Chapter 3 - Section 3.7 - Rates of Change in the Natural and Social Sciences - 3.7 Exercises - Page 234: 18

(a) $V'(t) = -218.75$ (b) $V'(t) = -187.5$ (c) $V'(t) = -125$ (d) $V'(t) = 0$ Water flows out the fastest at $t = 0$. The flow of water gradually decreases until $t = 40~min$ when the flow is 0, because the tank is then empty.

$V(t) = 5000(1-\frac{1}{40}t)^2$ $V'(t) = 10,000~(1-\frac{1}{40}t)~(-\frac{1}{40})$ $V'(t) = 250~(\frac{1}{40}t-1)$ (a) We can find the draining rate after $5~min$: $V'(t) = 250~(\frac{1}{40}t-1)$ $V'(t) = 250~[(\frac{1}{40})(5)-1]$ $V'(t) = -218.75$ (b) We can find the draining rate after $10~min$: $V'(t) = 250~(\frac{1}{40}t-1)$ $V'(t) = 250~[(\frac{1}{40})(10)-1]$ $V'(t) = -187.5$ (c) We can find the draining rate after $20~min$: $V'(t) = 250~(\frac{1}{40}t-1)$ $V'(t) = 250~[(\frac{1}{40})(20)-1]$ $V'(t) = -125$ (d) We can find the draining rate after $40~min$: $V'(t) = 250~(\frac{1}{40}t-1)$ $V'(t) = 250~[(\frac{1}{40})(40)-1]$ $V'(t) = 0$ Water flows out the fastest at $t = 0$. The flow of water gradually decreases until $t = 40~min$ when the flow is 0, because the tank is then empty.