User:Scottfarrar

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Hi


\frac{\pi^2}{6},
e^{i \pi} + 1 = 0, \,\! \sum_{k=0}^{n-1} e^{2 \pi i k/n} = 0 . \pi(x,a,d) = \frac{1}{\varphi(d)} \int_2^x \frac{1}{\ln t}\,dt + O(x^{1/2+\epsilon})\quad\mbox{ as } \ x\to\infty
e^{\ln x^2}e^{2x} + \log{10^{\log 10^2}} + \log_2{x^4}