hubble Sphere |
|
|
484 | (1) |
|
8 An Introductory Trial of Interpretation of the Lambda Action as Mega Physical Event in Hubble Sphere |
|
|
484 | (1) |
|
9 Some Clarifications of Lambda Units |
|
|
485 | (1) |
|
10 Inerpretative Difficulties with Lambda Units |
|
|
485 | (1) |
|
11 Kittel's Units for Hubble Spheres and Kittel-Mega Quantum of Action |
|
|
485 | (1) |
|
12 A Very Important Distinction Which Must be Made in Every Set of Units Determined by Universal Constants and Parameters |
|
|
486 | (1) |
|
13 Can the Acceleration Units Determined by Universal Constants and Parameters Resolve the Problem of the Increasing Acceleration of the Expansion of the Universe? |
|
|
486 | (1) |
|
|
|
486 | (1) |
|
|
|
487 | (1) |
|
Appendix: The List of Lambda-Units Determined by c, G (or kappa = 8piGc-4) and Lambda 1.28 · 10-52m-2 |
|
|
487 | (1) |
|
48 The Stueckelberg Off-Mass Shell Model for Particle Interaction as Template for New Insight into Hidden Dimensions of Time and Mass |
|
|
|
|
|
|
|
488 | (3) |
|
2 Low Energy Nuclear Reactions and Off-Mass Shell Dynamics |
|
|
491 | (5) |
|
3 Quantum Interference in Time Due to Off-Mass Shell Influence |
|
|
496 | (1) |
|
4 Possible Abrogation of Gravitational Singularities Due to Quantum Interference Inside Event Horizon |
|
|
497 | (7) |
|
5 Neutrino Flavor Oscillations and Stueckelberg Dynamics |
|
|
504 | (3) |
|
6 Experimental Test: Kappa-Meson State Transition |
|
|
507 | (3) |
|
7 Tachyon Physics and the Stueckelberg Model |
|
|
510 | (2) |
|
8 High Temperature Bose-Einstein Condensate Phase Transition in a Fully Relativistic Model of Statistical Mechanics |
|
|
512 | (1) |
|
9 Conclusion and Prospects |
|
|
513 | (2) |
|
|
|
515 | (2) |
| Section VII: Biophysics and Consciousness |
|
|
49 Biological Organization as the True Foundation of Reality |
|
|
|
|
|
1 Introduction-Physics and Mind |
|
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517 | (1) |
|
|
|
517 | (1) |
|
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|
518 | (1) |
|
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|
518 | (1) |
|
3.2 Biology-Design Versus Mechanism |
|
|
518 | (1) |
|
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519 | (1) |
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|
519 | (1) |
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519 | (2) |
|
50 The Emergence of Neurocosmology: Evolution Physics, Consciousness, Physical Reality and Our Experiential Universe |
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|
|
|
|
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521 | (1) |
|
2 Neurocosmology and the Single Field |
|
|
522 | (3) |
|
3 A 0-D Point/Twist Void Replaces the Original Singularity |
|
|
525 | (1) |
|
4 Abstracting the Point as an Infinitesimal Sphere |
|
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526 | (2) |
|
5 The Point of Unification |
|
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528 | (2) |
|
6 Quantizing Four-Dimensional Space-Time |
|
|
530 | (1) |
|
7 The Absolute Nature of Q-Space |
|
|
531 | (1) |
|
8 Synergy with Other Conceptual Models |
|
|
532 | (2) |
|
9 An Age-Old Dualism Revealed |
|
|
534 | (1) |
|
