TL;DR
This paper links the average evolution rate of dynamical systems at equilibrium and quantum geometric area quantization to demonstrate the validity of Kepler's Second Law.
Contribution
It introduces a novel connection between quantum gravity concepts and classical planetary motion laws.
Findings
Kepler's Second Law can be derived from quantum geometric principles.
The average rate of evolution at equilibrium relates to planetary orbital properties.
Quantum area quantization supports classical orbital laws.
Abstract
It is shown that a recent result regarding the average rate of evolution of a dynamical system at equilibrium in combination with the quantization of geometric areas coming from LQG, implies the validity of Kepler's Second Law of planetary motion.
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Taxonomy
TopicsCosmology and Gravitation Theories · Black Holes and Theoretical Physics · Galaxies: Formation, Evolution, Phenomena