Properties: blood viscosity µ-3.5cP and density 1.06g/cc. 1mmHg =133.3 Pa. 1Pa= 10 dynes/cm² Assume that the blood is flowing through an aorta of 1.3cm in diameter at an average velocity of 60cm/s and mean pressure 100 mmHg in the rest condition. If an aneurysm is in the aorta region with a diameter of 2.6 cm, determine the pressure in the aneurysm.
Properties: blood viscosity µ-3.5cP and density 1.06g/cc. 1mmHg =133.3 Pa. 1Pa= 10 dynes/cm² Assume that the blood is flowing through an aorta of 1.3cm in diameter at an average velocity of 60cm/s and mean pressure 100 mmHg in the rest condition. If an aneurysm is in the aorta region with a diameter of 2.6 cm, determine the pressure in the aneurysm.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:Properties: blood viscosity μ-3.5cP and density 1.06g/cc. 1mmHg =133.3 Pa. 1Pa= 10
dynes/cm²
Assume that the blood is flowing through an aorta of 1.3cm in
diameter at an average velocity of 60cm/s and mean pressure 100 mmHg in the rest
condition. If an aneurysm is in the aorta region with a diameter of 2.6 cm, determine the
pressure in the aneurysm.
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