10 Physics from Our Sense of a Higher Space |
|
|
535 | (1) |
|
11 The Absolute Necessity of Universal Evolution So the Universe Can Know Itself |
|
|
536 | (1) |
|
12 The New Physics of Biological Evolution |
|
|
537 | (3) |
|
|
|
540 | (2) |
|
14 This Synergy Enhances Single Field Unification |
|
|
542 | (2) |
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544 | (1) |
|
16 Experiential Consequences |
|
|
545 | (1) |
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546 | (1) |
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547 | (2) |
|
51 A Mathematical Model of Free Will Based on Experience Information in a Quantum Universe |
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|
|
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|
|
549 | (1) |
|
2 Complexity and the New Order in Biology |
|
|
550 | (1) |
|
3 Information at Criticality |
|
|
550 | (1) |
|
4 Information Structures at Criticality |
|
|
551 | (1) |
|
|
|
552 | (1) |
|
6 How Consciousness Reduces Wave Packets |
|
|
553 | (1) |
|
7 Quantum Theory and the Perceived Universe |
|
|
553 | (1) |
|
|
|
554 | (1) |
|
|
|
554 | (1) |
|
|
|
554 | (3) |
|
52 Exploration of the Fundaments of Oncogenesis: A Unified Field Approach to Aetiology |
|
|
|
|
|
|
|
557 | (1) |
|
1.1 Conformational Isomers |
|
|
558 | (1) |
|
2 Selye-Pioneer of Physiological Stress |
|
|
558 | (1) |
|
3 Mechanism Initiating Protein Conformation in Prion Propagation |
|
|
559 | (1) |
|
4 Structural-Phenomenological Micromagnetics of Proteins and Prion Conformation |
|
|
560 | (2) |
|
5 Catastrophe Theory and the Noetic Formalism |
|
|
562 | (1) |
|
6 Extending Definition of Matter |
|
|
563 | (2) |
|
6.1 Point-Particle Infinite Mass-Energy |
|
|
564 | (1) |
|
6.2 Space-Antispace as a UFM Intermediary |
|
|
564 | (1) |
|
|
|
565 | (1) |
|
|
|
565 | (1) |
|
9 Hysteresis, Noetic Hysteresis |
|
|
565 | (1) |
|
|
|
566 | (4) |
|
53 Quantum Information Entanglement of Consciousness and Space-Time |
|
|
|
|
|
|
|
570 | (1) |
|
2 Linking Quantum Information to Consciousness and Space-Time |
|
|
571 | (1) |
|
3 Brain and Cosmos Entanglement |
|
|
572 | (1) |
|
|
|
573 | (2) |
|
54 Introduction to Conscious-Quantum Computer Musicology: New Genres, Technology and Ontology of Experience |
|
|
|
|
|
|
|
575 | (2) |
|
1.1 Quantum Computing (QC)-Current Status |
|
|
576 | (1) |
|
|
|
576 | (1) |
|
2 Mind and Body-Transducing the 1st Person-3rd Person Barrier by Supervening Uncertainty |
|
|
577 | (1) |
|
3 Universal 'Conscious' QC Requirements and Likely Conscious-QCM Technology |
|
|
578 | (1) |
|
4 The Physical Basis of Qualia |
|
|
579 | (2) |
|
5 Phenomenological Philosophy of Mind |
|
|
581 | (1) |
|
|
|
581 | (1) |
|
|
|
582 | (2) |
|
55 Pansomatopsychism and Modem Science |
|
|
|
|
|
|
|
584 | (1) |
|
|
|
584 | (1) |
|
1.1.1 Materialistic Eductionism |
|
|
584 | (1) |
|
1.1.2 Spiritualistic Reductionism |
|
|
584 | (1) |
|
1.1.3 Materio-Spiritualistic Reductionism |
|
|
584 | (1) |
|
1.2 Monistic Conceptual Models Without any Reductionism |
|
|
585 | (1) |
|
2 The Conceptual Models with an Ontological Dualism |
|
|
585 | (1) |
|
2.1 The Monotheistic Dualism |
|
|
585 | (1) |
|
2.2 Dualistic Spiritualism |
|
