求导函数:
输入一个原函数(即需要求导的函数),然后设置需要求导的变量和求导的阶数,点击“下一步”按钮,即可获得该函数相应阶数的导函数。
注意,输入的函数支持数学函数和其它常量。
输入一个原函数(即需要求导的函数),然后设置需要求导的变量和求导的阶数,点击“下一步”按钮,即可获得该函数相应阶数的导函数。
注意,输入的函数支持数学函数和其它常量。
本次共计算 1 个题目:每一题对 x 求 4 阶导数。
注意,变量是区分大小写的。
\[ \begin{equation}\begin{split}【1/1】求函数log_{ln(x)}^{e^{x}} 关于 x 的 4 阶导数:\\\end{split}\end{equation} \]\[ \begin{equation}\begin{split}\\解:&\\ &\color{blue}{函数的第 1 阶导数:}\\&\frac{d\left( log_{ln(x)}^{e^{x}}\right)}{dx}\\=&(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})\\=&\frac{1}{ln(ln(x))} - \frac{log_{ln(x)}^{e^{x}}}{xln(x)ln(ln(x))}\\\\ &\color{blue}{函数的第 2 阶导数:} \\&\frac{d\left( \frac{1}{ln(ln(x))} - \frac{log_{ln(x)}^{e^{x}}}{xln(x)ln(ln(x))}\right)}{dx}\\=&\frac{-1}{ln^{2}(ln(x))(ln(x))(x)} - \frac{-log_{ln(x)}^{e^{x}}}{x^{2}ln(x)ln(ln(x))} - \frac{(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{xln(x)ln(ln(x))} - \frac{log_{ln(x)}^{e^{x}}*-1}{xln^{2}(x)(x)ln(ln(x))} - \frac{log_{ln(x)}^{e^{x}}*-1}{xln(x)ln^{2}(ln(x))(ln(x))(x)}\\=&\frac{-2}{xln^{2}(ln(x))ln(x)} + \frac{log_{ln(x)}^{e^{x}}}{x^{2}ln(x)ln(ln(x))} + \frac{2log_{ln(x)}^{e^{x}}}{x^{2}ln^{2}(x)ln^{2}(ln(x))} + \frac{log_{ln(x)}^{e^{x}}}{x^{2}ln^{2}(x)ln(ln(x))}\\\\ &\color{blue}{函数的第 3 阶导数:} \\&\frac{d\left( \frac{-2}{xln^{2}(ln(x))ln(x)} + \frac{log_{ln(x)}^{e^{x}}}{x^{2}ln(x)ln(ln(x))} + \frac{2log_{ln(x)}^{e^{x}}}{x^{2}ln^{2}(x)ln^{2}(ln(x))} + \frac{log_{ln(x)}^{e^{x}}}{x^{2}ln^{2}(x)ln(ln(x))}\right)}{dx}\\=&\frac{-2*-1}{x^{2}ln^{2}(ln(x))ln(x)} - \frac{2*-2}{xln^{3}(ln(x))(ln(x))(x)ln(x)} - \frac{2*-1}{xln^{2}(ln(x))ln^{2}(x)(x)} + \frac{-2log_{ln(x)}^{e^{x}}}{x^{3}ln(x)ln(ln(x))} + \frac{(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{2}ln(x)ln(ln(x))} + \frac{log_{ln(x)}^{e^{x}}*-1}{x^{2}ln^{2}(x)(x)ln(ln(x))} + \frac{log_{ln(x)}^{e^{x}}*-1}{x^{2}ln(x)ln^{2}(ln(x))(ln(x))(x)} + \frac{2*-2log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln^{2}(ln(x))} + \frac{2(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{2}ln^{2}(x)ln^{2}(ln(x))} + \frac{2log_{ln(x)}^{e^{x}}*-2}{x^{2}ln^{3}(x)(x)ln^{2}(ln(x))} + \frac{2log_{ln(x)}^{e^{x}}*-2}{x^{2}ln^{2}(x)ln^{3}(ln(x))(ln(x))(x)} + \frac{-2log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln(ln(x))} + \frac{(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{2}ln^{2}(x)ln(ln(x))} + \frac{log_{ln(x)}^{e^{x}}*-2}{x^{2}ln^{3}(x)(x)ln(ln(x))} + \frac{log_{ln(x)}^{e^{x}}*-1}{x^{2}ln^{2}(x)ln^{2}(ln(x))(ln(x))(x)}\\=&\frac{3}{x^{2}ln^{2}(ln(x))ln(x)} + \frac{6}{x^{2}ln^{3}(ln(x))ln^{2}(x)} + \frac{2}{x^{2}ln^{2}(x)ln^{2}(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}}{x^{3}ln(x)ln(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln^{2}(ln(x))} - \frac{3log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln^{3}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln^{2}(ln(x))} + \frac{1}{x^{2}ln^{2}(ln(x))ln^{2}(x)} - \frac{2log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln(ln(x))}\\\\ &\color{blue}{函数的第 4 阶导数:} \\&\frac{d\left( \frac{3}{x^{2}ln^{2}(ln(x))ln(x)} + \frac{6}{x^{2}ln^{3}(ln(x))ln^{2}(x)} + \frac{2}{x^{2}ln^{2}(x)ln^{2}(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}}{x^{3}ln(x)ln(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln^{2}(ln(x))} - \frac{3log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln^{3}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln^{2}(ln(x))} + \frac{1}{x^{2}ln^{2}(ln(x))ln^{2}(x)} - \frac{2log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln(ln(x))}\right)}{dx}\\=&\frac{3*-2}{x^{3}ln^{2}(ln(x))ln(x)} + \frac{3*-2}{x^{2}ln^{3}(ln(x))(ln(x))(x)ln(x)} + \frac{3*-1}{x^{2}ln^{2}(ln(x))ln^{2}(x)(x)} + \frac{6*-2}{x^{3}ln^{3}(ln(x))ln^{2}(x)} + \frac{6*-3}{x^{2}ln^{4}(ln(x))(ln(x))(x)ln^{2}(x)} + \frac{6*-2}{x^{2}ln^{3}(ln(x))ln^{3}(x)(x)} + \frac{2*-2}{x^{3}ln^{2}(x)ln^{2}(ln(x))} + \frac{2*-2}{x^{2}ln^{3}(x)(x)ln^{2}(ln(x))} + \frac{2*-2}{x^{2}ln^{2}(x)ln^{3}(ln(x))(ln(x))(x)} - \frac{2*-3log_{ln(x)}^{e^{x}}}{x^{4}ln(x)ln(ln(x))} - \frac{2(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln(x)ln(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}*-1}{x^{3}ln^{2}(x)(x)ln(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}*-1}{x^{3}ln(x)ln^{2}(ln(x))(ln(x))(x)} - \frac{6*-3log_{ln(x)}^{e^{x}}}{x^{4}ln^{2}(x)ln^{2}(ln(x))} - \frac{6(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln^{2}(x)ln^{2}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-2}{x^{3}ln^{3}(x)(x)ln^{2}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-2}{x^{3}ln^{2}(x)ln^{3}(ln(x))(ln(x))(x)} - \frac{3*-3log_{ln(x)}^{e^{x}}}{x^{4}ln^{2}(x)ln(ln(x))} - \frac{3(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln^{2}(x)ln(ln(x))} - \frac{3log_{ln(x)}^{e^{x}}*-2}{x^{3}ln^{3}(x)(x)ln(ln(x))} - \frac{3log_{ln(x)}^{e^{x}}*-1}{x^{3}ln^{2}(x)ln^{2}(ln(x))(ln(x))(x)} - \frac{6*-3log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln^{3}(ln(x))} - \frac{6(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln^{3}(x)ln^{3}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-3}{x^{3}ln^{4}(x)(x)ln^{3}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-3}{x^{3}ln^{3}(x)ln^{4}(ln(x))(ln(x))(x)} - \frac{6*-3log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln^{2}(ln(x))} - \frac{6(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln^{3}(x)ln^{2}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-3}{x^{3}ln^{4}(x)(x)ln^{2}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-2}{x^{3}ln^{3}(x)ln^{3}(ln(x))(ln(x))(x)} + \frac{-2}{x^{3}ln^{2}(ln(x))ln^{2}(x)} + \frac{-2}{x