Timeline for Distribution of 2-groups
Current License: CC BY-SA 4.0
15 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| Feb 4 at 15:01 | vote | accept | Shi Chen | ||
| Feb 4 at 14:51 | vote | accept | Shi Chen | ||
| Feb 4 at 15:00 | |||||
| Feb 4 at 14:33 | vote | accept | Shi Chen | ||
| Feb 4 at 14:35 | |||||
| Feb 4 at 13:27 | comment | added | Dave Benson | @ShiChen You mean C.C. Sims, not C.C. Simons. | |
| Feb 4 at 12:23 | comment | added | testaccount | @ShiChen: In the wikipedia article on $p$-groups, someone has written that it is a folklore conjecture. | |
| Feb 4 at 11:59 | answer | added | Dave Benson | timeline score: 5 | |
| Feb 4 at 9:53 | comment | added | Dave Benson | Pyber, "Enumerating finite groups of given order" (Annals 1993) gives estimates that may well answer this question, but... details... | |
| Feb 4 at 9:22 | comment | added | Shi Chen | There are some estimates about the number of non-isomorphic p-groups by G.Higman and C.C.Simons, but I don't know how to combine it with all finite groups. | |
| Feb 4 at 7:09 | comment | added | Shi Chen | I haven't found such a conjecture in some book or paper. | |
| Feb 4 at 7:02 | comment | added | testaccount | I think it is conjectured that the answer is yes, but the problem is open. | |
| Feb 4 at 1:42 | comment | added | Shi Chen | I am sorry to this typo. | |
| Feb 4 at 1:40 | history | edited | Shi Chen | CC BY-SA 4.0 |
added 4 characters in body
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| Feb 4 at 1:33 | comment | added | Jeremy Rickard | Do you mean $2^{\lfloor{\rm log}_2 n\rfloor}$ rather than $\lfloor{\rm log}_2 n\rfloor$? | |
| Feb 4 at 1:19 | history | edited | Shi Chen | CC BY-SA 4.0 |
added 2 characters in body
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| Feb 4 at 0:39 | history | asked | Shi Chen | CC BY-SA 4.0 |