Thursday, March 26, 2020
Resonance in Organic Chemistry
Resonance in Organic ChemistryA Quantum mechanical model of the universe requires resonance which is the absence of equilibrium, the presence of subatomic particles in quantum mechanical orbits. The equilibrium is a structure of a material system, like water in a bubble.Resonance and symmetry are the building blocks of nature. The symmetry is usually represented as the unitary attractor when it comes to moving particles in the quantum mechanical model. The tractor must have an energy that will sustain the mass of the particle, but it must be moving with enough velocity so that the momentum will remain unchanged. For example a classical model has a force (a magnet, etc.) which is seen as the principal energy.However, when you consider the spin symmetry in nature, then this implies that there is a movement of particles without change in the energy. The electromagnetic force can be thought of this way, as one solution to the energy equation.In quantum mechanics, the electron as a fundam ental unit of energy which is the orbital of the electron. Each orbital can have an energy, and there is an orbital which can be excited to a different energy by a force. When the orbital is excited to a higher energy, it will create a new orbital of the same energy which has a lower energy.When the electron's orbitals are excited, the energy density goes up and the two electrons must now be orbiting at different speeds. At least for atoms, this is very unlikely, and so the particle's energy is conserved. In the electron, the spin or orbital is usually described as the angular momentum of the electron. This is analogous to the hydrogen atom, where each electron is associated with a photon.The electrons in a hydrogen atom are not tied together by any forces, so they are able to move around in their orbits freely, but they also have attractive and repulsive repulsion forces which allow them to overlap. A negative ionization of the atom can only occur when there is some negative ioniza tion, and it will create an electric field in the nucleus.An increase in the intensity of the electric field or ionization will allow the nucleus to collide, and the two positively charged electrons will be attracted to each other and interact with each other, creating neutralized atoms. There is no requirement for a chemical reaction to take place in order for an atom to become ionized. The electron is the easiest form of 'particle' to describe, and the dominant component of any living thing.
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