Difference between revisions of "Gravity, Magnetism and Light"
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− | {{Infobox | + | {{Infobox book |
− | | | + | | name = Gravity, Magnetism and Light |
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| author = [[Ralph Sansbury]] | | author = [[Ralph Sansbury]] | ||
− | + | | published = 2009 | |
− | | published = | + | | publisher = [[Ralph Sansbury]] |
− | | | + | | pages = 58 |
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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. | |
− | + | [[Category:Book|gravity magnetism light]] | |
− | + | [[Category:Gravity|gravity magnetism light]] | |
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Latest revision as of 06:39, 2 January 2017
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.