Difference between revisions of "Gravity, Magnetism and Light"

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{{Infobox paper
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{{Infobox book
| title = Gravity, Magnetism and Light
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| name = Gravity, Magnetism and Light
| url = [http://www.naturalphilosophy.org/pdf/abstracts/abstracts_paperlink_7074.doc Link to paper]
 
 
| author = [[Ralph Sansbury]]
 
| author = [[Ralph Sansbury]]
| keywords = [[Light]], [[Gravity]], [[Magnetism]], [[Electric Dipoles]], [[Relativity]], [[Quanta]], [[Exchange Forces.]]
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| published = 2009
| published = 2013
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| publisher = [[Ralph Sansbury]]
| journal = [[None]]
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| pages = 58
| num_pages = 10
 
 
}}
 
}}
  
'''Read the full paper''' [http://www.naturalphilosophy.org/pdf/abstracts/abstracts_paperlink_7074.doc here]
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Are magnetism and gravity ultimately electrostatic? Years of evidence for charge polarization (sometimes viewed as ?spin?) inside electrons and atomic nuclei leads to the startling implication that such electrostatic dipoles in fact can account for the magnetism of current carrying wires, ferromagnets, and the gravitational and magnetic fields of the earth and all planets and stars.  
  
==Abstract==
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[[Category:Book|gravity magnetism light]]
  
A basic theory is described that leads to classical explanations of Modern Physics. The basic theory is that magnetism is due to electric dipoles inside atomic nuclei and inside electrons. For example in parallel current carrying wires, the dipoles are produced by the current driving field in each wire causing a transverse elliptization of the circular orbit of a small charged particle around an oppositely charged central core so that there is a displacement of centers of negative and positive charge forming an electric dipole. Thus parallel current carrying wires are attracted to each other by the billions of small attractively oriented transverse electric dipoles in the billions of atomic nuclei and free electrons in each cubic millimeter of the wires. Thus collinear dipoles along radii of planets and stars, produced by their spinning account for their gravitational force.
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[[Category:Gravity|gravity magnetism light]]
 
 
[[Category:Scientific Paper|]]
 
 
 
[[Category:Relativity]]
 

Latest revision as of 06:39, 2 January 2017

Gravity, Magnetism and Light
Author Ralph Sansbury
Published 2009
Publisher Ralph Sansbury
Pages 58

Are magnetism and gravity ultimately electrostatic? Years of evidence for charge polarization (sometimes viewed as ?spin?) inside electrons and atomic nuclei leads to the startling implication that such electrostatic dipoles in fact can account for the magnetism of current carrying wires, ferromagnets, and the gravitational and magnetic fields of the earth and all planets and stars.  

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