because water is produced during respiration :)!
To determine if the air in the room is saturated or unsaturated, you would need to measure the humidity level. If the humidity level is at 100%, then the air is saturated. If it is below 100%, then the air is unsaturated.
Vocal cords vibrate with expired air when producing sound during exhalation.
When the air is saturated, the relative humidity is 100%. This means that the air is holding the maximum amount of water vapor it can at that particular temperature and pressure.
If the air is already saturated with water vapor and the temperature increases, the air can hold more moisture. This may result in the relative humidity decreasing because the air is not as saturated as before. If the temperature increase continues, the air may eventually reach a new saturation point at the higher temperature.
The amount of air inspired and expired during a normal quiet breath is called tidal volume.
Expired air is saturated with water vapor because the air we breathe in is warmed and humidified as it passes through the nasal passages and lungs. As a result, when we exhale, the air leaving our bodies contains more moisture than the air we inhale. This excess moisture is what causes expired air to be saturated with water.
Saturated air is air that has all the water vapor that it can hold.
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.
To determine if the air in the room is saturated or unsaturated, you would need to measure the humidity level. If the humidity level is at 100%, then the air is saturated. If it is below 100%, then the air is unsaturated.
Exhaled air is saturated with water vapor because the air we breathe in gets warmed and humidified in our lungs. As we exhale, this moisture-laden air is released, resulting in saturated air.
When a parcel of air is saturated with water vapor the relative humidity of that parcel of air is 100%.
Saturated air is more dense.
100%
more air
It is actually 43.22%. In my openion it is only .03 %
Yes, it is possible to determine if the air is saturated by looking at a Stuve graph. If the temperature and dew point lines are touching on the graph, then the air is saturated. If the lines are not touching, the air is not saturated.
"Saturated" or "At saturation point".