The kind of probability theory that defines P(X|Y) axiomatically as a primitive entity and only then defines P(X&Y) as a multiplication of P(X|Y) and P(Y), instead of defining conditional probability as a ratio between P(X&Y) and P(Y).
While it’s mathematically equivalent, the former method is more resembling the way people deal with probabilities in practice—usually conditional probability is known and probability of an intersection isn’t—and formally allows us to talk about conditional probabilities, even when the probability of an event we condition on is not defined.
The kind of probability theory that defines P(X|Y) axiomatically as a primitive entity and only then defines P(X&Y) as a multiplication of P(X|Y) and P(Y), instead of defining conditional probability as a ratio between P(X&Y) and P(Y).
While it’s mathematically equivalent, the former method is more resembling the way people deal with probabilities in practice—usually conditional probability is known and probability of an intersection isn’t—and formally allows us to talk about conditional probabilities, even when the probability of an event we condition on is not defined.