Difference between revisions of "022 Exam 2 Sample B, Problem 3"

Find the derivative of ${\displaystyle f(x)\,=\,2x^{3}e^{3x+5}}$.

Foundations:
This problem requires several advanced rules of differentiation. In particular, you need
The Chain Rule: If ${\displaystyle f}$ and ${\displaystyle g}$ are differentiable functions, then
${\displaystyle (f\circ g)'(x)=f'(g(x))\cdot g'(x).}$
The Product Rule: If ${\displaystyle f}$ and ${\displaystyle g}$ are differentiable functions, then
${\displaystyle (fg)'(x)=f'(x)\cdot g(x)+f(x)\cdot g'(x).}$
Additionally, we will need our power rule for differentiation:
${\displaystyle \left(x^{n}\right)'\,=\,nx^{n-1},}$ for ${\displaystyle n\neq 0}$,
as well as the derivative of the exponential function, ${\displaystyle e^{x}}$:
${\displaystyle \left(e^{f(x)}\right)'\,=\,\left(f(x)\right)'\cdot e^{f(x)}.}$

 Solution:

Step 1:
We need to identify the composed functions in order to apply the chain rule. Note that if we set ${\displaystyle g(x)\,=\,\ln x}$, and
${\displaystyle f(x)\,=\,{\frac {(x+5)(x-1)}{x}},}$
we then have  ${\displaystyle y\,=\,g\circ f(x)\,=\,g\left(f(x)\right).}$