Difference between revisions of "009B Sample Midterm 1, Problem 3"

Evaluate the indefinite and definite integrals.

a)   ${\displaystyle \int x^{2}e^{x}~dx}$

b)   ${\displaystyle \int _{1}^{e}x^{3}\ln x~dx}$

Foundations:
Integration by parts tells us that ${\displaystyle \int u~dv=uv-\int v~du.}$
How would you integrate ${\displaystyle \int x\ln x~dx?}$
You could use integration by parts.
Let ${\displaystyle u=\ln x}$ and ${\displaystyle dv=x~dx.}$ Then, ${\displaystyle du={\frac {1}{x}}dx}$ and ${\displaystyle v={\frac {x^{2}}{2}}.}$
Thus, ${\displaystyle \int x\ln x~dx={\frac {x^{2}\ln x}{2}}-\int {\frac {x}{2}}~dx={\frac {x^{2}\ln x}{2}}-{\frac {x^{2}}{4}}+C.}$

Solution:

(a)

Step 1:
We proceed using integration by parts. Let ${\displaystyle u=x^{2}}$ and ${\displaystyle dv=e^{x}dx.}$ Then, ${\displaystyle du=2xdx}$ and ${\displaystyle v=e^{x}.}$
Therefore, we have
${\displaystyle \int x^{2}e^{x}~dx=x^{2}e^{x}-\int 2xe^{x}~dx.}$

Step 2:
Now, we need to use integration by parts again. Let ${\displaystyle u=2x}$ and ${\displaystyle dv=e^{x}dx.}$ Then, ${\displaystyle du=2dx}$ and ${\displaystyle v=e^{x}.}$
Building on the previous step, we have
${\displaystyle \int x^{2}e^{x}~dx=x^{2}e^{x}-{\bigg (}2xe^{x}-\int 2e^{x}~dx{\bigg )}=x^{2}e^{x}-2xe^{x}+2e^{x}+C.}$

(b)

Step 1:
We proceed using integration by parts. Let ${\displaystyle u=\ln x}$ and ${\displaystyle dv=x^{3}dx.}$ Then, ${\displaystyle du={\frac {1}{x}}dx}$ and ${\displaystyle v={\frac {x^{4}}{4}}.}$
Therefore, we have
${\displaystyle \int _{1}^{e}x^{3}\ln x~dx=\left.\ln x{\bigg (}{\frac {x^{4}}{4}}{\bigg )}\right|_{1}^{e}-\int _{1}^{e}{\frac {x^{3}}{4}}~dx=\left.\ln x{\bigg (}{\frac {x^{4}}{4}}{\bigg )}-{\frac {x^{4}}{16}}\right|_{1}^{e}.}$

Step 2:
Now, we evaluate to get
${\displaystyle \int _{1}^{e}x^{3}\ln x~dx={\bigg (}(\ln e){\frac {e^{4}}{4}}-{\frac {e^{4}}{16}}{\bigg )}-{\bigg (}(\ln 1){\frac {1^{4}}{4}}-{\frac {1^{4}}{16}}{\bigg )}={\frac {e^{4}}{4}}-{\frac {e^{4}}{16}}+{\frac {1}{16}}={\frac {3e^{4}+1}{16}}.}$

Final Answer:
(a)   ${\displaystyle x^{2}e^{x}-2xe^{x}+2e^{x}+C}$
(b)   ${\displaystyle {\frac {3e^{4}+1}{16}}}$

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