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==Abstract==
==Abstract==


In order to undermine the idea of a luminiferous aether, it has been argued that a physical medium for the propagation of light would necessarily cause friction which would eventually cause the planetary orbits to collapse. It will now be demonstrated how a dense  electron-positron sea actually contributes towards Kepler's laws of planetary motion as opposed to undermining them. The planets stay up in their orbits because of centrifugal force. It will be shown how this centrifugal force actually occurs in the shears lines of the electron-positron sea where friction might otherwise have been expected to occur.[[Category:Scientific Paper]]
In order to undermine the idea of a luminiferous aether, it has been argued that a physical medium for the propagation of light would necessarily cause friction which would eventually cause the planetary orbits to collapse. It will now be demonstrated how a dense  electron-positron sea actually contributes towards Kepler's laws of planetary motion as opposed to undermining them. The planets stay up in their orbits because of centrifugal force. It will be shown how this centrifugal force actually occurs in the shears lines of the electron-positron sea where friction might otherwise have been expected to occur.


[[Category:Gravity]]
[[Category:Scientific Paper|aether causes anti-friction planetary orbits]]
[[Category:Aether]]
 
[[Category:Electrodynamics]]
[[Category:Gravity|aether causes anti-friction planetary orbits]]
[[Category:Aether|aether causes anti-friction planetary orbits]]
[[Category:Electrodynamics|aether causes anti-friction planetary orbits]]

Latest revision as of 22:15, 1 January 2017

Scientific Paper
TitleAether Causes Anti-Friction in the Planetary Orbits
Author(s)David Tombe
Keywords{{{keywords}}}
Published2007
JournalGeneral Science Journal
No. of pages5

Abstract

In order to undermine the idea of a luminiferous aether, it has been argued that a physical medium for the propagation of light would necessarily cause friction which would eventually cause the planetary orbits to collapse. It will now be demonstrated how a dense  electron-positron sea actually contributes towards Kepler's laws of planetary motion as opposed to undermining them. The planets stay up in their orbits because of centrifugal force. It will be shown how this centrifugal force actually occurs in the shears lines of the electron-positron sea where friction might otherwise have been expected to occur.