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Integraal van $$$\frac{x^{2}}{\left(c - x\right)^{2}}$$$ met betrekking tot $$$x$$$
Gerelateerde rekenmachine: Rekenmachine voor bepaalde en oneigenlijke integralen
Uw invoer
Bepaal $$$\int \frac{x^{2}}{\left(c - x\right)^{2}}\, dx$$$.
Oplossing
Aangezien de graad van de teller niet kleiner is dan de graad van de noemer, voer een polynomiale staartdeling uit:
$${\color{red}{\int{\frac{x^{2}}{\left(c - x\right)^{2}} d x}}} = {\color{red}{\int{\left(1 + \frac{- c^{2} + 2 c x}{\left(c - x\right)^{2}}\right)d x}}}$$
Integreer termgewijs:
$${\color{red}{\int{\left(1 + \frac{- c^{2} + 2 c x}{\left(c - x\right)^{2}}\right)d x}}} = {\color{red}{\left(\int{1 d x} + \int{\frac{- c^{2} + 2 c x}{\left(c - x\right)^{2}} d x}\right)}}$$
Pas de constantenregel $$$\int c\, dx = c x$$$ toe met $$$c=1$$$:
$$\int{\frac{- c^{2} + 2 c x}{\left(c - x\right)^{2}} d x} + {\color{red}{\int{1 d x}}} = \int{\frac{- c^{2} + 2 c x}{\left(c - x\right)^{2}} d x} + {\color{red}{x}}$$
Vereenvoudig de integraand:
$$x + {\color{red}{\int{\frac{- c^{2} + 2 c x}{\left(c - x\right)^{2}} d x}}} = x + {\color{red}{\int{\frac{c \left(- c + 2 x\right)}{\left(c - x\right)^{2}} d x}}}$$
Pas de constante-veelvoudregel $$$\int c f{\left(x \right)}\, dx = c \int f{\left(x \right)}\, dx$$$ toe met $$$c=c$$$ en $$$f{\left(x \right)} = \frac{- c + 2 x}{\left(c - x\right)^{2}}$$$:
$$x + {\color{red}{\int{\frac{c \left(- c + 2 x\right)}{\left(c - x\right)^{2}} d x}}} = x + {\color{red}{c \int{\frac{- c + 2 x}{\left(c - x\right)^{2}} d x}}}$$
Herschrijf de teller van de integraand als $$$- c + 2 x=-2\left(c - x\right)+c$$$ en splits de breuk:
$$c {\color{red}{\int{\frac{- c + 2 x}{\left(c - x\right)^{2}} d x}}} + x = c {\color{red}{\int{\left(\frac{c}{\left(c - x\right)^{2}} - \frac{2}{c - x}\right)d x}}} + x$$
Integreer termgewijs:
$$c {\color{red}{\int{\left(\frac{c}{\left(c - x\right)^{2}} - \frac{2}{c - x}\right)d x}}} + x = c {\color{red}{\left(\int{\frac{c}{\left(c - x\right)^{2}} d x} - \int{\frac{2}{c - x} d x}\right)}} + x$$
Pas de constante-veelvoudregel $$$\int c f{\left(x \right)}\, dx = c \int f{\left(x \right)}\, dx$$$ toe met $$$c=2$$$ en $$$f{\left(x \right)} = \frac{1}{c - x}$$$:
$$c \left(\int{\frac{c}{\left(c - x\right)^{2}} d x} - {\color{red}{\int{\frac{2}{c - x} d x}}}\right) + x = c \left(\int{\frac{c}{\left(c - x\right)^{2}} d x} - {\color{red}{\left(2 \int{\frac{1}{c - x} d x}\right)}}\right) + x$$
Zij $$$u=c - x$$$.
Dan $$$du=\left(c - x\right)^{\prime }dx = - dx$$$ (de stappen zijn te zien »), en dan geldt dat $$$dx = - du$$$.
