Timeline for Polynomials over Z evaluated with finite field arguments
Current License: CC BY-SA 2.5
8 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| Oct 12, 2010 at 19:40 | vote | accept | Hedonist | ||
| Oct 12, 2010 at 19:40 | vote | accept | Hedonist | ||
| Oct 12, 2010 at 19:40 | |||||
| Oct 12, 2010 at 19:40 | vote | accept | Hedonist | ||
| Oct 12, 2010 at 19:40 | |||||
| Oct 12, 2010 at 19:39 | comment | added | Hedonist | Sorry about that. I had no idea how the algebraic closure of a finite field looks like. From your comment, I see that if one can find a choice of $\omega_i$ over the algebraic closure of a prime finite field, then one can find such $\omega_i$ over some finite extension of the prime field. Thanks. | |
| Oct 12, 2010 at 13:59 | answer | added | Felipe Voloch | timeline score: 3 | |
| Oct 12, 2010 at 10:50 | comment | added | Charles Matthews | The last remark is a little jarring: any point over the algebraic closure is defined over some finite field. | |
| Oct 12, 2010 at 6:53 | answer | added | Charles Matthews | timeline score: 3 | |
| Oct 12, 2010 at 5:46 | history | asked | Hedonist | CC BY-SA 2.5 |