Difference between revisions of "Structures of Information"

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== See also ==
 
== See also ==
[[Dynamics of the Structures of Information]]
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*[[Dynamics of the Structures of Information]]
[[Physical Structures of Information]]
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*[[Physical Structures of Information]]
[[Cognitive Structures - Representations of Reality]]
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*[[Cognitive Structures - Representations of Reality]]
[[Structures of Propagation]]
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*[[Structures of Propagation]]
[[Structures of Conservation]]
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*[[Structures of Conservation]]
[[Interactions]]
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*[[Interactions]]
[[Mixed structures]]
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*[[Mixed structures]]
[[Classification of Physical Structures]]
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*[[Classification of Physical Structures]]
[[Properties of the Structures of Information]]
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*[[Properties of the Structures of Information]]
  
 
{{Template:LinksToTFNR}}
 
{{Template:LinksToTFNR}}
*[[TFNR - 9. The Structures of Information]]
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*[[TFNR - The Structures of Information]]
*[[TFNR - 9.1 Waves – Radiation]]
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*[[TFNR - Waves – Radiation]]
*[[TFNR - 9.2 Vortices – Elementary particles of matter]]
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*[[TFNR - Vortices – Elementary particles of matter]]
*[[TFNR - 9.3 Mixed structures – Complex vortices/particles and interactions]]
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*[[TFNR - Mixed structures – Complex vortices/particles and interactions]]
*[[TFNR - 9.4 Interactions between matter and radiation]]
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*[[TFNR - Interactions between matter and radiation]]
*[[TFNR - 9.5 Properties of the Structures of Information and the connected derived forces and fields]]
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*[[TFNR - Properties of the Structures of Information and the connected derived forces and fields]]
 
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Revision as of 21:01, 8 August 2021

Definition

The Structures of Information are the building blocks of Reality, in its physical and cognitive aspects.

They are sets of organized Information, networks of organized Relations between Events that show a certain form of collective behavior, and for this reason can be considered unities, entities / unitary systems, objects, "individuals" (Principle of Individuation / Quantization).

The Structures of Information can belong to two fundamental/pure types and a mixed type produced by the Interactions between the two:

At the fundamental level of Reality, at the level of the Elementary Field we find the Physical Structures of Information from whose aggregation and organization the Material Forms are formed.

Observing the Reality at levels of greater complexity, we find chemical, geological, biological, cosmic structures, up to the more complex ones, the Cognitive Structures of Information produced by the cognitive activity of Living Forms.

Common definition

(Link to Wikipedia page: Information).

Description

At the level of the Elementary Field, the Structures of Information represent networks of Elementary Events, or Microstates, correlated (organized by Relations), which manifest a collective behavior from which a condition of individuation emerges such that the Structures themselves can be configured as independent entities.

Waves, vortices (massive particles), interactions, constitute the network of structures that populate the descriptive models of the constituents of matter.

Among them we find the constituents of ordinary matter, the particles from whose interaction the atoms are composed, and the other particles that are created in high-energy collisions.

We also find the structures that we call Dark Matter, the diffuse low-density structures that create the texture of the cosmos, the galactic bubbles, and the even larger ones that house immense clusters.

Waves represent dynamic structures capable of carrying Information or, in terms of conventional physics, vectors of forces. Here we find electromagnetic waves and their particle counterpart, photons.

Vortices represent conservative structures, from whose fundamental nature the phenomenon of mass derives. Structured information which, due to its peculiar shape, acquires a (apparently) permanent form.

Here we find elementary particles, including leptons and quarks. From the interaction of these Structures composite particles arise, which form most of the particles that exist in nature or have been produced in accelerators (hadrons - protons, neutrons, etc. - and mesons).

See also

Links to the related sections of the TFNR Paper

Classification