Relativistic Scaling of Physical Properties
Reciprocal Relationship Between Conversion Factors
Buenker
Robert J.
Prof. Dr.
Buenker, Robert J.
aut
2016-01-19
en
<p>It is well established experimentally that clock rates increase with gravitational potential. This
effect was predicted by Einstein in 1907 and verified in the experiments of Pound and Snider in
1965. In the present work it will be argued that the above results can be conveniently described
in terms of a uniform scaling of physical properties. One only needs a conversion factor between
the two sets of units in different gravitational potentials to accurately predict the result of a
measurement at one altitude based on the corresponding value obtained at another. For the case
of the unit of energy, Einstein showed that the appropriate conversion factor is S = 1+ghc<sup>-2</sup>,
where c=2.99792458 ms-1 is the speed of light in free space, g is the local acceleration of gravity
and h is the difference in altitudes between the two rest frames. The corresponding factors for
light speed and frequency are both also equal to S. As with conventional measurements, the
corresponding conversion factor in the reverse direction is always the reciprocal of the other.
For example, the reverse factors for energy, light speed and frequency are each equal to S<sup>-1</sup>= 1-
ghc<sup>-2</sup>. Attempts to develop a corresponding set of conversion factors for different inertial rest frames have heretofore been hampered by the fact that the special theory of relativity (STR)
predicts unambiguously that time dilation is symmetric, i.e. that a moving clock is always found
to have a slower rate than one that is stationary in the observer's rest frame. On this basis it is
impossible to define a unique conversion factor between measured values of the same frequency
obtained in two different rest frames. The present work shows that experimental tests of the
symmetry of time dilation do not agree with the above prediction of STR. As a result it becomes
possible to also define conversion factors between measured values in different inertial systems.
Einsteinâ€™s Symmetry Principle (ESP)
asymmetric time dilation
clock-rate proportionality
Universal Time-Dilation Law (UTDL)
Lorentz transformation (LT)
relativistic velocity transformation (RVT)
alternative Global Positioning System-Lorentz transformation (GPS-LT)
absolute remote simultaneity
isotropic length expansion
uniform scaling of physical properties
amended version of the Relativity Principle (RP)
2016-01-19T14:31:12.319Z
2016-01-19T14:37:15.692Z
published
Pub