Difference between revisions of "009A Sample Final A, Problem 7"

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|'''Form the Equations:''' &nbsp; Notice that we need fencing between each of the pens (think "lion-antelope-lion-antelope" if this isn't clear). We require 2 pieces of length ''x'' for each pen, and a total of 5 pieces of length ''y''. Together, we need a total length of <math style="vertical-align: -20%;">L = 8x + 5y. </math>
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|'''Form the Equations:''' &nbsp; Notice that we need fencing between each of the pens (think "lion-antelope-lion-antelope" if this isn't clear). We require 2 pieces of length ''x'' for each pen, and a total of 5 pieces of length ''y''. Together, we need a total length of <math style="vertical-align: -25%;">L = 8x + 5y. </math>
 
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|On the other hand, we know that each pen has a fixed area of 500 square feet.  Thus, we also know that ''xy'' = 500.
 
|On the other hand, we know that each pen has a fixed area of 500 square feet.  Thus, we also know that ''xy'' = 500.

Revision as of 13:03, 24 March 2015

009A SF A 7 PensDim.png


7. A farmer wishes to make 4 identical rectangular pens, each with 500 sq. ft. of area. What dimensions for each pen will use the least amount of total fencing?

Foundations:  
As a word problem, we must begin by assigning variables in order to construct useful equation(s). As an optimization problem, we will be taking a derivative of one of our equations in order to find an extreme point.

Solution:

Step 1:  
Declare Variables:   We are attempting to find the dimensions of a single pen, such that we use as little fencing as possible for all four pens. Let's use x and y as indicated in the image, and simply call the length of fencing required L.
Step 2:  
Form the Equations:   Notice that we need fencing between each of the pens (think "lion-antelope-lion-antelope" if this isn't clear). We require 2 pieces of length x for each pen, and a total of 5 pieces of length y. Together, we need a total length of
On the other hand, we know that each pen has a fixed area of 500 square feet. Thus, we also know that xy = 500.
Step 3:  
Optimize:   Since xy = 500, we also know y = 500/x. Plugging this into our equation for length, we have
    
We now take the derivative to find
    
The denominator can never be zero, and if we set the numerator to zero we find
    
Of course, we can't have negative fencing lengths, so we can ignore the negative root. Finally, we use the area relation to find
    
Thus, the least amount of fencing is used when we size our 500 sq. ft. pens as 20√2 feet by 25/√2 feet.

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