Astronomical, Chemical, and Biological Implications of 10-20 Joules as a Fundamental Quantum Unit of Information for Neurofunction

The persistence of 10-20 J as the fundamental unit of interaction between the most fundamental electromagnetic and molecular interactions within physical-chemical and biological systems reflects a universal origin. This quantity becomes apparent when the energetic parameters associated with the future (final) epoch of the universe are applied at the level of the smallest length. The quantum is a primary solution for the Bohr frequency for specific electron shells and the integrative quantity between the action potential of the neuron and the bulk velocity of the entire cerebral electromagnetic field when applied to the equations for de Broglie waves and Heisenberg uncertainty. The continuous and serial transformation of the 10-20 J quanta within cellular and brain space could replace the myriad of molecular pathways to a single and fundamental operator. Because the difference between the energy equivalence for an electron’s classic and Compton wavelength width by a Lorentz transform is about 10-20 J, this quantity, when applied appropriately, could facilitate the collapse of wave functions within brain space.