Difference between revisions of "Particles / Vortices"
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== Definition == | == Definition == | ||
{{Def-en|1={{PAGENAME}}}} | {{Def-en|1={{PAGENAME}}}} | ||
| − | + | [[Matter]] is made up of sets / networks of [[Physical Structures of Information]] whirling in interaction, characterized by [[Derived structured physical forces and fields]]: [[Mass]], [[Motion]], [[Charge]], [[Spin]]. | |
| − | + | In this [[Evolutionary System of Knowledge]], the massive Structures that made up Matter are called Vortices. In the common or science language these kind of strctures are called Particles (they and their interactions are described by the Standard Model of Particles and by the Quantum Field Theory. | |
| − | + | Due to its nature, structure, visibility, density and other fundamental properties, Vortices can be classified in: | |
| + | |||
| + | *[[Dark matter]] vortices: low density extended material structures, like galactic halos, cluster halos, all the dark huge structures that made up the cosmic web | ||
| + | *[[Visible matter]] vortices: high density compact material structures, the particles of ordinary matter and the exotic one (like that produced in the colliders, in the high energy interactions of cosmic rays, in the cores of the stars, neutron stars, etc.): | ||
| + | **Baryons | ||
| + | ***Leptons | ||
| + | ***Hadrons | ||
| + | Composite structures (nucleons: protons, neutrons, mesons, etc.) are the result of the interaction of more elementary structures. | ||
== Common definition == | == Common definition == | ||
Revision as of 19:37, 24 October 2021
Contents
Definition
Matter is made up of sets / networks of Physical Structures of Information whirling in interaction, characterized by Derived structured physical forces and fields: Mass, Motion, Charge, Spin.
In this Evolutionary System of Knowledge, the massive Structures that made up Matter are called Vortices. In the common or science language these kind of strctures are called Particles (they and their interactions are described by the Standard Model of Particles and by the Quantum Field Theory.
Due to its nature, structure, visibility, density and other fundamental properties, Vortices can be classified in:
- Dark matter vortices: low density extended material structures, like galactic halos, cluster halos, all the dark huge structures that made up the cosmic web
- Visible matter vortices: high density compact material structures, the particles of ordinary matter and the exotic one (like that produced in the colliders, in the high energy interactions of cosmic rays, in the cores of the stars, neutron stars, etc.):
- Baryons
- Leptons
- Hadrons
- Baryons
Composite structures (nucleons: protons, neutrons, mesons, etc.) are the result of the interaction of more elementary structures.
Common definition
(Link to Wikipedia page: Particle).
Description
Cos'è la materia
La materia è costituita da Strutture di Informazione. Può essere classificata in m. oscura (forme materiali estese a bassa densità) e m. ordinaria (particelle e radiazione). Le strutture elementari della materia ordinaria (elettroni, neutrini, quark, bosoni) si dividono in onde (radiazione) e vortici (particelle). Le strutture composite (protoni, neutroni, mesoni, ecc) sono risultato della interazione delle Strutture elementari. La particelle sono rappresentate da Strutture vorticose (o sistemi di vortici) nel tessuto spazio-temporale costituito dalle perturbazioni del Campo elementare.
Natura della materia
La natura della materia, delle particelle elementari e della radiazione, e delle loro grandezze fondamentali, la massa, il moto, la carica e lo spin, derivano dalle proprietà del Campo. Le particelle elementari vengono intese come Strutture di Informazione - processi di eventi nel Campo stesso.
See also
- TFNR - 9.9 Energy and matter in the structured Field
- TFNR - 9.11 Matter
- TFNR - 9.11.1 Dark matter
- TFNR - 9.11.2 Ordinary matter
- TFNR - 9.12 Some common physical phenomena in the structured Field
Classification
- Topic id: t_particles_vortices
- Belongs to the class: Ordinary matter
- Has as instances:
- Belongs to the groups:
- Semantic Map: ekm|map=m_ph_dynamics&topic=t_particles_vortices
- Semantic Map Test Version: ekmt|map=m_ph_dynamics&topic=t_particles_vortices
