I adopted some frequentist terminology for purposes of this discussion because none of the other explanations I or others had posted seemed to be getting through, and I thought that might be the problem.
The reason I said that there’s a frequentist vs. Bayesian issue here is because the frequentist probabilitiy definition I’m most familiar with is P(f) = lim n->inf sum(f(i), i=1..n)/n, where f(x) is the x’th repetition of an independent repeatable experiment, and that definition is hard to reconcile with SB sometimes being asked twice. I assumed that issue, or a rule justified by that issue, was behind your objection.
I adopted some frequentist terminology for purposes of this discussion because none of the other explanations I or others had posted seemed to be getting through, and I thought that might be the problem.
The reason I said that there’s a frequentist vs. Bayesian issue here is because the frequentist probabilitiy definition I’m most familiar with is P(f) = lim n->inf sum(f(i), i=1..n)/n, where f(x) is the x’th repetition of an independent repeatable experiment, and that definition is hard to reconcile with SB sometimes being asked twice. I assumed that issue, or a rule justified by that issue, was behind your objection.