Timeline for What do 84, 96 and 108 have in common?
Current License: CC BY-SA 4.0
9 events
| when toggle format | what | by | license | comment | |
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| Aug 28, 2023 at 21:18 | comment | added | qwr | Btw you can use sympy for simple number theory functions. | |
| Aug 28, 2023 at 3:17 | comment | added | yanjunk | @GregMartin I forgot to mention you in my reply. Hopefully this isn't considered rude (to make a comment solely to mention you). | |
| Aug 28, 2023 at 2:57 | comment | added | yanjunk | Apologies. I flubbed in explaining it, and have edited the answer to include the code and fix the explanation. | |
| Aug 28, 2023 at 2:56 | history | edited | yanjunk | CC BY-SA 4.0 |
fix
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| Aug 28, 2023 at 2:13 | comment | added | Greg Martin | I don't underatand what you mean by "don't divide the product of their first half of factors (minus one)"; I haven't been able to recreate your results. | |
| Aug 28, 2023 at 2:11 | comment | added | Greg Martin | Note that twelve of the entries in the list have only 10 divisors. They of the form $2^4\cdot p$ where $p$ runs over the primes between $17$ and $61$ (one might speculate that they are the primes between $2^4$ and $2^6$). | |
| Aug 28, 2023 at 1:19 | history | edited | yanjunk | CC BY-SA 4.0 |
added 263 characters in body
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| S Aug 28, 2023 at 0:27 | review | First answers | |||
| Aug 28, 2023 at 7:02 | |||||
| S Aug 28, 2023 at 0:27 | history | answered | yanjunk | CC BY-SA 4.0 |