A few calculation of receding moon from spherical kinetic dynamics, receding planetary orbits, and the quantization of celestial motions


Victor Christianto, Florentin Smarandache and Robert N Boyd

Malang Institute of Agriculture (IPM), Indonesia
University of New Mexico, USA
Princeton Biotechnology Corporation, Dept. Information Physics Research

: J Electr Eng Electron Technol

Abstract


The present article discusses some interesting phenomena including the Lense-Thirring type anomalous precession, using a known spherical kinetic dynamics approach. Other implications include a plausible revised version of the celestial quantization equation described by Nottale and Rubcic. If the proposition described herein corresponds to the facts, then this kinetic dynamics interpretation of ‘frame-dragging’ effect could be viewed as a step to unification between GTR-type phenomena and QM. Further observation to verify or refute this conjecture is recommended, plausibly using LAGEOS-type satellites.

Biography


Victor Christianto, CE., DDiv. He was born in Indonesia, and studied engineering in a state university in East Java. In Dec. 2008 he was granted a scholarship to study gravitation and cosmology at Institute of Gravitation and Cosmology in Moscow until June 2009.

E-mail: victorchristianto@gmail.com

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