4th phase of water
A fourth phase of water has been speculated to exist, supported by impressive and growing evidence. It is a matrix, a liquid-crystal. Chemically “identical” but physically different: H3O2 instead of H2O.
Hydrophilic surfaces attract an initial atomic layer of water. Energy, in the form of heat, allows and conforms a second atomic layer, slightly shifted, forming a lattice. Impurities are pushed further and further from the surface, out of the growing matrix/lattice.
Microwaves disrupt this process, indicating the innately toxic nature of electromagnetic “esmog” and other energies.
https://www.youtube.com/results?search_query=structured+water%2C+pollack
Structured water, also known as “EZ water” (Exclusion Zone water), is a concept proposed by Dr. Gerald Pollack, a bioengineer and professor at the University of Washington. According to Pollack’s research, water near hydrophilic (water-attracting) surfaces can organize itself into a structured layer with distinct properties.
The term “EZ water” refers to the exclusion zone that forms next to hydrophilic surfaces, where water molecules are arranged in a more ordered structure compared to bulk water. This structured water has been proposed to play a role in various biological processes, including cellular hydration, energy production, and molecular transport.
Key features of structured water or EZ water include:
1. Orderly Molecular Arrangement: In the exclusion zone, water molecules arrange themselves in a hexagonal lattice structure, similar to ice but with a different molecular orientation.
2. Negative Charge: EZ water has been observed to carry a negative electrical charge, potentially making it more bioavailable and capable of interacting with charged molecules and surfaces.
3. Increased Viscosity: Structured water has been reported to have higher viscosity compared to bulk water, which may influence its flow properties and interactions with biological structures.
4. Potential Biological Significance: Pollack and others have proposed that structured water may play a role in various biological processes, including hydration of cells, facilitation of molecular transport, and energy production through processes like photosynthesis and ATP synthesis.
It’s important to note that while Pollack’s research has generated interest and debate within the scientific community, the concept of structured water and its potential biological significance remain subjects of ongoing research and investigation. Some scientists have raised questions about the reproducibility and generalizability of Pollack’s findings, and further research is needed to fully understand the properties and functions of structured water in biological systems.