In laminar flow through a cylindrical tube, what happens to flow when the tube radius increases?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Prepare for your Cardiovascular Dynamics exam with our interactive quiz. Use flashcards and multiple choice questions that offer hints and explanations to boost your knowledge and confidence. Ace your test with ease!

Multiple Choice

In laminar flow through a cylindrical tube, what happens to flow when the tube radius increases?

Explanation:
In laminar flow through a round tube, the flow rate Q for a given pressure drop ΔP depends very strongly on the radius. Poiseuille’s law gives Q = π ΔP r^4 / (8 μ L). Because the radius r is raised to the fourth power, increasing the radius increases the flow dramatically. For example, doubling the radius multiplies the flow by 16. The average velocity U_mean = Q/(π r^2) also grows with radius (U_mean = ΔP r^2 / (8 μ L)), so the fluid moves faster overall as the tube gets wider. This assumes the flow remains laminar; turbulence would require a higher Reynolds number, which isn’t the focus here.

In laminar flow through a round tube, the flow rate Q for a given pressure drop ΔP depends very strongly on the radius. Poiseuille’s law gives Q = π ΔP r^4 / (8 μ L). Because the radius r is raised to the fourth power, increasing the radius increases the flow dramatically. For example, doubling the radius multiplies the flow by 16. The average velocity U_mean = Q/(π r^2) also grows with radius (U_mean = ΔP r^2 / (8 μ L)), so the fluid moves faster overall as the tube gets wider. This assumes the flow remains laminar; turbulence would require a higher Reynolds number, which isn’t the focus here.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy