Ableitungsregel für Tangens hyperbolicus

\begin{align*} {\Bigl[ \tanh(x) \Bigr]}' &= {\left[ \frac{\sinh(x)}{\cosh(x)} \right]}' \\[0.75em] &= \frac{{\left[ \sinh(x) \right]}' \cdot \cosh(x) - \sinh(x) \cdot {\left[ \cosh(x) \right]}'}{\cosh^2(x)} \\[0.75em] &= \frac{\cosh(x) \cdot \cosh(x) - \sinh(x) \cdot \sinh(x)}{\cosh^2(x)} \\[0.75em] &= \frac{\cosh^2(x) - \sinh^2(x)}{\cosh^2(x)} \end{align*}

\[ {\Bigl[ \tanh(x) \Bigr]}' = \frac{1}{\cosh^2(x)} \]

\begin{align*} {\Bigl[ \tanh(x) \Bigr]}' &= \frac{\cosh^2(x) - \sinh^2(x)}{\cosh^2(x)} \\[0.75em] &= \frac{\cosh^2(x)}{\cosh^2(x)} - \frac{\sinh^2(x)}{\cosh^2(x)} \\[0.75em] &= 1 - {\left( \frac{\sinh(x)}{\cosh(x)} \right)}^2 \\[0.75em] &= 1 - \tanh^2(x) \\[0.75em] \end{align*}