^{2}ln^{3}(ln(x))(ln(x))(x)ln^{2}(x)} + \frac{-2}{x^{2}ln^{2}(ln(x))ln^{3}(x)(x)} - \frac{2*-3log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln(ln(x))} - \frac{2(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln^{3}(x)ln(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}*-3}{x^{3}ln^{4}(x)(x)ln(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}*-1}{x^{3}ln^{3}(x)ln^{2}(ln(x))(ln(x))(x)}\\=&\frac{-8}{x^{3}ln^{2}(ln(x))ln(x)} - \frac{24}{x^{3}ln^{3}(ln(x))ln^{2}(x)} - \frac{7}{x^{3}ln^{2}(x)ln^{2}(ln(x))} - \frac{24}{x^{3}ln^{4}(ln(x))ln^{3}(x)} - \frac{16}{x^{3}ln^{3}(x)ln^{3}(ln(x))} - \frac{6}{x^{3}ln^{3}(x)ln^{2}(ln(x))} + \frac{6log_{ln(x)}^{e^{x}}}{x^{4}ln(x)ln(ln(x))} + \frac{22log_{ln(x)}^{e^{x}}}{x^{4}ln^{2}(x)ln^{2}(ln(x))} + \frac{11log_{ln(x)}^{e^{x}}}{x^{4}ln^{2}(x)ln(ln(x))} + \frac{36log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln^{3}(ln(x))} + \frac{36log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln^{2}(ln(x))} - \frac{5}{x^{3}ln^{2}(ln(x))ln^{2}(x)} + \frac{12log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln(ln(x))} + \frac{24log_{ln(x)}^{e^{x}}}{x^{4}ln^{4}(x)ln^{4}(ln(x))} + \frac{36log_{ln(x)}^{e^{x}}}{x^{4}ln^{4}(x)ln^{3}(ln(x))} - \frac{8}{x^{3}ln^{3}(ln(x))ln^{3}(x)} + \frac{22log_{ln(x)}^{e^{x}}}{x^{4}ln^{4}(x)ln^{2}(ln(x))} - \frac{2}{x^{3}ln^{2}(ln(x))ln^{3}(x)} + \frac{6log_{ln(x)}^{e^{x}}}{x^{4}ln^{4}(x)ln(ln(x))}\\ \end{split}\end{equation} \]
注意,变量是区分大小写的。
\[ \begin{equation}\begin{split}【1/1】求函数log_{ln(x)}^{e^{x}} 关于 x 的 4 阶导数:\\\end{split}\end{equation} \]\[ \begin{equation}\begin{split}\\解:&\\ &\color{blue}{函数的第 1 阶导数:}\\&\frac{d\left( log_{ln(x)}^{e^{x}}\right)}{dx}\\=&(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})\\=&\frac{1}{ln(ln(x))} - \frac{log_{ln(x)}^{e^{x}}}{xln(x)ln(ln(x))}\\\\ &\color{blue}{函数的第 2 阶导数:} \\&\frac{d\left( \frac{1}{ln(ln(x))} - \frac{log_{ln(x)}^{e^{x}}}{xln(x)ln(ln(x))}\right)}{dx}\\=&\frac{-1}{ln^{2}(ln(x))(ln(x))(x)} - \frac{-log_{ln(x)}^{e^{x}}}{x^{2}ln(x)ln(ln(x))} - \frac{(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{xln(x)ln(ln(x))} - \frac{log_{ln(x)}^{e^{x}}*-1}{xln^{2}(x)(x)ln(ln(x))} - \frac{log_{ln(x)}^{e^{x}}*-1}{xln(x)ln^{2}(ln(x))(ln(x))(x)}\\=&\frac{-2}{xln^{2}(ln(x))ln(x)} + \frac{log_{ln(x)}^{e^{x}}}{x^{2}ln(x)ln(ln(x))} + \frac{2log_{ln(x)}^{e^{x}}}{x^{2}ln^{2}(x)ln^{2}(ln(x))} + \frac{log_{ln(x)}^{e^{x}}}{x^{2}ln^{2}(x)ln(ln(x))}\\\\ &\color{blue}{函数的第 3 