Abstract:
The aim of this paper is to present the laws of motion that can be derived from the Theory of Dynamic Interactions, and
of its multiple and significant scientific applications. Based on a new interpretation on the behaviour of rigid bodies
exposed to simultaneous non-coaxial rotations, we have developed a hypothesis regarding the dynamic behaviour of
these bodies. From these hypotheses and following the observation of the behaviour of free bodies in space, we have
developed axioms and a mathematical-physical model. Consequently, we have deduced a movement equation, coherent
with the hypotheses and the observed behaviour. This dynamic model, in the case of rigid solid bodies or systems, allows
putting forward a series of laws and corollaries in relation to its dynamic performance. These laws have subsequently
been confirmed by experimental tests. The whole of this research constitutes a rational and conceptual structure
which we have named Theory of Dynamic Interactions (TID). This logical deductive system allows predicting the behaviour
of solid bodies subject to multiple accelerations by rotation. In the conclusions, we underline that coherence has
been obtained between the principles and axioms, the developed physical-mathematical model, the obtained movement
equation, the deduced laws and the realised experimental tests
