Uncertainty theory doesn't disprove fate?

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Uncertainty theory suggests that the precise measurement of a particle's position and momentum is impossible, which complicates predictions about the future. However, this does not necessarily imply that the future is predetermined; rather, particles lack fixed positions and momenta. The discussion highlights the need to understand concepts like "hidden variables," which have been proposed to explain quantum mechanics but have faced disproval. Heisenberg's uncertainty principle indicates that the limitations of measurement are inherent in nature, not merely due to disturbances. Overall, the conversation emphasizes the complexity of reconciling uncertainty with the notion of fate.
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From my understanding, uncertainty theory only says that we would be unable to measure the position and momentum of a particle with enough precision to predict its future. But this doesn't mean that the future isn't predetermined and that all particles don't act in a domino-like manner.
 
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Actually, no. It is not just a matter of measurement, the particle doesn't even have a fixed position or momemtum.
 
ok, so I guess I need to further my understanding of the theory. Thanks
 
You might want to look into the "hidden variables" theory, I think that gets down to the heart of what you're asking about. There have been multiple versions of this same idea proposed over the years since QM was first concieved, and they've all been disproven to my knowledge.
 
Don't think of Heisenbergs uncertainty in terms of a mearsurement disturbance. Position and momentum are simply not more accurate defined in nature than in Heisenberg's uncertainty allows. It's built into nature.
 

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