no uniformity claimed
(∀x: Rx) (∃z: Qz) (∀y: Jy) Axzy
claims uniformity with respect to
jurors
(∀y: Jy) (∃z: Qz) (∀x: Rx) Axzy
claims uniformity with respect to
reporters
(∃z: Qz) (∀x: Rx) (∀y: Jy) Axzy
(∃z: Qz) (∀y: Jy) (∀x: Rx) Axzy
claims uniformity with respect to
both jurors and reporters
A: [ _ asked _ of _ ]; J: [ _ is a juror]; Q: [ _ is a question]; R: [ _ is a reporter]
Two pairs of these six forms are equivalent; for, when the two universals are side by side (and neither binds variables in the restriction of the other), we can interchange them without altering the proposition expressed. The distinguishing feature of the forms that are not equivalent is the location of the existential quantifier used to represent a question—whether it is outside the scope of one or the other of the universal quantifier phrases, outside the scope of both, or outside the scope of neither. And these four non-equivalent symbolic possibilities correspond to the four possibilities of uniformity we have noticed in the sentence.
The use of relative scope that we have seen in this example applies generally: when a claim of general exemplification is uniform with respect to a given dimension of generality, the existential quantifier representing the claim of exemplification should have wider scope than the universal quantifier corresponding to the relevant dimension of generality. So, when you are faced with choosing the order in which to represent several quantifier phrases and you wonder what effect the order you choose will have on the meaning, you can proceed as follows. First, identify the quantifier phrases making existential claims and the quantifier phrases that generalize on one or another dimension. Then ask, for each existential quantifier phrase and each generalizing one, whether the existential claims that exemplification is uniform on the dimension referred to by the generalizing phrase. If the existential makes this claim, it should be given wider scope than the universal; if it does not, the universal should be given wider scope. The answers to these questions will settle the relative order of treatment for each pair consisting of an existential and a universal.
This approach may not settle all questions about the order in which quantifier phrases are to be treated in claims of general exemplification, but the remaining questions can be settled arbitrarily without any effect on the meaning ascribed to the sentence. For example, if a question is held to claim an exemplification that is uniform with respect to both reporters and jurors, we know that the existential quantifier phrase must be treated before the two universals. Nothing is implied about the order in which we go on to handle every reporter and each juror, but that order also has no effect on the content of the result.
The language we have been using to speak about the process of settling the relative scope of quantifier phrases is open to one sort of misinterpretation. Although there is no way to arrange overlapping scopes to claim uniformity in each of two dimensions without claiming uniformity in both, this does not mean that separate claims of uniformity in each of two dimensions together entail a claim of uniformity in both. Since there might be different examples exhibiting uniformity in each of two dimensions, there can be situations where a claim of uniformity holds for each dimension even though there is no example that works uniformly for both. For example, it may be that reporters had favorite questions so that it is true that
(∀x: Rx) (∃z: Qz) (∀y: Jy) Axzy
—i.e., each reporter asked a question uniformly for all jurors—and it may also be that there was an obvious question for each juror so that it is true that
(∀y: Jy) (∃z: Qz) (∀x: Rx) Axzy
—i.e., each juror was asked a question uniformly by all reproters—while still there was no one question that appeared across interviews in which both the reporter and juror differed. In short, while the conjunction
(∀x: Rx) (∃z: Qz) (∀y: Jy) Axzy
∧ (∀y: Jy) (∃z: Qz) (∀x: Rx) Axzy
says more than either of its conjuncts, it still says less than the claim
(∃z: Qz) (∀x: Rx) (∀y: Jy) Axzy
of doubly uniform exemplification.