Journal Papers:
- Renshaw, Curtis E., Galilean
Electrodynamics, "Special Relativity Theory Aberrated," Vol. 6, No. 2. pg. 38, 1994: Problems
with aberration encountered by SRT can be resolved by the
extinction theorem without invoking an ether or absolute
space.
- Renshaw, Curtis E., IEEE: Aerospace and
Electronic Systems, "The Effects of Motion and Gravity on Clocks," Volume 10, Number 10, October 1995:
Clock slowing due to motion and gravitational fields can
be explained by principle of equivalence and conservation
of energy, without invoking SRT.
- Renshaw, Curtis E., Galilean
Electrodynamics, "The Radiation Continuum Model of Light and
the Galilean Invariance of Maxwell's Equations," Volume 7, Number 1, January, 1996: If
Einstein's second postulate is not invoked, it is a
simple matter to show that Maxwell's equations are
Galilean Invariant. Doppler, apparent mass increase with
velocity, and other effects are explained.
- Renshaw, Curtis E., IEEE: Aerospace and
Electronic Systems, "Moving Clocks, Reference Frames and the Twin
Paradox," Volume 11,
Number 1, January 1996: The flaws of the SRT version of
reference frames and clock slowing are examined. A new
look at the "twin paradox" under the correct
interpretation is provided.
- Renshaw, Curtis E., Galilean
Electrodynamics, "Pulsar Timing and the Special Theory of
Relativity," Volume 7,
Number 2, March, 1996: Sensitive pulsar timing
measurements should show a periodic timing error residual
due to special relativity. The absense of such a residual
indicates a failure of the special theory.
- Renshaw, Curtis E., IEEE: Aerospace and
Electronic Systems, "The Time Delay of a Solar Grazing Photon," Volume 11, Number 8, August, 1996: It is
shown that, utilizing only the principle of equivalence
and energy considerations, the full and correct equations
for the time delay of a solar grazing photon in Newtonian
space may be obtained. These results are derived without
invoking the curved space-time of general relativity.
- Renshaw, Curtis E., Aperion, "Science Criticism," Vol. 3, No. 2, 1996: Hertz’
descriptions of the parameter v in his electrodynamic
equations indicate the relative velocity between source
and detector as paramount. The soundness of these
equations sheds doubt on Einstein’s second
postulate.
- Renshaw, Curtis E., Galilean
Electrodynamics, "Fresnel, Fizeau, Hoek, Michelson-Morley,
Michelson-Gale and Sagnac in Aetherless Galilean Space," November, 1996: It is shown that
the radiation continuum model (RCM) of light fully
accounts for the results of the Michelson-Gale and other
Sagnac type experiments, without resorting to
gravitational effects or GRT.
- Renshaw, Curtis E., Science News,
"Criticizing assumptions," Vol. 146, No. 12, pg. 179, 1994:
Exceeding c is not necessarily a violation of
causality.
- Renshaw, Curtis E., IEEE: Aerospace and
Electronic Systems Magazine, "In Defense of the Principle of
Equivalence, "
1996, Vol.12, No. 2: The principle of equivalence is
shown to be a useful tool in analysing many problems,
despite its abstract nature of applying only to
point-sized objects. A method is illustrated that allows
expansion to real, exetended, deformable objects.
- Renshaw, Curtis E., Galilean
Electrodynamics, "Doppler-Dagnac: A Surrebuttal, " Vol. 8, No. 2, March, 1996: A proof
that the Doppler effect plays no role in the Sagnac
interferometer at first-order.
- Renshaw, Curtis E., Galilean
Electrodynamics, "Doppler-Sagnac, Third Response, " Vol. 9, No.1, January, 1997: More proof
that the Doppler effect plays no role in the Sagnac
interferometrer at first-order.
- Renshaw, Curtis E., Galilean
Electrodynamics, "The Rotating Interferometer, Response to
Robert Driscoll,"
Vol. 8, No. 1, January, 1996: One cannot effectively
analyze the nature of the Sagnac and Michelson-Gale
Interferometers in Galilean Space without considering the
effects of aberration.
Questions? Comments?
crenshaw@teleinc.com
