Symmetric Theory Planck Gas

In the previous article on Symmetric Theory, it was shown that Planck particle is a symmetric particle, in the condition of gravito-electro-magnetic unification. The domain of this particle is the vacuum, in which it governs coupled with the positive-negative dipole, thereby constituting the medium Planck. In order for the theory to be further developed, it will be shown that the medium Planck, described through the natural units introduced by Planck, establishes the quantum of entropy , giving new meaning to the gas constant R. We will observe the energetic reunification to Planck scale, from which we will infer important relations for the continuation of the theory, and we will also show how medium Planck is identifiable with the ideal gas as per the thermodynamic theory. Subsequently, we will hypothesise a possible thermodynamic system, in which the medium Planck is a cosmic background (CBPM). The introduction of the quantum of entropy prolongs, as it logically follows, the concept of quantisation to thermodynamics, thus gaining a framework that is more adherent to physical reality, toward the direction of reunification.