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[quote name='swansont']Experiments demonstrate the validity of scientific claims. The paper cannot both propose a model and claim success without some empirical evidence being presented. And since Su points out the difference between his theory and accepted theory is very small, you can't currently confirm his theory.[/quote]
I have no major quarrel, however, look at the overall meaning of the paper. The orbital motion of the earth is not measurable as affecting the motion of light, in that an orbital Sagnac device is doomed to failure regarding relative motion of the earth orbiting frame.
This finding goes beyond SR and the Sagnac Effect as it describes a restricted application of orital motion. It is as if the orbital motion is confined to etxraterrtrial events and that the local earth frame can be considered ether based in the sense of the earth gravity affect on the motion of the light and of coure the accelration affectws dueing launch of the SAT. Even considering the claims of light speed variation in some planetraty transmision experiment, with in any local volume the light speed variations are insiginificant.
Check something for me on this Swansont. Miller claimed a sun velocity of 208 km/sec in a general southerly heading. If we assume the numbers are fairly accurate (there are simlar figures for different dirctions reported by others) then the orbiting velocity vector is tangent to the orbit trajectory which is basically orthogonal to the sun motion. The rotational motion imposes a daily oscialltion on the orbiting motion.
Now when we calulate the net velocity vector of the earth considering the three modes of motion we have v[sup]2[/sup] = 208[sup]2[/sup] + 30.64[sup ]2[/sup] or a 44192 + 920 =45120 and taking the square root, the net velocity vector is 212.4 where the direction is approximately 8 egrees off the sun direction of motion rotating around the sun trajectory.
Calculating distance we use the sun velocity of 208 km/sec x 31558464 sec = 6.56 x 10[sup]9[/sup] for the sun yearly linear distance. The orbital distance in one year for the earth is 30 x 31558464 =.946x 10[sup]9[/sup]. the angle in the distance difference is tan-[sup]-1[/sup].946/6.56 or approximately 8 degrees that checks with the velocity vector.
Now, if Su is correct in the statement that the orbital motion is not measurable on the earth bound light motion then clearly the orbital dynamics are uniquely exterior to the earth bound light motion. The huge difference in orbital and rotational speed does not resolve the issue. One would think, linearly, just the opposite is true and that the orbital motion ovewhelms the rotational motion that might be seen sporadically depending on the accuracy of the measurements.
If all this be true, even without the assumed 208 km/sec sun vel;ocity dragging all the planets along in a helical evolving trajectory a for all the planets enclosed by Neptune on the outer fringes as the hierarchy of enclosing planets decays stepwise down into the geneal helix.
Methinks gravity as we normally consider it is a grossly misplaced concept. If for nothing else the helical sgtructure of solar systems moving helically do not jkbe with a mass centered attraction model of gravity., nor of GHR model of the yrved forceless universe.
[quote=Swanson]
But it isn't an actual experiment, is it? Or have you actually done this measurement?[/quote]
No more did I do the experiment in the opening post of this thread gthan did Einstein, or SDavid Bohm et al when they discussed various arrangements of the basic Sagnac arrrangement. The case where the observer is at the physical midpoint of light sources just as the sources emit light is discussed at length by AE. The moving observer sees the light coming from the forward before the light arrives from the rear and concludes the forward light was turned on before the one from the rear, The observer on the moving frame assumes her position state of motion is at rest wrt the embankment.
[/quote=Swansont]
I did point out that the Michelson interferometer is an equivalent measurement, and that everybody not named Miller that does the experiment concludes that we can't measure absolute velocities, because there is no preferred frame that everybody will agree is at rest.[/quote]
Agreement , "everyone" is insignioficant. Using this line of reaoniong no phsicaltheory would ever suffer amendments and we are sitll agonizing over this 'political thread" in the mainstream of science today. Agrrement has nothing to do with it.just ask Giovani Bruno and the Maid d' Orleans.
See my latest thread proving the absolute zero velocity inertial frame of reference using the postulates of SRT.
[quote name='Swansont']I get that Ashby actually worked on GPS, and that the other two are trying to advance alternate theories. Relativity is undeniably part of GPS, as is the Sagnac effect.[/quote]
Hatch is a major technical leader in the company he works for, NavComTech, GPS is his business.
