Iceboats
As we saw at the beginning of the chapter, top iceboat racers (Figure 1) can attain speeds of up to five times the wind speed. Andrew is an intermediate iceboater, though, so he attains speeds equal to only twice the wind speed. Suppose Andrew takes his iceboat out one morning when a light 5-mph breeze has been blowing all morning. As Andrew gets his iceboat set up, though, the wind begins to pick up. During his first half hour of iceboating, the wind speed increases according to the function [latex]v(t)=20t+5.[/latex] For the second half hour of Andrew’s outing, the wind remains steady at 15 mph. In other words, the wind speed is given by
[latex]v(t)=\bigg\{\begin{array}{lll}20t+5\hfill & \text{ for }\hfill & 0\le t\le \frac{1}{2}\hfill \\ 15\hfill & \text{ for }\hfill & \frac{1}{2}\le t\le 1.\hfill \end{array}[/latex]
Recalling that Andrew’s iceboat travels at twice the wind speed, and assuming he moves in a straight line away from his starting point, how far is Andrew from his starting point after 1 hour?
To figure out how far Andrew has traveled, we need to integrate his velocity, which is twice the wind speed. Then
Distance [latex]={\int }_{0}^{1}2v(t)dt.[/latex]
Substituting the expressions we were given for [latex]v(t),[/latex] we get
Andrew is 25 mi from his starting point after 1 hour.
Candela Citations
- Calculus Volume 2. Authored by: Gilbert Strang, Edwin (Jed) Herman. Provided by: OpenStax. Located at: https://openstax.org/books/calculus-volume-2/pages/1-introduction. License: CC BY-NC-SA: Attribution-NonCommercial-ShareAlike. License Terms: Access for free at https://openstax.org/books/calculus-volume-2/pages/1-introduction