A Reanalysis of the Theory of Interferometer Experiment Demonstrating that Michelson’s Analysis Contains an Error, Including the Boat Model Analysis, so Readmitting the Ether Presence
Ioan Has,
Simona Miclaus,
Aurelian Has
Issue:
Volume 3, Issue 4, August 2014
Pages:
24-32
Received:
10 October 2014
Accepted:
20 October 2014
Published:
30 October 2014
Abstract: Theoretical basis of Michelson interferometer experiment is reanalyzed. Initially we reanalyzed the illustrative model, represented by a boat traversing a river which revealed that the correct transversal trajectory is not an isosceles triangle, but a right triangle. Also in the interferometer, the transversal double light path, considering the ether presence and classical theories of light, we found to be too a right triangle instead isosceles one considered by Michelson. But this new path necessitates zero time difference, for which fringes displacements are not expected, unlike Michelson’s analysis. So we found that the light’s double travel times don’t depend on the interferometer arms directions and so the expected by Michelson fringes displacements, must not appear. The above findings are applicable to other similar experiments with ray double travel, including light, lasers, masers, γ-rays, etc. We demonstrated that Michelson’s experiment correct interpretation does not confirm the relativity of the light speed. Consequently, Michelson’s experiment should not be considered negative concerning the presence of ether which must remain the bearer of the E-M phenomena. Consequently, the Special Relativity Theory (SRT) must be reconsidered, based on Lorentz electromagnetic theory from 1895 and the quanta entanglement and E-M field can be physically explained by the ether presence.
Abstract: Theoretical basis of Michelson interferometer experiment is reanalyzed. Initially we reanalyzed the illustrative model, represented by a boat traversing a river which revealed that the correct transversal trajectory is not an isosceles triangle, but a right triangle. Also in the interferometer, the transversal double light path, considering the eth...
Show More
Molecular Aggregations and Anisotropy Photoinduction in Organic Compounds
Tariel Ebralidze,
Nadia Ebralidze,
Giorgi Mumladze
Issue:
Volume 3, Issue 4, August 2014
Pages:
33-36
Received:
2 October 2014
Accepted:
5 November 2014
Published:
10 November 2014
Abstract: The work is dedicated to a study of anisotropy photoinduction during the light-stimulated molecular aggregations in organic compounds. The case of gelatin or polyvinyl films saturated by azo dyes is considered. By using the video and spectral techniques, the time-formation picture of optical image is studied. It is shown that in this case the image is formed in a similar way as in silver emulsions in the process of photographing — "with the grain distribution".
Abstract: The work is dedicated to a study of anisotropy photoinduction during the light-stimulated molecular aggregations in organic compounds. The case of gelatin or polyvinyl films saturated by azo dyes is considered. By using the video and spectral techniques, the time-formation picture of optical image is studied. It is shown that in this case the image...
Show More
