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 2 阶导数。
注意,变量是区分大小写的。
\[ \begin{equation}\begin{split}【1/1】求函数\frac{{(tan(x)sin(x))}^{sin(x)}ln(x)}{tan(5 - ln(x)sin(x))} 关于 x 的 2 阶导数:\\\end{split}\end{equation} \]\[ \begin{equation}\begin{split}\\解:&\\ &原函数 = \frac{(sin(x)tan(x))^{sin(x)}ln(x)}{tan(-ln(x)sin(x) + 5)}\\&\color{blue}{函数的第 1 阶导数:}\\&\frac{d\left( \frac{(sin(x)tan(x))^{sin(x)}ln(x)}{tan(-ln(x)sin(x) + 5)}\right)}{dx}\\=&\frac{((sin(x)tan(x))^{sin(x)}((cos(x))ln(sin(x)tan(x)) + \frac{(sin(x))(cos(x)tan(x) + sin(x)sec^{2}(x)(1))}{(sin(x)tan(x))}))ln(x)}{tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}}{(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)*-sec^{2}(-ln(x)sin(x) + 5)(\frac{-sin(x)}{(x)} - ln(x)cos(x) + 0)}{tan^{2}(-ln(x)sin(x) + 5)}\\=&\frac{(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))ln(x)cos(x)}{tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln^{2}(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)}{tan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)sec^{2}(x)}{tan(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}}{xtan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)sec^{2}(-ln(x)sin(x) + 5)}{xtan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)cos(x)}{tan(-ln(x)sin(x) + 5)}\\\\ &\color{blue}{函数的第 2 阶导数:} \\&\frac{d\left( \frac{(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))ln(x)cos(x)}{tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln^{2}(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)}{tan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)sec^{2}(x)}{tan(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}}{xtan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)sec^{2}(-ln(x)sin(x) + 5)}{xtan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)cos(x)}{tan(-ln(x)sin(x) + 5)}\right)}{dx}\\=&\frac{((sin(x)tan(x))^{sin(x)}((cos(x))ln(sin(x)tan(x)) + \frac{(sin(x))(cos(x)tan(x) + sin(x)sec^{2}(x)(1))}{(sin(x)tan(x))}))ln(sin(x)tan(x))ln(x)cos(x)}{tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}(cos(x)tan(x) + sin(x)sec^{2}(x)(1))ln(x)cos(x)}{(sin(x)tan(x))tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))cos(x)}{(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))ln(x)*-sin(x)}{tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))ln(x)cos(x)*-sec^{2}(-ln(x)sin(x) + 5)(\frac{-sin(x)}{(x)} - ln(x)cos(x) + 0)}{tan^{2}(-ln(x)sin(x) + 5)} + \frac{((sin(x)tan(x))^{sin(x)}((cos(x))ln(sin(x)tan(x)) + \frac{(sin(x))(cos(x)tan(x) + sin(x)sec^{2}(x)(1))}{(sin(x)tan(x))}))ln^{2}(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)}{tan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}*2ln(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)}{(x)tan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln^{2}(x)*-sin(x)sec^{2}(-ln(x)sin(x) + 5)}{tan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln^{2}(x)cos(x)*-2sec^{2}(-ln(x)sin(x) + 5)(\frac{-sin(x)}{(x)} - ln(x)cos(x) + 0)sec^{2}(-ln(x)sin(x) + 5)}{tan^{3}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln^{2}(x)cos(x)*2sec^{2}(-ln(x)sin(x) + 