The Quantum Measurement Problem

Oct 11, 2024
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In quantum mechanics, the measurement problem is the problem of definite outcomes: quantum systems have superpositions but quantum measurements only give one definite result. First, we must understand that the three forces; nuclear strong force, weak force and electromagnetic force pushes/influences all matter and energy. So how does energy move in this universe?

The 3 fundamental forces in our universe, nuclear strong force, weak force, electromagnetic force all have round strings of forces that apply to all matter displacing space or cosmic strings. This is why electrons, sound waves, light waves, microwaves, infrared waves, gamma waves (any wave) must weave through these string like forces and thus looks squiggly or in the shape of a wave because they must weave between the forces of our universe. There is no string theory working in this universe, just string like forces or symmetry would be violated and collapse, and it holds true.

Energy must WEAVE through the three forces which are round looking strings from every vector to move, thus having a wave like structure weaving in between these string looking forces. When you attempt to measure the wave, you are completing the circuit between the wave's electrical value moving and the electromagnetic force/field pushing on it, and thus it appears as a collapsed wave or reduction of the state vector" upon observation. Since the forces act at the speed of light, it causes the measurement of both the electromagnetic force and the wave's electrical value at the same time, or a collapse wave.
 
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