阶导数:} \\&\frac{d\left( \frac{-2}{xln^{2}(ln(x))ln(x)} + \frac{log_{ln(x)}^{e^{x}}}{x^{2}ln(x)ln(ln(x))} + \frac{2log_{ln(x)}^{e^{x}}}{x^{2}ln^{2}(x)ln^{2}(ln(x))} + \frac{log_{ln(x)}^{e^{x}}}{x^{2}ln^{2}(x)ln(ln(x))}\right)}{dx}\\=&\frac{-2*-1}{x^{2}ln^{2}(ln(x))ln(x)} - \frac{2*-2}{xln^{3}(ln(x))(ln(x))(x)ln(x)} - \frac{2*-1}{xln^{2}(ln(x))ln^{2}(x)(x)} + \frac{-2log_{ln(x)}^{e^{x}}}{x^{3}ln(x)ln(ln(x))} + \frac{(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{2}ln(x)ln(ln(x))} + \frac{log_{ln(x)}^{e^{x}}*-1}{x^{2}ln^{2}(x)(x)ln(ln(x))} + \frac{log_{ln(x)}^{e^{x}}*-1}{x^{2}ln(x)ln^{2}(ln(x))(ln(x))(x)} + \frac{2*-2log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln^{2}(ln(x))} + \frac{2(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{2}ln^{2}(x)ln^{2}(ln(x))} + \frac{2log_{ln(x)}^{e^{x}}*-2}{x^{2}ln^{3}(x)(x)ln^{2}(ln(x))} + \frac{2log_{ln(x)}^{e^{x}}*-2}{x^{2}ln^{2}(x)ln^{3}(ln(x))(ln(x))(x)} + \frac{-2log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln(ln(x))} + \frac{(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{2}ln^{2}(x)ln(ln(x))} + \frac{log_{ln(x)}^{e^{x}}*-2}{x^{2}ln^{3}(x)(x)ln(ln(x))} + \frac{log_{ln(x)}^{e^{x}}*-1}{x^{2}ln^{2}(x)ln^{2}(ln(x))(ln(x))(x)}\\=&\frac{3}{x^{2}ln^{2}(ln(x))ln(x)} + \frac{6}{x^{2}ln^{3}(ln(x))ln^{2}(x)} + \frac{2}{x^{2}ln^{2}(x)ln^{2}(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}}{x^{3}ln(x)ln(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln^{2}(ln(x))} - \frac{3log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln^{3}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln^{2}(ln(x))} + \frac{1}{x^{2}ln^{2}(ln(x))ln^{2}(x)} - \frac{2log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln(ln(x))}\\\\ &\color{blue}{函数的第 4 阶导数:} \\&\frac{d\left( \frac{3}{x^{2}ln^{2}(ln(x))ln(x)} + \frac{6}{x^{2}ln^{3}(ln(x))ln^{2}(x)} + \frac{2}{x^{2}ln^{2}(x)ln^{2}(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}}{x^{3}ln(x)ln(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln^{2}(ln(x))} - \frac{3log_{ln(x)}^{e^{x}}}{x^{3}ln^{2}(x)ln(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln^{3}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln^{2}(ln(x))} + \frac{1}{x^{2}ln^{2}(ln(x))ln^{2}(x)} - \frac{2log_{ln(x)}^{e^{x}}}{x^{3}ln^{3}(x)ln(ln(x))}\right)}{dx}\\=&\frac{3*-2}{x^{3}ln^{2}(ln(x))ln(x)} + \frac{3*-2}{x^{2}ln^{3}(ln(x))(ln(x))(x)ln(x)} + \frac{3*-1}{x^{2}ln^{2}(ln(x))ln^{2}(x)(x)} + \frac{6*-2}{x^{3}ln^{3}(ln(x))ln^{2}(x)} + \frac{6*-3}{x^{2}ln^{4}(ln(x))(ln(x))(x)ln^{2}(x)} + \frac{6*-2}{x^{2}ln^{3}(ln(x))ln^{3}(x)(x)} + \frac{2*-2}{x^{3}ln^{2}(x)ln^{2}(ln(x))} + \frac{2*-2}{x^{2}ln^{3}(x)(x)ln^{2}(ln(x))} + \frac{2*-2}{x^{2}ln^{2}(x)ln^{3}(ln(x))(ln(x))(x)} - \frac{2*-3log_{ln(x)}^{e^{x}}}{x^{4}ln(x)ln(ln(x))} - \frac{2(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln(x)ln(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}*-1}{x^{3}ln^{2}(x)(x)ln(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}*-1}{x^{3}ln(x)ln^{2}(ln(x))(ln(x))(x)} - \frac{6*-3log_{ln(x)}^{e^{x}}}{x^{4}ln^{2}(x)ln^{2}(ln(x))