Timeline for Applications of the prime avoidance lemma
Current License: CC BY-SA 3.0
15 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| Nov 13, 2020 at 19:29 | answer | added | Keith Kearnes | timeline score: 2 | |
| Mar 17, 2020 at 10:32 | answer | added | Abolfazl Tarizadeh | timeline score: 3 | |
| Nov 28, 2016 at 20:02 | vote | accept | Xam | ||
| Nov 28, 2016 at 19:50 | answer | added | Fred Rohrer | timeline score: 4 | |
| Nov 28, 2016 at 19:38 | history | edited | Xam | CC BY-SA 3.0 |
improved formatting
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| Nov 28, 2016 at 19:37 | comment | added | Xam | @Fred Rohrer you're right. | |
| Nov 28, 2016 at 19:09 | comment | added | Fred Rohrer | The application given in the question is missing a noetherian hypothesis. | |
| Nov 28, 2016 at 19:08 | comment | added | YCor | I just gave a link for people to have the statement by a single click (and I meant "but not this particular English name"). | |
| Nov 28, 2016 at 19:02 | comment | added | Xam | @Ycor I don't understand what you want to say. As far as I know the prime avoidance lemma is stated in Kaplansky's book "Commutative Rings". So I think this result could be called "Kaplansky's lemma'. | |
| Nov 28, 2016 at 18:40 | review | Close votes | |||
| Nov 29, 2016 at 5:44 | |||||
| Nov 28, 2016 at 18:18 | answer | added | Francesco Polizzi | timeline score: 4 | |
| Nov 28, 2016 at 18:18 | comment | added | YCor | en.wikipedia.org/wiki/Prime_avoidance_lemma (I knew this lemma but this particular English name) | |
| Nov 28, 2016 at 16:02 | comment | added | Mohan | There are many applications of it. Let me give you one. Let $R$ be a Noetherian ring of dimension $d$ and $I$ any ideal. Then $I$ is set-theoretically (that is, upto radicals) generated by $d+1$ elements. | |
| Nov 28, 2016 at 15:57 | review | First posts | |||
| Nov 28, 2016 at 16:15 | |||||
| Nov 28, 2016 at 15:52 | history | asked | Xam | CC BY-SA 3.0 |