Transport phenomena are the changes in time and space that
generalised forces undergo when they produce flows for which conservation laws
are applicable. Then we go over the mathematical equations for the transport of
mass, impulse, energy, and electric charge. The following laws—diffusion,
viscosity, thermal conductivity, and electric conductivity—are well-known as a
result of biophysical research. In living things, flows are created not only by
conjugated generalised forces, but also by the concurrent action of other
forces, which causes frequent cross-effects in the human body. The general laws
of isomorphisms are extensively used in biophysical modelling. The system's
transfer function, or how the system responds to the entry size, can be
discovered by modelling, or when it is understood, the entry size can be
determined. Some bio-medical systems can be modelled to make it easier to
analyse the processes that occur in that particular original and to examine how
those processes operate in situations that are challenging or perhaps
impossible to organise. The biophysical modelling provides a "language"
for the quantitative and qualitative analysis of experimental data that is
appropriate and compatible with biological rules.
Author(s) Details:
Janos Vincze,
Health Human International Environment Foundation, Budapest,
Hungary.
Gabriella Vincze-Tiszay,
Health Human International Environment Foundation, Budapest,
Hungary.
Please see the link here: https://stm.bookpi.org/RABS-V4/article/view/7586
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