Answer:
Q should be 4.8 miles east of B.
Explanation:
As the diagram shows, we can simply express the construction cost as a function of angle θ (represented in the diagram).
The length of the pipe in water (represented with blue) = 6/cos θ
The length of the pipe on land (represented with brown) = (8-6*tan θ)
Construction Cost = (6/cos θ) (6000) + (8-6*tan θ)(3750)
The above function represents the construction cost and is in terms of θ
The value of θ varies from 0 degrees to 53.13 degrees as per the diagram.
We can take the derivative of Construction Cost function with respect to θ and equate it to zero to find the angle θ at which the construction cost is minimum.
d(Construction Cost)/d θ = -4500(5*sec θ – 8*tan θ)(sec θ)
-4500(5*sec θ – 8*tan θ) (sec θ) = 0
θ = 38.68 degrees
Using the value of θ, we can find the distance of Q from B.
Distance of Q from B = 6*tan θ
Distance of Q from B = 6*tan (38.68 degrees)
Distance of Q from B = 4.8 miles
