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thewaytruthandlife
Sabine Hossenfelder
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Comments by "thewaytruthandlife" (@thewaytruthandlife) on "Is COVID there if nobody looks?" video.
5:10 no the quantum effects do not disappear they may chance to other quantum states but the quantum effects never disappear... since .... why would there be quantum effects to begin with.... You see quantum states alter due to interaction. Just as in qauntum entanglement. Entanglement is a way in which quantum states can change due to interactions with other objects. A measurement of a quantum behaving particle with a large instrument simply chances the quantum state WF1 of the particle into a quantum state WF2 but WF2 <<<<< WF1 because of the sheer size of the measurment instrument. So basically quantum states constantly chance due to interactions no matter how small. THAT is why entanglement experiments are so sensitive due to environmental influences. To TEST this an experiment can be designed as such: https://www.academia.edu/37049597/Collapse_or_not_to_collapse_that_is_the_question_verification_or_reject_the_interaction_of_a_wavefunction_with_a_detector_docx Let there be a 2 slit set up including an observer (*) to watch where the particle goes. The result a 2 blob pattern. Meaning that the interference patern is changed due to interaction with an measuring device. Now make extremely sure that the measuring device (*) is extremely small so that its debroglie wavelength of it is small but still measureable. Put behind 1 of the blobs another hole for a repeating the 2 slit experiment for interference and behind that a detection screen. Predicted result: the interference pattern will re-appear BUT way much smaller as in the order of magnitude of the observation instrument (* which has ben made extremely small !!) ....IF ....I am correct ( I may not be but OK...we might see that) then the wavelength/function must have SHRUNK to the smaller (in the order of magnitude of the extreme small measuring instrument) wavelength. Not collapsing BUT shrinking !!!! due to interactions and thus simply altered. This should result in a wave interference pattern that coud have been obtained by particles that have a similar wavelength as the deBroglie of the extreme small instrument has (*). I know technically this is a challenge... how to make an measuring instrument with such an extreme small dimensions/mass (*). But nowadays in the IBM moving atoms ("a boy and his atom" youtube.com/watch?v=oSCX78-8-q0&t=3s ) era this should be possible.... difficult but possible non the less.
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