Integral von $$$\frac{t - 4}{\sqrt{t}}$$$
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Ihre Eingabe
Bestimme $$$\int \frac{t - 4}{\sqrt{t}}\, dt$$$.
Lösung
Expand the expression:
$${\color{red}{\int{\frac{t - 4}{\sqrt{t}} d t}}} = {\color{red}{\int{\left(\sqrt{t} - \frac{4}{\sqrt{t}}\right)d t}}}$$
Gliedweise integrieren:
$${\color{red}{\int{\left(\sqrt{t} - \frac{4}{\sqrt{t}}\right)d t}}} = {\color{red}{\left(- \int{\frac{4}{\sqrt{t}} d t} + \int{\sqrt{t} d t}\right)}}$$
Wenden Sie die Potenzregel $$$\int t^{n}\, dt = \frac{t^{n + 1}}{n + 1}$$$ $$$\left(n \neq -1 \right)$$$ mit $$$n=\frac{1}{2}$$$ an:
$$- \int{\frac{4}{\sqrt{t}} d t} + {\color{red}{\int{\sqrt{t} d t}}}=- \int{\frac{4}{\sqrt{t}} d t} + {\color{red}{\int{t^{\frac{1}{2}} d t}}}=- \int{\frac{4}{\sqrt{t}} d t} + {\color{red}{\frac{t^{\frac{1}{2} + 1}}{\frac{1}{2} + 1}}}=- \int{\frac{4}{\sqrt{t}} d t} + {\color{red}{\left(\frac{2 t^{\frac{3}{2}}}{3}\right)}}$$
Wende die Konstantenfaktorregel $$$\int c f{\left(t \right)}\, dt = c \int f{\left(t \right)}\, dt$$$ mit $$$c=4$$$ und $$$f{\left(t \right)} = \frac{1}{\sqrt{t}}$$$ an:
$$\frac{2 t^{\frac{3}{2}}}{3} - {\color{red}{\int{\frac{4}{\sqrt{t}} d t}}} = \frac{2 t^{\frac{3}{2}}}{3} - {\color{red}{\left(4 \int{\frac{1}{\sqrt{t}} d t}\right)}}$$
Wenden Sie die Potenzregel $$$\int t^{n}\, dt = \frac{t^{n + 1}}{n + 1}$$$ $$$\left(n \neq -1 \right)$$$ mit $$$n=- \frac{1}{2}$$$ an:
$$\frac{2 t^{\frac{3}{2}}}{3} - 4 {\color{red}{\int{\frac{1}{\sqrt{t}} d t}}}=\frac{2 t^{\frac{3}{2}}}{3} - 4 {\color{red}{\int{t^{- \frac{1}{2}} d t}}}=\frac{2 t^{\frac{3}{2}}}{3} - 4 {\color{red}{\frac{t^{- \frac{1}{2} + 1}}{- \frac{1}{2} + 1}}}=\frac{2 t^{\frac{3}{2}}}{3} - 4 {\color{red}{\left(2 t^{\frac{1}{2}}\right)}}=\frac{2 t^{\frac{3}{2}}}{3} - 4 {\color{red}{\left(2 \sqrt{t}\right)}}$$
Daher,
$$\int{\frac{t - 4}{\sqrt{t}} d t} = \frac{2 t^{\frac{3}{2}}}{3} - 8 \sqrt{t}$$
Vereinfachen:
$$\int{\frac{t - 4}{\sqrt{t}} d t} = \frac{2 \sqrt{t} \left(t - 12\right)}{3}$$
Fügen Sie die Integrationskonstante hinzu:
$$\int{\frac{t - 4}{\sqrt{t}} d t} = \frac{2 \sqrt{t} \left(t - 12\right)}{3}+C$$
Antwort
$$$\int \frac{t - 4}{\sqrt{t}}\, dt = \frac{2 \sqrt{t} \left(t - 12\right)}{3} + C$$$A