Physical states

Definition

A Physical state is any possible configuration of a Physical Field, of the organization of the Physical Relations between Physical Events in / of it, any snapshot of a Physical Process, in its totality or of more or less extended Space-time domains.

More in general, a state of an Physical Entity is represented by the set of the attributes, of the Physical Properties of that Physical Entity, of the Physical Events that occur in / on it and of the Physical Relations that links it to the physical environment (the set of the other existing physical entities).

Configuration of a physical dynamic system, set of the values of the parameters that describe the Physical System. A condition of a property of a Physical System.

The possible configurations (commonly called "states", regimes, phases, etc. with various different meanings) range from complete / absolute chaos (disordered systems) to complete order (ordered systems). Among these extremes we can find all the states of systems, organized states, processes, etc. It is in this territory of organization that we can find the evolution towards the complexity that characterizes the Processes that we see at work in the Formation of Physical Reality.

Physical States does not really exist. Time cannot be stopped. We can take a snapshot, and call that a State. But it is always an abstraction. Physical Systems incessantly evolve, even when they appear static and stable. Physical States, to which Physical Information / Physical Energy correspond, do not exist in Physical Reality, because Time never stops. There are only flows, there are only Physical Events, Physical Action, the products of physical creative sub-processes, the substance of everything, the materials that feed the physical evolutionary sub-processes.

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.

We must consider these "states" as conditions, modalities of organization of the events that occur in the Elementary Field and that make up its Dynamics.

A proposal of classification:

• Physical states
  • States of Elementary Field
    • Nothingness
    • Emptiness
    • Somethingness
  • States of Physical Fields
    • Vacuum
    • Void
    • Micro-states
    • Structured Elementary Field

Common definition

Links to Wikipedia pages:

• State
• Physics
• Information
• Information_(disambiguation)
• Energy
• Energy_(disambiguation)
• Time

Description

See also

• States of Elementary Field
• States of Physical Fields
• Nothingness
• Emptiness
• Somethingness
• Vacuum
• Void
• Micro-states
• Structured Elementary Field
• States of Physical Fields
• Cognitive states
• States of Cognitive Fields
• Information
• Relation
• Complexity
• Relations
• The Cycle of Information
• Events

Links to the related sections of the TFNR Paper

• 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_ph_states
• Belongs to the class: States
• Has as instances:
• Belongs to the groups:
• Semantic Map: ekm|map=m_ph_dynamics&topic=t_ph_states
• Semantic Map Test Version: ekmt|map=m_ph_dynamics&topic=t_ph_states