piątek, 22 listopada 2024

The Horizon of our Now

The Horizon of our Now - is this the area of the surrounding Reality, or just a kind of illusion? How observation of objects that are "located" in the area of our reach - this is the Horizon of our Now. Objects outside the Horizon of our Now are observed according to other laws. First, however, we will try to define the concept of the Horizon of our Now. This is not easy, and the boundary of our Horizon cannot yet be fully defined. Our Quantum Space Theory assumes a connection between Time and Gravity. For more information about Spacetime Horizon, see the link.

The horizon of our Now, is the area limited by the deflection of our Spacetime beyond which, information has a completely different meaning. How to explain it? Well, according to the General relativity, some phenomena can be explained, such as Gravitational Lensing. Gravitational lensing is the curvature of light rays in the gravitational field of a massive celestial body leading to their concentration. The effect of gravitational lensing is the observed brightening of the source and the appearance of apparent celestial bodies - images of real bodies.

To what can the Horizon of our Now be compared? What analogy to use that could convey the meaning of this concept? It seems that the Horizon of our Now is related to the concept of time and to the concept of Gravity. If the long-range objects we observe are illusions and long gone, what may seem real to our Now can be compared to the area of the Galaxy in which we make observations - in our case, it will be the area of our Galaxy - it is the Milky Way. It seems that it is the mass of our entire galaxy (the Milky Way) that can be limited by the Horizon of our Now.

The mass of the Galaxy sets the rhythm - its own pulse and direction, which is a component of the expansion of our Universe. The expansion of our Galaxy is part of the age and expansion of our entire Universe. Therefore, we have the impression that the expansion is taking place within our Galaxy in all directions - and so we can assume, because it is our Here and Now.

The mass of the Galaxy influences the course of observations and the information that reaches us in the process of observation is subject to time determination. This may mean that "light" as a carrier of information about objects within our Galaxy must go back in time. The backwardness in time of "light" as a carrier of information is accomplished due to the deflection of Spacetime in the Horizon of Our Now.

Our Galaxy comes from the direction of the Initial Singularity. Other Galaxies may be phantom objects, which at the time of observation may no longer exist as we observe them. Thus, the Horizon of our Now marks the boundary beyond which information loses its validity. This means that beyond the Horizon of our Now, nothing is likely to exist anymore in the shape in which we make observations.

The Horizon of our Now. The laws of observation in the area of our Horizon of Now.
The Horizon of our Now. The laws of observation in the area of our Horizon of Now. An observer on Earth, observes an object that is older than Earth - the point of observation. The difference in time is 100 million light years. This means that at Er.T2 we are observing an object that existed at Ob.T2. However, this is an apparent object, because at the time of our observation the object is already observed at Ob.T4. However, we will only be able to observe it in another 100 million light years. It is possible to reach our object at the same time through a spacetime wormhole, but it is after our time is destabilized.

In the process of observation in the spacetime horizon area of our Now, Information about distant objects must be completed, otherwise it would be useless. Such information loses its validity. Because the "Initial Singularity" has the greatest influence on the expansion of the Universe, and it is it that sends the plan and rules according to which the expansion of our Galaxy also takes place.

Our Galaxy is only a part of the Universe, so it is also a part of the expansion. From the outer edges of the "Initial Singularity" flows all available "time," all the changes that shape our Reality - our Spacetime Horizon. This means that Dark Matter, is all possible "changes" scattered in time, which has a very weak impact for any one moment of our "time."

Energy (light) with information must go back in time to complete the code for the observer. It then travels out to the observer according to the direction of the Universe's expansion. Therefore, the observed object may be in a different location at the time of observation in our Now, even though we know its presumed location 100 million light years ago (the object's distance of 100 million light years from the observer). The horizon of our Now deflects Spacetime so much that the light that travels to us must go back in time. Thus, a lensing effect is created, which is so strong that in order to overcome it, the light goes back in time - this is a TIME interaction.

Light contains information about the observed object. This information does not meet our criteria, so the light must "go back" in time (the yellow color of the observation trajectory) to return to the place of a similar interpretation of the description of the then Reality. It must reach the vicinity of the Spacetime Horizon of our Now. Then, according to the direction of our passage of time already (red color of the observation trajectory), the light with the completed information will follow to our Time Dimension - to our Here and Now. Every observation of distant objects must be lensed through the "Initial Singularity" it is there that the code of information, which is contained in the light, is replenished.

We interpret the connection that shortens and eliminates the influence of such a huge time-gravity interaction as the "Initial Singularity" as an Einstein-Rosen bridge (Einstein field equations). The "Initial Singularity" is outside of time. If so, the "Initial Singularity" could not evaporate, it is the engine of the expansion of the Universe. Everything must be subject to it if it is to be stable in time.

Once destabilized in time, the Einstein-Rosen bridge can be used. The observed distant object in our Here and Now is older than our Earth from our point of view. Of course, this assumes that time passes identically throughout the Horizon of our Now, and this is not so certain, so creating a wormhole requires destabilization of time.

Marek Ożarowski 

Brak komentarzy:

Prześlij komentarz

Time counter

Time counter. How does time actually pass? What interpretation can a time counter have? We already know that our time is directional - it p...