Timeline for Existence of a special ordering of the elements of a finite group
Current License: CC BY-SA 4.0
11 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| Aug 29 at 0:11 | comment | added | tomasz | @DaveBenson: OK, this time I triple checked all the computations, so hopefully it's alright. | |
| Aug 29 at 0:09 | history | undeleted | tomasz | ||
| Aug 29 at 0:09 | history | edited | tomasz | CC BY-SA 4.0 |
deleted 285 characters in body
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| Aug 28 at 23:11 | history | deleted | tomasz | via Vote | |
| Aug 28 at 23:08 | comment | added | Dave Benson | Multiply out $(1+g)(1+h)$ and $(1+h)(1+g^h)$. | |
| Aug 28 at 23:05 | comment | added | Dave Benson | Still doesn't seem right. | |
| Aug 28 at 23:01 | history | undeleted | tomasz | ||
| Aug 28 at 23:01 | history | edited | tomasz | CC BY-SA 4.0 |
added 76 characters in body
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| Aug 28 at 22:44 | history | deleted | tomasz | via Vote | |
| Aug 28 at 22:12 | comment | added | Dave Benson | I think $S_3$ is a counterexample to your last paragraph. | |
| Aug 28 at 21:49 | history | answered | tomasz | CC BY-SA 4.0 |