question 10 · 1 point\nfind the derivative of (h(x)= - 3cos^{13}(x)).\nprovide your answer…

question 10 · 1 point\nfind the derivative of (h(x)= - 3cos^{13}(x)).\nprovide your answer below:\n(h(x)=square)
Answer
Explanation:
Step1: Recall chain - rule
The chain - rule states that if $y = f(g(x))$, then $y'=f'(g(x))\cdot g'(x)$. Let $u = \cos(x)$, so $h(x)=- 3u^{13}$.
Step2: Differentiate outer function
Differentiate $y=-3u^{13}$ with respect to $u$. Using the power - rule $\frac{d}{du}(au^{n})=nau^{n - 1}$, we get $\frac{dy}{du}=-3\times13u^{12}=-39u^{12}$.
Step3: Differentiate inner function
Differentiate $u = \cos(x)$ with respect to $x$. We know that $\frac{du}{dx}=-\sin(x)$.
Step4: Apply chain - rule
By the chain - rule $h'(x)=\frac{dy}{du}\cdot\frac{du}{dx}$. Substitute $u = \cos(x)$ back into $\frac{dy}{du}$ and multiply by $\frac{du}{dx}$. So $h'(x)=-39\cos^{12}(x)\times(-\sin(x)) = 39\sin(x)\cos^{12}(x)$.
Answer:
$39\sin(x)\cos^{12}(x)$