Answer:
1. "Atmospheric humidity is usually measured with a psychrometer and can be described in several ways. The dew-point temperature and the absolute humidity represent the actual moisture in the air, while the relative humidity indicates the degree of saturation at a given temperature."
2. "The dew point is the temperature to which air must be cooled to become saturated with water vapor."
3. "When air has reached the dew-point temperature at a particular pressure, the water vapor in the air is in equilibrium with liquid water, meaning water vapor is condensing at the same rate at which liquid water is evaporating."
4.
"The state or process that occurs when no more of something can be absorbed, combined with, or added. When the dew point equals the air temperature, the air is saturated and the relative humidity is %100.
5. "It is a common misconception that changes in temperature will affect the dewpoint. It is important to remember that dewpoint is independent of the ambient temperature. Only changes in pressure or the actual amount of water vapour present will affect the dewpoint."
6. "When the dew point equals the air temperature, the air is saturated and the relative humidity is %100."
7.
8. "Relative humidity (RH) (expressed as a percent) also measures water vapor, but RELATIVE to the temperature of the air. In other words, it is a measure of the actual amount of water vapor in the air compared to the total amount of vapor that can exist in the air at its current temperature."
9. "The term relative humidity (RH) expresses the relationship between the moisture content of air at a certain temperature and the moisture content of moisture-saturated air at the same temperature. It is given as a percentage from 0 to 100. 100% RH means that the saturation with moisture, the dew point is reached."
10. "The lower the temperature of air the less capacity it has to hold moisture in a vapor state."
11. "Warm air can possess more water vapor (moisture) than cold air, so with the same amount of absolute/specific humidity, air will have a HIGHER relative humidity if the air is cooler, and a LOWER relative humidity if the air is warmer."
Step-by-step explanation:
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