Nitrogen is an inert gas; that is it is not metobolised or produced by the body. In that case, the molar quantity inhaled must equal the molar quantity exhaled over a period of time. We can write this as VI x FI = VE x FE (where VI and VE are the inspired and expired volumes breathed over that time period, and FI and FE are the concentrations of N2 in the inspired and expired gas respectively).
However, the terms VI and VE are not equal because we generally consume more oxygen than we produce CO2 (i.e. our respiratory quotient is not 1), so we exhale a smidgin less gas than we inhale. So if VI does not equal VE, it follows that FI cannot equal FE.
The percentage of expired air is around 74-80% Nitrogen. Because of gas exchange in the lung, expired air is also rich in CO2 and lower in O2 than atmospheric air (which has a 21.8% O2 comp and a .03 - .04% CO2 comp). Thus, the O2 and CO2 values narrow in difference to 14.5-16% and 4-5.5%, respectively.
Both Inspired and expired air have higher amounts of oxygen than Carbon Dioxide. Inspired air has higher amounts of oxygen than expired, while expired air has higher amounts of Carbon Dioxide than inspired air.
Expired means past use or dead. Inspired (inspire) means to be enlivened or filled with exalting emotion.
About 78%
The medical term for the amount of air inspired and expired during normal breathing is tidal volume.
Expired air is breathed out though the nose or mouth, in volume it normally consists of: 78.04% Nitrogen.
Nitrogen is the most abundant gas in the atmosphere ( ~ 80% ) and therefore is the dominant species in both inspired as well as expired air.
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Modern
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.
Tidal Volume
An anapnograph is a variety of spirometer, a device used to measure the volume of air inspired and expired by the lungs.