Can chemistry be reduced to electrical and stochastic thermal interactions?
The current chemistry knows only thermal and electric interactions, and those are insufficient to comprehend the emergence of life on our planet, or elsewhere. As John Bockris wrote in his book13 complex organic molecules that might have emerged by chance under any imaginable conditions must have been destroyed by thermophysical processes in accordance with the second law of thermodynamics. I would say, it is if there are no other yet unknown forces reducing free energy of complex organic molecules. These forces may be associated with the physical carrier(s) of the biofield control system. It is possible that such non-electromagnetic interactions manifest themselves in the field of solubility. Just for instance, in my dissertation in the 60s31 I studied solubility and thermodynamic properties of water solutions in non-polar organic liquid dichlorodifluoromethane (CCl2F2). Solubility of water in CCl2F2 increases with increasing temperature from 3 ppm mass at 0oC to 80 ppm at 25oC. This
