Daftar integral dari fungsi irasional: Perbedaan antara revisi
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Baris 2:
Artikel ini merupakan '''daftar [[integral]] dari [[fungsi irrasional]]. Untuk daftar integral lainnya, lihat [[tabel integral]].
: <math>\int r \;dx = \frac{1}{2}\left(x r +a^2\,\ln\left(x+r\right)\right)</math><!-- (1.1) [Abramowitz & Stegun p13 3.3.41] + verified by differentiation -->
Baris 55 ⟶ 56:
: <math>\int\frac{dx}{xr} = -\frac{1}{a}\,\sinh^{-1}\frac{a}{x} = -\frac{1}{a}\ln\left|\frac{a+r}{x}\right|</math>
Anggap <math>(x^2>a^2)</math>, untuk <math>(x^2<a^2)</math>, perhatikan bagian berikutnya:
: <math>\int xs\;dx = \frac{1}{3}s^3</math>
: <math>\int\frac{s\;dx}{x} = s - a\
: <math>\int\frac{dx}{s} = \int\frac{dx}{\sqrt{x^2-a^2}} =\ln\left|\frac{x+s}{a}\right|</math>
Baris 76 ⟶ 77:
: <math>\int\frac{x\;dx}{s^{2n+1}} = -\frac{1}{(2n-1)s^{2n-1}} </math>
: <math>\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}} </math>
: <math>\int\frac{x^2\;dx}{s}
= \frac{xs}{2}+\frac{a^2}{2}\ln\left|\frac{x+s}{a}\right|</math> : <math>\int\frac{x^2\;dx}{s^3}
= -\frac{x}{s}+\ln\left|\frac{x+s}{a}\right|</math> : <math>\int\frac{x^4\;dx}{s}
= \frac{x^3s}{4}+\frac{3}{8}a^2xs+\frac{3}{8}a^4\ln\left|\frac{x+s}{a}\right| </math> : <math>\int\frac{x^4\;dx}{s^3}
= \frac{xs}{2}-\frac{a^2x}{s}+\frac{3}{2}a^2\ln\left|\frac{x+s}{a}\right| </math> : <math>\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| </math> : <math>\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\ge0\mbox{)}</math> : <math>\int\frac{dx}{s^3}
: <math>\int\frac{dx}{s^5}
: <math>\int\frac{dx}{s^7}
= : <math>\int\frac{dx}{s^9}
= : <math>\int\frac{x^2\;dx}{s^5}
: <math>\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]</math> : <math>\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]</math> : <math>\int t \;dx = \frac{1}{2}\left(xt+a^2\arcsin\frac{x}{a}\right) \qquad\mbox{(}|x|\leq|a|\mbox{)}</math><!-- (3.1) [Abramowitz & Stegun p13 3.3.45] -->
Baris 116 ⟶ 128:
: <math>\int\frac{x^2\;dx}{t} = \frac{1}{2}\left(-xt+a^2\arcsin\frac{x}{a}\right) \qquad\mbox{(}|x|\leq|a|\mbox{)}</math><!-- (3.5) [need reference] - verified by differentiation only -->
: <math>\int t\;dx = \frac{1}{2}\left(xt-\sgn x\,\
▲== Integral melibatkan <math>R = \sqrt{ax^2+bx+c}</math> ==
: <math>\int\frac{dx}{R} = \frac{1}{\sqrt{a}}\ln\left|2\sqrt{a}R+2ax+b\right| \qquad \mbox{(untuk }a>0\mbox{)}</math><!-- (4.1) [Abramowitz & Stegun p13 3.3.33] + verified by differentiation -->
Baris 139 ⟶ 152:
: <math>\int\frac{x}{R^{2n+1}}\;dx = -\frac{1}{(2n-1)aR^{2n-1}}-\frac{b}{2a}\int\frac{dx}{R^{2n+1}}</math><!-- (4.10) [need reference] - verified by differentiation only -->
: <math>\int\frac{dx}{xR}
: <math>\int\frac{dx}{xR}
: <math>\int \frac{dx}{x\sqrt{ax + b}}\,
: <math>\int\frac{\sqrt{ax + b}}{x}\,dx\;
: <math>\int\frac{x^n}{\sqrt{ax + b}}\,dx\;
\left(x^{n}\sqrt{ax + b} - bn\int\frac{x^{n-1}}{\sqrt{ax + b}}\,dx \right)</math>
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