Ω calculation function idea

So at school I was thinking "why don't I create a function that someone can use to calculate numbers in their head" so I came up with the Ω function for calculation, it's basically 1Ω=1..100, 2Ω=2...200 and so on, but how do we get that number? Do we use the Riemann zeta function? Euler gamma function? I need your help to design a concept, comment ideas below!

#Calculus

Easy Math Editor

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Comments

teal u wort, wee carn oose ze raiman zeti fancshion 2 ween at live.

loork at dis:

$\sum _{n=1}^{inf}H_n^2x^n=\frac{1}{x}\left[\sum _{n=1}^{inf}H_n^2x^n+\sum _{n=2}^{inf}\frac{1}{n^2}x^n-2\sum _{n=2}^{inf}\frac{H_n}{n}x^n\right]-1$

$2\sum _{n=1}^{inf}\left(\sum _{k=1}^n\frac{1}{k}\right)^2\left(\frac{1}{2}\right)^n+2L-4\sum _{n=1}^{inf}\frac{\sum _{k=1}^n\frac{1}{k}}{n}\left(\frac{1}{2}\right)^n$

$S=\frac{\pi ^2}{6}+\ln ^2\left(2\right)$

eat's ass eencormprihancibel ass ur stuupeedeeti ees 2 u.

Julian Poon - 5 years, 1 month ago

btw, is there any chance that you might be known as Noted Scholar in other accounts? I'm a big fan of noted scholar.

Julian Poon - 5 years, 1 month ago

You can even write in integral representation:

$\huge n\Omega=\dfrac{ \int_{0}^{\infty} \dfrac{x^{100n}}{\zeta(100n+1)(e^x-1)} \ dx}{ \int_{0}^{\infty} \dfrac{x^n}{\zeta(n+1)(e^x-1)} \ dx}$

Nihar Mahajan - 5 years, 1 month ago

@Ark3 Graptor there?

Nihar Mahajan - 5 years, 1 month ago

I explained a adjustment to your theory below on your first comment