Fundamental Principles of Evolutionary Dynamics

From Evolutionary Knowledge Base
Jump to: navigation, search

Definition

The Fundamental Principles of Evolutionary Dynamics are cognitive representations of the ways in which the unitary Reality shows itself and evolves in a general sense.

The Fundamental Principles of Evolutionary Dynamics describe why and how Events and Relations emerge and co-evolve, why and how Action takes a form, becoming Information, and determining how Existence takes the Essence / Form we see in the world. They describe the fundamental ways in which Entities manifest themselves in the construction, in the formation of Reality, how the fundamental Processes of Formation , Creation and Evolution, give shape to the world we live in. They express general behaviors of Reality, from the most elementary levels to those more complex.

The Fundamental Principles of Evolutionary Dynamics, while maintaining their fundamental identity, express themselves in different forms in the various domains of Reality (physical, cognitive and metacognitive), at the different levels of Reality, at the different dimensional scales, at the different levels of complexity.

Common definition

Links to Wikipedia pages:

Description

A synthetic description of the Fundamental Principles of Evolutionary Dynamics.

Principle of Uncertainty

The Principle of Uncertainty describes the creation of perturbations (Perturbation), of micro-gradients, in the distribution of elementary fluctuations, micro-gradients that compose the Action, the most basic form of Existence.

Principle of Action and Reaction

The Principle of Action and Reaction describes the formation of translational reactions (Translation), produced by the interactions among micro-gradients and aimed at restoring homogeneity, or isotropy, in the distribution of elementary fluctuations.

Principle of Least Action

The Principle of Least Action describes the formation of rotational reactions (Rotation), due to the interactions between translational actions, aimed at preserving the inhomogeneities, or anisotropies, in the distribution of elementary fluctuations.

See also

Links to the related sections of the TFNR Paper

Classification