Ableitung von $$$e^{x} \cos{\left(x \right)}$$$
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Ihre Eingabe
Bestimme $$$\frac{d}{dx} \left(e^{x} \cos{\left(x \right)}\right)$$$.
Lösung
Wende die Produktregel $$$\frac{d}{dx} \left(f{\left(x \right)} g{\left(x \right)}\right) = \frac{d}{dx} \left(f{\left(x \right)}\right) g{\left(x \right)} + f{\left(x \right)} \frac{d}{dx} \left(g{\left(x \right)}\right)$$$ mit $$$f{\left(x \right)} = \cos{\left(x \right)}$$$ und $$$g{\left(x \right)} = e^{x}$$$ an:
$${\color{red}\left(\frac{d}{dx} \left(e^{x} \cos{\left(x \right)}\right)\right)} = {\color{red}\left(\frac{d}{dx} \left(\cos{\left(x \right)}\right) e^{x} + \cos{\left(x \right)} \frac{d}{dx} \left(e^{x}\right)\right)}$$Die Ableitung des Kosinus ist $$$\frac{d}{dx} \left(\cos{\left(x \right)}\right) = - \sin{\left(x \right)}$$$:
$$e^{x} {\color{red}\left(\frac{d}{dx} \left(\cos{\left(x \right)}\right)\right)} + \cos{\left(x \right)} \frac{d}{dx} \left(e^{x}\right) = e^{x} {\color{red}\left(- \sin{\left(x \right)}\right)} + \cos{\left(x \right)} \frac{d}{dx} \left(e^{x}\right)$$Die Ableitung der Exponentialfunktion ist $$$\frac{d}{dx} \left(e^{x}\right) = e^{x}$$$:
$$- e^{x} \sin{\left(x \right)} + \cos{\left(x \right)} {\color{red}\left(\frac{d}{dx} \left(e^{x}\right)\right)} = - e^{x} \sin{\left(x \right)} + \cos{\left(x \right)} {\color{red}\left(e^{x}\right)}$$Vereinfachen:
$$- e^{x} \sin{\left(x \right)} + e^{x} \cos{\left(x \right)} = \sqrt{2} e^{x} \cos{\left(x + \frac{\pi}{4} \right)}$$Somit gilt $$$\frac{d}{dx} \left(e^{x} \cos{\left(x \right)}\right) = \sqrt{2} e^{x} \cos{\left(x + \frac{\pi}{4} \right)}$$$.
Antwort
$$$\frac{d}{dx} \left(e^{x} \cos{\left(x \right)}\right) = \sqrt{2} e^{x} \cos{\left(x + \frac{\pi}{4} \right)}$$$A