TITLE:
Dynamic Interactions in the Atmosphere
AUTHORS:
Gabriel Barceló
KEYWORDS:
Atmospheric Vortex, Rotational Dynamics, Non-Coaxial Spins, Velocity Fields, Dynamic Interactions, Theory of Dynamic Interactions
JOURNAL NAME:
Atmospheric and Climate Sciences,
Vol.4 No.5,
November
20,
2014
ABSTRACT: Even today, with the great progress that
has been made in the scientific, technological and computational fields, we
are still stunned by the devastating effects brought about by atmospheric
phenomena. This paper aims to propose new hypotheses in the field of dynamics
to enhance our understanding of the behaviour of atmospheric disturbances caused
by rotating winds. I believe that the criteria of classical dynamics that are
applied to vortex systems in the atmosphere should be rigorously reviewed. I
propose to establish new hypotheses in the field of dynamics, in order to
better interpret rotation in nature. These hypotheses have been structured into
a new theory that has been tested experimentally by both ourselves and third
parties, with positive results. I propose to use the Theory of Dynamic
Interactions (TDI) to interpret the behaviour of systems undergoing
successive rotations around different axes—which we will refer to as
non-coaxial rotations. I hold that this theory applies to air masses and groups
of particles in suspension that are accelerated by rotations. Accordingly, it
should be used to interpret the behaviour of tornadoes, cyclones and
hurricanes. I believe that this proposal could enhance our understanding of
these atmospheric phenomena and improve predictions about them.