Danh sách tích phân với hàm vô tỉ

Dưới đây là danh sách tích phân (nguyên hàm) với hàm vô tỉ. Đối với danh sách đầy đủ hàm tích phân, xem danh sách tích phân. Trong bài này, hằng số tích phân được lược bớt đi cho ngắn gọn.

Tích phân chứa r = √a² + x²

$\int r\,dx={\frac {1}{2}\left(xr+a^{2}\,\ln \left(x+r\right)\right)$
$\int r^{3}\,dx={\frac {1}{4}xr^{3}+{\frac {3}{8}a^{2}xr+{\frac {3}{8}a^{4}\ln \left(x+r\right)$
$\int r^{5}\,dx={\frac {1}{6}xr^{5}+{\frac {5}{24}a^{2}xr^{3}+{\frac {5}{16}a^{4}xr+{\frac {5}{16}a^{6}\ln \left(x+r\right)$
$\int xr\,dx={\frac {r^{3}{3$
$\int xr^{3}\,dx={\frac {r^{5}{5$
$\int xr^{2n+1}\,dx={\frac {r^{2n+3}{2n+3$
$\int x^{2}r\,dx={\frac {xr^{3}{4}-{\frac {a^{2}xr}{8}-{\frac {a^{4}{8}\ln \left(x+r\right)$
$\int x^{2}r^{3}\,dx={\frac {xr^{5}{6}-{\frac {a^{2}xr^{3}{24}-{\frac {a^{4}xr}{16}-{\frac {a^{6}{16}\ln \left(x+r\right)$
$\int x^{3}r\,dx={\frac {r^{5}{5}-{\frac {a^{2}r^{3}{3$
$\int x^{3}r^{3}\,dx={\frac {r^{7}{7}-{\frac {a^{2}r^{5}{5$
$\int x^{3}r^{2n+1}\,dx={\frac {r^{2n+5}{2n+5}-{\frac {a^{2}r^{2n+3}{2n+3$
$\int x^{4}r\,dx={\frac {x^{3}r^{3}{6}-{\frac {a^{2}xr^{3}{8}+{\frac {a^{4}xr}{16}+{\frac {a^{6}{16}\ln \left(x+r\right)$
$\int x^{4}r^{3}\,dx={\frac {x^{3}r^{5}{8}-{\frac {a^{2}xr^{5}{16}+{\frac {a^{4}xr^{3}{64}+{\frac {3a^{6}xr}{128}+{\frac {3a^{8}{128}\ln \left(x+r\right)$
$\int x^{5}r\,dx={\frac {r^{7}{7}-{\frac {2a^{2}r^{5}{5}+{\frac {a^{4}r^{3}{3$
$\int x^{5}r^{3}\,dx={\frac {r^{9}{9}-{\frac {2a^{2}r^{7}{7}+{\frac {a^{4}r^{5}{5$
$\int x^{5}r^{2n+1}\,dx={\frac {r^{2n+7}{2n+7}-{\frac {2a^{2}r^{2n+5}{2n+5}+{\frac {a^{4}r^{2n+3}{2n+3$
$\int {\frac {r\,dx}{x}=r-a\ln \left|{\frac {a+r}{x}\right|=r-a\,\operatorname {arsinh} {\frac {a}{x$
$\int {\frac {r^{3}\,dx}{x}={\frac {r^{3}{3}+a^{2}r-a^{3}\ln \left|{\frac {a+r}{x}\right|$
$\int {\frac {r^{5}\,dx}{x}={\frac {r^{5}{5}+{\frac {a^{2}r^{3}{3}+a^{4}r-a^{5}\ln \left|{\frac {a+r}{x}\right|$
$\int {\frac {r^{7}\,dx}{x}={\frac {r^{7}{7}+{\frac {a^{2}r^{5}{5}+{\frac {a^{4}r^{3}{3}+a^{6}r-a^{7}\ln \left|{\frac {a+r}{x}\right|$
$\int {\frac {dx}{r}=\operatorname {arsinh} {\frac {x}{a}=\ln \left({\frac {x+r}{a}\right)$
$\int {\frac {dx}{r^{3}={\frac {x}{a^{2}r$
$\int {\frac {x\,dx}{r}=r$
$\int {\frac {x\,dx}{r^{3}=-{\frac {1}{r$
$\int {\frac {x^{2}\,dx}{r}={\frac {x}{2}r-{\frac {a^{2}{2}\,\operatorname {arsinh} {\frac {x}{a}={\frac {x}{2}r-{\frac {a^{2}{2}\ln \left({\frac {x+r}{a}\right)$
$\int {\frac {dx}{xr}=-{\frac {1}{a}\,\operatorname {arsinh} {\frac {a}{x}=-{\frac {1}{a}\ln \left|{\frac {a+r}{x}\right|$

