Answer:
[tex]450\text{ m}^2[/tex].
Step-by-step explanation:
Let x represent side of kennel opposite to house and y represent other sides.
We have been given that a rectangular dog kennel is to be constructed alongside a house with 60 m of fencing.
Since fencing will cover 3 sides of kennel, so perimeter of kennel would be:
[tex]x+y+y=60[/tex]
[tex]x+2y=60[/tex]
Let us solve for x.
[tex]x+2y-2y=60-2y[/tex]
[tex]x=60-2y[/tex]
The area of the kennel would be product of its sides that is:
[tex]\text{Area}=x\cdot y[/tex]
Now, we will substitute [tex]x=60-2y[/tex] in area equation as:
[tex]A(y)=(60-2y)\cdot y[/tex]
[tex]A(y)=60y-2y^2[/tex]
Let us find the derivative as shown below:
[tex]A'(y)=60-4y[/tex]
Now, we will set derivative equal to 0 and solve for y.
[tex]60-4y=0[/tex]
[tex]60=4y[/tex]
[tex]\frac{60}{4}=\frac{4y}{4}[/tex]
[tex]y=15[/tex]
Upon substituting [tex]y=15[/tex] in area function, we will greatest possible area.
[tex]A(y)=60y-2y^2[/tex]
[tex]A(15)=60(15)-2(15)^2[/tex]
[tex]A(15)=900-2(225)[/tex]
[tex]A(15)=900-450[/tex]
[tex]A(y)=450[/tex]
Therefore, the greatest possible area that can be enclosed by 60 m of fencing is 450 square meters.
