Lots of questions around effects of 5G has been a serious burden to many folks. And ofcourse, the ability of 5G to affect the Oxygen Molecules is not an exception. To have a clearer view of this, we need to first of all discuss and understand what oxygen is really all about.
Oxygen is a colorless, odorless, and tasteless gas at ambient temperature (from the element point of view). The word O2 comes from the joining of two oxygen atoms to form a single oxygen molecule. Breathing is the most significant use of oxygen for animals, and our respiratory and circulatory systems transport oxygen to our cells and organs in terms of physiology.
For the fact that the body needs oxygen to ‘burn’ food molecules, then it is necessary for respiratory activities. Animals take in oxygen and exhale carbon dioxide when they breathe. Nearly 21% of the total gases in air are oxygen, with the majority of the remaining gas being physiologically inert nitrogen.
Although we intake 21% oxygen, a person’s exhaled breath only comprises roughly 16%. This means that the human body only consumes roughly a quarter of the oxygen it inhales, leaving plenty for emergency breathing. This is why rescue breathing works: it can provide enough oxygen to sustain life in a non-breathing patient.
The fusion of a carbon-12 nucleus and a helium-4 nucleus produces oxygen in the hearts of stars (also known as an alpha particle). However, scientists have only lately been able to see into the nucleus of oxygen and decipher its structure.
Dean Lee of North Carolina State University and his colleagues announced in March 2014 that they had figured out the nuclear structure of oxygen-16, the most common isotope of oxygen, in both its ground state (the state in which all electrons are at the lowest possible energy levels) and its first excited state (the state in which all electrons are at the highest possible energy levels) (the next energy level up).
What difference does it make? To comprehend how nuclei form in stars — from carbon to oxygen to heavier elements — is to comprehend how the universe’s fundamental building parts snap together. The nucleus of a carbon-12 molecule, with its six protons and six neutrons, is made up of three particle clusters, each with two protons and two neutrons, as discovered by Lee and his team.
Researchers were able to see how the particles in an oxygen-16 nucleus would arrange themselves using supercomputer simulations and a numerical lattice. They discovered that there are four alpha clusters in the ground state of oxygen-16, neatly organized in a tetrahedron. But there was still one more quantum puzzle to solve. The oxygen-16 ground state and the first excited state have an uncommon property.
They have the same spin, which is a value that describes how the particles revolve. They also have positive parity, which is a symmetry indicator. Imagine inverting left and right throughout the cosmos while maintaining the same geometry of subatomic particles. Positive-parity particles would be able to view themselves as they are in this mirror reality. Negatively parity particles would have to flip-flop to avoid looking backwards like a line of writing read in a mirror.
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Despite popular belief that the development of oxygen cleared the door for animal existence, the tale appears to be significantly more complicated. Animals did not appear during the 2.4 billion-year-old major increase in Earth’s oxygen levels. Mills and his colleagues revealed in the journal PNAS in February 2014 that modern sponges can still breathe, feed, and develop in oxygen levels ranging from 0.5 percent to 4% of what is found in Earth’s atmosphere today. Sponges, according to Mills of Live Science, are “possibly the most similar living species to the first animals on Earth.”
The discovery that sponges do not require high oxygen levels to survive shows that something else had a role in the evolution of the first animal life — yet rising oxygen levels may well have been required to achieve the kind of diversity and ecosystems seen today, according to Mills. Nematode worms, for example, flourish in low-oxygen portions of the ocean even in the current period, he added.
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Important things to note about Oxygen:
Number of protons in the nucleus (atomic number): 8
On the Periodic Table of Elements, the atomic symbol for oxygen is O.
15.9994 atomic weight (average mass of an atom)
0.001429 grams per cubic centimeter density
At room temperature, the phase is: Gas
-361.82 degrees Fahrenheit is the melting point (minus 218.79 degrees Celsius)
minus 297.31 degrees F (boiling point) (minus 182.95 degrees C)
There are 11 stable isotopes (atoms of the same element with varying numbers of neutrons).
O-16 is the most prevalent isotope (99.757 percent natural abundance)
So yet, no reliable, peer-reviewed study has established that 5G has the ability to weaken the chemical bonds between oxygen atoms in the oxygen molecule, or that it (5G) has any severe adverse health effects on humans in general.
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