Orbiting The Moons Of Pluto : Complex Solutions To The Einstein, Maxwell, Schrodinger And Dirac Equations.
The Maxwell, Einstein, Schrodinger and Dirac equations are considered the most important equations in all of physics. This volume aims to provide new eight- and twelve-dimensional complex solutions to these equations for the first time in order to reveal their richness and continued importance for a...
Clasificación: | Libro Electrónico |
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Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
WSPC
2011.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- 1. Introduction
- Orbiting the moons of Pluto. 1.1. Introduction. 1.2. Multidimensional Minkowski space
- 2. Structure, properties and implications of complex Minkowski spaces. 2.1. Some predictions of complex geometries. 2.2. Multidimensional geometric models and macroscopic remote connectedness. 2.3. The Lorentz condition in complex 8-space geometry and tachyonic signaling. 2.4. Velocity of propagation in complex 8-space. 2.5. Kaluza-Klein geometries : A possible unification of electromagnetic and gravitational phenomena. 2.6. Additional thoughts on current physical theory
- 3. Major principles of physics : Poincare invariance, analyticity, unitarity and complex Minkowski space. 3.1. Major principles of physics
- 4. Nonlocal interconnectedness as a fundamental principle of reality. 4.1. Bell's theorem and its experimental verification. 4.2. More recent long distance confirmations of Bell's nonlocality. 4.3. Implications of Bell's nonlocality theorem. 4.4. Conceptual and philosophical implications of Bell's theorem. 4.5. Other nonlocal interactive phenomenon and the particle-wave "paradox" resolved. 4.6. Conclusion
- 5. The complexification of Maxwell's equations. 5.1. Complex electromagnetic fields. 5.2. Complex electromagnetic variables in complex multidimensional spaces. 5.3. Complex electromagnetic field vectors, virtual energy states and magnetic monopole interpretations. 5.4. Higgs field magnetic monopole. 5.5. Some further speculations on monopole structures. 5.6. The structure of non-Hertzian waves in complex geometries and electromagnetic energy transmission. 5.7. Summary and concluding remarks
- 6. Vector and scalar potentials, advanced and retarded waves and nonlocal phenomena. 6.1. Vector and scalar potentials and fields. 6.2. Advanced and retarded solutions
- 7. The complex form of relativistic Maxwell's equations. 7.1. Relativistic conditions for Maxwell's equations in complex geometries and invariance of the line element. 7.2. Complex E and B in real 4-space and the complex Lorentz condition. 7.3. Complex electromagnetic forces in a gravitational field.