Difference between revisions of "Light, Gravity, and Mass: A Particle Theory"

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The electromagnetic spectrum including visible light is most often characterized by wave theory. But there are effects that indicate it has particle characteristics. Hence, there is an ongoing discussion of wave particle duality. There has been work trying to make a wave act like a particle. This paper uses a particle and provides a mechanism for it to have wave properties. If it is a particle, could the same particle that is the cause of EM radiation also be the particle needed for pushing gravity? And how does mass fit in?
 
The electromagnetic spectrum including visible light is most often characterized by wave theory. But there are effects that indicate it has particle characteristics. Hence, there is an ongoing discussion of wave particle duality. There has been work trying to make a wave act like a particle. This paper uses a particle and provides a mechanism for it to have wave properties. If it is a particle, could the same particle that is the cause of EM radiation also be the particle needed for pushing gravity? And how does mass fit in?
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[[Category:Gravity]]
 
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[[Category:Aether]]
 
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[[Category:Cosmology]]

Revision as of 21:44, 28 December 2016

Scientific Paper
Title Light, Gravity, and Mass: A Particle Theory
Author(s) David de Hilster, Bob de Hilster
Keywords {{{keywords}}}
Published 2015
Journal None
No. of pages 5

Abstract

The electromagnetic spectrum including visible light is most often characterized by wave theory. But there are effects that indicate it has particle characteristics. Hence, there is an ongoing discussion of wave particle duality. There has been work trying to make a wave act like a particle. This paper uses a particle and provides a mechanism for it to have wave properties. If it is a particle, could the same particle that is the cause of EM radiation also be the particle needed for pushing gravity? And how does mass fit in?