If the universe contained a source of ML-random bits they might look like uniformly random coin flips to us, even if they actually had some uncomputable distribution. For instance, perhaps spin measurements are not iid Bernoulli, but since their distribution is not computable, we aren’t able to predict it any better than that model?
I’m not sure how you’re imagining this oracle would act? Nothing like what you’re describing seems to be embedded as a physical object in spacetime, but I think that’s the wrong thing to expect, failures of computability wouldn’t act like Newtonian objects.
If the universe contained a source of ML-random bits they might look like uniformly random coin flips to us, even if they actually had some uncomputable distribution. For instance, perhaps spin measurements are not iid Bernoulli, but since their distribution is not computable, we aren’t able to predict it any better than that model?
I’m not sure how you’re imagining this oracle would act? Nothing like what you’re describing seems to be embedded as a physical object in spacetime, but I think that’s the wrong thing to expect, failures of computability wouldn’t act like Newtonian objects.