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Understanding the Relationship Between Temperature, Vapor Pressure, and Relative Humidity
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This document explores the principles governing the interaction between temperature, saturation vapor pressure, and relative humidity (RH). As temperature increases, the saturation vapor pressure also rises, leading to a decrease in RH. Conversely, when temperature decreases, saturation vapor pressure falls, resulting in an increase in RH. Figures 4-4, 4-5, and 4-6 illustrate these concepts, providing a visual representation of how these factors interrelate, which is crucial for understanding atmospheric conditions.
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Understanding the Relationship Between Temperature, Vapor Pressure, and Relative Humidity
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H2O other gases O2 N2
Temperature decreases Sat. vap. press. decreases RH increases Fig. 4-6, p.82 Fig. 4-5, p.81
Temperature increases Sat. vap. press. increases RH decreases Fig. 4-6, p.82 Fig. 4-5, p.81
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