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

Authors

Florentin Smarandache, University of New MexicoFollow
Victor Christianto, Malang Institute of AgricultureFollow
Robert Neil Boyd, Princeton Biotechnology CorporationFollow

Document Type

Article

Publication Date

2019

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 & 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.

Publisher

5th EuroSciCon Conference on Plasma Physics, Sweden

Language (ISO)

English

Keywords

Lense-Thirring effect, celestial quantization, LAGEOS satellite, boson condensation, gravitation

Recommended Citation

Smarandache, Florentin; Victor Christianto; and Robert Neil Boyd. "A few calculations of receding Moon from spherical kinetic dynamics, receding planetary orbits, and the quantization of celestial motions." (2019). https://digitalrepository.unm.edu/math_fsp/345

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.