Difference between revisions of "Fundamental Physical Principles"
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==== Principle of General Equivalence ==== | ==== Principle of General Equivalence ==== | ||
| + | The [[Principle of General Equivalence]] describes the equivalence between different [[Fundamental Physical Quantities|physical quantities]], apparently non connected. For example: the amount of the perturbations in the distributions of the fluctuations of / in the [[Elementary Field]] ([[Elementary Events]]), the velocity of propagation of perturbations in the Elementary Field (propagation of [[Causality]]), the [[Mass and gravitational phenomena|mass]] and [[dark energy]] density, the metric of [[space]]-[[time]], the temperature of the Field), and, indirectly, between some derived physical quantities (speed of light in a vacuum, mass of the structures of dark and ordinary matter, dimensions and geometric properties of Physical Reality). | ||
==== Derived Physical Principles - Laws of Nature ==== | ==== Derived Physical Principles - Laws of Nature ==== | ||
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== See also == | == See also == | ||
Revision as of 21:46, 1 April 2022
Contents
- 1 Definition
- 2 Common definition
- 3 Description
- 3.1 Principle of Uncertainty
- 3.2 Principle of Action and Reaction
- 3.3 Principle of Least Action
- 3.4 Other Physical Principles
- 3.5 Principle of Locality
- 3.6 Principle of Quantization
- 3.7 Principle of Relation in Physical Reality
- 3.8 Principle of General Equivalence
- 3.9 Derived Physical Principles - Laws of Nature
- 4 See also
- 5 Links to the related sections of the TFNR Paper
- 6 Classification
Definition
The Fundamental Physical Principles are cognitive representations of the ways in which the Physical Reality manfests itself in the physical domain of Nature and evolves in a general sense.
The Fundamental Physical Principles describe why and how Physical Events and Physical Relations emerge and co-evolve, why and how Physical Action takes a form, becoming Physical Information, and determining how Existence takes the Essence / Form we see in the world. They describe the fundamental ways in which Physical Entities manifest themselves in the construction, in the formation of Physical Reality, how the fundamental Physical Processes of Formation, Physical Creation and Physical Evolution, give shape to the world we live in. They express general propeties and behaviors of Physical Reality, from the most elementary levels to those more complex.
The Fundamental Physical Principles, while maintaining their fundamental identity, express themselves in different forms in the various Levels of Physical Reality, at the different dimensional scales, at the different levels of complexity.
Common definition
Links to Wikipedia pages:
Description
A synthetic description of the Fundamental Physical Principles.
Principle of Uncertainty
The Principle of Uncertainty describes the creation of perturbations (Perturbation), of micro-gradients, in the distribution of elementary fluctuations, micro-gradients that compose the Action, the most basic form of Existence.
Principle of Action and Reaction
The Principle of Action and Reaction describes the formation of translational reactions (Translation), produced by the interactions among micro-gradients and aimed at restoring homogeneity, or isotropy, in the distribution of elementary fluctuations.
Principle of Least Action
The Principle of Least Action describes the formation of rotational reactions (Rotation), due to the interactions between translational actions, aimed at preserving the inhomogeneities, or anisotropies, in the distribution of elementary fluctuations.
Other Physical Principles
Principle of Locality
Principle of Quantization
Principle of Relation in Physical Reality
The Principle of Relation describes the interaction of micro-states, from whose organization the phenomenical reality emerge.
Principle of General Equivalence
The Principle of General Equivalence describes the equivalence between different physical quantities, apparently non connected. For example: the amount of the perturbations in the distributions of the fluctuations of / in the Elementary Field (Elementary Events), the velocity of propagation of perturbations in the Elementary Field (propagation of Causality), the mass and dark energy density, the metric of space-time, the temperature of the Field), and, indirectly, between some derived physical quantities (speed of light in a vacuum, mass of the structures of dark and ordinary matter, dimensions and geometric properties of Physical Reality).
Derived Physical Principles - Laws of Nature
See also
- Principles
- Fundamental Principles of Evolutionary Dynamics
- Principle of Variation
- Principle of Propagation
- Principle of Conservation
- Other Principles of Evolutionary Dynamics
- Principle of Unity
- Principle of Connection
- Principle of Individuation
- Principle of Relation
- Principle of Evolution
- Principle of Equivalence
- Physical Principles
- Principle of Uncertainty
- Principle of Action and Reaction
- Principle of Least Action
- Cognitive Principles
- Metacognitive Principles
- TFNR - The Principle of Reality
- TFNR - The Principles of Reality
- TFNR - The principle of individuation
- TFNR - The fundamental principles of the Elementary Dynamics (Principles of Action)
- TFNR - Recipe for constructing a Reality
- TFNR - From the fundamental principles to the laws of nature
- TFNR - The fundamental principles of the dynamics of the Elementary Field
- TFNR - The principle of Uncertainty
- TFNR - The principle of Action and Reaction)
- TFNR - The principle of Minimum Action
- TFNR - The principle of Relation
- TFNR - The principle of General Equivalence
Classification
- Topic id: t_ph_fund_principles
- Belongs to the class: Fundamental Principles of Evolutionary Dynamics
- Has as instances: Principle of Uncertainty, Principle of Action and Reaction, Principle of Least Action
- Belongs to the groups: Principles
- Semantic Map: ekm|map=m_ph_dynamics&topic=t_ph_fund_principles
- Semantic Map Test Version: ekmt|map=m_ph_dynamics&topic=t_ph_fund_principles
