Respuesta :
Answer:
The dimensions of the garden that minimize the cost is 9.018 feet(length) and 13.528 feet(width)
Step-by-step explanation:
Let the length of garden be x
Let the breadth of garden be y
Area of Rectangular garden = [tex]Length \times Breadth = xy[/tex]
We are given that the area of the garden is 122 square feet
So, [tex]xy=122[/tex] ---A
A landscape architect wished to enclose a rectangular garden on one side by a brick wall costing $20/ft
So, cost of brick along length x = 20 x
On the other three sides by a metal fence costing $10/ft.
So, Other three side s = x+2y
So, cost of brick along the other three sides= 10(x+2y)
So, Total cost = 20x+10(x+2y)=20x+10x+20y=30x+20y
Total cost = 30x+20y
Substitute the value of y from A
Total cost = [tex]30x+20(\frac{122}{x})[/tex]
Total cost = [tex]\frac{2440}{x}+30x[/tex]
Now take the derivative to minimize the cost
[tex]f(x)=\frac{2440}{x}+30x[/tex]
[tex]f'(x)=-\frac{2440}{x^2}+30[/tex]
Equate it equal to 0
[tex]0=-\frac{2440}{x^2}+30[/tex]
[tex]\frac{2440}{x^2}=30[/tex]
[tex]\sqrt{\frac{2440}{30}}=x[/tex]
[tex]9.018 =x[/tex]
Now check whether it is minimum or not
take second derivative
[tex]f'(x)=-\frac{2440}{x^2}+30[/tex]
[tex]f''(x)=-(-2)\frac{2440}{x^3}[/tex]
Substitute the value of x
[tex]f''(x)=-(-2)\frac{2440}{(9.018)^3}[/tex]
[tex]f''(x)=6.6540[/tex]
Since it is positive ,So the x is minimum
Now find y
Substitute the value of x in A
[tex](9.018)y=122[/tex]
[tex]y=\frac{122}{9.018}[/tex]
[tex]y=13.528[/tex]
Hence the dimensions of the garden that minimize the cost is 9.018 feet(length) and 13.528 feet(width)
