How Does Poiseuille's Law Calculate Blood Flow Speed in the Pulmonary Artery?

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SUMMARY

Poiseuille's Law is utilized to calculate the average speed of blood flow in the pulmonary artery, which has an inner radius of 2.8 mm and a length of 8.5 cm. The pressure drop between the heart and lungs is 400 Pa. The equation used is πr4(p1-p2)/(8 × viscosity × length). The pressure difference can be interpreted as either 400 Pa or -400 Pa, depending on the chosen positive direction for flow, affecting the sign of the flow rate.

PREREQUISITES
  • Understanding of Poiseuille's Law
  • Knowledge of fluid dynamics
  • Familiarity with pressure measurements in pascals (Pa)
  • Basic mathematical skills for manipulating equations
NEXT STEPS
  • Research the application of Poiseuille's Law in biological systems
  • Learn about the viscosity of blood and its impact on flow rates
  • Explore the significance of pressure gradients in fluid dynamics
  • Study the anatomy of the pulmonary artery and its physiological functions
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Students in physiology, medical professionals, and anyone interested in the mechanics of blood flow in the cardiovascular system.

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The pulmonary artery, which connects the heart to the lungs, has an inner radius of 2.8 mm and is 8.5 cm long. If the pressure drop between the heart and lungs is 400 Pa, what is the average speed of blood in the pulmonary artery?

I am using the equation pi*r^4(p1-p2)/(8*viscosity*length)

Would the p1-p2 be -400N or 400N? I thought a speed couldn't be negative... but it says "pressure drop". Would the answer be in m/s?

I'm lost.
 
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It depends on which way you choose to be positive, and which way to be negative. If you choose from the heart to the lungs to be positive, the p1-p2 = 400 where p1 is the pressure at the heart and p2 is the pressure at the lungs. Then your flow rate would be positive. You could also choose from the lungs to the heart to be positive, and in that case p1 is the pressure at the lungs and p2 is the pressure at the heart, so p1-p2 = -400. Then your flowrate would be negative.
 

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