Difference between revisions of "Elementary Field"

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== Definition ==
 
== Definition ==
 
{{Def-en|1={{PAGENAME}}}}
 
{{Def-en|1={{PAGENAME}}}}
 
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The Elementary Field, from which all the various known [[Derived Fiedls|fields]] derive, is the passive, receptive aspect of the fundamental [[Entities|entity]], the [[Primary Source]]. It is the substrate and the object of the [[Events]] that form [[Reality]].  
Può assumere due stati fondamentali:<br>
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*[[Non Esistenza]] - [[Nulla]]: stato caratterizzato da assenza dell'azione causale [[Perturbazione|perturbativa]] della [[Forza]], assoluta omogeneità del parametri che caratterizzano il Campo,<br>
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*[[Esistenza]]: in presenza dell'azione causale perturbativa della [[Forza]], il Campo subisce una transizione di stato, dalla condizione di non esistenza all'esistenza, dal nulla all'[[Azione]], l'insieme degli Eventi, la forma più elementare di esistenza.<br>
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Un semplice schema lega il Campo alla Forza e all'Azione:
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Campo (Agito) + Forza (Agente) => Eventi (Azione). Ente + Ente => Fenomeno: è il dominio della Dinamica Evoluzionistica."
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The Elementary Field (by which derive all the various known [[Derived Fiedls|fields]]) is the passive, receptive aspect of the fundamental [[Entities|entity]], the [[Primary Source]].  
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It is the substrate of the [[Events]] that form [[Reality]].
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It can have two fundamental states:
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*[[Non Existence]] - [[Nothingsness]]: state characterized by absence of causal action [[Perturbations|perturbative]] of the [[Force]], absolute homogeneity of the parameters that characterize the Field, <br> *[[Existence]]: in presence of the causal perturbative action of the [[Force]], the Field  undergoes a transition of state, from the condition of non existence to the existence, from the nothingness to the [[Action]], the set of the Events, the most elementary form of existence. <br>
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A simple pattern that ties the Field to the Force and to the Action: Fundamental Force (Agent) << Action of the Force on the Field and reaction of the Field on the Force >> Elementary Field (Acted) => Events (Action).
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Formation: Ontological aspect: '''Entity <--Inner interaction--> Entity''' --Creation--> Phenomenological aspect: '''Events (Action)''' --Evolution--> Dynamical aspect: '''Relations, Processes''' --> Information, Structures, Forms, Universe.
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== Common definition  ==
 
== Common definition  ==
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<br>
 
<br>
 
Nel caso di un campo di forze, come il campo gravitazionale e il campo elettrico, il concetto di campo è strettamente correlato con quello di interazione a distanza. {{WpLink}}
 
Nel caso di un campo di forze, come il campo gravitazionale e il campo elettrico, il concetto di campo è strettamente correlato con quello di interazione a distanza. {{WpLink}}
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In physics, a field is a defined entity in every point of space, or more generally of spacetime.
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<br>
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The fields are represented mathematically as scalar, spinorial, vector and tensor. For example, the gravitational field can be modeled as a vector field where a vector indicates the acceleration exerted on a mass for each point. This intuitively, even if the gravitational field indicates the force acting on a unitary mass and not an acceleration (a book placed on a table does not undergo any acceleration but a force field). Other examples may be the temperature range or the atmospheric pressure range, which are often illustrated by isotherms and isobars by connecting the points that have the same temperature or pressure respectively.
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<br>
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From this point of view a field can be more simply defined as the set of values ​​that a given physical quantity, scalar or vector, assumes in space. Helmholtz's Theorem is fundamental for understanding fields as it provides a class of parameters that uniquely determine them.
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<br>
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In the case of a force field, such as the gravitational field and the electric field, the concept of field is closely correlated with that of distance interaction.
  
