Math Integrity Understanding Strong and Weak Force Through the Forces / Fields of Electrostatic, Direct and Axial Nucleostaticmagnetics: 4-Vector in 3
by Arno Vigen
2020-05-26 16:24:49
Math Integrity Understanding Strong and Weak Force Through the Forces / Fields of Electrostatic, Direct and Axial Nucleostaticmagnetics: 4-Vector in 3
by Arno Vigen
2020-05-26 16:24:49
One of the most challenging concepts in physics of the last century is strong nuclear force/interaction and weak nuclear force/interaction. Each of those forces is used often, but what meaningless names. Strong versus what? Weak versus what? Are we s...
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One of the most challenging concepts in physics of the last century is strong nuclear force/interaction and weak nuclear force/interaction. Each of those forces is used often, but what meaningless names. Strong versus what? Weak versus what? Are we stuck in this abstract, disconnected model? No. Here I postulate and explain that those two fundamental forces are really the static equations and underlying concept of magnetism at the subatomic particle level. In the creation of electrostatic charge for subatomic particles, that activity also creates a subatomic particle axis (I call nucleostaticmagnetics or N-M) which generates both a static towards-the-axis force (weak), and an outward bulge (strong) repulsive force (electron-nucleon). Both work at 1/distance-cubed (1/d3) magnetic strength (so only 'nuclear').
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