Difference between revisions of "Magnetostatics at Speed c"

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==Abstract==
 
==Abstract==
  
Three separate subject areas are discussed. In the first, several experiments are described concerning the nature of light and the electromagnetic field. Three of them cannot be explained by either classical or quantum theory, thus demonstrating that a more comprehensive theory of electromagnetic radiation is needed. Next, some theoretical requirements are enumerated that must be satisfied if the concept of "photon" is to be employed in formulating a theory that can be considered complete. In the last section field diagrams are used to show that theory and experiment may be reconciled by conceiving of photons as localized concentrations of magnetic field.[[Category:Scientific Paper]]
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Three separate subject areas are discussed. In the first, several experiments are described concerning the nature of light and the electromagnetic field. Three of them cannot be explained by either classical or quantum theory, thus demonstrating that a more comprehensive theory of electromagnetic radiation is needed. Next, some theoretical requirements are enumerated that must be satisfied if the concept of "photon" is to be employed in formulating a theory that can be considered complete. In the last section field diagrams are used to show that theory and experiment may be reconciled by conceiving of photons as localized concentrations of magnetic field.
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[[Category:Scientific Paper|magnetostatics speed c]]

Latest revision as of 10:39, 1 January 2017

Scientific Paper
Title Magnetostatics at Speed c
Read in full Link to paper
Author(s) Richard Oldani
Keywords Magnetostatics, Speed of Light, c
Published 2000
Journal None
No. of pages 7

Read the full paper here

Abstract

Three separate subject areas are discussed. In the first, several experiments are described concerning the nature of light and the electromagnetic field. Three of them cannot be explained by either classical or quantum theory, thus demonstrating that a more comprehensive theory of electromagnetic radiation is needed. Next, some theoretical requirements are enumerated that must be satisfied if the concept of "photon" is to be employed in formulating a theory that can be considered complete. In the last section field diagrams are used to show that theory and experiment may be reconciled by conceiving of photons as localized concentrations of magnetic field.