The concentration of a frictionless fluid flowing through a channel is measured with a diffusion constant, D = 4.5E-3 m2 /s at room temperature. The radius and length of the channel are given as r = 9.2E-2 m and 2.2 m, respectively. Hint: (KB = 1.3806E-23 m2 .kg.s-2 .K-1 , T = 273 K). (a) Calculate the gradient of concentration of the fluid given the initial and final concentrations as C1 = 70 kg/m3 and C2 = 22 kg/m3 , respectively. (b) Estimate the coefficient of viscosity of blood
The concentration of a frictionless fluid flowing through a channel is measured with a diffusion constant, D = 4.5E-3 m2 /s at room temperature. The radius and length of the channel are given as r = 9.2E-2 m and 2.2 m, respectively. Hint: (KB = 1.3806E-23 m2 .kg.s-2 .K-1 , T = 273 K). (a) Calculate the gradient of concentration of the fluid given the initial and final concentrations as C1 = 70 kg/m3 and C2 = 22 kg/m3 , respectively. (b) Estimate the coefficient of viscosity of blood
Chapter2: The Kinetic Theory Of Gases
Section: Chapter Questions
Problem 70P: Using a numerical integration method such as Simpson's rule, find the fraction of molecules in a...
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The concentration of a frictionless fluid flowing through a channel is measured
with a diffusion constant, D = 4.5E-3 m2
/s at room temperature. The radius and
length of the channel are given as r = 9.2E-2 m and 2.2 m, respectively.
Hint: (KB = 1.3806E-23 m2
.kg.s-2
.K-1
, T = 273 K).
(a) Calculate the gradient of concentration of the fluid given the initial and final
concentrations as C1 = 70 kg/m3 and C2 = 22 kg/m3
, respectively.
(b) Estimate the coefficient of viscosity of blood
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