Timeline for Existence of 'maximal' finite permutation groups?
Current License: CC BY-SA 4.0
10 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| S Jun 8, 2022 at 2:40 | history | bounty ended | Jonas Anderson | ||
| S Jun 8, 2022 at 2:40 | history | notice removed | Jonas Anderson | ||
| Jun 7, 2022 at 23:44 | vote | accept | Jonas Anderson | ||
| Jun 6, 2022 at 1:38 | answer | added | Peter McNamara | timeline score: 8 | |
| S Jun 6, 2022 at 0:11 | history | bounty started | Jonas Anderson | ||
| S Jun 6, 2022 at 0:11 | history | notice added | Jonas Anderson | Draw attention | |
| Jun 5, 2022 at 12:48 | comment | added | Jonas Anderson | Yes. It is the group of all $n\times n$ permutation matrices. Each element is a monomial matrix where the non-zero entry in each row and column is 1. There are $n!$ elements in the group $S(n)$. | |
| Jun 5, 2022 at 5:07 | comment | added | Qiaochu Yuan | To be clear, when you say $S(n)$ is a "permutation group" you mean it's a group of monomial matrices? | |
| Jun 4, 2022 at 3:59 | history | edited | Jonas Anderson | CC BY-SA 4.0 |
Simplified question
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| Jun 3, 2022 at 23:37 | history | asked | Jonas Anderson | CC BY-SA 4.0 |