Tích phân chứa s = √x² − a²

Giả định x² > a² (đối với trường hợp x² < a², xem mục sau):

$\int s\,dx={\frac {1}{2}\left(xs-a^{2}\ln \left|x+s\right|\right)$
$\int xs\,dx={\frac {1}{3}s^{3$
$\int {\frac {s\,dx}{x}=s-|a|\arccos \left|{\frac {a}{x}\right|$
$\int {\frac {dx}{s}=\ln \left|{\frac {x+s}{a}\right|\,.$ Ở đây $\ln \left|{\frac {x+s}{a}\right|=\operatorname {sgn} (x)\,\operatorname {arcosh} \left|{\frac {x}{a}\right|={\frac {1}{2}\ln \left({\frac {x+s}{x-s}\right)\,,$ trong đó $\operatorname {arcosh} \left|{\frac {x}{a}\right|$ lấy giá trị dương.
$\int {\frac {dx}{xs}={\frac {1}{a}\operatorname {arcsec} \left|{\frac {x}{a}\right|$
$\int {\frac {x\,dx}{s}=s$
$\int {\frac {x\,dx}{s^{3}=-{\frac {1}{s$
$\int {\frac {x\,dx}{s^{5}=-{\frac {1}{3s^{3$
$\int {\frac {x\,dx}{s^{7}=-{\frac {1}{5s^{5$
$\int {\frac {x\,dx}{s^{2n+1}=-{\frac {1}{(2n-1)s^{2n-1$
$\int {\frac {x^{2m}\,dx}{s^{2n+1}=-{\frac {1}{2n-1}{\frac {x^{2m-1}{s^{2n-1}+{\frac {2m-1}{2n-1}\int {\frac {x^{2m-2}\,dx}{s^{2n-1$
$\int {\frac {x^{2}\,dx}{s}={\frac {xs}{2}+{\frac {a^{2}{2}\ln \left|{\frac {x+s}{a}\right|$
$\int {\frac {x^{2}\,dx}{s^{3}=-{\frac {x}{s}+\ln \left|{\frac {x+s}{a}\right|$
$\int {\frac {x^{4}\,dx}{s}={\frac {x^{3}s}{4}+{\frac {3}{8}a^{2}xs+{\frac {3}{8}a^{4}\ln \left|{\frac {x+s}{a}\right|$
$\int {\frac {x^{4}\,dx}{s^{3}={\frac {xs}{2}-{\frac {a^{2}x}{s}+{\frac {3}{2}a^{2}\ln \left|{\frac {x+s}{a}\right|$
$\int {\frac {x^{4}\,dx}{s^{5}=-{\frac {x}{s}-{\frac {1}{3}{\frac {x^{3}{s^{3}+\ln \left|{\frac {x+s}{a}\right|$
$\int {\frac {x^{2m}\,dx}{s^{2n+1}=(-1)^{n-m}{\frac {1}{a^{2(n-m)}\sum _{i=0}^{n-m-1}{\frac {1}{2(m+i)+1}{n-m-1 \choose i}{\frac {x^{2(m+i)+1}{s^{2(m+i)+1}\qquad {\mbox{(}n>m\geq 0{\mbox{)$
$\int {\frac {dx}{s^{3}=-{\frac {1}{a^{2}{\frac {x}{s$
$\int {\frac {dx}{s^{5}={\frac {1}{a^{4}\left[{\frac {x}{s}-{\frac {1}{3}{\frac {x^{3}{s^{3}\right]$
$\int {\frac {dx}{s^{7}=-{\frac {1}{a^{6}\left[{\frac {x}{s}-{\frac {2}{3}{\frac {x^{3}{s^{3}+{\frac {1}{5}{\frac {x^{5}{s^{5}\right]$
$\int {\frac {dx}{s^{9}={\frac {1}{a^{8}\left[{\frac {x}{s}-{\frac {3}{3}{\frac {x^{3}{s^{3}+{\frac {3}{5}{\frac {x^{5}{s^{5}-{\frac {1}{7}{\frac {x^{7}{s^{7}\right]$
$\int {\frac {x^{2}\,dx}{s^{5}=-{\frac {1}{a^{2}{\frac {x^{3}{3s^{3$
$\int {\frac {x^{2}\,dx}{s^{7}={\frac {1}{a^{4}\left[{\frac {1}{3}{\frac {x^{3}{s^{3}-{\frac {1}{5}{\frac {x^{5}{s^{5}\right]$
$\int {\frac {x^{2}\,dx}{s^{9}=-{\frac {1}{a^{6}\left[{\frac {1}{3}{\frac {x^{3}{s^{3}-{\frac {2}{5}{\frac {x^{5}{s^{5}+{\frac {1}{7}{\frac {x^{7}{s^{7}\right]$

