Difference between revisions of "Sagnac Experiment"
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{{cite|It is believed that the Sagnac effect does not contradict Special Relativity theory because it is manifest in non-inertial rotational motion; therefore, it should be treated in the framework of General Relativity theory. However, several well-designed studies have convincingly shown that a Sagnac Effect identical to the one manifest in rotational uniform motion is also manifest in transverse uniform motion. This result should have been sufficient to falsify Special Relativity theory. In the present article, we offer theoretical support to the experimental results by elucidating the notion that the dynamics of transverse and rotational types of motion are completely equivalent. Since the transverse Sagnac effect contradicts Special Relativity theory, it follows that the rotational Sagnac effect contradicts Special Relativity theory as well.}} | {{cite|It is believed that the Sagnac effect does not contradict Special Relativity theory because it is manifest in non-inertial rotational motion; therefore, it should be treated in the framework of General Relativity theory. However, several well-designed studies have convincingly shown that a Sagnac Effect identical to the one manifest in rotational uniform motion is also manifest in transverse uniform motion. This result should have been sufficient to falsify Special Relativity theory. In the present article, we offer theoretical support to the experimental results by elucidating the notion that the dynamics of transverse and rotational types of motion are completely equivalent. Since the transverse Sagnac effect contradicts Special Relativity theory, it follows that the rotational Sagnac effect contradicts Special Relativity theory as well.}} | ||
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| + | ==Wang Experiment== | ||
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| + | From [https://books.google.com/books?id=XVLmihZnsvUC&lpg=PA44&ots=Xy3Lnlpnag&dq=1942%20Dufour-Prunier&pg=PA55#v=onepage&q&f=false Challenging Modern Physics: Questioning Einstein's Relativity Theories] by Al Kelly ([http://wiki.naturalphilosophy.org/index.php?title=Alphonsus_G_Kelly bio]) we find: | ||
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| + | {{cite|A recent ingenious test by Wang et al. (2003) shows that the Sagnac result is also achieved by sending out and back again light in a straight-line portion of the light path. This is what this author claimed above, but it is so much more convincing when an actual experiment has shown the same thing. I wonder what excuse will be trotted out now! Wang et all. achieved the seemingly impossible by reversing a light beam sent out on a straight line on a moving platform and measuring the difference in time for it to return. This author had the pleasure of meeting Wang in 1997 and corresponded with him during the rests he performed and since then. | ||
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| + | In another paper (2005), Wang gives further details of the experiment; appended to this paper are comments on the experiment by Hatch and Van Flandern, confirming that Wang had succeeded in proving that the Sagnac effect applies to straight-line motion. | ||
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| + | ...Any claims that the Sagnac experiment upsets [Special Relativity] were heretofore brushed aside by a statement that Sagnac is a rotational experiment and that SR does not apply to rotational experiments. That defense is now shown to be groundless. }} | ||
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| + | From [https://books.google.com/books?id=W4RIDwAAQBAJ&lpg=PA307&pg=PA307#v=onepage&q&f=false | ||
| + | Unified Field Mechanics II by Richard L. Amoroso, Louis H. Kauffman, Peter Rowlands, and Gianni Albertini] we see: | ||
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| + | {{cite|This controversy, whether Sagnac experiment is against or in accordance with relativity, was settled recently by R. Wang et a. [30] with a very interesting experimental setup they called linear Sagac interferometer. | ||
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| + | ...From the experimental regults obtained with the linear Sagnac interferometer one is lead to conclude that in this particular case the linear additive rule applies. Consequently we may have velocities greater than c, which clearly shows that realitivity is not adequate do describe this specific physical process.}} | ||
==See Also== | ==See Also== | ||
Revision as of 09:08, 24 June 2019
The Sagnac Experiment was first conducted by French physicist Georges Sagnac in 1913. The experiment is essentially the same experiment as the Michelson-Morley Experiment, except that it is on a horizontal rotating turn-table. The results of the Sagnac Experiment show that when the table is rotated around on a horizontal axis during the experiment, the velocity of light indeed changes. This contradicts the Michelson-Morley Experiment that was designed to use the supposed movement of the earth to change position, and which showed no change in light velocity.
