Further appreciation of a control system for chemical reactions residing in virtual energy flows through the bio-system

The argument has been advanced in previous papers that the radiative field of classical electromagnetics is a special case of envelopment of space its elf (termed here 'non-reap' or 'imaginary energy') by waves of this field a ccording to the formalism of Clark Maxwell (termed here 'real energy') and that, in its non-enveloped state, the virtual field is of special significa nce for the functioning bio-system. This paper summarizes evidence from a preceding paper from the areas of phy sical chemistry and theoretical physics to validate the presence of just su ch a radiationless, non-enveloped virtual field of space elements dissipati ng matter of inanimate and animate types. As discussed, the non-enveloped f ield is subject to envelopment by magnetic fields and by the heat part of t he electromagnetic spectrum. It is reasoned that the envelopment process it self is concerned with a thrust-delivering atomic and molecular movement so familiar in bio-system function. The virtual stream develops from the polyatom and polymer state so that wav elengths of its components are greater than those wavelengths associated wi th individual atoms or molecules. The division between the two wavelength t ypes is set for purposes of this quasi-mechanical approach to space element s at the heat part of the spectrum. Properties of control and stability ove r atomic and molecular systems derive from this wavelength advantage. Irrespective of wavelength, the virtual system is operative free of heat an d of the magnetic field. In the presence of appropriate threshold values, t hese enveloping agents then manifest an arrangement of space elements in re al energy or radiative terms. Events during these transitions confer import ant physical properties on all matter but they are more highly developed an d the control they exercise more subtle in animate matter.