Timeline for Are these polynomials the same? [closed]
Current License: CC BY-SA 4.0
11 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| Dec 9 at 12:38 | history | closed |
Ryan Budney Andy Putman Bugs Bunny Alexey Ustinov Mikhail Katz |
Not suitable for this site | |
| Nov 27 at 16:10 | review | Close votes | |||
| Dec 9 at 12:38 | |||||
| Nov 27 at 15:25 | answer | added | Peter Mueller | timeline score: 6 | |
| Nov 27 at 14:28 | vote | accept | Dattier | ||
| Nov 27 at 14:24 | answer | added | YCor | timeline score: 8 | |
| Nov 27 at 14:02 | comment | added | Dattier | Yes. ${}{}{}{}$ | |
| Nov 27 at 13:58 | comment | added | YCor | So it means asking whether $P,Q$, viewed as self-maps of $F_p$, are conjugate (by a permutation). | |
| Nov 27 at 13:54 | history | edited | YCor | CC BY-SA 4.0 |
fixed typo
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| Nov 27 at 13:41 | comment | added | Dattier | Yes, and $H$ does exist ? ${}{}{}$ | |
| Nov 27 at 13:37 | comment | added | Daniel Weber | Every function over a field is a polynomial of high enough degree | |
| Nov 27 at 13:01 | history | asked | Dattier | CC BY-SA 4.0 |