} - \frac{6(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln^{2}(x)ln^{2}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-2}{x^{3}ln^{3}(x)(x)ln^{2}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-2}{x^{3}ln^{2}(x)ln^{3}(ln(x))(ln(x))(x)} - \frac{3*-3log_{ln(x)}^{e^{x}}}{x^{4}ln^{2}(x)ln(ln(x))} - \frac{3(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln^{2}(x)ln(ln(x))} - \frac{3log_{ln(x)}^{e^{x}}*-2}{x^{3}ln^{3}(x)(x)ln(ln(x))} - \frac{3log_{ln(x)}^{e^{x}}*-1}{x^{3}ln^{2}(x)ln^{2}(ln(x))(ln(x))(x)} - \frac{6*-3log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln^{3}(ln(x))} - \frac{6(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln^{3}(x)ln^{3}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-3}{x^{3}ln^{4}(x)(x)ln^{3}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-3}{x^{3}ln^{3}(x)ln^{4}(ln(x))(ln(x))(x)} - \frac{6*-3log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln^{2}(ln(x))} - \frac{6(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln^{3}(x)ln^{2}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-3}{x^{3}ln^{4}(x)(x)ln^{2}(ln(x))} - \frac{6log_{ln(x)}^{e^{x}}*-2}{x^{3}ln^{3}(x)ln^{3}(ln(x))(ln(x))(x)} + \frac{-2}{x^{3}ln^{2}(ln(x))ln^{2}(x)} + \frac{-2}{x^{2}ln^{3}(ln(x))(ln(x))(x)ln^{2}(x)} + \frac{-2}{x^{2}ln^{2}(ln(x))ln^{3}(x)(x)} - \frac{2*-3log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln(ln(x))} - \frac{2(\frac{(\frac{(e^{x})}{(e^{x})} - \frac{(\frac{1}{(x)})log_{ln(x)}^{e^{x}}}{(ln(x))})}{(ln(ln(x)))})}{x^{3}ln^{3}(x)ln(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}*-3}{x^{3}ln^{4}(x)(x)ln(ln(x))} - \frac{2log_{ln(x)}^{e^{x}}*-1}{x^{3}ln^{3}(x)ln^{2}(ln(x))(ln(x))(x)}\\=&\frac{-8}{x^{3}ln^{2}(ln(x))ln(x)} - \frac{24}{x^{3}ln^{3}(ln(x))ln^{2}(x)} - \frac{7}{x^{3}ln^{2}(x)ln^{2}(ln(x))} - \frac{24}{x^{3}ln^{4}(ln(x))ln^{3}(x)} - \frac{16}{x^{3}ln^{3}(x)ln^{3}(ln(x))} - \frac{6}{x^{3}ln^{3}(x)ln^{2}(ln(x))} + \frac{6log_{ln(x)}^{e^{x}}}{x^{4}ln(x)ln(ln(x))} + \frac{22log_{ln(x)}^{e^{x}}}{x^{4}ln^{2}(x)ln^{2}(ln(x))} + \frac{11log_{ln(x)}^{e^{x}}}{x^{4}ln^{2}(x)ln(ln(x))} + \frac{36log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln^{3}(ln(x))} + \frac{36log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln^{2}(ln(x))} - \frac{5}{x^{3}ln^{2}(ln(x))ln^{2}(x)} + \frac{12log_{ln(x)}^{e^{x}}}{x^{4}ln^{3}(x)ln(ln(x))} + \frac{24log_{ln(x)}^{e^{x}}}{x^{4}ln^{4}(x)ln^{4}(ln(x))} + \frac{36log_{ln(x)}^{e^{x}}}{x^{4}ln^{4}(x)ln^{3}(ln(x))} - \frac{8}{x^{3}ln^{3}(ln(x))ln^{3}(x)} + \frac{22log_{ln(x)}^{e^{x}}}{x^{4}ln^{4}(x)ln^{2}(ln(x))} - \frac{2}{x^{3}ln^{2}(ln(x))ln^{3}(x)} + \frac{6log_{ln(x)}^{e^{x}}}{x^{4}ln^{4}(x)ln(ln(x))}\\ \end{split}\end{equation} \]
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