Reliability of cell division traits and triolism of wave-particle-change of DNAs

In what follows, the cell growth characteristics will be explored by analyzing the reliability time spans of cell dividing frequency and fraction, in addition to the cell volume change versus time behavior. The method of approach involves converting one of the “length” root function in Ideomechanics to an ordinary function. A description of the entire process of cell growth will need information on the remaining three root parameters. The triolism (TRLM) of wave-particle-change emphasizes the need to include the local energy dissipation owing to space-time non-homogeneity that was neglected in the dualism (DULM) of wave-particle in quantum mechanics. Two additional laws were discovered: one for space-energy trade-off and one for mass-motion interaction. Their presence were necessary in cellular microbiology. The concept of Newtonian “force” must also be discounted to define a generalized energy-based viscosity in multiscaling such that the true behavior of the cells, organelles, subunits, and adenosine triphosphates (ATPs) can be simulated. Deoxyribonucleic acid molecule (DNAM) will be considered as the exchange unit of chemical elements in KMT and the root parameters in IDM. Discussed are also symptoms of neuron degeneration (NDG) diseases need to be detected before they reaches the irreversible stage. Their occurrence may be related to the improper division of diseased cells and/or DNAs.