You spend much time discussing the linear Sagnac effect as not equivalent to the rotaional Sagnac, yet you say right here and now that the SATs and th receivers are both moving in noninertial frames of reference and that these motions are SRT relevant? It sure seems like a convenience of platforms excuse here is developing. This rotating frame does, another doesn't "include SR, what is the unambiguous rule?
.
Sounds like a double standard of convenience of sorts here . Some rotating frames are inertial wrt SRT some are not? Hmmmm..
[quote name='Swansont']I can't fathom the misunderstanding that lets one use "spinning disc" as a test bed, and make any conclusion that includes the phrase "straight-line motion."[/quote]
Take your laser into the 30 k km radius orbit and deterrmine the measured variation from straight-line motion of the SAT. Or measure the curvatuire of the earth, home bound. You know don't you thagt the measured surface of the earth is flat?
[quote name='Swansont']The fatal flaw in Kelly's paper is that he apparently doesn't understand what an inertial frame is. His Sagnac derivation, from what I could tell, is fine, but he concludes that because the rotating observer sees a speed of light other than c, that this applies to all frames. A rotating frame is not inertial, and you can measure absolute rotation. How? By measuring that the speed of light isn't c, which is precisely what the Sagnac effect does! But you can't "unfold" it and make the same conclusion about an inertial frame.[/quote]
No you are in error. he says the measurments of rotaing fromes and linear ones are identical. It was Einstein that suggested "unfoldiong "the rotating circular Sagnac.
Here is a Kelly quote:
"Yet another test, done by Michelson [9] (1913), confirms that light travels in relation to the laboratory. In this test he bounced light beams off rotating mirrors, which were rotating at 1800 rpm. He proved from the resulting fringe shift that:
(1) the light does not bounce off such a mirror, as would a tennis ball bounce off a moving racquet.
(2) light does not take up the movement of the mirror; that is, the velocity of the source of the reflected beam coming off the rotating mirror does not have any change in its velocity, caused by that moving mirror.
(3) the light actually ignores the whole rotating apparatus. It moves solely with respect to the laboratory.
This test is a clear confirmation that the conclusions in this paper in respect of Sagnac-type tests are correct. The accuracy of the Michelson test was 1:50."
and another
"During the Michelson & Gale test, the earth turned through an orbital angle of 2.3 x 10-10 degrees. So, this rotation is less by 10,000,000,000 than the frame acceptable in the H & K case."
and another,
"
it is at once apparent that this result still holds good if the clock moves from A to B in any polygonal line;….if we assume that the result proved for a polygonal line is also valid for a continuously curved line, we arrive at this result: If one of two synchronous clocks at A is moved in a closed curve with constant velocity until it returns to A, the journey lasting t seconds, then by the clock which has remained at rest the travelled clock on its arrival at A will be 1/2tv2/c2 second slow.
Even though the effect he described is infinitesimally smaller than the Sagnac effect it is the argument of application, from a straight path to a curved path, that is of interest here."
and another, testing the Swansont statement regarding inertial frame definitions.
"In the original Sagnac test the earth would have turned 2.8 x 10-13 orbital degrees during the test. During a GPS test around the globe at the equator, the earth would have turned by 10,000,000 times the amount it turned during a Sagnac test. Pretending that SR does not apply to rotation, while at the same time applying it daily to experiments like the Global Positioning System, that has a far greater amount of rotation than the Sagnac experiment, is indefensible. We could be forgiven for saying that this is a very biased selection of what is termed an 'Inertial Frame'."
and the last for now:
"A recent ingenious test by Wang et al. (2003) [23] shows that the Sagnac result is also got by sending out light in a straight line portion of the light path and back again. This is what this author claimed above, but it is so much more convincing when an actual experiment has shown the same thing. Wang 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 to return."
Akso. Kelly amkes the point that many derivations of the Sagnac mathematical models are shape independent. and That the observers can be on the rotaaing disc or the lab, frame the resutls are the same. Your statements regarding the "inertial frame " misunderstanding of Kelly is misplaced.
I was absent for a few days so I thought I would catch to sppeed, no pun, up with some varied answers to your post.
MultiQuote
