I mean, they’re both at least illustrative I guess. In the case of particles and waves I may be quibbling a bit over the distinction that something is a particle or a wave versus exhibiting the properties of one or the other.
In the case of Schrodinger’s cat, the thought experiment suggests that if the life or death of the cat is tied to the collapse of the state vector, an eigenstate of the two implies simultaneous life and death. But the varying interpretations of this problem aren’t so straightforward as ‘both dead and alive’, and it’s kind of misleading to just leave it at that.
Personally, I find it odd that they’d discount the cat’s own awareness of the state vector’s collapse. Obviously when the atom decays and kills it, it’s going to know before you are regardless of the presence of cardboard.
It just seems like a lot of kind of imprecise throw-away mentions of more complex ideas for one sentence. But again, maybe I’m being cynical.
I don’t think he was planning to explain these concepts, just hint at them to the layman reading thr article who probably barely know what Schodinger’s cat is.
And the cat observes it but that doesn’t mean that the cat is now in a discrete state that is either alive or dead. It is both and will stay both and you’ll only see which version of the cat is in your world. At least according to the many worlds theory which makes sense to me
Shrodinger’s cat wasn’t some simplified lesson for the layman. It wasn’t even an explanation. It was a commentary about the quantum model itself and how the current state of the model is laughably incomplete and unable to adequately answer or predict anything of value (yet). It wasn’t until more recently that some Newtonian physics might be explainable as emergent properties of quantum mechanics, but we are still a long ways away from a unified or blurred model.
I mean, they’re both at least illustrative I guess. In the case of particles and waves I may be quibbling a bit over the distinction that something is a particle or a wave versus exhibiting the properties of one or the other.
In the case of Schrodinger’s cat, the thought experiment suggests that if the life or death of the cat is tied to the collapse of the state vector, an eigenstate of the two implies simultaneous life and death. But the varying interpretations of this problem aren’t so straightforward as ‘both dead and alive’, and it’s kind of misleading to just leave it at that.
Personally, I find it odd that they’d discount the cat’s own awareness of the state vector’s collapse. Obviously when the atom decays and kills it, it’s going to know before you are regardless of the presence of cardboard.
It just seems like a lot of kind of imprecise throw-away mentions of more complex ideas for one sentence. But again, maybe I’m being cynical.
I don’t think he was planning to explain these concepts, just hint at them to the layman reading thr article who probably barely know what Schodinger’s cat is.
And the cat observes it but that doesn’t mean that the cat is now in a discrete state that is either alive or dead. It is both and will stay both and you’ll only see which version of the cat is in your world. At least according to the many worlds theory which makes sense to me
Shrodinger’s cat wasn’t some simplified lesson for the layman. It wasn’t even an explanation. It was a commentary about the quantum model itself and how the current state of the model is laughably incomplete and unable to adequately answer or predict anything of value (yet). It wasn’t until more recently that some Newtonian physics might be explainable as emergent properties of quantum mechanics, but we are still a long ways away from a unified or blurred model.
https://betterexplained.com/articles/gotcha-shrodingers-cat/