TFNR - Dynamics of the Structures of Information

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The Structures of Information are the product of the expression of the Operator Relation, a more complex form of interaction between the two complementary aspects of the Sources (Agents / Forces and Acted / Fields) that produces Complex Events (organization of variations of/in the Fields, that represent Essence / Form, from the first organization of the elementary level of Reality to the most complex levels).

The Dynamics of the Structures of Information is the part of Evolutionary Dynamics that, in the Process of Formation of Reality, studies the dynamics of the "schemes of organization of the Relations among Events" that incessantly form Reality, in their causal, space and time dimensions. It analyzes and describes all the processes of formation, acting at the Level of the Structures of Information, of the two principal types of Structures, the Structures of Propagation and the Structures of Conservation, and the Interactions that produce the Mixed Structures.

The Dynamics of the Structures of Information analyzes and describes the products, the results of the processes of Organization, Transformation and Selection of "structured" Information.

In general, by "Dynamics of the Structures of Information" we intend the dynamics of:


Evolutionary Ontology - Phenomenology - Dynamics


This part of Dynamics studies:

Information is the substance, the support of all the Structures and the Forms that exists, and its dynamics is the root of all the complex phenomena both in the Physical and in the Cognitive domains of Reality.


Dynamics of Physical Structures of Information

The Physical Structures of Information are Structures of Information that exist and evolve in the Physical Reality. They are the product of the expression of the Operator Relation in the physical domain of Nature. It is a more complex form of interaction between the two complementary aspects of the Physical Sources (Physical Agents / Forces and Physical Acted / Fields) that produces Complex Physical Events (organization of variations of/in the Fields, that represent Physical Essence / Form, from the first organization of the elementary level of Physical Reality to the most complex levels).

The Dynamics of Physical Structures of Information is the part of Dynamics of Physical Reality that, in the Process of Formation of Physical Reality, studies the dynamics of the "schemes of organization of the Physical Relations among Physical Events" that incessantly form Physical Reality, in their causal, space and time dimensions. It analyzes and describes all the Physical Processes of formation, acting at the Level of the Structures of Information, of the two principal types of Physical Structures, Waves, the Physical Structures of Propagation and Vortices, the Physical Structures of Conservation, and the Physical Interactions that produce the Mixed Physical Structures.

The Dynamics of Physical Structures of Information analyzes and describes the products, the results of the processes of Physical Organization, Physical Transformation and Physical Selection of Physical Information.

In general, by "Dynamics of Physical Structures of Information" we intend the dynamics of:


Physical Ontology - Phenomenology - Dynamics


This part of Dynamics studies:

Physical Information is the substance, the support of all the Physical Structures and the Physical Forms that exists, and its dynamics is the root of all the complex Physical Phenomena.

In summary, the main objects of study of the Dynamics of Physical Structures of Information are:

  • the Principles that govern the Dynamics of the Physical InfoStructures (Waves, Vortices / Halos / Particles and their Interactions)
  • all the (derived) Physical Processes that allow their Existence and determine their Evolution, in the formation of the (Mixed) Structures that compose the Material Forms, the states of matter, the objects of Physical Reality.

In this context, the interaction between InfoStructures appears as the bridge towards Material Forms. The correlation of states, the collective behavior and the Emergence as the keys to understanding their profound nature and the secrets of their dynamics. And again, the iterative and nested nature of the co-evolution of Structures that affects the levels of Physical Reality, from the most elementary to the most complex, of what exists and what can exist, the actual and the possible, makes us understand how the processes that we believe to be fundamental, immutable, segregated into defined areas, but they are not as fundamental as we would like to believe. Here too the unity of Reality shines through in the explosive multiplicity of the world which unfolds before our biological eyes and the mechanical/electronic ones that we use to observe/test the Universe at all dimensional scales.

Within conventional physics we can essentially identify classical / relativistic dynamics and quantum dynamics, with many specific dynamics within them (thermodynamics, electrodynamics, chromodynamics, etc.). In this system of Knowledge we try to go beyond this contrast, towards a synthesis that can account for natural phenomena, even those that contrast these two very different visions of Physical Reality.

Not a passive synthesis, which puts the two approaches together and tries to make them compatible. But an active synthesis, which implies the creation of a broader conceptual framework capable of providing descriptions and explanations to the natural phenomena that now undermine one or the other approach, and above all highlight their incompatibility.

As mentioned above, it is necessary to take a position on two fundamental aspects of Physical Reality that have caused and are causing so much discussion:

  • uncertainty / indetermination: it is necessary to accept that the fundamental nature of Reality is uncertain, that chaos is at its basis, which at least at small and medium scales of size (from the Planck scale up to that of particles, atoms, molecules) is possible to reach are a statistical/probabilistic knowledge of natural phenomena, even if moving towards higher scales of magnitude, all the contributions dominated by uncertainty are averaged out and become less and less significant with respect to the quantities involved, and a more and more deterministic behavior emerges in the causal evolution of Reality.
  • non-locality and action at a distance: we must clearly reject this idea that remote action is possible between systems, or parts of the same system, without "physical contact" so to speak. This idea, in addition to not being "plausible", not satisfying our natural sense of reality, leads us to a "supernatural" vision of the physical world, encourages us to develop interpretations of the world where the observer creates Reality through observation, where consciousness, which in my opinion is the result of the evolution towards complexity, is instead ontologically causal prior to the evolution of the material Universe.

As I will reiterate several times in these sections, Uncertainty and non-locality are at the basis of the weirdness of the quantum world: quantum objects can be "in two places at once", can move through barriers and share a connection no matter how far apart they are. I hypothesize and affirm that this strangeness derives from the null or incorrect understanding of the nature of quantum objects, how they are made, how they behave and what their properties are.

I will now try to outline the salient aspects of classical (and relativistic) dynamics and quantum dynamics. On the basis of these, in the section dedicated to Evolutionary Dynamics I will try to describe the hypotheses that this research project proposes to overcome incompatibilities, shed light on the strangeness of the quantum world, imagine a way to build a deeper knowledge of the Fundamental Nature of Reality at the level of the Structures of Information (Waves, Vortices / Particles, Interactions), with particular reference to the themes of indeterminacy, entanglement and non-locality, superposition, measurement and collapse of the wave function.


Links to the tables of contents of TFNR Paper