Draft:The Theory of Andrei’s Cube

These theories are calculations made by Dobre Andrei Alexandru with the help of AI and quantum computer in physics in his laboratory in Stuttgart, Germany.

The theory of the Andrei’s cube.

1.The cube is the totality of the universe that can be reached by two dimensions on one face, while the pyramid is the totality of the three dimensions in a universe, and in a perfect pyramid it would be at the top, at the last atom, and from there we could reach the four dimensions that we cannot see below the quark. The theory of dimensions starts from the smallest to the largest, like the largest universe being a dimension itself, but there are infinite universes of two dimensions within this dimension, and in these two dimensions there are infinite universes of three dimensions, in which there are infinite universes of four dimensions, and so on."

2.The theory of infinite uniqueness. Every interaction in the universe is influenced by a multitude of unique factors and conditions, making each interaction truly unique. This applies at cosmic levels, such as the interactions of solar systems in galaxies, as well as at smaller levels, such as the interactions between subatomic particles. Even if an identical solar system existed in another galaxy, it would be influenced uniquely by the gravitational forces, cosmic radiation, and other factors present in that galaxy, leading to a completely unique evolution and behavior. Similarly, at the subatomic level, each interaction is influenced by unique environmental conditions, resulting in a truly unique and unreproducible outcome.

3. The Theory of Dimensional Culmination at the Apex of an Atom. According to this theory, the three-dimensional space as we perceive it culminates at the apex of the pyramid-like structure of an atom. In traditional three-dimensional geometry, we are familiar with length, width, and height as the dimensions that define our spatial reality. However, at the subatomic level, particularly at the smallest scale within an atom, the structure appears to converge to a singular point or apex. This suggests that the traditional three-dimensional space as we understand it may reach its culmination or termination at this point. Beyond this apex, the theory proposes the existence of additional dimensions or states of reality that are beyond our current comprehension. These dimensions could potentially explain phenomena that defy traditional spatial understanding, such as quantum entanglement and non-locality. Further research and experimentation are needed to explore the implications of this theory and to determine its validity.

4. The Theory of Interaction of the Subatomic Universe

According to this theory, the subatomic universe represents a complex and far-reaching reality, where elementary particles and their interactions form the basis of our known physical structure. At the smallest level, the subatomic universe consists of two-dimensional entities, represented by strings and other subatomic forms, forming a interconnected and dynamic mesh.

The two-dimensional entities such as strings form an invisible matrix that represents the informational foundation of the subatomic universe. This matrix contains essential information about subatomic particles and their interactions, including their structure and behavior.

At the subatomic level, interactions between elementary particles are extremely complex and interdependent. Subatomic particles are connected by strings and other two-dimensional entities, forming a complex network of interactions and mutual influences.

With the appearance of three-dimensional particles such as protons, neutrons, and electrons, the subatomic network expands and becomes three-dimensional. Interactions between the three-dimensional particles are still influenced by the underlying two-dimensional network, and these interactions contribute to the formation of the atomic and molecular structures that we see in our physical world.

Furthermore, this theory suggests that there is a clear boundary between the subatomic universe and the higher dimensions. This boundary is symbolically represented by the peak of the pyramid at the level of the last atom, where subatomic particles cease to be directly detectable and observable. This boundary marks the point where the additional dimensions become theoretical and inaccessible directly to our current observations.

In summary, the Theory of Interaction of the Subatomic Universe postulates that our physical universe is composed of a complex network of subatomic entities and interactions that form the basis of our physical reality. This theory underscores the mutual dependence and complexity of the subatomic universe and provides a new perspective on the nature and structure of our physical universe.