Answer
$F = 1.19\times 10^{-4}~cm^3/s$
Work Step by Step
We can calculate the rate of flow:
$F = \frac{\pi~P~R^4}{8 ~\eta~ l}$
$F = \frac{\pi~(4000~dynes/cm^2)~(0.008~cm)^4}{8 ~(0.027)~ (2~cm)}$
$F = 1.19\times 10^{-4}~cm^3/s$
Calculus: Early Transcendentals 8th Edition
by Stewart, James
Published by
Cengage Learning
ISBN 10:
1285741552
ISBN 13:
978-1-28574-155-0
Chapter 8 - Section 8.4 - Applications to Economics and Biology - 8.4 Exercises - Page 573: 19
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