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The physical space structure of the grid model

 The grid model  can potentially interpret a number of features of physical properties that are currently not fundamentally understood by tr...

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 The grid model can potentially interpret a number of features of physical properties that are currently not fundamentally understood by traditional physics and can only be described mathematically (even with quantitative precision).

The grid model is based on the idea that our physical world is created by synchronized resonances of the vibrations of stationary Planck-scale particles arranged in a lattice-like grid structure. Everything that is part of our physical reality, everything that constitutes our experienced physical world, are the formation of these resonances. 

If the grid model could be the proper description of our physical reality, another question would arise: in what spatial dimensions are the grid particles located in the lattice-like structure? 

Our physical reality exists in three-dimensional space. This statement is not just an obvious fact, but the mathematical structures of our physical laws are definitely based on the three-dimensional structure of space. However, in some physical theories, the requirement to the necessary correspondence to the properties of our physical world implies that space should actually be more than three-dimensional. All current quantum gravity theories assume that space is more than three dimensional in order for our physical reality to be properly interpreted in the theory. 

However, this assumption about space dimensions contradicts our obvious empirical facts. Current quantum gravity theories resolve this contradiction by stating that the extent of the extra dimensions of space exists in such a way that they do not affect our physical laws based on the three dimensions of space, nor our empirical reality, because are present, for example, only in a minimally extended "rolled up" compactified form to be available for the realization of the physical properties of our experienced world. 

Looking at the physical characteristics of particle properties, and knowing that the two general physical theories that describe our world, general relativity and quantum theory, are fundamentally contradictory, it does indeed seem necessary to extend the three-dimensional reality of space in some way in order to create a comprehensive, uncontradicted physical description of our world. 

The necessity to expand the spatial dimensions to properly describe reality is also suggested by the fact that the mathematical formulations we use to describe our physical reality typically require the use of complex numbers, a mathematical tool which, although it is only an abstract mathematical structure that extends the one-dimensional number line into another number dimension independent of the previous one but linked by specific rules, is still fundamentally necessary to describe our reality in mathematical formulations. 

To describe our physical world, it seems inevitable to expand the dimensions of space in some way, for which the grid model offers an interpretation in a unique form. According to the grid model, our physical reality is formed by structures of resonances of vibrating grid particles arranged in a lattice-like grid structure. Since our physical reality exists in three-dimensional space, the grid lattice must necessarily be a three-dimensional structure. However, this three-dimensional physical structure could be embedded in a space existing in a higher spatial dimension than three, in which the three-dimensional grid lattice in the higher dimension is physically only a single-layer extension. By visually demonstrating this in a lower dimension, it can be imagined as a minimally thin sheet of paper existing in a three-dimensional space with only a single layer of paper material extending into the third dimension. The hypothetical grid lattice above the three spatial dimensions is extended with, and existing in only as a single layer of the grid particles. 

This model allows that the space dimensions do not need to be distinguished in size, do not need to be reduced in any way that would require a physical explanation for the emergence and existence of this specific state, but at the same time the higher dimensions can actually be present for all grid particles in the three-dimensional grid lattice as it could provide the necessarily expected additional degrees of freedom for the grid particles to be able to properly form the properties of our physical reality, realized by the vibrations of the hypothetical grid particles in these higher dimensions as well. 

The outlined spatial structure of the grid model can be a potential physical reality of our physical world because, by maintaining the three dimensions of our experiential space, it allows additional degrees of freedom to be available everywhere to create the physical properties of the matter. In order to further develop a grid model suitable to properly describe our physical world, it is necessary to define the physical properties of the grid particles, which can form the exactly three-dimensional structures in space, and whose interactions by creating resonances operating in the available degrees of freedom, could properly realize our material world.

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