Difference between r1.1 and the current
@@ -16,3 +16,6 @@
$e^y=x+\sqrt{x^2-1}$
∴
$y=\ln(x+\sqrt{x^2-1})$
∴
$y=\ln(x+\sqrt{x^2-1})$
----
Up: [[여러가지증명]]
Proof ¶
$\displaystyle y=\cosh^{-1}x$
$\displaystyle \cosh y=x$
$\displaystyle \frac{e^y+e^{-y}}2=x$
$\displaystyle e^y-2x+e^{-y}=0$
$\displaystyle t=e^y$ 치환$\displaystyle \cosh y=x$
$\displaystyle \frac{e^y+e^{-y}}2=x$
$\displaystyle e^y-2x+e^{-y}=0$
$\displaystyle t-2x+\frac1t=0$
$\displaystyle t^2-2xt+1=0$
$\displaystyle t=e^y=x\pm\sqrt{x^2-1}$
여기서 $\displaystyle \pm$ 에서 $\displaystyle +$ 만 남는 이유는 TBW$\displaystyle t^2-2xt+1=0$
$\displaystyle t=e^y=x\pm\sqrt{x^2-1}$
$\displaystyle e^y>0$ 이므로
$\displaystyle e^y=x+\sqrt{x^2-1}$
∴$\displaystyle y=\ln(x+\sqrt{x^2-1})$
Up: 여러가지증명