Difference between revisions of "009B Sample Final 3, Problem 3"

The population density of trout in a stream is

${\displaystyle \rho (x)=|-x^{2}+6x+16|}$

where  ${\displaystyle \rho }$  is measured in trout per mile and  ${\displaystyle x}$  is measured in miles.  ${\displaystyle x}$  runs from 0 to 12.

(a) Graph  ${\displaystyle \rho (x)}$  and find the minimum and maximum.

(b) Find the total number of trout in the stream.

Foundations:
What is the relationship between population density  ${\displaystyle \rho (x)}$  and the total populations?
The total population is equal to  ${\displaystyle \int _{a}^{b}\rho (x)~dx}$
for appropriate choices of  ${\displaystyle a,b.}$

Solution:

(a)

Step 1:
To graph ${\displaystyle \rho (x),}$ we need to find out when ${\displaystyle -x^{2}+6x+16}$ is negative.
To do this, we set
${\displaystyle -x^{2}+6x+16=0.}$
So, we have
${\displaystyle {\begin{array}{rcl}\displaystyle {0}&=&\displaystyle {-x^{2}+6x+16}\\&&\\&=&\displaystyle {-(x^{2}-6x-16)}\\&&\\&=&\displaystyle {-(x+2)(x-8).}\end{array}}}$
Hence, we get ${\displaystyle x=-2}$ and ${\displaystyle x=8.}$ But, ${\displaystyle x=-2}$ is outside of the domain of ${\displaystyle \rho (x).}$
Using test points, we can see that ${\displaystyle -x^{2}+6x+16}$ is positive in the interval ${\displaystyle [0,8]}$
and negative in the interval ${\displaystyle [8,12].}$
Hence, we have
${\displaystyle \rho (x)=\left\{{\begin{array}{lr}-x^{2}+6x+16&{\text{if }}0\leq x\leq 8\\x^{2}-6x-16&{\text{if }}8<x\leq 12\end{array}}\right.}$
The graph of ${\displaystyle \rho (x)}$ is displayed below.

Step 2:
We need to find the absolute maximum and minimum of ${\displaystyle \rho (x).}$
We begin by finding the critical points of ${\displaystyle -x^{2}+6x+16.}$
Taking the derivative, we have ${\displaystyle -2x+6.}$
Solving ${\displaystyle -2x+6=0,}$ we get a critical point at ${\displaystyle x=3}$.
Now, we calculate ${\displaystyle \rho (0),\rho (3),\rho (12).}$
We have
${\displaystyle \rho (0)=16,\rho (3)=25,\rho (12)=56.}$
Therefore, the minimum of ${\displaystyle \rho (x)}$ is ${\displaystyle 16}$ and the maximum of ${\displaystyle \rho (x)}$ is ${\displaystyle 56.}$

(b)

Final Answer:
(a)     The minimum of ${\displaystyle \rho (x)}$ is ${\displaystyle 16}$ and the maximum of ${\displaystyle \rho (x)}$ is ${\displaystyle 56.}$ (See Step 1 for graph)
(b)

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