Title :
The gravitational potential for a moving observer, the perihelion shift of Mercury, and photon deflection
Author :
Renshaw, Curtis E. ; Kallfelz, William M.
Author_Institution :
Tele-Consultants inc., Alpharetta, GA, USA
fDate :
2/1/1997 12:00:00 AM
Abstract :
Acceptance of Einstein\´s second postulate, combined with the Principle of Equivalence, requires the introduction of space-time curvature in the presence of massive objects. In this paper, it has been demonstrated that the radiation continuum model (RCM) of light results in a modification to Newton\´s static gravitational potential. Applying this modified potential to the case of Mercury\´s anomalous perihelion advance accounts for the entire 43" per century, and provides a form equivalent to that of GRT. Thus, this model will work equally well for any system to which it is applied, all without resorting to the space-time curvature of GRT. The same potential, applied to the problem of a solar grazing photon, gives a solution identical in form and content to that of GRT as well. Such results lead to the conclusion that these effects are not attributable to massive objects curving space-time
Keywords :
Mercury (planet); astrophysical radiation mechanisms; celestial mechanics; gravitation; gravitational red shift; planets; space-time configurations; transits; Einstein´s second postulate; Mercury; Newton´s static gravitational potential; equivalence principle; gravitational potential; gravitational red shift; moving observer; perihelion shift; photon deflection; radiation continuum model of light; solar grazing photon; space-time curvature; Atomic measurements; Counting circuits; Doppler shift; Electromagnetic radiation; Energy measurement; Frequency; Maxwell equations; Motion measurement; Velocity measurement; Volume measurement;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
