The stopping distance for an automobile is F(s) = 1.1s + 0.054s2 ft, where s is the speed in mph. Use the Linear Approximation to estimate the change in stopping distance per additional mph when s = 30 and when s = 60.
If the function F is differentiable at s = a and Δs is small, then the Linear Approximation of ΔF is
ΔF ≈ ,
where Δs represents the change in s.
To estimate the change in stopping distance per additional mph, use Δs = mph.
Use the Linear Approximation to estimate ΔF at s = 30 mph and at s = 60 mph.
At s = 30 mph, the change in stopping distance per additional mph is
ΔF ≈ ft.
(Round your answer to two decimal places.)