STATE OF LIFE 4: The Critical Point. Part 2/5 - VERSADOCO
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"The most significant step in biology in our century was the transition to the molecular dimension. The next step will be the transition to the submolecular, electronic dimension." - Albert Szent-Györgyi, Nobel Prize laureate, "Bioelectronics" (1966)
In his book, Szent-Györgyi shared the discovery that there are many types of ice in our bodies, which may come as a surprise to many.
Today, more than twenty types of ice are known that consist solely of water. And although all these types of ice are made only of water, they have significant differences. But why do we need so many different types of ice in our bodies?
#Bioplasma #Ice #Water #CriticalPoint #Szent-Györgyi #biophysics #biology #self-organization #body
Sections:
00:00 - Ice
02:31 - Long-Range Order
05:09 - Critical Point
07:36 - Life as an Avalanche
09:23 - Inorganic Life
Sources:
Must-read book - R. Temple "A New Science of Heaven" - https://www.amazon.com/New-Science-He...
Albert Szent-Györgyi "Bioenergetics" - https://archive.org/details/bioenerge...
Quote about ice - • Post
Uno Kopvillem, "Anomalous Phenomena as Manifestations of Physical-Informational Interaction" https://www.academia.edu/115887077/%D...% D0%BE_%D0%B8%D0%BD%D1%84%D0%BE%D1%80%D0%BC%D0%B0%D1%86%D0%B8%D0%BE%D0%BD%D0%BD%D0%BE%D0%B3%D0%BE_%D0%B2%D0%B7%D0%B0%D0%B8%D0% BC%D0%BE%D0%B4%D0%B5%D0%B9%D1%81%D1%82%D0%B2%D0%B8%D1%8F_%D0%A 3_%D0%A5_%D0%9A%D0%BE%D0%BF%D0%B2%D0%B8%D0%BB%D0%BB%D0%B5%D0%BC
D. A. Frank-Kamenetsky, "Plasma Phenomena in Semiconductors and the Biological Effects of Radio Waves," Reports of the USSR Academy of Sciences, Vol. 136, No. 2, 1961
Concepts used in the episode:
"Excited electron states" refer to high-energy configurations of electrons in molecules. In the context of this episode, these excited states are crucial for the storage and transfer of quantized energy within the body, which is an important process in various biochemical reactions and cellular functions.
"Quantized energy" refers to energy that is delivered in discrete, defined quantities or levels. In other words, it is not continuous, but rather exists as individual "packets" or "quanta."
"Electron plasma in a gas discharge" is a condition in which a significant number of electrons in a gas are liberated from their atoms, creating a high concentration of free electrons. Examples include gas discharge tubes, such as neon signs or fluorescent lamps.
Atomic spin is a fundamental property of the atomic nucleus and electrons that causes them to act like tiny magnets with a corresponding magnetic moment. This spin is a quantum mechanical property and can have two values: "up" or "down." It is a key factor determining the behavior of an atom in magnetic fields and is essential for understanding the structure of matter.
"Electric dipoles" – here the term refers to cell membranes, which are composed of large molecules. These molecules, when subjected to an external force or field, can exhibit a kind of "dipole moment" due to their mass distribution. In the context of certain resonators, their mass dipoles play a role in the resonant response of the system.
The "Sierpinski carpet" is a famous fractal shape generated by a recursive process. It starts with a square, and then smaller squares are removed from it, usually in a self-replicating pattern. This is a classic example of a self-replicating, infinitely detailed geometric structure in mathematics.
A "power law" is a mathematical relationship describing a certain type of distribution in which one quantity is proportional to the power of another. In the context of fractals, power laws often describe scaling behavior, such as when the size of patterns at different scales follows a power law.