You have something posted to the internet which has A formula, a formula where you can't simply stick in numbers, as it is for a constant U, not a varying one, and a baselessly asserted number.
That is effectively nothing.
So you still have nothing.
I have the figure: 24ns which has to be detected, yet it is not.
It has been published in a scientific journal, and has been peer reviewed.
The RUDERFER EXPERIMENT clearly proves this figure and the additional solar gravitational potential effect (perihelion/aphelion) to be absolutely true.
So you lose on all counts.
GPS/VLBI form a large scale spinning Mossbauer experiment.
Thus the hypotheses of the RUDERFER EXPERIMENT are fulfilled.
Why is there no requirement for a Sagnac correction due to the earth’s orbital motion? Like the transit time in the spinning Mossbauer experiments, any such effect would be completely canceled by the orbital-velocity effect on the satellite clocks.
However, indirectly, the counteracting effects of the transit time and clock slowing induced biases indicate that an ether drift is present. This is because there is independent evidence that clocks are slowed as a result of their speed. Thus, ether drift must exist or else the clock slowing effect would be observed.
In fact, there is other evidence that the wave-front bending and absence of the
Sagnac effect in the earth-centered frame is due to the clock-biasing effects of velocity
and that an ether drift velocity actually exists in the earth-centered frame. First, the
gradient of the solar gravitational effects upon clocks on the surface of the earth is such
that the clocks will speed up and slow down in precisely the correct way to retain the
appropriate up-wind and down-wind clock biases. Thus, the clocks must be biased or
else the solar gravitational effects would become apparent.
Second, as Charles M. Hill has shown, clocks on the earth clearly vary their rate as
the speed of the earth around the sun varies. Earth clocks run slower when the earth’s
speed increases and the earth’s distance from the sun is decreased near perihelion. The
earth’s clocks run faster near aphelion. This variation must be counteracted via an ether drift effect else it could be detected in GPS and VLBI experiments.
Ruderfer, Martin (1960) “First-Order Ether Drift
Experiment Using the Mössbauer Radiation,”
Physical Review Letters, Vol. 5, No. 3, Sept. 1, pp
191-192
Ruderfer, Martin (1961) “Errata—First-Order Ether
Drift Experiment Using the Mössbauer Radiation,”
Physical Review Letters, Vol. 7, No. 9, Nov. 1, p 361
in 1961, M. Ruderfer proved mathematically and experimentally, using the spinning Mossbauer effect, the FIRST NULL RESULT in ether drift theory.
"What students are not told is that the Turner & Hill experiment is a garbled version of a 1960 investigation by Ruderfer, who was seeking to discover fluctuations in gamma ray frequency which might indicate motion of an electromagnetic medium across the plane of the spinning disk, causing cyclic Doppler-type changes in the transit times of the gamma rays crossing that disk. Initially Ruderfer put it out that his results were negative for ether drift, but 14 months later he published an errata which stated that mathematical analysis had shown that if an ether wind were blowing across the plane of the spinning disk, one would expect that Doppler fluctuations in the frequency of the gamma radiation detected at the centre of the disk would be compensated by equal and opposite fluctuations in the emitted frequency of the gamma rays, caused by the effect of variations in the ether speed of the source.
What Ruderfer's experiment had stumbled on was that there could be a static electromagnetic medium at rest with respect to the rest of the universe. And it could be that any motion with respect to that medium affects the gamma ray source, and the central Mossbauer detector, by slowing down the rate of process of each by half the square of the ratio of each one's absolute ether speed to the absolute speed of propagation of light. If such were the case, it would follow (as a mathematical necessity) that irrespective of the direction and speed of ether drift of the lab, the central detector of the spinning disk would always observe a steady slowing of the gamma radiation frequency by half the square of the ratio of the spin speed of the source to the out-and-return speed of light, as measured by the detector in a reference frame which is non-rotating with respect to the fixed stars.
Ruderfer's experiment and his errata were of great significance in the history of modern physics because of their psychological impact on the ether deniers. Previously, the Michelson & Morley ether drift experiment had been successfully portrayed as 'negative' rather than 'null' because the proposed compensating factor, Fitzgerald contraction, was a theoretical construct. However, in the case of the Ruderfer experiment, the ether deniers were shocked to find that the experiment provided proof of the existence of the compensating factor in the observed frequency reduction, making it indubitably a null ether drift experiment.
Since the motion-induced frequency reduction of the gamma ray source is by a steady 'half the square of the ratio of the disk spin speed to the speed of propagation of the gamma rays', and since this is exactly the amount required to give the same result, irrespective of whether the disk is at ether rest, or is orientated edgewise (or at right angles) to a hypothetical ether drift, this constituted prima facie evidence for something for which the ether deniers have a particular fear and loathing - 'laws of nature which conspire to conceal the effect of ether drift'."
Let us apply now Ruderfer's experiment to GPS.
Analysis of the spinning Mossbauer experiments is a natural step toward analysis of the
slightly more complex and much larger-scale Global Positioning System (GPS). This
system constitutes a large scale near-equivalent to the spinning Mossbauer experiments.
The transit time between the satellite and ground-based receivers is routinely measured.
In addition, the atomic clocks on the satellite are carefully monitored; and high precision
corrections are provided as part of the information transmitted from the satellites.
Because the satellites and the receivers rotate at different rates (unlike the Mossbauer
experiments), a correction for the motion of the receiver during the transit time is
required. This correction is generally referred to as a Sagnac correction, since it adjusts
for anisotropy of the speed of light as far as the receiver is concerned. Why is there no
requirement for a Sagnac correction due to the earth’s orbital motion? Like the transit
time in the spinning Mossbauer experiments, any such effect would be completely
canceled by the orbital-velocity effect on the satellite clocks.
Specifically, there is substantial independent experimental evidence that clock speed always affects the clock frequency and, as the GPS system shows, the spin velocity of the earth clearly affects the clock rate. This being the case, the null result of the rotating Mössbauer experiments actually implies that an ether drift must exist or else the clock effect would not be canceled and a null result would not be present.
A GPS satellite orbiting the Earth, while at the same time the entire system is orbiting the Sun, IS A LARGE SCALE SPINNING MOSSBAUER EXPERIMENT.
Given the very fact that these GPS satellites DO NOT record the orbital Sagnac effect, means that THE HYPOTHESES OF THE RUDERFER EXPERIMENT ARE FULFILLED.
Why is there no requirement for a Sagnac correction due to the earth’s orbital motion? Like the transit time in the spinning Mossbauer experiments, any such effect would be completely canceled by the orbital-velocity effect on the satellite clocks.
However, indirectly, the counteracting effects of the transit time and clock slowing induced biases indicate that an ether drift is present. This is because there is independent evidence that clocks are slowed as a result of their speed. Thus, ether drift must exist or else the clock slowing effect would be observed.
In fact, there is other evidence that the wave-front bending and absence of the
Sagnac effect in the earth-centered frame is due to the clock-biasing effects of velocity
and that an ether drift velocity actually exists in the earth-centered frame. First, the
gradient of the solar gravitational effects upon clocks on the surface of the earth is such
that the clocks will speed up and slow down in precisely the correct way to retain the
appropriate up-wind and down-wind clock biases. Thus, the clocks must be biased or
else the solar gravitational effects would become apparent.
Second, as Charles M. Hill has shown, clocks on the earth clearly vary their rate as
the speed of the earth around the sun varies. Earth clocks run slower when the earth’s
speed increases and the earth’s distance from the sun is decreased near perihelion. The
earth’s clocks run faster near aphelion. This variation must be counteracted via an ether drift effect else it could be detected in GPS and VLBI experiments.