Timeline for Proof of "Possible new series for $\pi$" without use of physics
Current License: CC BY-SA 4.0
12 events
| when toggle format | what | by | license | comment | |
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| Sep 11 at 6:56 | comment | added | Hjalmar Rosengren | My paper on this topic is now available at arxiv.org/abs/2409.06658 | |
| Jul 21 at 5:01 | comment | added | Hjalmar Rosengren | @TimothyChow Good question, I will think about it. I started writing a short paper about the Sinha-Saha-type series. | |
| Jul 20 at 1:01 | comment | added | Timothy Chow | @HjalmarRosengren It occurred to me that since the Sinha-Saha series can be thought of as a generalization of Madhava's series, perhaps there is a way to generalize Madhava's correction term as well? Any thoughts about that? | |
| Jul 2 at 22:45 | history | edited | Timothy Chow | CC BY-SA 4.0 |
Added link
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| Jul 2 at 18:13 | history | bounty ended | TheSimpliFire | ||
| Jul 2 at 18:13 | vote | accept | TheSimpliFire | ||
| Jul 2 at 16:37 | comment | added | Hjalmar Rosengren | Maybe some people would prefer to write $t_1=t$ and substitute $t_2=(\lambda-t\lambda-1/4)/(\lambda-t)$ everywhere. Then we have completely standard partial fraction expansions in the variable $t$. I only introduce the variable $t_2$ to make the symmetries of the expressions more explicit. | |
| Jul 2 at 15:00 | history | edited | Hjalmar Rosengren | CC BY-SA 4.0 |
deleted 3 characters in body
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| Jul 2 at 13:16 | history | edited | Daniele Tampieri | CC BY-SA 4.0 |
Minor Math Jaxing including (but not exclusively) formula hyperlinking
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| Jul 2 at 13:12 | history | edited | Hjalmar Rosengren | CC BY-SA 4.0 |
added 12 characters in body
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| Jul 2 at 13:06 | comment | added | Sam Hopkins | Humans 1 - AI 0 | |
| Jul 2 at 13:03 | history | answered | Hjalmar Rosengren | CC BY-SA 4.0 |