 
== Description ==
 
== Description ==
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From the dynamics of the [[Elementary Field]] an the [[Elementary Action]] emerges the physical [[space]] and [[time]], as direct manifestations of two of the fundamental emerging [[properties]] of the [[Primary Source]]: [[Spaciality]] and [[Temporality]], the other fundamental property being [[Causality]].
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It can have two fundamental states:
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*[[Non Existence]] - [[Nothingness]]: state characterized by absence of causal [[Perturbations|perturbative]] action of the [[Force]], absolute homogeneity of the parameters that characterize the Field
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*[[Existence]]: under the causal perturbative action of the [[Force]], the Field  undergoes a transition of state, from the condition of non existence to the existence, from nothingness to the [[Elementary Action]], the set of the Elementary Events, the most elementary form of existence.
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Two simple scheme that links the Field to the Force and to the Action:
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Fundamental Force (Agent) << Action of the Force on the Field and reaction of the Field on the Force >> Elementary Field (Acted) => Events (Action).
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Formation: Ontological aspect: '''Entity''' <--Inner interaction--> '''Entity''' --Creation--> Phenomenological aspect: '''Events (Action)''' --Evolution--> Dynamical aspect: '''Relations, Processes''' --> Information, Structures, Forms, Universe.
  
 
== See also ==
 
== See also ==

Revision as of 17:35, 18 May 2019

Definition

The Elementary Field, from which all the various known fields derive, is the passive, receptive aspect of the fundamental entity, the Primary Source. It is the substrate and the object of the Events that form Reality.

Common definition

In fisica, un campo è un'entità definita in ogni punto dello spazio, o più generalmente dello spaziotempo.
I campi sono rappresentati matematicamente come scalari, spinoriali, vettoriali e tensoriali. Per esempio, il campo gravitazionale può essere modellizzato come campo vettoriale dove un vettore indica l'accelerazione esercitata su una massa per ogni punto. Questo intuitivamente, anche se il campo gravitazionale indica la forza che agisce su una massa unitaria e non un'accelerazione (un libro posto su un tavolo non subisce nessun accelerazione ma un campo di forza). Altri esempi possono essere il campo di temperatura o quello della pressione atmosferica, che sono spesso illustrati tramite le isoterme e le isobare collegando i punti che hanno rispettivamente la stessa temperatura o pressione.
Sotto questo punto di vista un campo può essere più semplicemente definito come l'insieme dei valori che una data grandezza fisica, scalare o vettoriale, assume nello spazio. Il Teorema di Helmholtz è fondamentale per la comprensione dei campi in quanto fornisce una classe di parametri che li determinano univocamente.
Nel caso di un campo di forze, come il campo gravitazionale e il campo elettrico, il concetto di campo è strettamente correlato con quello di interazione a distanza. (Link to Wikipedia page: Field).

In physics, a field is a defined entity in every point of space, or more generally of spacetime.
The fields are represented mathematically as scalar, spinorial, vector and tensor. For example, the gravitational field can be modeled as a vector field where a vector indicates the acceleration exerted on a mass for each point. This intuitively, even if the gravitational field indicates the force acting on a unitary mass and not an acceleration (a book placed on a table does not undergo any acceleration but a force field). Other examples may be the temperature range or the atmospheric pressure range, which are often illustrated by isotherms and isobars by connecting the points that have the same temperature or pressure respectively.
From this point of view a field can be more simply defined as the set of values ​​that a given physical quantity, scalar or vector, assumes in space. Helmholtz's Theorem is fundamental for understanding fields as it provides a class of parameters that uniquely determine them.
In the case of a force field, such as the gravitational field and the electric field, the concept of field is closely correlated with that of distance interaction.

Description

From the dynamics of the Elementary Field an the Elementary Action emerges the physical space and time, as direct manifestations of two of the fundamental emerging properties of the Primary Source: Spaciality and Temporality, the other fundamental property being Causality.

It can have two fundamental states:

  • Non Existence - Nothingness: state characterized by absence of causal perturbative action of the Force, absolute homogeneity of the parameters that characterize the Field
  • Existence: under the causal perturbative action of the Force, the Field undergoes a transition of state, from the condition of non existence to the existence, from nothingness to the Elementary Action, the set of the Elementary Events, the most elementary form of existence.

Two simple scheme that links the Field to the Force and to the Action:

Fundamental Force (Agent) << Action of the Force on the Field and reaction of the Field on the Force >> Elementary Field (Acted) => Events (Action).

Formation: Ontological aspect: Entity <--Inner interaction--> Entity --Creation--> Phenomenological aspect: Events (Action) --Evolution--> Dynamical aspect: Relations, Processes --> Information, Structures, Forms, Universe.

See also

Classification