5)tan(-ln(x)sin(x) + 5)(\frac{-sin(x)}{(x)} - ln(x)cos(x) + 0)}{tan^{2}(-ln(x)sin(x) + 5)} + \frac{((sin(x)tan(x))^{sin(x)}((cos(x))ln(sin(x)tan(x)) + \frac{(sin(x))(cos(x)tan(x) + sin(x)sec^{2}(x)(1))}{(sin(x)tan(x))}))ln(x)sin(x)sec^{2}(x)}{tan(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}sin(x)sec^{2}(x)}{(x)tan(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)cos(x)sec^{2}(x)}{tan(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)*-sec^{2}(x)(1)sec^{2}(x)}{tan^{2}(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)*-sec^{2}(-ln(x)sin(x) + 5)(\frac{-sin(x)}{(x)} - ln(x)cos(x) + 0)sec^{2}(x)}{tan(x)tan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)*2sec^{2}(x)tan(x)}{tan(x)tan(-ln(x)sin(x) + 5)} + \frac{-(sin(x)tan(x))^{sin(x)}}{x^{2}tan(-ln(x)sin(x) + 5)} + \frac{((sin(x)tan(x))^{sin(x)}((cos(x))ln(sin(x)tan(x)) + \frac{(sin(x))(cos(x)tan(x) + sin(x)sec^{2}(x)(1))}{(sin(x)tan(x))}))}{xtan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}*-sec^{2}(-ln(x)sin(x) + 5)(\frac{-sin(x)}{(x)} - ln(x)cos(x) + 0)}{xtan^{2}(-ln(x)sin(x) + 5)} + \frac{-(sin(x)tan(x))^{sin(x)}ln(x)sin(x)sec^{2}(-ln(x)sin(x) + 5)}{x^{2}tan^{2}(-ln(x)sin(x) + 5)} + \frac{((sin(x)tan(x))^{sin(x)}((cos(x))ln(sin(x)tan(x)) + \frac{(sin(x))(cos(x)tan(x) + sin(x)sec^{2}(x)(1))}{(sin(x)tan(x))}))ln(x)sin(x)sec^{2}(-ln(x)sin(x) + 5)}{xtan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}sin(x)sec^{2}(-ln(x)sin(x) + 5)}{x(x)tan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)}{xtan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)*-2sec^{2}(-ln(x)sin(x) + 5)(\frac{-sin(x)}{(x)} - ln(x)cos(x) + 0)sec^{2}(-ln(x)sin(x) + 5)}{xtan^{3}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)*2sec^{2}(-ln(x)sin(x) + 5)tan(-ln(x)sin(x) + 5)(\frac{-sin(x)}{(x)} - ln(x)cos(x) + 0)}{xtan^{2}(-ln(x)sin(x) + 5)} + \frac{((sin(x)tan(x))^{sin(x)}((cos(x))ln(sin(x)tan(x)) + \frac{(sin(x))(cos(x)tan(x) + sin(x)sec^{2}(x)(1))}{(sin(x)tan(x))}))ln(x)cos(x)}{tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}cos(x)}{(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)*-sin(x)}{tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)cos(x)*-sec^{2}(-ln(x)sin(x) + 5)(\frac{-sin(x)}{(x)} - ln(x)cos(x) + 0)}{tan^{2}(-ln(x)sin(x) + 5)}\\=&\frac{(sin(x)tan(x))^{sin(x)}ln^{2}(x)ln(sin(x)tan(x))cos^{2}(x)sec^{2}(-ln(x)sin(x) + 5)}{tan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))ln^{2}(x)cos^{2}(x)sec^{2}(-ln(x)sin(x) + 5)}{tan^{2}(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))ln(x)sin(x)cos(x)sec^{2}(x)}{tan(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln^{2}(x)sin(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)sec^{2}(x)}{tan(x)tan^{2}(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}ln(x)cos(x)sec^{2}(x)}{tan(x)tan(-ln(x)sin(x) + 5)} + \frac{4(sin(x)tan(x))^{sin(x)}ln(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)}{xtan^{2}(-ln(x)sin(x) + 