ClaCom Posted May 22, 2023 Posted May 22, 2023 The procedural position of an autonomous photon in a particle with quantum entanglement of the nucleus, adjusted for light error, will be approximated by dividing space into atomic intervals, and then compiling a procedural matrix of photon positions, which is a matrix with mixed elements. Each photon has the opportunity to act in different positions of the process, forming some sequences and patterns, while the quantification process occurs according to the rule: the more positions a photon occupies, the more likely it is to be in a certain position. Thus, the procedural position of an autonomous photon in a particle with a quantum entanglement of the nucleus, adjusted for light error, can be determined by analyzing the quantification process.
exchemist Posted May 22, 2023 Posted May 22, 2023 54 minutes ago, ClaCom said: The procedural position of an autonomous photon in a particle with quantum entanglement of the nucleus, adjusted for light error, will be approximated by dividing space into atomic intervals, and then compiling a procedural matrix of photon positions, which is a matrix with mixed elements. Each photon has the opportunity to act in different positions of the process, forming some sequences and patterns, while the quantification process occurs according to the rule: the more positions a photon occupies, the more likely it is to be in a certain position. Thus, the procedural position of an autonomous photon in a particle with a quantum entanglement of the nucleus, adjusted for light error, can be determined by analyzing the quantification process. Word salad.
swansont Posted May 22, 2023 Posted May 22, 2023 ! Moderator Note Please review the guidelines for speculations discussions, and comply with them https://www.scienceforums.net/topic/86720-guidelines-for-participating-in-speculations-discussions/#comment-839842
joigus Posted May 23, 2023 Posted May 23, 2023 22 hours ago, ClaCom said: The procedural position of an autonomous photon in a particle with quantum entanglement of the nucleus, adjusted for light error, will be approximated by dividing space into atomic intervals, and then compiling a procedural matrix of photon positions, which is a matrix with mixed elements. Each photon has the opportunity to act in different positions of the process, forming some sequences and patterns, while the quantification process occurs according to the rule: the more positions a photon occupies, the more likely it is to be in a certain position. Thus, the procedural position of an autonomous photon in a particle with a quantum entanglement of the nucleus, adjusted for light error, can be determined by analyzing the quantification process. Oxymoron if there ever was one.
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