TITLE:
Theory of Dynamic Interactions: The Flight of the Boomerang
AUTHORS:
Gabriel Barceló
KEYWORDS:
Dynamic Systems Theory, Dynamic Fields, Intrinsic Angular Momentum, Speed Coupling, Celestial Mechanics, Boomerang
JOURNAL NAME:
Journal of Applied Mathematics and Physics,
Vol.2 No.7,
June
13,
2014
ABSTRACT:
We propose a new interpretation of the dynamic behavior of the boomerang
and, in general, of the rigid bodies exposed to simultaneous non-coaxial
rotations. We have developed a new rotational non-inertial dynamics hypothesis,
which can be applied to understand both the flight of the boomerang as well as
celestial mechanics. The boomerang is a particularly significant, intriguing
and widely known case of bodies in rotation. We have analyzed the velocity and
acceleration fields generated when rigid bodies are exposed to successive
torques, in order to assess new criteria for this speed coupling. In this
context, reactions and inertial fields that cannot be justified by means of
classical mechanics take place. Accordingly, we propose a new Theory of Dynamic Interactions. We
believe that the results obtained will enable us to conceive a new perspective
in dynamics, unknown to date. After carrying out ample research, we have come
to the conclusion that there still exists an unstructured scientific area in
non-inertial dynamics systems subject to rotational accelerations. The aim of
this paper is to present information of the surprising results obtained and to
attract interest in research into dynamic field systems accelerated by
rotation, and the multiple and remarkable scientific applications arising
thereof. We further propose the boomerang as a clear example of the application
of the Theory of Dynamic Interactions.