|
586 | (1) |
|
3 The Maxi-Theory of Everything |
|
|
586 | (2) |
|
4 Naturalistic Nature of the Absolute |
|
|
588 | (1) |
|
5 Emergence and Immersion of Consciousness and Supervenience and Infra Departure of Governing Capacities in Conscious Living Beings |
|
|
588 | (1) |
|
6 The Absolute is Neither Something Nor Someone |
|
|
588 | (1) |
|
7 The Dialectic Pansomatopsychic Nature of the Cosmic Stuff of Our Universe |
|
|
589 | (1) |
|
8 The Origin of the Term Panpsychosomatism |
|
|
589 | (1) |
|
9 Different Kinds of Psychosomatism |
|
|
590 | (1) |
|
10 Einstein's Pansomatopsychism |
|
|
591 | (1) |
|
11 The Eternity of Pansomatopsychism |
|
|
591 | (1) |
|
|
|
591 | (1) |
|
|
|
592 | (1) |
|
56 The Homogeneity of Nature Principle and The Conviction That Life is a Cosmic Imperative |
|
|
|
|
|
|
|
|
|
593 | (1) |
|
2 Nicolas Copernicus Revolution Results with the Homogeneity Principle |
|
|
594 | (1) |
|
3 The Presence of the Homogeneity Principle in the Mathematical Structures of Physical Sciences |
|
|
594 | (1) |
|
4 Life as Cosmic Imperative |
|
|
594 | (1) |
|
5 The Part Played by Electromagnetic and Chemical Processes in Living Beings |
|
|
595 | (1) |
|
6 The Epistemological and Logic Status of the Homogeneity Principle |
|
|
596 | (1) |
|
|
|
596 | (1) |
|
57 On the Origin of Sexual Preference |
|
|
|
|
|
|
|
597 | (1) |
|
1.1 Early History of the Origin of Psychoanalysis |
|
|
598 | (1) |
|
2 Freudian Inversion Theories of Homosexuality |
|
|
598 | (1) |
|
3 Jungian Theory of Homosexuality |
|
|
599 | (2) |
|
3.1 Jung's Concept of a Collective Unconscious |
|
|
600 | (1) |
|
|
|
601 | (1) |
|
5 Contemporary Psychological Issues Regarding the Homosexual Matrix |
|
|
602 | (1) |
|
6 Homosexuality as Neither Mental or Biological/Genetic Disorder |
|
|
602 | (1) |
|
7 The Conundrum of Conversion Therapy |
|
|
603 | (1) |
|
8 Historical Transmutation of Handedness |
|
|
603 | (1) |
|
9 Polarity Reversal of the Earths Geomagnetic Field |
|
|
604 | (2) |
|
|
|
606 | (1) |
|
|
|
607 | (2) |
|
11.1 Complex Multi-Factor Matrix |
|
|
607 | (1) |
|
11.2 Physiological Changes |
|
|
607 | (1) |
|
11.3 Prenatal Stress and Increased Incidence of Homosexuality |
|
|
608 | (1) |
|
11.4 The Modulation of Sexual Brain Dynamics |
|
|
608 | (1) |
|
12 Evolution from Classical Freudian to Integrative Noetic Psychology |
|
|
609 | (1) |
|
13 Advent of the New Science of Consciousness-Psychophysical Bridging |
|
|
609 | (2) |
|
13.1 Introduction to Integrative Noetic Psychology |
|
|
610 | (1) |
|
13.2 A New Ontology of Awareness |
|
|
610 | (1) |
|
14 Noetic Field Theory: Foundation for Cosmology of Mind in an Anthropic Multiverse |
|
|
611 | (2) |
|
14.1 The Noetic Model of Mind |
|
|
611 | (2) |
|
15 Cosmology of the Noetic Psychosphere |
|
|
613 | (1) |
|
|
|
614 | (1) |
|
16 Mind-Body: Casimir-Like Role for the Noetic Formalism |
|
|
614 | (3) |
|
|
|
617 | (1) |
|
18 Epigenesis and Beyond: Epigenic Mechanisms of Histone Modification by the Noetic Effect |
|
|
618 | (1) |
|
18.1 The Force of Dissonance |
|
|
618 | (1) |
|
19 The Ontological Origins of Sexual Preference |
|
|
619 | (3) |
|
|
|
622 | (1) |
|
|
|
622 | |
Lisainfo e-raamatute kohta