TITLE:
Proposal of New Criteria for Celestial Mechanics
AUTHORS:
Gabriel Barceló
KEYWORDS:
Celestial Mechanics; Astrodynamics; Stellar Dynamics; Galactic Astronomy; Astrometry, Dynamics Fields; Dynamical Systems Theory; Orbital Mechanics; Intrinsic Angular Momentum; Speeds Coupling
JOURNAL NAME:
International Journal of Astronomy and Astrophysics,
Vol.3 No.4,
November
11,
2013
ABSTRACT:
Based on a new interpretation on the behavior of rigid
bodies exposed to simultaneous non-coaxial rotations, we have developed a
hypothesis: the Theory of Dynamics
Interactions, which can be applied to understand celestial mechanics. We
have analyzed the velocity and acceleration fields generated in a rigid body
with intrinsic angular momentum, when exposed to successive torques, to assess
new criteria for this speeds coupling. In this context, reactions and inertial
fields take place, which cannot be justified by means of classical mechanics.
We believe that the results obtained after the analysis of dynamics fields systems
accelerated by rotation will allow us to conceive a new perspective in
celestial dynamics, astrometry, stellar dynamics and galactic astronomy,
unknown up to date. After carrying out ample research, we have come to the
conclusion that there still exists an unstructured scientific area under the
present general assumptions and, more specifically, in the area of dynamic
systems submitted to rotational accelerations. The aim of this
paper is to present information of the surprising results obtained, and to
attract the interest towards the investigation of this new area of knowledge in
rotational non-inertial dynamics, and its multiple and remarkable scientific applications.