LIFE’S BASICS: Proteins, lipids, and water in us capture light from the sun
Life is basically about electric and magnetic fields and their interaction with the light we choose to live under. If you live under man made light, your nucleic acids become hyper methylated and you age faster. If you live under sunlight your methylation pattern is constrained and you can avoid healthcare for a longer time.
Think about tests done by your doctor in an EKG, EEG, and an EMG. All show the electrical and magnetic potential of our organ systems. Anything and everything electrical stems from the phenomena of charge. No one seems to have a clue why this relationship in nature exists, but physics tells us it is true. Atoms are made up of 3 parts: Protons have a positive charge, neutrons are neutral, and electrons have a negative charge. Here is the interesting part: Electrons have the equal and opposite charge of protons, but an electrons atomic mass is 1/1836th that of a proton. This is a huge difference in mass while charge is essentially the same. This means for living things, mass is an asymmetric factors compared to its charge.
This implies that the charge of things in a cell is the key variable related to the atomic mass inside of cells. Stated another way, atomic mass of the components inside a cells determines size and shape in protein living lattices. The way the lattice is organized determines the life we get. This is the quantum engineering that goes on in every cell of our body. The physics of organisms is remarkable and links directly to our health.
This physical organization determines the how the speed of light can travel in our tissues. The speed of light is varied when in a substance because it becomes encumbered by electrons. This is why size and shape alter the thermodynamics of things made up of electrons and protons. Light only interacts with electrons via the photoelectric effect. Light does things to water in cells that transforms what protons can or cannot do. Light carries information to affect electrons and protons in specific unique ways that happens simultaneously. There is no time lag effect.

Light instantaneously interacts with light to create the fastest pathway through tissues. This is tied to Fermat’s principle. Light does not directly interact with protons or neutrons. Light affects things around them to do Mother Nature's work. These changes dictate what methyl groups do to the physiologic function of gene expression is us. This changes the life we get and perceive. This increases the distance that light must travel and it creates tiny delay in tissues. Sometimes our parents make bad choices for us when we cannot make them for ourselves. Digital baby-sitting comes with biological risks.

Mitochondria select and order electrons and protons by their quantum spin and they transfer information to the orbital angular momentum using light waves. Light is made of photons and photons have a quantum spin number of one. Photons are from the family of bosons and they are the force carrier of the electromagnetic force. So light can increase informational transfer if it can increase its orbital angular moment in ways below our ability to observe them. How do we increase the orbital momentum of sunlight?
One thing physics has confirmed by experiment now is that light seems to have an unlimited potential to carry orbital angular momenta (OAM). This means light can carry massive amount of information but only a limited amount of energy. The energy carrying capability of light is linked to the frequency. The information is carries seems to related to its OAM. We now know from quantum thermodynamic experiments that information can be transferred from the quantum spin number to OAM. This means that the spin of electrons and protons are critical to a body gaining the massive information buried in sunlight.
We know how information transfer happens with electrons. That occurs via the photoelectric effect. How does information transfer happen with protons? H+ and deuterium have different quantum spin numbers, so they have different abilities to transfer information in light waves. H+ can transfer more information than deuterium can. It appears this is why all mitochondria and chloroplasts favor H+ over deuterium. The increased atomic mass of deuterium seems to put a limit on the information transferred. It turns out that Claude Shannon's work told us something important about life because of his work on information. Information reduces entropy inside of cells by limiting the uncertainty of how atoms are arranged in cells. When cells are programmed by sunlight, they are learning information. This learning costs the cells energy. This tells us that in a decentralized system proof of work limits uncertainty by reducing randomness in cells.
The bandwidth of sunlight creates the Shannon limit for cells in biology. If you go outside the visible spectrum of sunlight you are introducing noise into the system and this create more randomness. Randomness destroys order and this creates inflammation and inflammation creates aging.
The Shannon limit creates the capacity of a communication a "channel" can give. This limit refers to the maximum rate of error-free data that can theoretically be transferred over "the channel" if the link is subject to random data transmission errors, for a particular noise level. Channels in this sentence refers to cells in your body. Cells have to be optimized to the visible spectrum of sunlight for light to operate properly.
This idea has massive implications for the living state. It means information can be radically distilled to a simple essence, so that even the message can be ignored.
Just because the distance increases does not mean the path is longer in all cases. That small delay creates a signal that denotes biologic time in a cell. That delay is observed in the telomere length of a cell because of small changes made in protons in a methyl group that affects the protons that are hydrogen bonded to DNA/RNA. What moves atoms or things made up of atoms? Light is capable of this fundamental task and nothing else can this job. How good is the light you choose for your healthspan every day?
MAIN TAKE AWAY: How light is captured and travels in our tissues is how time manifests in biology.

CITES:
https://pubmed.ncbi.nlm.nih.gov/22923132/
https://onlinelibrary.wiley.com/doi/10.1111/acel.13439
Carlos Luna
2024-03-19 02:20:12 +0000 UTCMartin
2021-11-14 13:34:32 +0000 UTCChris Sussmilch
2021-11-13 05:19:00 +0000 UTCZuzana Srncova gajdosova
2021-11-12 05:36:56 +0000 UTCDr. Jack Kruse
2021-11-09 19:20:19 +0000 UTCKevin
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2021-11-09 19:04:27 +0000 UTCKevin
2021-11-09 19:03:11 +0000 UTCXavier Rodriguez
2021-11-09 19:00:48 +0000 UTCDr. Jack Kruse
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2021-11-09 18:48:32 +0000 UTCXavier Rodriguez
2021-11-09 18:44:36 +0000 UTCCosmo Brown
2021-11-09 18:25:06 +0000 UTCDr. Jack Kruse
2021-11-09 16:56:42 +0000 UTCKevin
2021-11-09 16:19:22 +0000 UTC