5)} - \frac{(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))ln(x)sin(x)}{tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)ln(sin(x)tan(x))sin(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)}{xtan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln^{2}(sin(x)tan(x))ln(x)cos^{2}(x)}{tan(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))ln(x)cos^{2}(x)}{tan(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}ln^{2}(x)cos^{2}(x)sec^{2}(-ln(x)sin(x) + 5)}{tan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln^{2}(x)sin(x)cos(x)sec^{2}(x)sec^{2}(-ln(x)sin(x) + 5)}{tan(x)tan^{2}(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))cos(x)}{xtan(-ln(x)sin(x) + 5)} - \frac{(sin(x)tan(x))^{sin(x)}ln^{2}(x)sin(x)sec^{2}(-ln(x)sin(x) + 5)}{tan^{2}(-ln(x)sin(x) + 5)} + \frac{4(sin(x)tan(x))^{sin(x)}ln^{2}(x)sin(x)cos(x)sec^{4}(-ln(x)sin(x) + 5)}{xtan^{3}(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}ln^{3}(x)cos^{2}(x)sec^{4}(-ln(x)sin(x) + 5)}{tan^{3}(-ln(x)sin(x) + 5)} - \frac{4(sin(x)tan(x))^{sin(x)}ln^{2}(x)sin(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)}{xtan(-ln(x)sin(x) + 5)} - \frac{2(sin(x)tan(x))^{sin(x)}ln^{3}(x)cos^{2}(x)sec^{2}(-ln(x)sin(x) + 5)}{tan(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}ln(x)sin(x)cos(x)sec^{2}(x)}{tan(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin^{2}(x)sec^{4}(x)}{tan^{2}(x)tan(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}sin(x)sec^{2}(x)}{xtan(x)tan(-ln(x)sin(x) + 5)} - \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)sec^{4}(x)}{tan^{2}(x)tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin^{2}(x)sec^{2}(-ln(x)sin(x) + 5)sec^{2}(x)}{xtan^{2}(-ln(x)sin(x) + 5)tan(x)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)cos^{2}(x)}{sin(x)tan(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}ln(x)sin(x)sec^{2}(x)}{tan(-ln(x)sin(x) + 5)} - \frac{(sin(x)tan(x))^{sin(x)}}{x^{2}tan(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}cos(x)}{xtan(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}sin(x)sec^{2}(-ln(x)sin(x) + 5)}{x^{2}tan^{2}(-ln(x)sin(x) + 5)} - \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)sec^{2}(-ln(x)sin(x) + 5)}{x^{2}tan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(sin(x)tan(x))ln(x)sin(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)}{xtan^{2}(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}ln(x)sin(x)cos(x)sec^{2}(-ln(x)sin(x) + 5)}{xtan^{2}(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin^{2}(x)sec^{2}(x)sec^{2}(-ln(x)sin(x) + 5)}{xtan(x)tan^{2}(-ln(x)sin(x) + 5)} + \frac{2(sin(x)tan(x))^{sin(x)}ln(x)sin^{2}(x)sec^{4}(-ln(x)sin(x) + 5)}{x^{2}tan^{3}(-ln(x)sin(x) + 5)} - \frac{2(sin(x)tan(x))^{sin(x)}ln(x)sin^{2}(x)sec^{2}(-ln(x)sin(x) + 5)}{x^{2}tan(-ln(x)sin(x) + 5)} + \frac{(sin(x)tan(x))^{sin(x)}ln(x)cos^{2}(x)}{tan(-ln(x)sin(x) + 5)} - \frac{(sin(x)tan(x))^{sin(x)}ln(x)sin(x)}{tan(-ln(x)sin(x) + 5)}\\ \end{split}\end{equation} \]
你的问题在这里没有得到解决?请到 热门难题 里面看看吧!
新增加学习笔记(安卓版)百度网盘快速下载应用程序,欢迎使用。
新增加学习笔记(安卓版)本站下载应用程序,欢迎使用。
新增线性代数行列式的计算,欢迎使用。
数学计算和一元方程已经支持正割函数和余割函数,欢迎使用。
新增加贷款计算器模块(具体位置:数学运算 > 贷款计算器),欢迎使用。