amidwesterndoctor | One of the fascinating things about science is that while it is an excellent tool for discerning the nature of reality, it will simultaneously refuse to look at data with implications that challenge the existing scientific orthodoxy. So an unfortunate situation is created where science advances knowledge to a point but then reverses polarities and paradoxically becomes a barrier to that advancement.
An excellent illustration of this dynamic can be seen with water, and as a result, many of its properties are relatively unknown. One of the most important properties is that provided ambient infrared energy is present in the environment and a polar surface exists, water can assume a semi-solid state where it behaves like a liquid crystalline structure. Since a significant portion of the water within the body is in the liquid crystalline state, the biological consequences of this water, in my eyes, represent a key forgotten side of medicine.
In the first part of this series, I discussed the long lineage of scientists who have studied this semi-solid form of water, followed by listing some of the key properties of this gel-like 4th phase of water and what causes it to form. Since it has been studied by so many, it has many names (e.g., interfacial water or EZ water) and hereafter will be referred to as liquid crystalline water, which I believe is the most accurate description for it.
In the second part of the series, I discussed how water’s ability to become a partial solid through its liquid crystalline phase explains many of the structural mysteries of the body. The body and its tissues have a significant strength and durability one would expect to find in a solid, but at the same time, it has a high degree of flexibility and capacity for rapid movement one would expect in a liquid.
Note: the references for the assertions in this section can be found within those two articles.
Because liquid crystalline water is effectively both a solid and liquid, it can accommodate these conflicting demands. An incredible degree of natural engineering, in turn, exists within the body to utilize its properties to accomplish both. In addition to creating structure (including, for example, the barriers that protect your blood vessels from damage, which also happen to be a vital target of the spike protein’s toxicity), the body also frequently makes use of phase transitions between water’s liquid crystalline state and its regular liquid state.
The transitions are important because they provide the mechanisms that underlie a variety of physiologic processes our existing models fail to explain effectively. For example, as discussed in the article, there are a variety of significant inconsistencies within the current model to explain how muscles contract, but they have not been seriously critiqued because no better model exists for muscle function.
The phase transition model instead argues that muscles are designed to form liquid crystalline water. The formation of that water inside the muscle tissue naturally expands and stretches the muscle tissue. Then when the liquid crystalline water is transitioned back to its regular liquid state, the muscle rapidly contracts since an expansive pressure is no longer present to resist the tension in its stretched proteins. Another other interesting applications of this expansive force is that it allows plants and seedlings to break apart rock solid objects as they grow.
Similarly, the formation of liquid crystalline water (which holds a negative charge) with an immediately adjacent layer of positively charged protons creates an electrical charge gradient. Rather than dissipating, this gradient persists (essentially functioning as a battery), and this charge can be measured directly.
Thus, one of the most interesting characteristics of liquid crystalline water is that it effectively functions as an energy source living systems can utilize. Its ability to spontaneously move into a more structured form (which the muscles, for example, utilize) is one such example. Some of the other critically important utilizations of water’s ability to convert ambient infrared energy into a usable form of energy include:
•Photosynthesis. To my knowledge, liquid crystalline water’s contribution to this process has not yet been fully worked out. However, frequencies of light that increase liquid crystalline water have been reported to increase plant growth, and a particulate material that was designed to increase the formation of liquid crystalline water was shown to create at least a 2-3-fold increase in root length and/or formation of shoots.
•Nerve signal conduction (agents that block the formation of liquid crystalline water block nerve function, and nerve signal conduction depends upon a phase transition within the neuron).
•Cellular transport and division (these also appear to depend upon water’s phase transitions).
•Fluid circulation.
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