The flow of blood to your legs is 12 cm3/s. You begin exercising, and your arteries dilate so that their radius increases by 30%. The pressure difference remains unchanged. What is the new flow rate: a) 34.3 cm3/s b) 15.6 cm3/s c) 20.3 cm3/s d) 360 cm3/s THEN... Using your result as the new flow rate, and 12 cm3/s as the old flow rate: if the pressure difference supplied by your heart was originally 120mmHg, select the correct option for what the new pressure difference would need to be if the radius did not change? a) 2.86 mmHg b) 1440 mmHg c) 343 mmHg d) 10 mmHg
The flow of blood to your legs is 12 cm3/s. You begin exercising, and your arteries dilate so that their radius increases by 30%. The pressure difference remains unchanged. What is the new flow rate: a) 34.3 cm3/s b) 15.6 cm3/s c) 20.3 cm3/s d) 360 cm3/s THEN... Using your result as the new flow rate, and 12 cm3/s as the old flow rate: if the pressure difference supplied by your heart was originally 120mmHg, select the correct option for what the new pressure difference would need to be if the radius did not change? a) 2.86 mmHg b) 1440 mmHg c) 343 mmHg d) 10 mmHg
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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The flow of blood to your legs is 12 cm3/s. You begin exercising, and your arteries dilate so that their radius increases by 30%. The pressure difference remains unchanged.
What is the new flow rate:
a) 34.3 cm3/s
b) 15.6 cm3/s
c) 20.3 cm3/s
d) 360 cm3/s
THEN...
Using your result as the new flow rate, and 12 cm3/s as the old flow rate: if the pressure difference supplied by your heart was originally 120mmHg, select the correct option for what the new pressure difference would need to be if the radius did not change?
a) 2.86 mmHg
b) 1440 mmHg
c) 343 mmHg
d) 10 mmHg
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