Chapter 3 - Section 3.7 - Rates of Change in the Natural and Social Sciences - 3.7 Exercises - Page 234: 14

(a) $\frac{dA}{dt} = (7200~\pi)~cm^2/s$ (b) $\frac{dA}{dt} = (21,600~\pi)~cm^2/s$ (c) $\frac{dA}{dt} = (36,000~\pi)~cm^2/s$ The rate of change of the area increases linearly as time increases.

Note that $r(t) = 60t$ We can write a function for the area: $A = \pi~r^2$ $A = \pi~(60t)^2$ $A = (3600~\pi)~t^2$ We can find the rate of change of the area: $\frac{dA}{dt} = (7200~\pi)~t$ (a) We can find the rate at which the area is increasing after $1~s$: $\frac{dA}{dt} = (7200~\pi)~t$ $\frac{dA}{dt} = (7200~\pi)~(1)$ $\frac{dA}{dt} = (7200~\pi)~cm^2/s$ (b) We can find the rate at which the area is increasing after $3~s$: $\frac{dA}{dt} = (7200~\pi)~t$ $\frac{dA}{dt} = (7200~\pi)~(3)$ $\frac{dA}{dt} = (21,600~\pi)~cm^2/s$ (c) We can find the rate at which the area is increasing after $5~s$: $\frac{dA}{dt} = (7200~\pi)~t$ $\frac{dA}{dt} = (7200~\pi)~(5)$ $\frac{dA}{dt} = (36,000~\pi)~cm^2/s$ The rate of change of the area increases linearly as time increases.