Science of Multi-baric Systems
Multi-baric Systems consist of both external forces and dynamic movement of partial pressure of gasses
The difference in molecular concentration based on pressures.
The Physics of Multi-baric Systems
The study of multi-baric systems is needed!
A multi-baric system is conceptually simple, but is actually incredibly complex when applied to biological systems.
When applied to biological systems the biophysics involve would require an even broader multidisciplinary understanding of physics, chemistry, material science, fluid mechanics, and electrodynamics.
CVAC - Tiers and Profile (Waveforms) transitions.
Physiology - Review of the Circulation
How Dynamic Multi-baric Systems affect the Circulation
The imbalance caused by external forces, propagate dynamic pressure waves in an oscillating series (think ripples on a pond, being pushed by the wind) that will cause a mirror image of changes within the surrounding tissues with respect to the circulating capillary and lymphatic fluids. This enhancement will drive all forms of fluid flow, creating and overcoming osmotic gradients. These pressure waves will enhance intercellular and intracellular diffusion of macromolecules. This fluid flow most likely includes exosomal transport and cellular communication.
Example of Partial Pressure Dynamics
Application - Biophysics of Dynamic Gas Exchanges
Can we simulate internal tissues?
Yes - we were able to simulate these conditions.
Multiple Densities
Different Polarities of Solutions
Density - Size of Tissues
The Dynamics of External Pressure changes - oscillating through multiple densities of fluid and a large hydrophobic region simulating endogenous lipids.