Turbulence in the aorta is a certainty for a Reynolds number of 3000. Assuming that blood is an ideal fluid, calculate the average flow rate for this Reynolds number if the diameter of the aorta is 1.75 cm. Use 1.05 x 10³ kg/m³ as the density and 2.084 x 103 (N/m2) s as the viscosity of blood. 4.60-4 x How is the volume flow rate of blood through the aorta related to the diameter of the aorta and the speed at which blood is flowing through it? How is the speed at which blood is flowing through the aorta related to the diameter of the aorta, and the density and viscosity of hind? ²

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Turbulence in the aorta is a certainty for a Reynolds number of 3000. Assuming that blood is an ideal fluid, calculate the average flow rate for this Reynolds
number if the diameter of the aorta is 1.75 cm. Use 1.05 x 10³ kg/m³ as the density and 2.084 x 103 (N/m²) s as the viscosity of blood.
4.60-4
x
How is the volume flow rate of blood through the aorta related to the diameter of the aorta and the speed at which blood is flowing through it? How is the speed at
which blood is flowing through the aorta related to the diameter of the aorta, and the density and viscosity of hind? ²
Transcribed Image Text:Turbulence in the aorta is a certainty for a Reynolds number of 3000. Assuming that blood is an ideal fluid, calculate the average flow rate for this Reynolds number if the diameter of the aorta is 1.75 cm. Use 1.05 x 10³ kg/m³ as the density and 2.084 x 103 (N/m²) s as the viscosity of blood. 4.60-4 x How is the volume flow rate of blood through the aorta related to the diameter of the aorta and the speed at which blood is flowing through it? How is the speed at which blood is flowing through the aorta related to the diameter of the aorta, and the density and viscosity of hind? ²
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