Apple fans are starting to return their Vision Pros::The return window for the very first Apple Vision Pro buyers is fast approaching — and some have taken to social media to explain why they won’t be keeping their headsets.

  • kava@lemmy.world
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    9 months ago

    reality doesn’t downsample when you’re not looking

    As far as you know. Maybe that’s the reasoning behind weird stuff in quantum mechanics. The cat is both alive and dead until you open the box and look at it.

    • treesquid@lemmy.world
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      9 months ago

      The whole point of the cat thing was to point out the absurdity of the claim that reality isn’t real until you know about it. The cat is already in whatever state you observe when you open the box. It’s not both alive and dead, it’s either alive or dead. The thought experiment isn’t serious, and it’s not supporting the idea that the cat is somehow magically in both states just because you haven’t yet manipulated the lid of a wooden cube.

      • kava@lemmy.world
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        9 months ago

        When we talk about the cat being both alive and dead, it’s a simplification to help visualize a quantum phenomenon where particles exist in multiple states simultaneously until measured or observed.

        Schrodinger came up with the cat to represent the absurdity of quantum mechanics because he thought it was absurd - but that doesn’t mean his metaphor isn’t a useful one. Particles like electrons or photons can exist in a state of superposition, where they hold multiple potential states (e.g., spin up and spin down) at the same time. This isn’t just a theoretical curiosity; it’s been experimentally verified in numerous quantum experiments, such as the double-slit experiment.

        The act of measurement in quantum mechanics forces a system to ‘choose’ a definite state from among its superposed states, a process known as wave function collapse. Before measurement, the system genuinely exists in all its possible states simultaneously, not in one state or the other. This is a fundamental aspect of the quantum world