[tex]p = 2w + 2l[/tex] [tex]p = 42[/tex]
[tex]a = l * w[/tex] [tex]a = 108[/tex]
You want to make either the length or width variable (I chose the width variable to be by itself. It doesn't matter) by itself by:
Divide both sides by 2.
(p) ÷ 2 = (2w + 2l) ÷ 2
[tex]2's[/tex] [tex]cancel[/tex] [tex]out[/tex]
[tex] \frac{p}{2} = w + l[/tex]
Subtract both sides by either length or width depending on what variable you chose to make by itself (in this case I subtracted the length variable because I wanted the width variable by itself).
[tex]\frac{p}{2} - l = w + l - l[/tex]
[tex]l's[/tex] [tex]cancel[/tex] [tex]out[/tex]
p/2 - l = w
[tex]a = l * w[/tex]
You replace w with the equation above p/2 - l = w
[tex]a = l( \frac{p}{2} - l)[/tex]
Multiply out the L.
[tex]a = \frac{p}{2}l - l^{2}[/tex]
Plug in all your numbers a = 108 and p = 42
[tex]108 = \frac{42}{2}l - l^{2}[/tex]
[tex]108 = 21l - l^{2[/tex]
Move everything to the left side so [tex] l^{2} [/tex] would be positive (makes the equation easier when [tex] l^{2} [/tex] is positive).
[tex]l^{2} - 21l + 108 = 0[/tex]
Factor.
[tex](l -9)(l-12) = 0[/tex]
Make each parenthesis set equal to 0.
[tex]l-9=0[/tex] [tex]l-12=0[/tex]
Add.
[tex]l = 9[/tex] [tex]l = 12[/tex]
By doing this you solve for both the width and length so the answer is:
w = 12 L = 9
