The alveolar air equation is: PAO2 = FiO2(Pb-47)-(PaCO2/R) where: PAO2 is the partial pressure of oxygen in alveoar gas; FiO2 is the fraction of inspired oxygen (on room air this would be 21%); Pb is the barometric pressure (at sea level this is 760 torr); 47 is the partial pressure of water vapor; PaCO2 is the partial pressure of carbon dioxide in blood; R is the V/Q mismatch, which is 0.8 unless stated otherwise So, if a person is breathing room air at sea level, their PaCO2 is in normal range (let's say 40mmHG, since normal is between 35-45mmHg), and their respiratory rate is 12: PAO2= .21(760-47)-(40/0.8); .21(713)-(50)= 149.73-50=99.73 So the PAO2= 99.73mmHg
It is an equation. It could be an algebraic equation, or a trigonometric equation, a differential equation or whatever, but it is still an equation.
Simply that, an "equation".Simply that, an "equation".Simply that, an "equation".Simply that, an "equation".
you don't answer an equation, you solve an equation
Yes, because PV=nRt From this equation it becomes apparent that air pressure, V, can be negative. Since negative temperatures can exist, such as -30C (remember you have to use Celsius and not Fahrenheit). Thus we have negative numbers for air pressure.
A logarithmic equation would be any equation that includes the log function.
alveolar fluid
it diffuses thru the alveolar cappilary membrane
Alveolar volume is lung capacity. Alveoli are the air sacs in the bronchioles. How much air the lungs hold during both inspiration and expiration is lung capacity which is alveolar volume. Hope this helps
An alveolar dead space is the volume of air in the alveoli of the lungs which does not partake in gas exchange.
PAO2 - PaO2 ****************************************** PAO2 is the Alveolar Air Equation: PAO2 = FiO2 (Pb- Ph20) - PACO2/R Notes: Pb = 760 mmHg Ph20 = 47 mmHg R = 0.8
CO2 is more concentrated in alveolar air compared to expired air because gas exchange occurs in the lungs where oxygen is taken up by the blood and CO2 is released into the alveoli. Additionally, more CO2 is produced in the body through cellular respiration, contributing to its higher concentration in alveolar air.
Hyper inflation of air sacs with destruction of alveolar walls.
filter carbon dioxide from the air you breathe, to be exhaled.
Trap air in lungs (act as air pockets 4 gaseous exchange).
Air filling the alveolar sacs.
Alveolar interstitial cell wall
filter carbon dioxide from the air you breathe, to be exhaled.