Integrals with Inverse Trigonometric Functions

1.
$\displaystyle\int\sin^{-1}\displaystyle \frac{x}{a}dx=x\sin^{-1} \displaystyle \frac{x}{a}+\displaystyle \sqrt{a^2-x^2}$

2.
$\displaystyle\int x\sin^{-1}\displaystyle \frac{x}{a}dx=\left(\displaystyle \fr...
...\displaystyle \frac{x}{a}+\displaystyle \frac{x\displaystyle \sqrt{a^2-x^2}}{4}$

3.
$\displaystyle\int x^2\sin^{-1}\displaystyle \frac{x}{a}dx=\displaystyle \frac{x...
...yle \frac{x}{a}+\displaystyle \frac{(x^2+2a^2)\displaystyle \sqrt{a^2-x^2)}}{9}$

4.
$\displaystyle\int\displaystyle \frac{\sin^{-1}(x/a)}{x}dx=\displaystyle \frac{x...
...rac{1\cdot 3\cdot 5(x/a)^7}{2\cdot 4\cdot 6\cdot 7\cdot 7} + \cdot \cdot \cdot $

5.
$\displaystyle\int\displaystyle \frac{\sin^{-1}(x/a)}{x^2}dx=-\displaystyle \fra...
...rac{1}{a}\ln\left(\displaystyle \frac{a+\displaystyle \sqrt{a^2-x^2}}{x}\right)$

6.
$\displaystyle\int\left(\sin^{-1}\displaystyle \frac{x}{a}\right)^2 dx=x\left(\s...
...a}\right)^2 -2x+2\displaystyle \sqrt{a^2-x^2}\sin^{-1}\displaystyle \frac{x}{a}$

7.
$\displaystyle\int\cos^{-1}\displaystyle \frac{x}{a}dx=x\cos^{-1}\displaystyle \frac{x}{a}-\displaystyle \sqrt{a^2-x^2}$

8.
$\displaystyle\int x\cos^{-1}\displaystyle \frac{x}{a}dx=\left(\displaystyle \fr...
...\displaystyle \frac{x}{a}-\displaystyle \frac{x\displaystyle \sqrt{a^2-x^2}}{4}$

9.
$\displaystyle\int x^2\cos^{-1}\displaystyle \frac{x}{a}dx=\displaystyle \frac{x...
...tyle \frac{x}{a}-\displaystyle \frac{(x^2+2a^2)\displaystyle \sqrt{a^2-x^2}}{9}$

10.
$\displaystyle\int\displaystyle \frac{\cos^{-1}(x/a)}{x}dx=\displaystyle \frac{\pi}{2}\ln x-\int\displaystyle \frac{\sin^{-1}(x/a)}{x}dx$

11.
$\displaystyle\int\displaystyle \frac{\cos^{-1}(x/a)}{x^2}dx=-\displaystyle \fra...
...rac{1}{a}\ln\left(\displaystyle \frac{a+\displaystyle \sqrt{a^2-x^2}}{x}\right)$

12.
$\displaystyle\int\left(\cos^{-1}\displaystyle \frac{x}{a}\right)^2 dx=x\left(\c...
...{a}\right)^2-2x-2\displaystyle \sqrt{a^2-x^2}\cos^{-1}\displaystyle \frac{x}{a}$

13.
$\displaystyle\int\tan^{-1}\displaystyle \frac{x}{a}dx=x\tan^{-1}\displaystyle \frac{x}{a}-\displaystyle \frac{a}{2}\ln(x^2+a^2)$

14.
$\displaystyle\int x\tan^{-1}\displaystyle \frac{x}{a}dx=\displaystyle \frac{1}{2}(x^2+a^2)\tan^{-1}\displaystyle \frac{x}{a}-\displaystyle \frac{ax}{2}$

15.
$\displaystyle\int x^2\tan^{-1}\displaystyle \frac{x}{a}dx=\displaystyle \frac{x...
...frac{x}{a}-\displaystyle \frac{ax^2}{6}+\displaystyle \frac{a^3}{6}\ln(x^2+a^2)$

16.
$\displaystyle\int\displaystyle \frac{\tan^{-1}(x/a)}{x}dx=\displaystyle \frac{x...
...playstyle \frac{(x/a)^5}{5^2}-\displaystyle \frac{(x/a)^7}{7^2}+\cdot\cdot\cdot$

17.
$\displaystyle\int\displaystyle \frac{\tan^{-1}(x/a)}{x^2}dx=-\displaystyle \fra...
...{a}-\displaystyle \frac{1}{2a}\ln\left(\displaystyle \frac{x^2+a^2}{x^2}\right)$

18.
$\displaystyle\int\cot^{-1}\displaystyle \frac{x}{a}dx=x\cot^{-1}\displaystyle \frac{x}{a}+\displaystyle \frac{a}{2}\ln(x^2+a^2)$

19.
$\displaystyle\int x\cot^{-1}\displaystyle \frac{x}{a}dx=\displaystyle \frac{1}{2}(x^2+a^2)\cot^{-1}\displaystyle \frac{x}{a}+\displaystyle \frac{ax}{2}$

20.
$\displaystyle\int x^2\cot^{-1}\displaystyle \frac{x}{a}dx=\displaystyle \frac{x...
...frac{x}{a}+\displaystyle \frac{ax^2}{6}-\displaystyle \frac{a^3}{6}\ln(x^2+a^2)$

