ABSTRACT
Most closely the structure and number of molecules in a liquid sample respond sensitively to predict the chemical activities on mixing the interacting and reacting species at a prescribed temperature and pressure. Both the structure and number of molecules induce internal pressure at a prescribed temperature and volume. The cell functioning occurs due to standard friccohesity with an adequate cohesion-adhesion-intermolecular force chain for needful entropy within the living and nonliving boundaries. Particles having a water-binding capacity of the soil constitute structured fluid dynamics driven by the friccohesity, which senses the pressure changes inside the solution. Such adsorption occurs with time and hence with time the number of acetic acid molecules decreases and in the same proportion the friccohesity responds. Hence friccohesity measurements integrate whether salts or surfactants are present in mixtures.
