Timeline for On a GCD approach to odd perfect numbers

Current License: CC BY-SA 4.0

15 events

when toggle format	what		by	license	comment
S Jan 10 at 9:15	history	bounty ended	Jose Arnaldo Bebita
S Jan 10 at 9:15	history	notice removed	Jose Arnaldo Bebita
Jan 10 at 9:14	vote	accept	Jose Arnaldo Bebita
Jan 10 at 9:14	vote	accept	Jose Arnaldo Bebita
Jan 10 at 9:14
Jan 3 at 17:32	comment	added	Peter LeFanu Lumsdaine		I’m not the downvoter, but, this question reads mostly as an open-ended “fishing expedition” — “Here are some ideas; I’m not sure how novel they are or what to do next; does anyone have any thoughts?” — rather than a precise, delimited, answerable question. Open-ended questions like this generally are very rarely a good fit on MO, so often get downvoted or closed.
Jan 3 at 16:53	answer	added	Pace Nielsen		timeline score: 9
Jan 3 at 15:08	comment	added	Jose Arnaldo Bebita		Would the (quick) downvoter care to share his/her feedback (hopefully constructive)? As it is, I am totally clueluess. This will help me improve future questions/posts.
Jan 3 at 14:35	comment	added	Jose Arnaldo Bebita		I am able to derive $$\gcd(H - G, I - H, I - G) = \frac{m - \gcd(\sigma(p^k)/2, m)}{\sigma(p^k)/2}.$$ Now, I pray that someone confirms to me that this, indeed, forces $\sigma(p^k)/2 \mid m$.
Jan 3 at 14:10	history	edited	Jose Arnaldo Bebita	CC BY-SA 4.0	added further context 2
Jan 3 at 14:02	history	edited	Jose Arnaldo Bebita	CC BY-SA 4.0	added further context
Jan 3 at 13:05	history	edited	Martin Sleziak		added a top-level tag; see: https://meta.mathoverflow.net/questions/1457/why-are-mo-tags-formatted-as-they-are
S Jan 3 at 13:04	history	bounty started	Jose Arnaldo Bebita
S Jan 3 at 13:04	history	notice added	Jose Arnaldo Bebita		Draw attention
Jan 3 at 12:58	history	edited	Jose Arnaldo Bebita	CC BY-SA 4.0	added context
Dec 10, 2023 at 5:44	history	asked	Jose Arnaldo Bebita	CC BY-SA 4.0