Journal of Physics & Astronomy

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Lorentz contraction of the Frequency of Electromagnetic Waves (EMWs) during Refraction


Affiliations
1 Boise State University, Biology Department, 1910 University Drive, Boise ID 83725, USA., United States
 

The design of computers running not on moving electrons but on EMWs needs a serious review of our knowledge and theories about the behavior of EMWs upon refraction. The fact light can be slowed to 17 ms-1 is a serious challenge to Einstein special relativity, a theory based on the constant speed of light for all inertial frames. This study brings a new version of the Lorentz factor this time applied to only moving EMWs in condensed medium. For the first time quantum mechanics and special relativity are together in a new formulation of Planck energy law E=hν.

Keywords

Quantum Mechanics, Moving electrons.
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  • Lorentz contraction of the Frequency of Electromagnetic Waves (EMWs) during Refraction

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Authors

Abdelkrim Alileche
Boise State University, Biology Department, 1910 University Drive, Boise ID 83725, USA., United States

Abstract


The design of computers running not on moving electrons but on EMWs needs a serious review of our knowledge and theories about the behavior of EMWs upon refraction. The fact light can be slowed to 17 ms-1 is a serious challenge to Einstein special relativity, a theory based on the constant speed of light for all inertial frames. This study brings a new version of the Lorentz factor this time applied to only moving EMWs in condensed medium. For the first time quantum mechanics and special relativity are together in a new formulation of Planck energy law E=hν.

Keywords


Quantum Mechanics, Moving electrons.

References