From a paper on the Sagnac Effect we read:
“ Since its discovery at the beginning of the XX century the Sagnac effect [1] has play an important role in the understanding and development of fundamental physics (for a review see [2]). The Sagnac effect is the dependence of the interference pattern of the rotating interferometer on the direction and speed of rotation. This phenomenon is universal and manifested for any kind of waves, including the matter waves and has found a variety of applications for the practical purposes and in the fundamental physics [2].
...In the context of the Sagnac effects the null result of the Michelson-Morley experiment is also not clear. Applying the same logic to Sun centered rotating frame in which Earth is fixed, one would expect different light speeds as seen from Earth. ”
A Critical Analysis
In Theory of Relativity: A Critical Analysis (Archive) its author Dr. Roberto Monti (bio) describes in the abstract:
“ Einstein's theory of relativity is shown to be a physical theory of limited experimental validity. Twelve different experiments seem to disprove its two postulates. ”
On the subject of the Sagnac Effect, Dr. Monti states:
“ The effect was tested in 1913 by Sagnac(46), and Sagnac’s experimental results disproved the second postulate of special relativity. ”
Malcom Bowden
The geocentrist Malcom Bowden describes the Sagnac Experiment in the following video:
Video Description:
“ An animated explanation of how Sagnac's experiment proved the existence of the aether, thus demolishing Einstein's Theory of Relativity. Complaints by two experienced physicists that when they were at university, they were never informed about this important experiment. When other experiments - Airy's Failure, Michelson-Gale's experiment (also not taught at universities!) and of course the famous Michelson-Morley experiment- a completely different picture of the cosmos emerges - with the Earth at the centre of the universe. ”
The video author's personal views on geocentricity aside, Mr. Bowden provides an accurate description of the Sagnac Experiment and its results.
General Relativity Framework
On the assertion that the Sagnac Effect is explained under the framework of General Relativity theory, Professor Ramzi Suleiman of the University of Haifa writes the following:
The Sagnac Effect Falsifies Special Relativity Theory (Archive)
“ It is believed that the Sagnac effect does not contradict Special Relativity theory because it is manifest in non-inertial rotational motion; therefore, it should be treated in the framework of General Relativity theory. However, several well-designed studies have convincingly shown that a Sagnac Effect identical to the one manifest in rotational uniform motion is also manifest in transverse uniform motion. This result should have been sufficient to falsify Special Relativity theory. In the present article, we offer theoretical support to the experimental results by elucidating the notion that the dynamics of transverse and rotational types of motion are completely equivalent. Since the transverse Sagnac effect contradicts Special Relativity theory, it follows that the rotational Sagnac effect contradicts Special Relativity theory as well. ”
Wang Experiment
From Challenging Modern Physics: Questioning Einstein's Relativity Theories by Al Kelly (bio) we find:
“ A recent ingenious test by Wang et al. (2003) shows that the Sagnac result is also achieved by sending out and back again light in a straight-line portion of the light path. This is what this author claimed above, but it is so much more convincing when an actual experiment has shown the same thing. I wonder what excuse will be trotted out now! Wang et all. achieved the seemingly impossible by reversing a light beam sent out on a straight line on a moving platform and measuring the difference in time for it to return. This author had the pleasure of meeting Wang in 1997 and corresponded with him during the rests he performed and since then.
In another paper (2005), Wang gives further details of the experiment; appended to this paper are comments on the experiment by Hatch and Van Flandern, confirming that Wang had succeeded in proving that the Sagnac effect applies to straight-line motion.
...Any claims that the Sagnac experiment upsets [Special Relativity] were heretofore brushed aside by a statement that Sagnac is a rotational experiment and that SR does not apply to rotational experiments. That defense is now shown to be groundless. ”
From [https://books.google.com/books?id=W4RIDwAAQBAJ&lpg=PA307&pg=PA307#v=onepage&q&f=false
Unified Field Mechanics II by Richard L. Amoroso, Louis H. Kauffman, Peter Rowlands, and Gianni Albertini] we see:
“ This controversy, whether Sagnac experiment is against or in accordance with relativity, was settled recently by R. Wang et a. [30] with a very interesting experimental setup they called linear Sagac interferometer.
...From the experimental regults obtained with the linear Sagnac interferometer one is lead to conclude that in this particular case the linear additive rule applies. Consequently we may have velocities greater than c, which clearly shows that realitivity is not adequate do describe this specific physical process. ”