Dus,
$$c \left(\int{\frac{c}{\left(c - x\right)^{2}} d x} - 2 {\color{red}{\int{\frac{1}{c - x} d x}}}\right) + x = c \left(\int{\frac{c}{\left(c - x\right)^{2}} d x} - 2 {\color{red}{\int{\left(- \frac{1}{u}\right)d u}}}\right) + x$$
Pas de constante-veelvoudregel $$$\int c f{\left(u \right)}\, du = c \int f{\left(u \right)}\, du$$$ toe met $$$c=-1$$$ en $$$f{\left(u \right)} = \frac{1}{u}$$$:
$$c \left(\int{\frac{c}{\left(c - x\right)^{2}} d x} - 2 {\color{red}{\int{\left(- \frac{1}{u}\right)d u}}}\right) + x = c \left(\int{\frac{c}{\left(c - x\right)^{2}} d x} - 2 {\color{red}{\left(- \int{\frac{1}{u} d u}\right)}}\right) + x$$
De integraal van $$$\frac{1}{u}$$$ is $$$\int{\frac{1}{u} d u} = \ln{\left(\left|{u}\right| \right)}$$$:
$$c \left(\int{\frac{c}{\left(c - x\right)^{2}} d x} + 2 {\color{red}{\int{\frac{1}{u} d u}}}\right) + x = c \left(\int{\frac{c}{\left(c - x\right)^{2}} d x} + 2 {\color{red}{\ln{\left(\left|{u}\right| \right)}}}\right) + x$$
We herinneren eraan dat $$$u=c - x$$$:
$$c \left(2 \ln{\left(\left|{{\color{red}{u}}}\right| \right)} + \int{\frac{c}{\left(c - x\right)^{2}} d x}\right) + x = c \left(2 \ln{\left(\left|{{\color{red}{\left(c - x\right)}}}\right| \right)} + \int{\frac{c}{\left(c - x\right)^{2}} d x}\right) + x$$
Pas de constante-veelvoudregel $$$\int c f{\left(x \right)}\, dx = c \int f{\left(x \right)}\, dx$$$ toe met $$$c=c$$$ en $$$f{\left(x \right)} = \frac{1}{\left(c - x\right)^{2}}$$$:
$$c \left(2 \ln{\left(\left|{c - x}\right| \right)} + {\color{red}{\int{\frac{c}{\left(c - x\right)^{2}} d x}}}\right) + x = c \left(2 \ln{\left(\left|{c - x}\right| \right)} + {\color{red}{c \int{\frac{1}{\left(c - x\right)^{2}} d x}}}\right) + x$$
Zij $$$u=c - x$$$.
Dan $$$du=\left(c - x\right)^{\prime }dx = - dx$$$ (de stappen zijn te zien »), en dan geldt dat $$$dx = - du$$$.
Dus,
$$c \left(c {\color{red}{\int{\frac{1}{\left(c - x\right)^{2}} d x}}} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x = c \left(c {\color{red}{\int{\left(- \frac{1}{u^{2}}\right)d u}}} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x$$
Pas de constante-veelvoudregel $$$\int c f{\left(u \right)}\, du = c \int f{\left(u \right)}\, du$$$ toe met $$$c=-1$$$ en $$$f{\left(u \right)} = \frac{1}{u^{2}}$$$:
$$c \left(c {\color{red}{\int{\left(- \frac{1}{u^{2}}\right)d u}}} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x = c \left(c {\color{red}{\left(- \int{\frac{1}{u^{2}} d u}\right)}} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x$$
Pas de machtsregel $$$\int u^{n}\, du = \frac{u^{n + 1}}{n + 1}$$$ $$$\left(n \neq -1 \right)$$$ toe met $$$n=-2$$$:
$$c \left(- c {\color{red}{\int{\frac{1}{u^{2}} d u}}} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x=c \left(- c {\color{red}{\int{u^{-2} d u}}} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x=c \left(- c {\color{red}{\frac{u^{-2 + 1}}{-2 + 1}}} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x=c \left(- c {\color{red}{\left(- u^{-1}\right)}} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x=c \left(- c {\color{red}{\left(- \frac{1}{u}\right)}} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x$$
We herinneren eraan dat $$$u=c - x$$$:
$$c \left(c {\color{red}{u}}^{-1} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x = c \left(c {\color{red}{\left(c - x\right)}}^{-1} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x$$
Dus,
$$\int{\frac{x^{2}}{\left(c - x\right)^{2}} d x} = c \left(\frac{c}{c - x} + 2 \ln{\left(\left|{c - x}\right| \right)}\right) + x$$
Vereenvoudig:
$$\int{\frac{x^{2}}{\left(c - x\right)^{2}} d x} = \frac{- c \left(c - 2 \left(- c + x\right) \ln{\left(\left|{c - x}\right| \right)}\right) + x \left(- c + x\right)}{- c + x}$$
Voeg de integratieconstante toe:
$$\int{\frac{x^{2}}{\left(c - x\right)^{2}} d x} = \frac{- c \left(c - 2 \left(- c + x\right) \ln{\left(\left|{c - x}\right| \right)}\right) + x \left(- c + x\right)}{- c + x}+C$$
Antwoord
$$$\int \frac{x^{2}}{\left(c - x\right)^{2}}\, dx = \frac{- c \left(c - 2 \left(- c + x\right) \ln\left(\left|{c - x}\right|\right)\right) + x \left(- c + x\right)}{- c + x} + C$$$A