Difference between revisions of "Classification of Physical Structures"
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== Definition == | == Definition == | ||
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| + | Physical Structures of Information, according to their nature, can be classified in '''two fundamental/pure types and a mixed type''' produced by the interaction between the two: | ||
| + | *[[Waves]]: physical [[Structures of Propagation]] | ||
| + | *[[Vortices]] physical [[Structures of Conservation]] | ||
| + | *[[Physical Interactions]]: | ||
| + | *[[Mixed Physical Structures]]: | ||
| + | |||
| + | According to their mass density | ||
| + | *[[Energy structures]]: null mass density | ||
| + | *[[Matter structures]]: no null mass density | ||
| + | |||
| + | According to the visibility: | ||
| + | *[[Dark structures]] | ||
| + | *[[Visible structures]] | ||
| + | |||
Le particelle elementari si uniscono per formare strutture complesse a tutte le scale dimensionali, dai protoni composti da quark, agli atomi e molecole, attraverso gli stati della materia (gas, liquidi e solidi, ecc.) fino agli enormi conglomerati di materia nelle stelle e galassie. Tutto ciò attraverso le quattro fondamentali forze o modalità di interazione. | Le particelle elementari si uniscono per formare strutture complesse a tutte le scale dimensionali, dai protoni composti da quark, agli atomi e molecole, attraverso gli stati della materia (gas, liquidi e solidi, ecc.) fino agli enormi conglomerati di materia nelle stelle e galassie. Tutto ciò attraverso le quattro fondamentali forze o modalità di interazione. | ||
Revision as of 22:46, 20 September 2021
Definition
Physical Structures of Information, according to their nature, can be classified in two fundamental/pure types and a mixed type produced by the interaction between the two:
- Waves: physical Structures of Propagation
- Vortices physical Structures of Conservation
- Physical Interactions:
- Mixed Physical Structures:
According to their mass density
- Energy structures: null mass density
- Matter structures: no null mass density
According to the visibility:
Le particelle elementari si uniscono per formare strutture complesse a tutte le scale dimensionali, dai protoni composti da quark, agli atomi e molecole, attraverso gli stati della materia (gas, liquidi e solidi, ecc.) fino agli enormi conglomerati di materia nelle stelle e galassie. Tutto ciò attraverso le quattro fondamentali forze o modalità di interazione.
d_ph_str_classification Classificazione delle Strutture Fisiche "Le particelle elementari si uniscono per formare strutture complesse a tutte le scale dimensionali, dai protoni composti da quark, agli atomi e molecole, attraverso gli stati della materia (gas, liquidi e solidi, ecc.) fino agli enormi conglomerati di materia nelle stelle e galassie. Tutto ciò attraverso le quattro fondamentali forze o modalità di interazione."
Common definition
(Link to Wikipedia page: Structures).
Description
See also
- TFNR - 2.10 The duality problem: Wave vs Particle models of e.m. radiation and particles
- TFNR - 2.10 Gravitational and electromagnetic fields as a partial view of the dynamics of the Elementary Field
- TFNR - 9. The Structures of Information
- TFNR - 9.1 Waves – Radiation
- TFNR - 9.2 Vortices – Elementary particles of matter
- TFNR - 9.3 Mixed structures – Complex vortices/particles and interactions
- TFNR - 9.4 Interactions between matter and radiation
- TFNR - 9.5 Properties of the Structures of Information and the connected derived forces and fields
- TFNR - 9.5.5 A general concept of Inertia
- TFNR - 9.5.6 Complex forces and fields
- TFNR - 9.6 Continuity and quantization, fields and particles, waves and vortices: the duality
- TFNR - 9.7 Locality, separability, individuation and measurement
- TFNR - 9.8 Observing Structures from absolute or relative perspectives
Classification
- Topic id: t_ph_struct_classification
- Belongs to the class:
- Has as instances:
- Belongs to the groups:
- Semantic Map: ekm|map=m_ph_dynamics&topic=t_ph_struct_classification
- Semantic Map Test Version: ekmt|map=m_ph_dynamics&topic=t_ph_struct_classification
