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In Vinayagar Agaval, Olavaiyar sings Siddha Meinjna knowledge that 'beyond the atomic knot, the knotted black hole shows'. The precious reader who melts as 'Vin Pramnu Pramnu Pramnu Mikai' celebrates 'Nokkariya Nokke, Nunukariya Munnurve'.
Quantum physics, which came to talk about the tiniest matter, is spreading its wings by seeing it in biology as well.
To put it briefly, quantum is the process of breaking down matter or energy into Email Data small pieces, particles, that can be known and attempted. (particle physics)
Today's quantum biology studies disprove the claim that quantum physics cannot access the common properties of biological systems such as extreme heat, entanglement, and extreme cold. It seeks to explain quantum functions in animals, plants, and our bodies. It marvels at the elements of quantum physics in our lives; Quantum Tunnels, Quantum Entanglement, Wave-Particle Duality, how they are located in the life, body and plant we see is a delicious thing.
Quanta nose
Our nostrils, which poets describe as the sesame flower nostrils, identify and recognize over a trillion scents. When the odor molecule reaches our nostrils, it binds to the receptors. According to an earlier hypothesis, the shape of this odorant helps it bind to receptors. This is called the lock-key model. (Lock-Key Model) According to this, once the odor reaches the nostril, it finds the right receptor, attaches itself to it, stimulates it and identifies the odor. When tested with this model, subjects who sniffed odor molecules of the same shape clearly distinguished two different odors. Therefore, the lock-key model does not fit. There is still something!
Another hypothesis, debated in scientific controversy, is that our nostrils are positioned to sense the vibrations going on inside the scent molecules. How do these vibrations occur? Atoms in molecules oscillate, as if strung together in a fine wire; When the molecule of this substance settles in the receptor, the energy resulting from the oscillations of the atoms causes quantum tunneling through the electrons to another part of the receptor.
The above lock-and-key model can be combined with the vibrational model. This is called the 'Swipe-card Model'. According to this, our nostrils are positioned to perceive the structure and vibrancy of an odor.
A new model called 'Luminescence' is now being talked about. The electron that tunnels to the receptor loses energy once it reaches it. In that state, it emits light, i.e. photons; Our nostrils sense this luminescence and thereby detect various smells. Proponents of this hypothesis ask, "Why can't people with 'covid' be able to smell?" They think that this concept can tell.
Birds of prey
Each year, Arctic seabirds travel 90,000 km from Greenland to reach the Weddell Sea region across Antarctica. How do they make this journey? Climate changes, day and night, do not affect their travel in the right direction. Scientists say that pigeons may have the ability to sense the Earth's Magnetic Field, and therefore sense where they are on Earth at that moment.
This skill can work like this. Usually an orbital has two electrons - one in spin up and the other in spin down. But sometimes, something super-energetic, like a photon, knocks an electron off a molecule and sends it to another molecule. These two given and received molecules are now radicals! (Radicals) ie electrons that are unpaired in their orbitals.
These extremists are reactive; Pairs formed in this way. Bonded (entangled) with each other are called extreme parallels. A protein called 'Cryptochrome' (Cryptochrome-secret color?) inside the bird's eye creates these parallels. This extreme parallel oscillates back and forth between both congruent or divergent rotation at dramatic speeds. This rotation should be taken as Angular Momentum. Through this, the molecule gets a magnetic moment. In an external magnetic field, this fusion cycle, or not, is subtly recorded in the molecule. Even the smallest subtle changes in the Earth's magnetic field can be accurately detected by these birds.
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