TFNR - Elementary Relations
For Elementary Relation we intend any Relation that emerges between Elementary Events in the fundamental Dimensions of Reality (Cause, Space and Time) of the state of the Primary Source (Fundamental Force and Elementary Field) in itself.
The most elementary form of Relation is the correlation or dependence between the elementary fluctuations of / in the Elementary Field at Planck Scale (commonly named as quantum fluctuations, quantum vacuum, quantum foam, etc.), which we call Elementary Events.
Correlations between the (local, point) distributions of those fluctuations, which can be described by a combination of stochastic and deterministic processes. At the most elementary level of Reality, where the inner interaction of the Fundamental Force and the Elementary Field incessantly occurs, producing the Elementary Events that form the Elementary Action, the correlations between the distributions can be described by Processes of Events in which stochastic component in almost completely prevalent, and the deterministic part absolutely marginal.
In the more and more complex levels of Reality, we see a minor prevalence of the stochastic component, in favor of the emergence of a more important deterministic part. When the Events become more and more complex, macro-events acquire a larger space and time extension, the stochastic component, the "quantum" aspects, governed by indetermination, uncertainty, mediates, becoming less prevalent, less quantitatively and qualitatively important, than the deterministic aspects (processes of events supporting the existence of macro-objects, i.e. an apple, show more deterministic characteristics and phenomena, than those supporting the Existence of molecules and atoms, all the particles and waves the make up that apple). The collective behavior of all the Processes of Events representing the Existence and the Essence / Form of the particles and waves that make up the apple, and every interaction between them, which can be described by more stochastic than deterministic processes, manifests less "quantum" (stochastic) and more "deterministic" aspects, as we see in our everyday esperience.
Links to the tables of contents of TFNR Paper
