Admission
In 2012, I became interested in the subject of Einstein’s famous equation E=mc2, which made me reflect on the possibility of technical verification of the Theory of Relativity, using a measuring device that measures the velocity in the space of Vacuum (Singularity). The idea of constructing this device was born in my head quite quickly, contributing to deeper theoretical considerations and the birth of a new physical theory – the Theory of Real Physics.
Albert Einstein’s Special Theory of Relativity is based on two postulates, reflecting the state of knowledge and technology at the turn of the 19th and 20th centuries:
- The principle of relativity
The principle that the laws of physics are the same in all inertial frames and are valid for all laws, both mechanics and thermodynamics. - The speed of light
The speed of light in a vacuum is the same for all observers, the same in all directions, and does not depend on the speed of the light source.
Albert Einstein’s postulates show that:
- Light does not belong to any of the inertial systems of any observer in the Universe (3D).
- Light does not even belong to the inertial frame of its own source (3D).
- Light does not belong to the space of the three-dimensional Universe (3D).
- Light belongs to the space in which its propagation takes place (4D).
- Light belongs to the Vacuum space (Singularity), which is the fourth geometric dimension (4D) of the three-dimensional Universe (3D).
- In view of the above, I formulated my own postulates: the postulates on which my independent physical theory, the “Theory of Real Physics”, is based:
- Albert Einstein’s principle of relativity:
The principle that the laws of physics are the same in all inertial frames and are valid for all laws, both mechanics and thermodynamics. - My principle of the materiality of space
- If any physical quantity exists in any space, then this space is not empty space – it is material space.
- The principle of wave propagation
- The speed of wave propagation, in a homogeneous wave carrier, is the same for all directions and does not depend on the speed of its source, including the carrier.
- The wave carrier determines the speed of wave propagation.