Critique of Momentum, Mass and Time in Relativity

Section 1 gave proof (found in reference [1]) that axial like the transverse changes observed time. Section 2 showed that the speed of light is the same in all reference frames and distance has the same Doppler shift (distortion due to velocity) as time. Section 3 shows that equations quantum mechanics (like De Broglie’s) imply that momentum has the same Doppler shift as frequency. If and only if the velocity in de Broglie’s equation is the absolute relative velocity between the observer and the observed, mass and momentum both have the same Doppler shift (resultant of any axial and transverse shifts) as frequency. Section 4 proposes an experiment to further prove the result of Section 1.


Doppler Shift of Time [2]
Frequency is 1/time, therefore everything that changes observed frequency in a vacuum regardless of materials does the same to time. That would mean if K is the Doppler shift of frequency factor (observed frequency/original frequency on the observed) then 1/K is the Doppler shift of time (1/K = observed time/original time on the observed).
Additional proof [2]: If one takes the Fourier time series of any piece wise continuous functions between time = 0 and T, then multiply all the frequencies by K. Each of the subharmonics: That means each of the shifted subharmonics has the same value in time = t/K as the original had in time = t. By superposition the whole shifted Fourier reposition of the function will have the same value in t/K as the original does in t.
That includes and encoded information. The reader can with help a desk top computer verify this by mathematical experimentation.
Therefore from the two reasons above the Doppler shift factor of time is 1/K, where K is the Doppler shift factor of frequency. K being the resultant of both axial and transverse Doppler shifts. Note: relativity writers only give the transverse shift that property because Lorentz's transformation had the axial effects of aether winds cancel each other. But in equipment fixed to the Earth and in Michelson's experiments there can be only a Doppler at first mirror after that the light is in the Earth's reference frame and is no more shifts, hence no cancelation of axial shifts. Note: the average of the axial shit over all observation angles {cos (observation angle is a factor of the axial shift)} is zero, the variance is not, which means a researcher wanting to verify the transverse shift needs only experiments with random ore changing observation angles. That means someone trying to experimentally confirm Einstein's work will pick and observation angle of 90 degrees to take out things he did not write about, also experiments with random observation angles would not have a net axial Doppler shift.

Some Impacts of the Axial Shift Altering Observed Time
The time interval between photons in a light beam would change and depend on observation angle. That is in addition frequency change of each photon. In a beam of particles with a rest mass the same effect will happen. That means instruments that measure impacts will overstate the number particles because impacts are caused only when the instrument and particle are moving to each other. So there are really a smaller number of particles with low rest mass like neutrinos.
In addition if the particles are radioactive the observed haft life will change. Observation of a beam of gamma emitters' haft life at least two different observation angles should give experimental proof of Section 1 of this paper.

Doppler Shift of Distance
Einstein's second postulate is that the speed of light (c) is the same in all reference planes. Hence in any reference plane distance is c × time. If in the observer's reference plane time is t/K (t is time in reference plane of the observed object) then the observed distance is ct/K or 1/K times that distance in reference plane of the observed object. Therefore distance has the same Doppler shift as time (distortion due to velocity).

Doppler Shift of Mass [1]
De Broglie's wave length = ( ) Distance (wave length) has the same Doppler shift as time (from Section 2) which is 1/K where K is the Doppler shift of frequency. Therefore momentum mv has the same Doppler shift as frequency. The velocity here is the absolute relative velocity between the observed and the observer (can be an instrument).
The velocity is what the observer or the observed thinks is the relative velocity between them. Also assume h (Planck's constant has no Doppler shift) [1]. The Therefore: Note writers on relativity take the special case of no v a , by canceling v a out by reflection. That becomes an error of omission if it is presented as the general case. There is no reflection in this analysis.
In terms for frequencies: For v r less than 1/2c: 2v r /c much greater than (v r /c) 2 , therefore the axial shift would be greater than the transverse.
If v a = 0 one has the common equation for transverse Doppler shift:
Reich's first law: Since the axial Doppler shifts is the closing velocity and the velocity in transverse shifts is transverse velocity, the velocity that gives distortion is the relative velocity of observed from the observer which also the relative velocity of the observer from the observed (the resultant).

Proposed Experiment to Prove Time Effect of the Axial Doppler Shift
The paper describes a low noise experiment to prove or disprove: Both axial and transverse Doppler shifts change observed time.

Setup
Have significant amount of a gamma or X ray emitter travel down a particle accelerator at a speed equal to a greater than ¼ that of light. The emitter half-life should be known. Have a detector with small angle acceptance near the beam directed to pick up the emitted traveling the same direction as the beam. Have another one directed to rays emitted normal the path of the beam. Therefore, one detector will see axial Doppler shifts and the other transverse Doppler shifts.

Analysis
Doppler shifts that change time will have 3 effects: 1) Change the observed energy (frequency) of the emitted photon. 2) Change the observed rate of decay.
3) Change observed rate particles in beam will pass the detectors.

Summary
Section 1 gave proof (found in reference [1]) that axial like the transverse changes observed time. Section 2 showed that the speed of light is the same in all reference frames and distance has the same Doppler shift (distortion due to velocity) as time. Section 3 shows that equations quantum mechanics (like De Broglie's) imply that momentum has the same Doppler shift as frequency. If and only if the velocity in de Broglie's equation is the absolute relative velocity between the observer and the observed, both mass and momentum have the same Doppler shift (resultant of any axial and transverse shifts) as frequency. Section 4 shows an experiment to prove the axial Doppler shift impacts time.