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The Uncertainty Principle is a side effect from repeated requests to make the QM object real.
It's a delay/smear from the system not being able to process quick enough. Swapping from wave to particle is apparently taxing, especially if it has to do it each observable event (frame/timeline), for momentum.
The double slit shows us that a particle can be requested to decohere and remain decohered until it hits the detector. The Uncertainty Principle test requires several requests of decoherence to get the momentum.
What's newly discovered is that each request is causing the particle to cycle from wave to particle, setting fuzziness because it wasn't fast enough to do the swap.
This proves that conscientiousness is involved and detectors are not for wave collapse, because you are measuring something that isn't remaining in the same state. It was ridiculous to assume a detector capable of displaying both coherence and decoherence was the cause anyways.
You need to define that.
Alan, I don't like "indeterminacy" being a thing.
And I don't like the idea of everything in the world shaking around
Alan, I don't like "indeterminacy" being a thing. And I don't like the idea of everything in the world shaking around. I fail to see why my theory doesn't explain the orbitals.mad libs are super fun Jeff."quantum information" Bored Chemist