Tích phân chứa u = √a² − x²

$\int u\,dx={\frac {1}{2}\left(xu+a^{2}\arcsin {\frac {x}{a}\right)\qquad {\mbox{(}|x|\leq |a|{\mbox{)$
$\int xu\,dx=-{\frac {1}{3}u^{3}\qquad {\mbox{(}|x|\leq |a|{\mbox{)$
$\int x^{2}u\,dx=-{\frac {x}{4}u^{3}+{\frac {a^{2}{8}(xu+a^{2}\arcsin {\frac {x}{a})\qquad {\mbox{(}|x|\leq |a|{\mbox{)$
$\int {\frac {u\,dx}{x}=u-a\ln \left|{\frac {a+u}{x}\right|\qquad {\mbox{(}|x|\leq |a|{\mbox{)$
$\int {\frac {dx}{u}=\arcsin {\frac {x}{a}\qquad {\mbox{(}|x|\leq |a|{\mbox{)$
$\int {\frac {x^{2}\,dx}{u}={\frac {1}{2}\left(-xu+a^{2}\arcsin {\frac {x}{a}\right)\qquad {\mbox{(}|x|\leq |a|{\mbox{)$
$\int u\,dx={\frac {1}{2}\left(xu-\operatorname {sgn} x\,\operatorname {arcosh} \left|{\frac {x}{a}\right|\right)\qquad {\mbox{(với }|x|\geq |a|{\mbox{)$
$\int {\frac {x}{u}\,dx=-u\qquad {\mbox{(}|x|\leq |a|{\mbox{)$

Tích phân chứa R = √ax² + bx + c

Giả định rằng (ax² + bx + c) không thể chuyển về dạng (px + q)² với p và q là hằng số.

$\int {\frac {dx}{R}={\frac {1}{\sqrt {a}\ln \left|2{\sqrt {a}R+2ax+b\right|\qquad {\mbox{(với }a>0{\mbox{)$
$\int {\frac {dx}{R}={\frac {1}{\sqrt {a}\,\operatorname {arsinh} {\frac {2ax+b}{\sqrt {4ac-b^{2}\qquad {\mbox{(với }a>0{\mbox{, }4ac-b^{2}>0{\mbox{)$
$\int {\frac {dx}{R}={\frac {1}{\sqrt {a}\ln |2ax+b|\quad {\mbox{(với }a>0{\mbox{, }4ac-b^{2}=0{\mbox{)$
$\int {\frac {dx}{R}=-{\frac {1}{\sqrt {-a}\arcsin {\frac {2ax+b}{\sqrt {b^{2}-4ac}\qquad {\mbox{(với }a<0{\mbox{, }4ac-b^{2}<0{\mbox{, }\left|2ax+b\right|<{\sqrt {b^{2}-4ac}{\mbox{)$
$\int {\frac {dx}{R^{3}={\frac {4ax+2b}{(4ac-b^{2})R$
$\int {\frac {dx}{R^{5}={\frac {4ax+2b}{3(4ac-b^{2})R}\left({\frac {1}{R^{2}+{\frac {8a}{4ac-b^{2}\right)$
$\int {\frac {dx}{R^{2n+1}={\frac {2}{(2n-1)(4ac-b^{2})}\left({\frac {2ax+b}{R^{2n-1}+4a(n-1)\int {\frac {dx}{R^{2n-1}\right)$
$\int {\frac {x}{R}\,dx={\frac {R}{a}-{\frac {b}{2a}\int {\frac {dx}{R$
$\int {\frac {x}{R^{3}\,dx=-{\frac {2bx+4c}{(4ac-b^{2})R$
$\int {\frac {x}{R^{2n+1}\,dx=-{\frac {1}{(2n-1)aR^{2n-1}-{\frac {b}{2a}\int {\frac {dx}{R^{2n+1$
$\int {\frac {dx}{xR}=-{\frac {1}{\sqrt {c}\ln \left|{\frac {2{\sqrt {c}R+bx+2c}{x}\right|,~c>0$
$\int {\frac {dx}{xR}=-{\frac {1}{\sqrt {c}\operatorname {arsinh} \left({\frac {bx+2c}{|x|{\sqrt {4ac-b^{2}\right),~c<0$
$\int {\frac {dx}{xR}={\frac {1}{\sqrt {-c}\operatorname {arcsin} \left({\frac {bx+2c}{|x|{\sqrt {b^{2}-4ac}\right),~c<0,b^{2}-4ac>0$
$\int {\frac {dx}{xR}=-{\frac {2}{bx}\left({\sqrt {ax^{2}+bx}\right),~c=0$
$\int {\frac {x^{2}{R}\,dx={\frac {2ax-3b}{4a^{2}R+{\frac {3b^{2}-4ac}{8a^{2}\int {\frac {dx}{R$
$\int {\frac {dx}{x^{2}R}=-{\frac {R}{cx}-{\frac {b}{2c}\int {\frac {dx}{xR$
$\int R\,dx={\frac {2ax+b}{4a}R+{\frac {4ac-b^{2}{8a}\int {\frac {dx}{R$
$\int xR\,dx={\frac {R^{3}{3a}-{\frac {b(2ax+b)}{8a^{2}R-{\frac {b(4ac-b^{2})}{16a^{2}\int {\frac {dx}{R$
$\int x^{2}R\,dx={\frac {6ax-5b}{24a^{2}R^{3}+{\frac {5b^{2}-4ac}{16a^{2}\int R\,dx$
$\int {\frac {R}{x}\,dx=R+{\frac {b}{2}\int {\frac {dx}{R}+c\int {\frac {dx}{xR$
$\int {\frac {R}{x^{2}\,dx=-{\frac {R}{x}+a\int {\frac {dx}{R}+{\frac {b}{2}\int {\frac {dx}{xR$
$\int {\frac {x^{2}\,dx}{R^{3}={\frac {(2b^{2}-4ac)x+2bc}{a(4ac-b^{2})R}+{\frac {1}{a}\int {\frac {dx}{R$

