The Non-Ordinary Laws of Physics Describing Life

The question of whether the same laws of science can describe living and non-living matter has been debated since thermodynamics was invented. We show that E.~Schr\ödinger's and R.P.Feynman's predictions were correct that instead of a new interaction (and the force it generates), the interaction of two scientific disciplines is responsible for the thermodynamics's inverse relations, which serve as a fundament for processes of life. The thermodynamical and the electrical interaction speeds differ by several orders of magnitude, and classical physics is not prepared for handling such a case. We develop a mathematical method based on a physical transformation, for deriving the interrelations of the time derivatives of the interactions, essentially as Einstein did. We provide exact descriptions for charge-related transport processes needed in many fields. Based on assumptions, touching fundamental science principles, we explain why the former attempts describing life failed, and why non-ordinary laws are needed. We derive the presumed/suspected non-ordinary (non-disciplinary) laws of science describing life.