Galilei Covariant Electrodynamics of Moving Media with Applications to the Experiments of Fizeau and Hoek: Difference between revisions
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Galilei-covariant electrodynamics is generalized for moving dielectric media with motion induced polarization for dielectric permittivities e(w)>e. = 10-9/36 pi As/Vm. The interferometer experiments on light propagation in (i) flowing water by Fizeau and (ii) resting water by Hoek, relative to a terristrial laboratory frame S (which moves with a volocity v = -w ~ 3X10+5 m/s relative to the absolute cosmic frame S with isotropic light propagation) are explained quantitatively without resort to relativistic space-time concepts. The experiment of Hoek is shown to reveal a polarization effect in the induced electric ether field wXB, due to the terrestrial vacuum substratum velocity w. Thus, the Hoek experiment refutes the special theory of relativity.[[Category:Scientific Paper]] | Galilei-covariant electrodynamics is generalized for moving dielectric media with motion induced polarization for dielectric permittivities e(w)>e. = 10-9/36 pi As/Vm. The interferometer experiments on light propagation in (i) flowing water by Fizeau and (ii) resting water by Hoek, relative to a terristrial laboratory frame S (which moves with a volocity v = -w ~ 3X10+5 m/s relative to the absolute cosmic frame S with isotropic light propagation) are explained quantitatively without resort to relativistic space-time concepts. The experiment of Hoek is shown to reveal a polarization effect in the induced electric ether field wXB, due to the terrestrial vacuum substratum velocity w. Thus, the Hoek experiment refutes the special theory of relativity. | ||
[[Category:Scientific Paper|galilei covariant electrodynamics moving media with applications experiments fizeau hoek]] | |||
[[Category:Relativity]] | [[Category:Relativity]] | ||
Revision as of 13:27, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Galilei Covariant Electrodynamics of Moving Media with Applications to the Experiments of Fizeau and Hoek |
| Read in full | Link to paper |
| Author(s) | Horst E Wilhelm |
| Keywords | Galilei-covariant, interferometer, Fizeau, Hoek, absolute cosmic frame |
| Published | 1993 |
| Journal | Apeiron |
| Volume | 1 |
| Number | 15 |
| No. of pages | 6 |
| Pages | 1-6 |
Read the full paper here
Abstract
Galilei-covariant electrodynamics is generalized for moving dielectric media with motion induced polarization for dielectric permittivities e(w)>e. = 10-9/36 pi As/Vm. The interferometer experiments on light propagation in (i) flowing water by Fizeau and (ii) resting water by Hoek, relative to a terristrial laboratory frame S (which moves with a volocity v = -w ~ 3X10+5 m/s relative to the absolute cosmic frame S with isotropic light propagation) are explained quantitatively without resort to relativistic space-time concepts. The experiment of Hoek is shown to reveal a polarization effect in the induced electric ether field wXB, due to the terrestrial vacuum substratum velocity w. Thus, the Hoek experiment refutes the special theory of relativity.