7.1 Integration By Parts/47: Difference between revisions

Latest revision as of 04:36, 29 November 2022

Prove $\int _{}^{}\left(\ln(x)^{n}\right)dx=x\left(\ln(x)^{n}\right)-n\int _{}^{}\left(\ln(x)^{n-1}\right)dx$

$\int _{}^{}\left(\ln(x)^{n}\right)dx$

${\begin{aligned}&u=\ln(x)^{n}\quad dv=1dx\\[2ex]&du=1dx\quad v=x\\[2ex]\end{aligned}}$

${\begin{aligned}\int _{}^{}\left(\ln(x)^{n}\right)dx&=x\ln(x)^{n}-\int _{}^{}\left((x{\frac {n\ln(x)^{n-1}}{x}})\right)dx\\[2ex]&=x\ln(x)^{n}-\int _{}^{}\left(n\ln(x)^{n-1}\right)dx\\[2ex]&=x\ln(x)^{n}-n\int _{}^{}\left(\ln(x)^{n-1}\right)dx\\[2ex]\end{aligned}}$

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+Prove
+<math>
+\int_{}^{} \left(\ln(x)^{n}\right)dx = x\left(\ln(x)^{n}\right)-n\int_{}^{}\left(\ln(x)^{n-1}\right)dx
+</math>
 <math>
 \int_{}^{} \left(\ln(x)^{n}\right)dx
+</math>
+<math>
+\begin{align}
+&u = \ln(x)^{n} \quad dv= 1dx \\[2ex]
+&du =1dx        \quad v=x \\[2ex]
+\end{align}
+</math>
+<math>
+\begin{align}
+\int_{}^{} \left(\ln(x)^{n}\right)dx &= x \ln(x)^{n} - \int_{}^{} \left((x \frac{n \ln(x)^{n-1}}{x}) \right)dx \\[2ex]
+&= x \ln(x)^{n} - \int_{}^{} \left(n \ln(x)^{n-1} \right)dx \\[2ex]
+&= x \ln(x)^{n} - n \int_{}^{} \left(\ln(x)^{n-1} \right)dx \\[2ex]
+\end{align}
 </math>

7.1 Integration By Parts/47: Difference between revisions

Latest revision as of 04:36, 29 November 2022

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