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Bohr Quantum Theory Yields the Relativistic Schroedinger Equation: Difference between revisions

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==Abstract==
==Abstract==


Niels Bohr's 1913 approach to Quantum Theory yields the relativistic Schroedinger Equation, suggesting that the physical meaning of the wave function is not probabilistic. The existence and physical meaning of longitudinal waves of E-M Potential are discovered.[[Category:Scientific Paper]]
Niels Bohr's 1913 approach to Quantum Theory yields the relativistic Schroedinger Equation, suggesting that the physical meaning of the wave function is not probabilistic. The existence and physical meaning of longitudinal waves of E-M Potential are discovered.


[[Category:Relativity]]
[[Category:Scientific Paper|bohr quantum theory yields relativistic schroedinger equation]]
 
[[Category:Relativity|bohr quantum theory yields relativistic schroedinger equation]]

Latest revision as of 22:22, 1 January 2017

Scientific Paper
TitleBohr Quantum Theory Yields the Relativistic Schroedinger Equation
Read in fullLink to paper
Author(s)Yuri N Keilman
Keywords{{{keywords}}}
Published2010
JournalProceedings of the NPA
Volume7
No. of pages2
Pages255-256

Read the full paper here

Abstract

Niels Bohr's 1913 approach to Quantum Theory yields the relativistic Schroedinger Equation, suggesting that the physical meaning of the wave function is not probabilistic. The existence and physical meaning of longitudinal waves of E-M Potential are discovered.