Difference between revisions of "Maxwell?s Equations: A Serious Flaw"
(Imported from text file) |
GeorgeCNPS2 (talk | contribs) |
||
(3 intermediate revisions by 2 users not shown) | |||
Line 13: | Line 13: | ||
==Abstract== | ==Abstract== | ||
− | Comparison of Maxwell?s Equations with Faraday | + | Comparison of Maxwell?s Equations with Faraday's work (the foundation of Maxwell) shows the equations do not describe electromagnetic waves; they only describe the associated field intensities. By contrast, Faraday's work shows that an electromagnetic wave is a sequence of magnetically coupled photons where each photon is formed of a double loop (a figure eight) electric field with a magnetic field coating or sheath. The photons interact with and travel on Faraday's electric fields that permeate otherwise ?empty space?. The physical size of a given photon depends on its energy and its interaction with the electric fields in the local environment. In addition, due to the magnetic sheath a photon can exchange energy with various atoms/ions. Finally there is a brief discussion of a critical difference between physical and mathematical waves, a difference known to many students but apparently forgotten by most scientists. |
+ | |||
+ | [[Category:Scientific Paper|maxwell s equations flaw]] |
Latest revision as of 23:30, 24 March 2019
Scientific Paper | |
---|---|
Title | Maxwell?s Equations: A Serious Flaw |
Read in full | Link to paper |
Author(s) | Joseph F Cuny |
Keywords | maxwell equations |
Published | 2009 |
Journal | None |
No. of pages | 3 |
Read the full paper here
Abstract
Comparison of Maxwell?s Equations with Faraday's work (the foundation of Maxwell) shows the equations do not describe electromagnetic waves; they only describe the associated field intensities. By contrast, Faraday's work shows that an electromagnetic wave is a sequence of magnetically coupled photons where each photon is formed of a double loop (a figure eight) electric field with a magnetic field coating or sheath. The photons interact with and travel on Faraday's electric fields that permeate otherwise ?empty space?. The physical size of a given photon depends on its energy and its interaction with the electric fields in the local environment. In addition, due to the magnetic sheath a photon can exchange energy with various atoms/ions. Finally there is a brief discussion of a critical difference between physical and mathematical waves, a difference known to many students but apparently forgotten by most scientists.