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\begin{equation*} \DeclareMathOperator\Coim{Coim} \DeclareMathOperator\Coker{Coker} \DeclareMathOperator\Ext{Ext} \DeclareMathOperator\Hom{Hom} \DeclareMathOperator\Im{Im} \DeclareMathOperator\Ker{Ker} \DeclareMathOperator\Mor{Mor} \DeclareMathOperator\Ob{Ob} \DeclareMathOperator\Sh{Sh} \DeclareMathOperator\SheafExt{\mathcal{E}\mathit{xt}} \DeclareMathOperator\SheafHom{\mathcal{H}\mathit{om}} \DeclareMathOperator\Spec{Spec} \newcommand\colim{\mathop{\mathrm{colim}}\nolimits} \newcommand\lim{\mathop{\mathrm{lim}}\nolimits} \newcommand\Qcoh{\mathit{Qcoh}} \newcommand\Sch{\mathit{Sch}} \newcommand\QCohstack{\mathcal{QC}\!\mathit{oh}} \newcommand\Cohstack{\mathcal{C}\!\mathit{oh}} \newcommand\Spacesstack{\mathcal{S}\!\mathit{paces}} \newcommand\Quotfunctor{\mathrm{Quot}} \newcommand\Hilbfunctor{\mathrm{Hilb}} \newcommand\Curvesstack{\mathcal{C}\!\mathit{urves}} \newcommand\Polarizedstack{\mathcal{P}\!\mathit{olarized}} \newcommand\Complexesstack{\mathcal{C}\!\mathit{omplexes}} \newcommand\Pic{\mathop{\mathrm{Pic}}\nolimits} \newcommand\Picardstack{\mathcal{P}\!\mathit{ic}} \newcommand\Picardfunctor{\mathrm{Pic}} \newcommand\Deformationcategory{\mathcal{D}\!\mathit{ef}} \end{equation*}

On left comment #4954 on Lemma 10.38.12 in Commutative Algebra

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On awllower left comment #4953 on Lemma 29.34.18 in Morphisms of Schemes

Suggested slogan: Cancellation law for étale morphisms.

On SDIGR left comment #4952 on Remark 44.3.7 in Picard Schemes of Curves

Typo!?:
Last sentence:
The divisor corresponding to a -rational point of must be of degree , not of degree .

On SDIGR left comment #4951 on Lemma 44.3.5 in Picard Schemes of Curves

Sorry, I mean the other way around.

On SDIGR left comment #4950 on Lemma 44.3.5 in Picard Schemes of Curves

First sentence of the Proof: .

On Min left comment #4949 on Section 106.19 in Moduli of Curves

What is T in the functor the dualizing sheaf represents? Should it be U?

On Min left comment #4948 on Section 106.19 in Moduli of Curves

What is in the functor the dualizing sheaf represents? Should it be ?

On yogesh left comment #4947 on Lemma 10.62.4 in Commutative Algebra

Oops, sorry disregard my previous comment. I got forgot we're talkng about the annihilator as an element of , not . I was thinking of using the previous result of associated primes of short exact sequences applied to so But the proof you give is basically the proof of that result, whose proof is omitted.

On yogesh left comment #4946 on Lemma 10.62.4 in Commutative Algebra

Oops, sorry disregard my previous comment. I got forgot we're talkng about the annihilator as an element of , not .

On yogesh left comment #4945 on Lemma 10.62.4 in Commutative Algebra

In the proof, I think the inclusion is going the wrong way and the rest of the proof is unnecessary. I think any nonzero element of is annihilated by exactly by .

On yogesh left comment #4944 on Lemma 10.67.10 in Commutative Algebra

In the second to last sentence of the proof, there is no need to appeal to Lemma 07DV (looks like this was necessary before you fixed to in 2014)

On yogesh left comment #4942 on Lemma 10.38.14 in Commutative Algebra

oops, nevermind. disregard my previous comment

On yogesh left comment #4941 on Lemma 10.38.14 in Commutative Algebra

the exact sequence in the first line of the proof is always exact. maybe it should be N in place of

On Rankeya left comment #4940 on Lemma 10.48.3 in Commutative Algebra

should be in this statement.

On Antoine Chambert-Loir left comment #4939 on Section 29.50 in Morphisms of Schemes

I wonder whether these results do extend when the assumption on the base (locally Noetherian) is replaced by the assumption on the morphism (finite presentation). It looks automatic to me.

I have one example in mind where such a reduction is used — for Lemma 2.4.12 of Maclagan/Sturmfels book, the base is a valuation ring (but they would need some slightly different result, though, because it is not clear a priori that if is an ideal of (K, field of fractions of a valuation ring R), then is finitely generated ; but they consider a finitely generated subideal of which does the job.

On Laurent Moret-Bailly left comment #4938 on Lemma 10.28.3 in Commutative Algebra

The proof contains the result that the constructible sets of are the finite unions of sets of the form . This fact is useful by itself, so why not make it a separate statement (or incorporate it in 00F6)? It would make 00F8 immediate, and probably simplify other proofs, too.

On awllower left comment #4937 on Lemma 10.28.3 in Commutative Algebra

I think the last ring map should be ?

On Laurent Moret-Bailly left comment #4936 on Definition 9.12.2 in Fields

The comment that the definition is restricted to algebraic extensions is welcome, but why not add a reference to sections 030I and 05DT?

On left comment #4935 on Lemma 38.32.2 in More on Flatness

You are right! To see this we should appeal to the result stated in Lemma 29.6.8 for the "partial section" to the projection . When I last edited this section I tried to add as many references to Lemma 29.6.8 as I could, but I missed this one. Sorry!

On awllower left comment #4934 on Lemma 38.32.2 in More on Flatness

Why being a closed immersion implies that is an open immersion? I can only tell that is an open immersion, but this does not seem to help.


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