Timeline for Finding a strictly increasing Collatz sequence of arbitrary length [closed]
Current License: CC BY-SA 4.0
11 events
| when toggle format | what | by | license | comment | |
|---|---|---|---|---|---|
| S Aug 4, 2023 at 18:14 | history | migration rejected | |||
| S Aug 4, 2023 at 18:14 | history | unlocked | CommunityBot | ||
| S Aug 4, 2023 at 17:57 | history | migrated |
user44191 Dave Benson Mikhail Katz Daniele Tampieri Andy Putman |
to math.stackexchange.com | |
| S Aug 4, 2023 at 17:57 | history | locked | CommunityBot | ||
| S Aug 4, 2023 at 17:57 | history | closed |
user44191 Dave Benson Mikhail Katz Daniele Tampieri Andy Putman |
Not suitable for this site | |
| Aug 4, 2023 at 16:16 | vote | accept | NotAGhost | ||
| Aug 4, 2023 at 2:01 | answer | added | user35593 | timeline score: 4 | |
| Aug 4, 2023 at 0:09 | review | Close votes | |||
| Aug 4, 2023 at 18:04 | |||||
| Aug 3, 2023 at 23:51 | comment | added | user44191 | Presumably, you mean a $\frac{3x + 1}{2}$-sequence, since if $x$ is odd then $3x + 1$ is even. In that case: start with $x = 2^n - 1$, or more generally $x = m*2^n - 1$. | |
| S Aug 3, 2023 at 23:29 | review | First questions | |||
| Aug 3, 2023 at 23:51 | |||||
| S Aug 3, 2023 at 23:29 | history | asked | NotAGhost | CC BY-SA 4.0 |