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Verónica Rmz. $(function() {$(".js-rank-badge").addSpinner().load("/users/rank?userId=235725"); });

🦈

$\color{red}{♪}\color{cyan}♫\color{purple} ♬\color{pink}{♪}\color{orange}♫\color{yellow} ♬\color{lightgreen}{♪}\color{brown}♫\color{magenta}{♪}\color{green} ♬\color{gray}{♪}\color{blue}♫\color{black}{♪}\color{lightblue}♬$

$\color{black}{\infty!=\sqrt{2\pi}}$

$\color{red}{♪}\color{cyan}♫\color{purple} ♬\color{pink}{♪}\color{orange}♫\color{yellow} ♬\color{lightgreen}{♪}\color{brown}♫\color{magenta}{♪}\color{green} ♬$

^...ira nomas

$\color{black}{\displaystyle\int_{-\infty}^{\infty} \frac{\sin \left( x\right )}{x} \mathrm{d}x = \int_{-\infty}^{\infty} \frac{\sin ^ 2\left( x\right )}{x^2} \mathrm{d}x}$

$\color{black}{\displaystyle\int_0^\infty\frac{1}{(1+x^\varphi)^\varphi}\mathrm dx = 1, \ }$

$\text{where}\ \varphi=\dfrac{1+\sqrt5}{2}$ a golden ratio.

$\color{black}{\left(\sum\limits_{k=1}^n k\right)^2=\sum\limits_{k=1}^nk^3}$

For more of these cool equalities: $\color{black}{\text{Funny identities}}$ or $\color{black}{\text{Surprising identities / equations}}$

• Oaxaca, Mexico
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