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Benedict Irwin edited Primality.tex
over 9 years ago
Commit id: 04615e00b302fe09feffc69410cc1d40c0be9ed9
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index 23dba7b..53b2b02 100644
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...
1;11n\in\mathbb{Z} & 21649,513239 \\
1;12n\in\mathbb{Z} & 9901 \\
1;13n\in\mathbb{Z} & 53,79,265371653 \\
1;14n\in\mathbb{Z} &
9901 909091 \\
1;15n\in\mathbb{Z} & 9901 \\
1;16n\in\mathbb{Z} & 9901 \\
1;17n\in\mathbb{Z} & 9901 \\
...
This is curious as the prime is not in ascending order. There are multiples, which together would make some other factor. We have for $3$ and $9$, [thus $27$ ...] an interesting relationship where the number is as divisible by $3$ as the integer prefactor $m$ is...
We note that $n\in\mathbb{P}$ that are not $2$ appear to have two, larger primes introduced as divisible factors. (sometimes more? $13$. [semiprime?].
$10$,$12$,$14$, may or may not have some curious relationship as thier numbers are $9091,9901,909091$... Think [False concatenation of $90$ -> $(90;;3)+1$], does this apply to $333667$ as $(3;3|6;3)+1$. This sounds ridiculous which is why it's exciting.