EPISODE · May 9, 2026 · 30 MIN
Quantum Mechanics
from Quantum Foam
Here is the twentieth episode of Quantum Foam, Quantum Mechanics. We've been going over some seriously complicated topics during this decimal of the show. It's the stuff of figuring out Quantum Mechanics. We will be going into the popular theories of the day. We need Quantum Gravity to mix with General Relativity. We are approximately 1 fiftieth of the way done with the proposed full length of this podcast. It is still important for people to become teachers so that the next generation of scientists are ready for their subjects. This course is covered in junior year of college. Albert Einstein got the Nobel Prize for his work on the photoelectric effect. Max Plank calculated the value of Plank's Constant, which is the constant of proportionality. It is denoted by the lowercase letter h. The 1920s were important for figuring out quantum theory. There is the Heisenberg Uncertainty Principle. You can't measure a position and a momentum at the same time. There is the Pauli Exclusion Principle, which states that 2 electrons or fermions cannot occupy the same state or position around an atom. Spin Statistics Theorem. There is also Dalton's Atomic Theory. We already have the math matrices for the calculations of various quantum mechanics formulations. There was an attempt at Quantum Theory using something called Matrix Mechanics. The important thing to remember is the development of the Psy wave function by Erwin Schrödinger. What did they do in this equation that was formulated? Statistic interpretations of the highest academic caliber. We are interested in Minkowski space-time math grid lattices. If ever in doubt, write a new mathematics for Quantum Mechanics. Einstein was 16 years old and wondered what it would be like to ride alongside a light wave. Paul Dirac was also a Cambridge Lucasian Chair OF Mathematics along with Stephen Hawking and Isaac Newton. The Dirac Equation was a re-formulation of the wave function and made into a Quantum Mechanics. The 2 main variables are your position and your momentum. Quantum Mechanics treats time differently than General Relativity. You have to treat your physics as though there is only 4-dimensions. There is probably a good reason why time usually does not go backwards. 500 hours of audio is my vector stating the science included for the purpose of utilizing this theory. What is your Psy state vector describing a quantum state? Supposedly Quantum Mechanics can be applied to macro objects as well as microscopic objects. Present is a wave-particle duality that was agreed upon by mostly everyone of note during the development of Quantum Theory. They found half-spin particles known as fermions. Electrons have mass and photons are massless. They come up with a theory, then they do experiments that prove the predictions for those proposed theories. The deflections during the experiments proved the existence of half-spin particles. Hadrons are held together by the Strong Nuclear Force. This takes a lot of energy. Enrico Fermi created the first nuclear reactor. Fermi-Dirac Statistics distributed particles over energy states. Dr. Lee Smolin believes that freshmen in college should take a Quantum Mechanics course if possible. Phi and Psy variables are the probabilities of finding each particle in a given state. There are your different wave functions that can be described by the statistical interpretations of a proper Quantum Mechanics.
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An Uncensored Podcast Directly Taking On Physics, Mathematics, Science, and The Theory Of Everything.
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Quantum Mechanics
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