The Stacks project

This is not a big deal, but strictly speaking, one should say for any non-zero $x\in K$, blabla as you talk about $x^{-1}$. The same issue persists in the next lemma.

One could more precisely show that $P \mapsto P/IP$ induces a bijection between isomorphism classes of finite projective $R$-modules and isomorphism classes of finite projective $R/I$-modules: The current formulation shows the surjectivity of the map. To show the injectivity, let $P$, $P'$ be finite projective $R$-modules such that $P/IP \cong P'/IP'$. Hence we find an $R$-linear map $P \to P'/IP'$. As $P$ is projective, it lifts to an $R$-linear map $u\colon P \to P'$. As $u$ is an isomorphism modulo $I$, it is surjective by Nakayama's lemma. The ranks of the finite projective $R$-modules $P$ and $P'$ are equal in every open neighborhood of $V(I)$. As $I$ is contained in the radical of $R$, the only open neighborhood of $V(I)$ is $\Spec A$. Hence $u$ is a surjective map of finite projective modules of the same rank. Hence it is an isomorphism.

In the definition of order, there is $\mathcal{O}_{X,z}$ which should be $\mathcal{O}_{X,Z}.$

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In the first sentence "There is a notion of regular sequence which is slightly weaker than that of a regular sequence" the word "quasi" is presumably missing.

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No, the assumption $n\in \mathcal{O}_S^*$ is the correct one: if $n$ is not invertible in the local rings of $S$ then the sequence is not exact on the right (étale-local surjectivity fails). Think about what kind of extension it needs to extract $p$-roots in characteristic $p$.

Typo in assumption, should be $n \in \mathbf{N}$.

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I've found this in Serre's Faisceaux algébriques cohérents. Properties (3) and (4) are, respectively, theorems 13.2 and 13.1. Here is an English translation: http://achinger.impan.pl/fac/fac.pdf On this pdf the theorems are on pp. 18-19

$R^{\oplus t}$ should be $A^{\oplus t}$

@verisimidude

(I am not a graduate student; tell me if this is inaccurate)

It's not true that everything is a set. The axioms of ZFC are actually very specific rules for how a set can be constructed. This is because of stuff like Russel's Paradox (does the "set" of all sets that do not contain themselves contain itself). A class is a way to talk about some sets without placing them in a set: by definition, classes can't contain themselves, which avoids Russels's paradox. The "set" of all proper classes would actually not be a class or a set: it would be the next step up in the hierarchy.

While homeomorphisms have "2 out of 3" property, it's unclear if universal homeomorphism also has the property. (In fact, the one being used in your second sentence is the only unclear one, because one needs to look at base changes that doesn't come from the "most downstairs base"? I tried to see this, and easily reduced to the case where the composition is identity, but then got stuck. Maybe this is already discussed somewhere in the SP?)

In any case, it is still true that F_{X/S} is a universal homeomorphism: WLOG one may assume both X and S are affine, then one can check condition (2) in [0CNF] holds true directly.

In the proof (2nd paragraph), there is an "abd", which I think should be an "and".

Is the condition that $f$ is flat redundant? We can use (2) in \href{https://stacks.math.columbia.edu/tag/0B91}{Lemma 0B91}, which does not need flatness of $f$.