Difference between revisions of "Mass and gravitational phenomena"

From Evolutionary Knowledge Base
Jump to: navigation, search
(Definition)
(Definition)
 
Line 22: Line 22:
  
 
Only for descriptive purposes and to maintain a certain adherence to the common vision of reality, we keep these two phenomenologies distinct, which in fact General Relativity has already recognized as intimately linked. Here we take a step further. '''We recognize their substantial identity''', a common origin, nature and dynamics. Mass can be defined as the curvature of space-time. The curvature is not an effect, a phenomenon, deriving from the existence of a mass, but is the true nature of the mass itself: the curvature of space-time "is" mass, and viceversa. In short, we do not consider mass here as a source of space-time curvature, of expansion-contraction of the metric, but we recognize them as the same thing, '''the same expression of the same deep and intimate nature of [[Physical Reality]]'''.
 
Only for descriptive purposes and to maintain a certain adherence to the common vision of reality, we keep these two phenomenologies distinct, which in fact General Relativity has already recognized as intimately linked. Here we take a step further. '''We recognize their substantial identity''', a common origin, nature and dynamics. Mass can be defined as the curvature of space-time. The curvature is not an effect, a phenomenon, deriving from the existence of a mass, but is the true nature of the mass itself: the curvature of space-time "is" mass, and viceversa. In short, we do not consider mass here as a source of space-time curvature, of expansion-contraction of the metric, but we recognize them as the same thing, '''the same expression of the same deep and intimate nature of [[Physical Reality]]'''.
 +
 +
[[Mass]] is the deformation of the [[Metric]].
 +
 +
The deformation of the [[Metric]] is [[Mass]].
 +
 +
They are not only equivalent, they are the same thing, expression of the same fundament: [[Perturbation]].
  
 
== Common definition  ==
 
== Common definition  ==

Latest revision as of 22:19, 8 December 2021

Definition

It is the condition of a region of the Elementary Field where the distribution of the stochastic fluctuations (Elementary Events) that constitute the Elementary Action is lower than the mean distribution of the surrounding regions.

So, in a massive domain of the Field, as for a particle of matter, we can identify a "gradient", a particular form of the correlation of the distributions of the intensity of the elementary fluctuations (Perturbation) of the point-events that compose that domain, in the sense of a minor intensity of those perturbations.

This is the root of gravitational phenomena.

The fundamental definition of mass, strictly related to the properties and dynamics of the Elementary Field, is the difference of the intensity of Perturbation, the non-directional component of Action in a part of the Field with respect to the surrounding regions.

The concept of mass (or mass density of space-time domains, that characterize many physical entities / quantities that we observe or suppose as basic constituents of the physical world: dark matter, dark energy, ordinary matter), in relation with the Principle of Equivalence, can be expressed in more than one way (all equivalent to Mass):

  • the amount of Perturbation, the density of the elementary perturbations (inhomogeneities/gradients in the distributions of the quantum fluctuations of the Elementary Field that we call Elementary Events) that characterize the Elementary Action
  • space-time curvature of the metrics, that determine the dimensions and the geometric properties of physical reality (in a relativistic perspective, mass can be defined as the curvature of space-time. The curvature is not an effect, a phenomenon, deriving from the existence of a mass, but is the true nature of the mass itself: the curvature of space-time "is" mass, and viceversa)
  • temperature of the Elementary Field or the temperature of space-time (see the phenomena called CMB - Cosmic Microwave Background)
  • velocity of propagation of information/causality in the Elementary Field or speed of light in the void/vacuum

As a result of the Principle of General Equivalence, the two arguments Space-time and metric phenomena and Mass and gravitational phenomena should collapse into a single topic. But we are used to considering space-time and mass as two distinct entities or phenomena. In fact, space-time extension and mass density are the same thing, they are (apparently) different manifestations of the same Dynamics of the Elementary Field, of the same Modes / component of the Elementary Action, which we call Perturbation. Thus, we should speak of space-time / mass and metric / gravitational phenomena instead of two distinct and different phenomenologies.

In short, Mass = deformation of the Space-time metric. The deformation is here understood as a non-homogeneity in the metric of Space-time, a curvature as it is commonly called, a non-homogeneity in the distribution of the intensities of the Elementary Events, the elementary fluctuations in / of the Elementary Field on the Planck scale.

Only for descriptive purposes and to maintain a certain adherence to the common vision of reality, we keep these two phenomenologies distinct, which in fact General Relativity has already recognized as intimately linked. Here we take a step further. We recognize their substantial identity, a common origin, nature and dynamics. Mass can be defined as the curvature of space-time. The curvature is not an effect, a phenomenon, deriving from the existence of a mass, but is the true nature of the mass itself: the curvature of space-time "is" mass, and viceversa. In short, we do not consider mass here as a source of space-time curvature, of expansion-contraction of the metric, but we recognize them as the same thing, the same expression of the same deep and intimate nature of Physical Reality.

Mass is the deformation of the Metric.

The deformation of the Metric is Mass.

They are not only equivalent, they are the same thing, expression of the same fundament: Perturbation.

Common definition

Links to Wikipedia pages:

Description

Mass is a phenomenon, something that happens... A process, a dynamic condition, not a state, a property / phenomenon of / in the Elementary Field. It is the dynamical condition of a space-time domain in which the distribution of the stochastic perturbations, the Elementary Action, is lower than the average distribution. Thus, in a mass domain, as for a particle of matter, we can identify a gradient, a particular form in the correlation in the intensity distributions of elementary fluctuations (Perturbation) of the event-points that make up this domain, in the sense of a lesser intensity the same perturbations.

See also

Links to the related sections of the TFNR Paper

Classification