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Find: ( a ) Assuming that the mass density of blood is essentially constant, what is the relationship between Q 1 and Q 2 during

Find: (a) Assuming that the mass density of blood is essentially constant, what is the
relationship between Q1 and Q2 during steady state operation? (b) Write a steady-state
molar balance for O2 around the control volume. From this, evaluate the volumetric
blood flow. (c) Write a steady-state molar balance for CO2 around the control volume.
What is the uptake relationship of to VCO2toVO2? With these equations, evaluate (hat(C)CO2)2Find: (a) Assuming that the mass density of blood is essentially constant, what is the
relationship between Q1 and Q2 during steady state operation? (b) Write a steady-state
molar balance for O2 around the control volume. From this, evaluate the volumetric
blood flow. (c) Write a steady-state molar balance for CO2 around the control volume.
What is the uptake relationship of to VCO2toVO2? With these equations, evaluate (hat(C)CO2)2hat(C)O2
Find: (a) Assuming that the mass density of blood is essentially constant, what is the
relationship between Q1 and Q2 during steady state operation? (b) Write a steady-state
molar balance for O2 around the control volume. From this, evaluate the volumetric
blood flow. (c) Write a steady-state molar balance for CO2 around the control volume.
What is the uptake relationship of to VCO2toVO2? With these equations, evaluate (hat(C)CO2)2
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