Integral von sin(theta)^2

Der Rechner bestimmt das Integral/die Stammfunktion von $$$\sin^{2}{\left(\theta \right)}$$$ und zeigt die Rechenschritte an.

Ihre Eingabe

Bestimme $$$\int \sin^{2}{\left(\theta \right)}\, d\theta$$$.

Lösung

Wende die Potenzreduktionsformel $$$\sin^{2}{\left(\alpha \right)} = \frac{1}{2} - \frac{\cos{\left(2 \alpha \right)}}{2}$$$ mit $$$\alpha=\theta$$$ an:

$${\color{red}{\int{\sin^{2}{\left(\theta \right)} d \theta}}} = {\color{red}{\int{\left(\frac{1}{2} - \frac{\cos{\left(2 \theta \right)}}{2}\right)d \theta}}}$$

Wende die Konstantenfaktorregel $$$\int c f{\left(\theta \right)}\, d\theta = c \int f{\left(\theta \right)}\, d\theta$$$ mit $$$c=\frac{1}{2}$$$ und $$$f{\left(\theta \right)} = 1 - \cos{\left(2 \theta \right)}$$$ an:

$${\color{red}{\int{\left(\frac{1}{2} - \frac{\cos{\left(2 \theta \right)}}{2}\right)d \theta}}} = {\color{red}{\left(\frac{\int{\left(1 - \cos{\left(2 \theta \right)}\right)d \theta}}{2}\right)}}$$

Gliedweise integrieren:

$$\frac{{\color{red}{\int{\left(1 - \cos{\left(2 \theta \right)}\right)d \theta}}}}{2} = \frac{{\color{red}{\left(\int{1 d \theta} - \int{\cos{\left(2 \theta \right)} d \theta}\right)}}}{2}$$

Wenden Sie die Konstantenregel $$$\int c\, d\theta = c \theta$$$ mit $$$c=1$$$ an:

$$- \frac{\int{\cos{\left(2 \theta \right)} d \theta}}{2} + \frac{{\color{red}{\int{1 d \theta}}}}{2} = - \frac{\int{\cos{\left(2 \theta \right)} d \theta}}{2} + \frac{{\color{red}{\theta}}}{2}$$

Sei $$$u=2 \theta$$$.

Dann $$$du=\left(2 \theta\right)^{\prime }d\theta = 2 d\theta$$$ (die Schritte sind » zu sehen), und es gilt $$$d\theta = \frac{du}{2}$$$.

Somit,

$$\frac{\theta}{2} - \frac{{\color{red}{\int{\cos{\left(2 \theta \right)} d \theta}}}}{2} = \frac{\theta}{2} - \frac{{\color{red}{\int{\frac{\cos{\left(u \right)}}{2} d u}}}}{2}$$

Wende die Konstantenfaktorregel $$$\int c f{\left(u \right)}\, du = c \int f{\left(u \right)}\, du$$$ mit $$$c=\frac{1}{2}$$$ und $$$f{\left(u \right)} = \cos{\left(u \right)}$$$ an:

$$\frac{\theta}{2} - \frac{{\color{red}{\int{\frac{\cos{\left(u \right)}}{2} d u}}}}{2} = \frac{\theta}{2} - \frac{{\color{red}{\left(\frac{\int{\cos{\left(u \right)} d u}}{2}\right)}}}{2}$$

Das Integral des Kosinus ist $$$\int{\cos{\left(u \right)} d u} = \sin{\left(u \right)}$$$:

$$\frac{\theta}{2} - \frac{{\color{red}{\int{\cos{\left(u \right)} d u}}}}{4} = \frac{\theta}{2} - \frac{{\color{red}{\sin{\left(u \right)}}}}{4}$$

Zur Erinnerung: $$$u=2 \theta$$$:

$$\frac{\theta}{2} - \frac{\sin{\left({\color{red}{u}} \right)}}{4} = \frac{\theta}{2} - \frac{\sin{\left({\color{red}{\left(2 \theta\right)}} \right)}}{4}$$

Daher,

$$\int{\sin^{2}{\left(\theta \right)} d \theta} = \frac{\theta}{2} - \frac{\sin{\left(2 \theta \right)}}{4}$$

Fügen Sie die Integrationskonstante hinzu:

$$\int{\sin^{2}{\left(\theta \right)} d \theta} = \frac{\theta}{2} - \frac{\sin{\left(2 \theta \right)}}{4}+C$$

Antwort

$$$\int \sin^{2}{\left(\theta \right)}\, d\theta = \left(\frac{\theta}{2} - \frac{\sin{\left(2 \theta \right)}}{4}\right) + C$$$A

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Integral von $$$\sin^{2}{\left(\theta \right)}$$$

Ihre Eingabe

Lösung

Antwort