Tích phân chứa S = √ax + b

$\int S\,dx={\frac {2S^{3}{3a$
$\int {\frac {dx}{S}={\frac {2S}{a$
$\int {\frac {dx}{xS}={\begin{cases}-{\dfrac {2}{\sqrt {b}\operatorname {arcoth} \left({\dfrac {S}{\sqrt {b}\right)&{\mbox{(với }b>0,\quad ax>0{\mbox{)}\\-{\dfrac {2}{\sqrt {b}\operatorname {artanh} \left({\dfrac {S}{\sqrt {b}\right)&{\mbox{(với }b>0,\quad ax<0{\mbox{)}\\{\dfrac {2}{\sqrt {-b}\arctan \left({\dfrac {S}{\sqrt {-b}\right)&{\mbox{(với }b<0{\mbox{)}\\\end{cases$
$\int {\frac {S}{x}\,dx={\begin{cases}2\left(S-{\sqrt {b}\,\operatorname {arcoth} \left({\dfrac {S}{\sqrt {b}\right)\right)&{\mbox{(với }b>0,\quad ax>0{\mbox{)}\\2\left(S-{\sqrt {b}\,\operatorname {artanh} \left({\dfrac {S}{\sqrt {b}\right)\right)&{\mbox{(với }b>0,\quad ax<0{\mbox{)}\\2\left(S-{\sqrt {-b}\arctan \left({\dfrac {S}{\sqrt {-b}\right)\right)&{\mbox{(với }b<0{\mbox{)}\\\end{cases$
$\int {\frac {x^{n}{S}\,dx={\frac {2}{a(2n+1)}\left(x^{n}S-bn\int {\frac {x^{n-1}{S}\,dx\right)$
$\int x^{n}S\,dx={\frac {2}{a(2n+3)}\left(x^{n}S^{3}-nb\int x^{n-1}S\,dx\right)$
$\int {\frac {1}{x^{n}S}\,dx=-{\frac {1}{b(n-1)}\left({\frac {S}{x^{n-1}+\left(n-{\frac {3}{2}\right)a\int {\frac {dx}{x^{n-1}S}\right)$

Tham khảo

Abramowitz, Milton; Stegun, Irene A. biên tập (1972). “Chapter 3”. Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables. New York: Dover. tr. 12–13.
Gradshteyn, Izrail Solomonovich; Ryzhik, Iosif Moiseevich; Geronimus, Yuri Veniaminovich; Tseytlin, Michail Yulyevich; Jeffrey, Alan (2015) [October 2014]. Zwillinger, Daniel; Moll, Victor Hugo (biên tập). Table of Integrals, Series, and Products (bằng tiếng Anh). Scripta Technica, Inc. biên dịch (ấn bản thứ 8). Academic Press, Inc. ISBN 978-0-12-384933-5. LCCN 2014010276. (cùng với các ấn bản trước đó)
Peirce, Benjamin Osgood (1929) [1899]. “Chapter 3”. A Short Table of Integrals (ấn bản thứ 3). Boston: Ginn and Co. tr. 16–30.