Repetitorium HM III

Lösung.

Zunächst kehren sich $\mbox{${\operatorname{Log}}$}$ und $\mbox{$\exp$}$ auf $\mbox{$G_1 = \mathbb{C}\backslash (-\infty,0]$}$ und $\mbox{$G_2 = \{ z\in\mathbb{C}\: \vert\; {\operatorname{Im}}(z)\in (-\pi,\pi)\}$}$ eineindeutig um, es gilt dort also $\mbox{${\operatorname{Log}}'(z) = z^{-1}$}$ .

Es ist

$\mbox{$\displaystyle f'(z) \; =\; z^{-2}\left({\displaystyle\frac{1}{{\operatorname{Log}}(z)}} - {\operatorname{Log}}({\operatorname{Log}}(z))\right)\; , $}$

und weiter

$\mbox{$\displaystyle f''(z) \; =\; z^{-3}\left(-{\displaystyle\frac{3}{{\oper... ...me{Log}}(z)^2}} + 2{\operatorname{Log}}({\operatorname{Log}}(z))\right)\; . $}$

Es gilt also

$\mbox{$\displaystyle f''(\exp(\mathrm{i}t)) \; =\; \exp(-3\mathrm{i}t)\left(3\mathrm{i}t^{-1} + t^{-2} + 2{\operatorname{Log}}(\mathrm{i}t)\right)\; . $}$