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Cover: 9783659887468 | The GEM Unification Theory | John Brandenburg | Taschenbuch | 120 S.
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The GEM Unification Theory
Extending the Standard Model to Include Gravitation
Taschenbuch von John Brandenburg
Sprache: Englisch

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Beschreibung
This manuscript presents the initial results of the GEM (Gravity-Electro-Magnetism) theory which attempts to unify the two long-range forces of nature, Gravity and Electro-Magnetism. They are unified under the two postulates that: 1. Gravity fields are an array of ExB drifts and 2. The separate appearance of Gravity and EM fields from each other is correlated with the separation of protons and electrons from each other as they emerge from the Planck scale. The theory produces the value of G: the Newton gravitation constant, and the proton mass to good accuracy from the Planck scale with no free parameters. The theory unexpectedly produces the values of the pion masses for the Strong Force and the W and Z boson masses of the Weak Force as quantum Mie scatterings off the hidden dimension structures associated with the proton and electron masses. The Higgs Boson mass follows from similar formalism. The GEM theory thus attempts to extend the Standard Model to include Gravitation. The theory predicts vacuum decay with the production of hydrogen and a CBR (Cosmic Background Radiation) and Gamma Ray Bursts associated with bare Black Hole mergers.
This manuscript presents the initial results of the GEM (Gravity-Electro-Magnetism) theory which attempts to unify the two long-range forces of nature, Gravity and Electro-Magnetism. They are unified under the two postulates that: 1. Gravity fields are an array of ExB drifts and 2. The separate appearance of Gravity and EM fields from each other is correlated with the separation of protons and electrons from each other as they emerge from the Planck scale. The theory produces the value of G: the Newton gravitation constant, and the proton mass to good accuracy from the Planck scale with no free parameters. The theory unexpectedly produces the values of the pion masses for the Strong Force and the W and Z boson masses of the Weak Force as quantum Mie scatterings off the hidden dimension structures associated with the proton and electron masses. The Higgs Boson mass follows from similar formalism. The GEM theory thus attempts to extend the Standard Model to include Gravitation. The theory predicts vacuum decay with the production of hydrogen and a CBR (Cosmic Background Radiation) and Gamma Ray Bursts associated with bare Black Hole mergers.
Über den Autor
John E. Brandenburg is an American theoretical plasma physicist who was born in Rochester Minnesota, and grew up in Medford Oregon. He obtained his BA in Physics, with a Mathematics minor, from Southern Oregon University in 1975 and obtained his MS in 1977 and PhD in Theoretical Plasma Physics in 1981, both from University of California at Davis.
Details
Erscheinungsjahr: 2016
Fachbereich: Theoretische Physik
Genre: Physik
Rubrik: Naturwissenschaften & Technik
Medium: Taschenbuch
Inhalt: 120 S.
ISBN-13: 9783659887468
ISBN-10: 3659887463
Sprache: Englisch
Ausstattung / Beilage: Paperback
Einband: Kartoniert / Broschiert
Autor: Brandenburg, John
Hersteller: LAP Lambert Academic Publishing
Maße: 220 x 150 x 8 mm
Von/Mit: John Brandenburg
Erscheinungsdatum: 15.06.2016
Gewicht: 0,197 kg
Artikel-ID: 103699094
Über den Autor
John E. Brandenburg is an American theoretical plasma physicist who was born in Rochester Minnesota, and grew up in Medford Oregon. He obtained his BA in Physics, with a Mathematics minor, from Southern Oregon University in 1975 and obtained his MS in 1977 and PhD in Theoretical Plasma Physics in 1981, both from University of California at Davis.
Details
Erscheinungsjahr: 2016
Fachbereich: Theoretische Physik
Genre: Physik
Rubrik: Naturwissenschaften & Technik
Medium: Taschenbuch
Inhalt: 120 S.
ISBN-13: 9783659887468
ISBN-10: 3659887463
Sprache: Englisch
Ausstattung / Beilage: Paperback
Einband: Kartoniert / Broschiert
Autor: Brandenburg, John
Hersteller: LAP Lambert Academic Publishing
Maße: 220 x 150 x 8 mm
Von/Mit: John Brandenburg
Erscheinungsdatum: 15.06.2016
Gewicht: 0,197 kg
Artikel-ID: 103699094
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