21.
$\displaystyle\int\displaystyle \frac{\cot^{-1}(x/a)}{x}dx=\displaystyle \frac{\pi}{2}\ln x-\int\displaystyle \frac{\tan^{-1}(x/a)}{x}dx$

22.
$\displaystyle\int\displaystyle \frac{\cot^{-1}(x/a)}{x^2}dx=-\displaystyle \fra...
...{x}+\displaystyle \frac{1}{2a}\ln\left(\displaystyle \frac{x^2+a^2}{x^2}\right)$

23.
$ \displaystyle\int\sec^{-1}\displaystyle \frac{x}{a}dx=\left\{ \begin{array}{ll...
...style \frac{\pi}{2}<\sec^{-1}\displaystyle \frac{x}{a}<\pi
\end{array}\right. $

24.
$\displaystyle\int x\sec^{-1}\displaystyle \frac{x}{a}dx=\left\{ \begin{array}{l...
...ystyle \frac{\pi}{2}<\sec^{-1}\displaystyle \frac{x}{a}<\pi
\end{array}\right. $

25.
$\displaystyle\int x^2\sec^{-1}\displaystyle \frac{x}{a}dx=\left\{ \begin{array}...
...ystyle \frac{\pi}{2}<\sec^{-1}\displaystyle \frac{x}{a}<\pi
\end{array}\right. $

26.
$\displaystyle\int\displaystyle \frac{\sec^{-1}(x/a)}{x}dx=\displaystyle \frac{\...
...\frac{1\cdot 3\cdot 5(a/x)^7}{2\cdot 4\cdot 6\cdot 7\cdot 7} + \cdot\cdot\cdot $

27.
$\displaystyle\int\displaystyle \frac{\sec^{-1}(x/a)}{x^2}dx=\left\{ \begin{arra...
...ystyle \frac{\pi}{2}<\sec^{-1}\displaystyle \frac{x}{a}<\pi
\end{array}\right. $

28.
$\displaystyle\int\csc^{-1}\displaystyle \frac{x}{a}dx=\left\{ \displaystyle\beg...
...laystyle \frac{\pi}{2}<\csc^{-1}\displaystyle \frac{x}{a}<0
\end{array}\right. $

29.
$\displaystyle\int x\csc^{-1}\displaystyle \frac{x}{a}dx=\left\{ \begin{array}{l...
...laystyle \frac{\pi}{2}<\csc^{-1}\displaystyle \frac{x}{a}<0
\end{array}\right. $

30.
$\displaystyle\int x^2\csc^{-1}\displaystyle \frac{x}{a}dx=\left\{ \begin{array}...
...laystyle \frac{\pi}{2}<\csc^{-1}\displaystyle \frac{x}{a}<0
\end{array}\right. $

31.
$\displaystyle\int\displaystyle \frac{\csc^{-1}(x/a)}{x}dx=-\left(\displaystyle ...
...{1\cdot 3\cdot 5(a/x)^7}{2\cdot 4\cdot 6\cdot 7\cdot 7}+\cdot\cdot\cdot \right)$

32.
$\displaystyle\int\displaystyle \frac{\csc^{-1}(x/a)}{x^2}dx=\left\{ \begin{arra...
...laystyle \frac{\pi}{2}<\csc^{-1}\displaystyle \frac{x}{a}<0
\end{array}\right. $

33.
$\displaystyle\int x^m\sin^{-1}\displaystyle \frac{x}{a}dx=\displaystyle \frac{x...
...e \frac{1}{m+1}\int\displaystyle \frac{x^{m+1}}{\displaystyle \sqrt{a^2-x^2}}dx$

34.
$\displaystyle\int x^m\cos^{-1}\displaystyle \frac{x}{a}dx=\displaystyle \frac{x...
...e \frac{1}{m+1}\int\displaystyle \frac{x^{m+1}}{\displaystyle \sqrt{a^2-x^2}}dx$

35.
$\displaystyle\int x^m\tan^{-1}\displaystyle \frac{x}{a}dx=\displaystyle \frac{x...
...ac{x}{a}-\displaystyle \frac{a}{m+1}\int\displaystyle \frac{x^{m+1}}{x^2+a^2}dx$

36.
$\displaystyle\int x^m\cot^{-1}\displaystyle \frac{x}{a}dx=\displaystyle \frac{x...
...ac{x}{a}+\displaystyle \frac{a}{m+1}\int\displaystyle \frac{x^{m+1}}{x^2+a^2}dx$

37.
$\displaystyle\int x^m\sec^{-1}\displaystyle \frac{x}{a}=\left \{ \begin{array}{...
...aystyle \frac{\pi}{2}<sec^{-1}\displaystyle \frac{x}{a}<\pi
\end{array}\right. $

38.
$\displaystyle\int x^m\csc^{-1}\displaystyle \frac{x}{a}dx=\left\{ \begin{array}...
...laystyle \frac{\pi}{2}<\csc^{-1}\displaystyle \frac{x}{a}<0
\end{array}\right. $

[Tables]

S.O.S MATHematics home page

Do you need more help? Please post your question on our S.O.S. Mathematics CyberBoard.

Copyright © 1999-2024 MathMedics, LLC. All rights reserved.
Contact us
Math Medics, LLC. - P.O. Box 12395 - El Paso TX 79913 - USA
users online during the last hour