Chapter 18 Reading Guide

Water in the Atmosphere

18.1: Humidity and Condensation

1. List and describe the three states of water:

SOLID: ice, snow, and hail; temperatures of 0 C or below

LIQUID: rain, cloud droplets, temperatures between 0 C and 100 C

VAPOR: bubbles in boiling water; temperatures of 100 C or higher

2. Write two sentences comparing and contrasting specific and relative humidity; tell how each is measured.

SPECIFIC HUMIDITY: measures the amount of water vapor actually present in water. Measured in grams of water vapor/kg of air.

RELATIVE HUMIDITY: measures how close the air is to saturation. Stated as a percentage (%).

3. The steps in cooling and condensation process:

1. Contact with Colder Surface: causes condensation on that surface

2. Radiation: ground loses heat and cools the air above, leaving droplets of water in the air that take time to fall.

3. Mixing: warm air blows over cold ground, cooling the air and lowering and lowering it below the dew point.

Condensation: change from vapor to liquid when air cools beyond its saturation point.

Condensation Nuclei: tiny particles around which condensation can accumulate.

1, 2, and 3 all lead to condensation (also nuclei).

18.2: Clouds

Complete the organizer with the information about the different types of clouds. Tell whether each forms vertically or horizontally and at what altitude each is found. Describe appearance and weather impact when possible.

Cirrostratus

High altitude; horizontal; thin sheets that may suggest precipitation /

Cirrocumulus

High altitude; vertical; puffy clouds especially in the winter

Altostratus

Middle altitude; horizontal; similar to cirrostratus /

Altocumulus

Middle altitude; vertical; similar to cirrocumulus

Nimbostratus

Low altitude; horizontal; dark gray layers of clouds that produce steady rain /

Stratocumulus

Low altitude; horizontal and vertical

Cumulonimbus/Cumulus

Can span many altitudes; vertical; cumulonimbus produce heavy rain with thunder and lightning.

Tell how one cloud type from the above organizer forms:

Altostratus clouds form as air rises and cools in layers. These layers form when the surrounding air is stable and forces rising air to move horizontally rather than vertically.

Cumulonimbus clouds begin forming when moist air rises and cools to its dew point.

Cumulus clouds form as air in a growing cumulus cloud moves upward because it is buoyant and its temperature is warmer than that of the surrounding air.

Stratus clouds form in stable air. In stable air, air cannot easily move up or down, so it tends to spread out horizontally in layers.

18.3: Precipitation

Complete the chart by describing the formation of each precipitation type. Include information about temperature.

1. Rain / Water droplets that have become big enough to fall to the ground
2. Sleet / Forms when rain falls into a layer of cold air
3. Freezing Rain / Forms when raindrops freeze instantly when they hit a solid surface
4. Hail / Forms when a frozen raindrop or clump of ice crystals is blown back up repeatedly, building up layers of ice before falling to the ground
5. Snow / Forms when ice crystals in a cloud collide and clump together

List and explain the factors that contribute to frequent precipitation in some areas and dryness in other areas.

Precipitation forms in areas where air rises and produces condensation. These areas include places near the equator where the sun’s heat raises land and air temperatures, places with low pressure where storms are common, and places where moist air rises over mountains and cools.

Dryness occurs in places where air sinks and warms. These places include areas of persistent high pressure, areas with extremely cold temperatures, and areas on the leeward side of mountains where dry air sinks.