Gravity position - What is the role of gravity in our World, our Universe? The position of gravity is quite singular depending on the place of observation. Well, the first major problem is to describe the Reality around us. So far, we have managed to do this with two theories that have been experimentally confirmed - for the macro-world, it is a description according to the General relativity, while for the micro-world, the world of elementary particles, it is quantum mechanics.
Both theories are excellent for describing their worlds, but in no way can they be unified (Grand Unified Theory). This means that we live in two Realities that exist side by side. Therefore, the position of gravity may be crucial here, as well as the understanding of time. And what about Gravitational singularity? Does our ToE-Quantum Space interpret gravity differently?
It is currently impossible to reconcile gravitational interaction with the Micro-World. Our Quantum Space theory takes gravity into account and connects it directly to time. However, there remains a certain interpretation of gravity and its particular role. If the position of gravity depends on our concept of "time," then the concept of "gravity" can also have a different meaning depending on where it is observed. This means that "gravity" can have completely different perceptions.
In the macro world, the concept of gravity is very closely related to mass. The greater the mass, the greater the gravitational interaction. On Earth, we experience gravity constantly and observe its effects. We know that on smaller masses, such as the Moon, the gravitational interaction is six times smaller than on Earth. Gravity in our Macro-world is described by the General relativity. Unfortunately, but in the world of elementary particles, which is described by quantum mechanics, there is no place for gravity. Or does it? That's why the Theory of Everything is out of the question for now. So how could the two descriptions of the Universe be combined? General relativity and Standard Model.
In the micro-world of elementary particles, we are dealing with particles with zero masses (Invariant mass) - these are Photons. If this is the case, and gravity in our Macro-world depends on mass, how could these two descriptions of our Universe be combined? The world of gravity for Macro objects and the world of quantum mechanics for elementary particles. Everything depends on our interpretation of "time". Therefore, time had to gain a composite part so that time could be described as a Time Quaternion.
According of Our Quantum Space Concept, a structure is composed of Energy Points. The Points, in turn, have their assignment to a moment in time. Each Energy Point is part of a representation of a piece of matter image that is in its proper position - space and time or four-dimensional spacetime. So what is the position of gravity? If gravity is connected to time, and time has completely different meanings for the Micro-world and the Macro-world, then the concept of gravity itself must also have a different interpretation for the two worlds. The position of gravity depends on the value of time determined by the Time Quaternion.
While in the macro-world our gravity is revealed to its full extent, what happens to our world of elementary particles - in our micro-world? Well, in quantum mechanics it is difficult to find gravitational interactions for particles that have zero mass. Even if this mass is non-zero - for example, for the Electron, such an interaction seems to be imperceptible at all. However, gravity is connected to time. In the world of elementary particles, time behaves quite differently than in the Macro-world. This means that a particle like the Electron can, from our point of view, be in two places simultaneously, at the same time. So what is the position of gravity for the micro-world?
In the micro-world, gravity has only a "sign (sign of gravity)" - it has two states, either +1 or 0. Since gravity is correlated with time, this means that for a particular moment in time, elementary particles have a value of +1. At that particular moment in time, all the elementary particles that co-create a piece of matter have a positive gravitational state - only for that moment in time. This then creates a stable image of matter for a particular point in space-time, so it can only interact gravitationally through a collection of all elementary particles with the same +1 gravitational state. Such a situation is shown in the animation above.
If an elementary particle has a gravitational state of 0 (SG = 0), it means that it is not stable at that particular moment and is not affected by gravity. This means that in the world of elementary particles there is a concept of "gravity" as a gravitational state assigned to a specific moment in time.
The gravitational state in the world of elementary particles has only two values (SG = 0 or SG = +1). If SG = +1, then it affects the gravitational interaction along with all other elementary particles that have the same value of SG = +1. If the velocities of the particles are close to the speed of light, as is the case with the Photon, then such a particle has zero mass and does not affect the collective gravitational interaction - its gravitational state for any moment in time is equal to 0 (SG = 0).
Thus, the position of gravity depends on where the observation is made. For the micro-world, gravity gains a sign, that is, a value equal to +1, while for the macro-world, gravitational interaction manifests itself with a stable image of mass at a given moment of time. The position of gravity is not questioned for the Micro-world, it just has a different meaning, a different interpretation, depending on where we position the concept of gravity.
Brak komentarzy:
Prześlij komentarz