Difference between revisions of "009B Sample Final 1, Problem 5"

Consider the solid obtained by rotating the area bounded by the following three functions about the ${\displaystyle y}$-axis:

${\displaystyle x=0}$, ${\displaystyle y=e^{x}}$, and ${\displaystyle y=ex}$.

a) Sketch the region bounded by the given three functions. Find the intersection point of the two functions:

${\displaystyle y=e^{x}}$ and ${\displaystyle y=ex}$. (There is only one.)

b) Set up the integral for the volume of the solid.

c) Find the volume of the solid by computing the integral.

Solution:

(a)

Step 2:
Setting the equations equal, we have ${\displaystyle e^{x}=ex}$.
We get one intersection point, which is ${\displaystyle (1,e)}$.
This intersection point can be seen in the graph shown in Step 1.

(b)

Step 1:
We proceed using cylindrical shells. The radius of the shells is given by ${\displaystyle r=x}$.
The height of the shells is given by ${\displaystyle h=e^{x}-ex}$.

Step 2:
So, the volume of the solid is ${\displaystyle \int _{0}^{1}2\pi x(e^{x}-ex)~dx}$.

(c)

Step 1:
We need to integrate
${\displaystyle \int _{0}^{1}2\pi x(e^{x}-ex)~dx=2\pi \int _{0}^{1}xe^{x}~dx-2\pi \int _{0}^{1}ex^{2}~dx}$.

Step 2:
For the first integral, we need to use integration by parts.
Let ${\displaystyle u=x}$ and ${\displaystyle dv=e^{x}dx}$. Then, ${\displaystyle du=dx}$ and ${\displaystyle v=e^{x}}$.
So, the integral becomes
${\displaystyle {\begin{array}{rcl}\displaystyle {\int _{0}^{1}2\pi x(e^{x}-ex)~dx}&=&\displaystyle {2\pi {\bigg (}xe^{x}{\bigg |}_{0}^{1}-\int _{0}^{1}e^{x}dx{\bigg )}-{\frac {2\pi ex^{3}}{3}}{\bigg |}_{0}^{1}}\\&&\\&=&\displaystyle {2\pi {\bigg (}xe^{x}-e^{x}{\bigg )}{\bigg |}_{0}^{1}-{\frac {2\pi e}{3}}}\\&&\\&=&\displaystyle {2\pi (e-e-(-1))-{\frac {2\pi e}{3}}}\\&&\\&=&\displaystyle {2\pi -{\frac {2\pi e}{3}}}\\\end{array}}}$

Final Answer:
(a) ${\displaystyle (1,e)}$ (See (a) Step 1 for the graph)
(b) ${\displaystyle \int _{0}^{1}2\pi x(e^{x}-ex)~dx}$
(c) ${\displaystyle 2\pi -{\frac {2\pi e}{3}}}$

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