Difference between revisions of "009B Sample Final 2, Problem 4"
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|To solve this, we need to use integration by parts. | |To solve this, we need to use integration by parts. | ||
|- | |- | ||
| − | | | + | |Let <math>u=x</math> and <math>dv=e^{-0.15x}dx.</math> |
| − | |} | + | |- |
| − | + | |Then, <math>du=dx</math> and <math>v=-{\displaystyle \frac{e^{-0.15x}}{0.15}.}</math> | |
| − | {| | + | |- |
| − | + | |Thus, | |
| + | <math>\begin{array}{rcl} | ||
| + | \displaystyle{P} & = & \displaystyle{25,000\pi\int_{0}^{7}xe^{-0.15x}\,dx}\\ | ||
| + | &&\\ | ||
| + | & = & \displaystyle{25,000\pi\left[\left.-\frac{xe^{-0.15x}}{0.15}\right|_{0}^{7}+\int_{0}^{7}\frac{e^{-0.15x}}{0.15}\,dx\right]}\\ | ||
| + | &&\\ | ||
| + | & = & \displaystyle{25,000\pi\left[-\frac{xe^{-0.15x}}{0.15}-\frac{e^{-0.15x}}{(0.15)^{2}}\right]_{0}^{7}}\\ | ||
| + | &&\\ | ||
| + | & = & \displaystyle{25,000\pi\left[\left(-\frac{7e^{-1.05}}{0.15}-\frac{e^{-1.05}}{(0.15)^{2}}\right)+\frac{1}{(0.15)^{2}}\right]}\\ | ||
| + | &&\\ | ||
| + | & \approx & 986,556. | ||
| + | \end{array}</math> | ||
|- | |- | ||
| − | | | + | |Note that in a calculator-prohibited test, no one would expect the actual numerical answer. |
|- | |- | ||
| − | | | + | |However, you would likely need the line above it to receive full credit. |
|} | |} | ||
| Line 88: | Line 99: | ||
!Final Answer: | !Final Answer: | ||
|- | |- | ||
| − | | | + | | <math>{\displaystyle 25,000\pi\left[\left(-\frac{7e^{-1.05}}{0.15}-\frac{e^{-1.05}}{(0.15)^{2}}\right)+\frac{1}{(0.15)^{2}}\right]\ \approx\ 986,556.}</math> |
|} | |} | ||
[[009B_Sample_Final_2|'''<u>Return to Sample Exam</u>''']] | [[009B_Sample_Final_2|'''<u>Return to Sample Exam</u>''']] | ||
Revision as of 15:00, 26 May 2017
A city bordered on one side by a lake can be approximated by a semicircle of radius 7 miles, whose city center is on the shoreline. As we move away from the center along a radius the population density of the city can be approximated by:
people per square mile. What is the population of the city?
| Foundations: |
|---|
| Many word problems can be confusing, and this is a good example. |
| We know that we are going to integrate over a half-disk of radius 7, but how do we construct the integral? |
| One key could be the expression of our density, |
| where is the distance from the center. |
| Any slice along a radius gives us a cross section. |
| If we were revolving ALL the way around the center, this would be typical solid of revolution, |
| and we could find the volume of revolving the center by the usual shell formula |
| What changes, since we are only doing half of a disk? |
| Also, this particular problem will require integration by parts: |
Solution:
| Step 1: |
|---|
| We can treat this as a solid of revolution, and use the shell method. |
| We are working on a half disk of radius 7, so we can integrate a cross-section where goes from 0 to 7 |
| and the height at each is our density function, |
| Normally represents once around a circle of radius |
| but in this case we only go half way around. |
| Therefore, we adjust our usual shell method formula to find the population as |
|
|
| Step 2: |
|---|
| Let's plug in the actual formula for density and solve. We have |
|
|
| To solve this, we need to use integration by parts. |
| Let and |
| Then, and |
| Thus,
|
| Note that in a calculator-prohibited test, no one would expect the actual numerical answer. |
| However, you would likely need the line above it to receive full credit. |
![{\displaystyle {\begin{array}{rcl}\displaystyle {P}&=&\displaystyle {25,000\pi \int _{0}^{7}xe^{-0.15x}\,dx}\\&&\\&=&\displaystyle {25,000\pi \left[\left.-{\frac {xe^{-0.15x}}{0.15}}\right|_{0}^{7}+\int _{0}^{7}{\frac {e^{-0.15x}}{0.15}}\,dx\right]}\\&&\\&=&\displaystyle {25,000\pi \left[-{\frac {xe^{-0.15x}}{0.15}}-{\frac {e^{-0.15x}}{(0.15)^{2}}}\right]_{0}^{7}}\\&&\\&=&\displaystyle {25,000\pi \left[\left(-{\frac {7e^{-1.05}}{0.15}}-{\frac {e^{-1.05}}{(0.15)^{2}}}\right)+{\frac {1}{(0.15)^{2}}}\right]}\\&&\\&\approx &986,556.\end{array}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/594c9423511fed3d1a9d548bfd27a624aba41bb5)
| Final Answer: |
|---|
![{\displaystyle {\displaystyle 25,000\pi \left[\left(-{\frac {7e^{-1.05}}{0.15}}-{\frac {e^{-1.05}}{(0.15)^{2}}}\right)+{\frac {1}{(0.15)^{2}}}\right]\ \approx \ 986,556.}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/0abc4804068660091c70bb9d951bddf085aaa5bb)