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QUANTUM GRAVOELECTRODYNAMICS

 

Quantum Gravoelectrodynamics details the unified theory of matter and charge on various scales, from Planck' s length to massive planetary systems.  Differential geometry is used to analyze spacetime itself and produce the basic equations of matter dynamics and charge dynamics using an unified approach.  Fundamental attributes like mass, charge, current density and the stress tensor components are derived in terms of spacetime (or the charge field equivalent) itself. The unified approach is then used to delve into the strong field realms of physics. Detailed and rigorous analysis leads to new areas of research for experimentalist, numerical relativists and students interested in Quantum Gravoelectrodynamics. A set of enlightening problems is included to develop methods of calculation and further exploration.


Questions that inspired this book and are looked into include :
•Can we look into a point as being an undefined property on first assumption?  What happens if it has some spatial extent? How does this impact our conception of an electron?
•What geometry may exist near Planck' s length?
•What new physics can we learn from an unified approach? What is suggested from the matter dynamical equations which are similar to Maxwell ' s equations?
•What new information can we get about what happens in strong matter
fields? How about what happens in strong charge fields?

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COPYRIGHT -273.15-2020

MICHAEL AYLWARD

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