Timeline for Elliptic function with constant real part on the unit square diagonals?
Current License: CC BY-SA 3.0
16 events
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| S Jan 5 at 16:09 | vote | accept | Aobara | ||
| Apr 13, 2017 at 12:58 | history | edited | CommunityBot |
replaced http://mathoverflow.net/ with https://mathoverflow.net/
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| May 10, 2012 at 13:50 | history | edited | Aobara |
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| May 10, 2012 at 13:27 | history | edited | Aobara | CC BY-SA 3.0 |
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| S May 10, 2012 at 11:53 | vote | accept | Aobara | ||
| S Jan 5 at 16:09 | |||||
| S May 10, 2012 at 11:53 | vote | accept | Aobara | ||
| S May 10, 2012 at 11:53 | |||||
| May 7, 2012 at 19:14 | vote | accept | Aobara | ||
| S May 10, 2012 at 11:53 | |||||
| May 7, 2012 at 19:14 | vote | accept | Aobara | ||
| May 7, 2012 at 19:14 | |||||
| May 7, 2012 at 14:07 | answer | added | Aobara | timeline score: 0 | |
| May 6, 2012 at 22:57 | history | edited | Aobara | CC BY-SA 3.0 |
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| Mar 22, 2012 at 9:45 | vote | accept | Aobara | ||
| May 7, 2012 at 19:14 | |||||
| Mar 21, 2012 at 20:10 | answer | added | Charles Matthews | timeline score: 2 | |
| Mar 21, 2012 at 20:01 | comment | added | zeb | inverse symbolic calculator suggests the exact value may be 1/2*(2^(1/4)+2^(3/4))^(1/2). To prove it, I'd probably try to calculate the exact behavior of H at the poles, and then use that information to express it in terms of the Weierstrauss P function. | |
| Mar 21, 2012 at 19:51 | history | edited | Aobara | CC BY-SA 3.0 |
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| Mar 21, 2012 at 19:43 | history | edited | Aobara |
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| Mar 21, 2012 at 19:32 | history | asked | Aobara | CC BY-SA 3.0 |