(Section 1.9) Consider modeling the concentration of a chemical in a lung using the table below. Fill in the missing values and calculate the concentration at time t = 1 if the starting concentration is co= 0.09 mmol/L (millimoles per liter). Suppose the volume of the lung is V = 3.5 liters, the volume of air inhaled and exhaled in each breath is W = 1 liters, and the ambient concentration of the surrounding air is a fixed 0.18 mmol/L. STEP Volume (L) Chemical (mmol) Concentration (mmol/L) Before Exhale 3.5 Exhale After Exhale Inhale 1 1 After Inhale 3.5 The concentration at time t = 1 is: C₁ = 0.09 0.09 0.09 0.18
(Section 1.9) Consider modeling the concentration of a chemical in a lung using the table below. Fill in the missing values and calculate the concentration at time t = 1 if the starting concentration is co= 0.09 mmol/L (millimoles per liter). Suppose the volume of the lung is V = 3.5 liters, the volume of air inhaled and exhaled in each breath is W = 1 liters, and the ambient concentration of the surrounding air is a fixed 0.18 mmol/L. STEP Volume (L) Chemical (mmol) Concentration (mmol/L) Before Exhale 3.5 Exhale After Exhale Inhale 1 1 After Inhale 3.5 The concentration at time t = 1 is: C₁ = 0.09 0.09 0.09 0.18
Advanced Engineering Mathematics
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ISBN:9780470458365
Author:Erwin Kreyszig
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Chapter2: Second-order Linear Odes
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Transcribed Image Text:(Section 1.9) Consider modeling the concentration of a chemical in a lung using the table below.
Fill in the missing values and calculate the concentration at time t = 1 if the starting concentration is co= 0.09 mmol/L (millimoles per liter). Suppose
the volume of the lung is V = 3.5 liters, the volume of air inhaled and exhaled in each breath is W = 1 liters, and the ambient concentration of the
surrounding air is a fixed 0.18 mmol/L.
STEP Volume (L) Chemical (mmol) Concentration (mmol/L)
Before Exhale 3.5
Exhale
After Exhale
Inhale
1
1
After Inhale 3.5
The concentration at time t = 1 is: C₁ =
0.09
0.09
0.09
0.18
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