4: Water Vapor

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Alison Nugent and Shintaro Russell

Learning Objectives

By the end of this chapter, you should be able to:

Compute saturation vapor pressure using the Clausius-Clapeyron equation;
Convert between humidity variables. Differentiate between relative humidity, specific humidity, absolute humidity, wet-bulb temperature, mixing ratio, and dew point;
Describe the conditions for saturation to occur;
Apply the moist adiabatic lapse rate;
Use the principles of phase change and latent heating to describe why the moist adiabatic lapse rate is less than the dry adiabatic lapse rate.

4.1: Introduction
This page explains the different states of water (solid, liquid, gas) under Earth's conditions. It discusses evaporation and condensation, highlighting their energy requirements and roles in cloud formation. The page also covers clouds' composition and introduces important concepts like humidity, relative humidity, and dew point temperature, which are essential for understanding atmospheric conditions.
4.2: Saturation
This page explains saturation in evaporation and condensation within a closed jar, emphasizing that it occurs when both rates are equal, influenced by temperature. It introduces vapor pressure, particularly saturation vapor pressure, and its relationship with temperature as per the Clausius-Clapeyron equation. Higher temperatures enable more water vapor, and boiling happens when saturation vapor pressure equals atmospheric pressure, exemplified by water boiling at 100 °C at sea level.
4.3: Humidity Variables
This page provides an overview of humidity definitions and measurements, including vapor pressure, mixing ratio, specific humidity, absolute humidity, relative humidity, dew point temperature, and wet-bulb temperature. It includes key formulas for calculating these variables and their units, highlighting the relationships between them, such as vapor pressure and relative humidity, as well as the significance of wet-bulb temperature in assessing air moisture content.
4.4: Why Do We Care So Much About Moisture?
This page discusses the importance of moisture in the atmosphere, its effect on weather and stability, and the phases of water. It explains the lifting condensation level (LCL) for cloud formation and contrasts the moist adiabatic lapse rate with the dry rate, highlighting the role of latent heat. These concepts are vital for understanding atmospheric dynamics.

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