Difference between revisions of "States of Elementary Field"
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| − | We can observe / consider [[Physical | + | We can observe / consider [[Physical states]] essentially at the two macro [[Levels of Physical Reality|levels of complexity]] of [[Physical Reality]]: |
*[[States of Elementary Field]]: Physical States at the level of the [[Elementary Field]], regarding the [[Modes of Physical Action]]: [[Perturbation]], [[Translation]], Rotation ([[Rotation:Chirality]] and [[Rotation:AxisOrientation]]) | *[[States of Elementary Field]]: Physical States at the level of the [[Elementary Field]], regarding the [[Modes of Physical Action]]: [[Perturbation]], [[Translation]], Rotation ([[Rotation:Chirality]] and [[Rotation:AxisOrientation]]) | ||
*[[States of Physical Fields]]: Physical States at the level of the [[Derived Physical Fields]], regarding the [[Derived structured physical forces and fields]] and the [[Properties of Physical Structures of Information]]: [[Space-time and metric phenomena|Space-time metric]] and [[Mass]], [[Motion]], [[Charge]], [[Spin]], and the more complex, closer to the discrete / quantized dimension, the Weak nuclear force and field and the Strong nuclear force and field. | *[[States of Physical Fields]]: Physical States at the level of the [[Derived Physical Fields]], regarding the [[Derived structured physical forces and fields]] and the [[Properties of Physical Structures of Information]]: [[Space-time and metric phenomena|Space-time metric]] and [[Mass]], [[Motion]], [[Charge]], [[Spin]], and the more complex, closer to the discrete / quantized dimension, the Weak nuclear force and field and the Strong nuclear force and field. | ||
Revision as of 20:18, 1 January 2022
Contents
Definition
We can observe / consider Physical states essentially at the two macro levels of complexity of Physical Reality:
- States of Elementary Field: Physical States at the level of the Elementary Field, regarding the Modes of Physical Action: Perturbation, Translation, Rotation (Rotation:Chirality and Rotation:AxisOrientation)
- States of Physical Fields: Physical States at the level of the Derived Physical Fields, regarding the Derived structured physical forces and fields and the Properties of Physical Structures of Information: Space-time metric and Mass, Motion, Charge, Spin, and the more complex, closer to the discrete / quantized dimension, the Weak nuclear force and field and the Strong nuclear force and field.
A State of the Elementary Field is any possible configuration of Elementary Field, of the organization of the Physical Relations between Elementary Events in / of it, any snapshot of an elemenary Physical Process, in the totality of the Elementary Field or of more or less extended domains in / of it.
Common definition
Links to Wikipedia pages:
Description
See also
- Physical states
- States of Elementary Field
- Nothingness
- Emptiness
- Somethingness
- Vacuum
- Void
- Microstates
- Structured Elementary Field
- States of Physical Fields
- Cognitive states
- States of Cognitive Fields
- Information
- Relation
- Complexity
- Relations
- The Cycle of Information
- Events
- TFNR - Energy and matter in the structured Field
- TFNR - Energy
- TFNR - Dark Energy
- TFNR - Ordinary Energy
- TFNR - Some common physical phenomena in the structured Field
- TFNR - The role of emergence in the construction of Reality
- TFNR - Nothing is absolute, everything is relative and evolves
- TFNR - Relations: Information/Energy - Complexity - Evolution/Essence (Form)
- TFNR - What evolves?
- TFNR - Relation and Information: the “objects” of evolution
- TFNR - Information “and/or” Energy
- TFNR - Evolution: the Metabolic Cycle of Information
- TFNR - Information and complexity
- TFNR - Chaos, Organization, Order: entropy and …enthalpy
- TFNR - From chaos to order: state / phase transitions
- TFNR - Different kinds of order
Classification
- Topic id: t_states_el_field
- Belongs to the class: States
- Has as instances:
- Belongs to the groups: Dynamics of Information
- Semantic Map: ekm|map=m_ev_dynamics&topic=t_states_el_field
- Semantic Map Test Version: ekmt|map=m_ev_dynamics&topic=t_states_el_field
