1. Chapter 15: Atmosphere Section 3: Air movement Study Guide

2. Forming Wind Uneven heating of Earth’s surface causes some areas to be warmer than others. Uneven heating of Earth’s surface causes some areas to be warmer than others. Warm air expands and becomes lower in density than colder air, so that air pressure is lower where the air is heated. Warm air expands and becomes lower in density than colder air, so that air pressure is lower where the air is heated. Wind is the movement of air from an area of high pressure to low pressure. Wind is the movement of air from an area of high pressure to low pressure. The equator receives more radiation than areas to the north or south. The equator receives more radiation than areas to the north or south.

4. Forming Wind The heated air at the equator is less dense, so it is displaced by denser colder air, which creates convection currents. The heated air at the equator is less dense, so it is displaced by denser colder air, which creates convection currents. This cold, denser air, comes from the poles, that receives less radiation from the sun. This cold, denser air, comes from the poles, that receives less radiation from the sun. The Coriolis Effect turns air and water to the right in the northern hemisphere and to the left south of the equator. The Coriolis Effect turns air and water to the right in the northern hemisphere and to the left south of the equator. The flow of air caused by differences in the amount of solar radiation received on Earth’s surface and by the Coliolis effect creates wind patterns of Earth’s surface. The flow of air caused by differences in the amount of solar radiation received on Earth’s surface and by the Coliolis effect creates wind patterns of Earth’s surface. Wind systems influence weather and determine when and where ships and planes travel most effectively. Wind systems influence weather and determine when and where ships and planes travel most effectively.

6. Global Winds Early sailors discovered that the wind patterns on Earth helped them navigate the oceans. Early sailors discovered that the wind patterns on Earth helped them navigate the oceans. The doldrums are found near the equator. In this windless, rainy zone, the Sun heats the air and causes it to rise, creating low pressure and little wind. The rising air then cools and causes rain. The doldrums are found near the equator. In this windless, rainy zone, the Sun heats the air and causes it to rise, creating low pressure and little wind. The rising air then cools and causes rain.

7. Surface Winds The trade winds are found between 30 north and south latitude. These are steady winds that blow in tropical regions. Early sailors depended on these winds to establish trade routes. The trade winds are found between 30 north and south latitude. These are steady winds that blow in tropical regions. Early sailors depended on these winds to establish trade routes. The prevailing westerlies blow in the opposite directions from the trade winds. They are found between 30 and 60 latitude, and are responsible for much of the weather movement across north America. The prevailing westerlies blow in the opposite directions from the trade winds. They are found between 30 and 60 latitude, and are responsible for much of the weather movement across north America. Polar easterlies are found near the poles. At the north pole easterlies blow from the northeast to the southwest. At the south pole, easterlies blow from the southeast to the northwest. Polar easterlies are found near the poles. At the north pole easterlies blow from the northeast to the southwest. At the south pole, easterlies blow from the southeast to the northwest.

9. Winds in the Upper Atmosphere Narrow belts of strong winds, called Jet streams, blow near the top of the troposphere. Narrow belts of strong winds, called Jet streams, blow near the top of the troposphere. The polar jet stream forms at the boundary of cold, dry polar air from the north, and warm, moist air from the south. The polar jet stream forms at the boundary of cold, dry polar air from the north, and warm, moist air from the south. The jest stream moves faster in the winter because of differences between cold air and warm air is greater. The jest stream moves faster in the winter because of differences between cold air and warm air is greater. The jet stream helps storms and planes move across the country. The jet stream helps storms and planes move across the country.

11. Sea and Land Breezes. Global wind systems determine the major weather patterns for the entire planet. Global wind systems determine the major weather patterns for the entire planet. Smaller wind systems like those near bodies of water, affect local weather. Smaller wind systems like those near bodies of water, affect local weather. Convection currents over areas where the land meets the sea can cause wind. Convection currents over areas where the land meets the sea can cause wind. A sea breeze forms during the day, when cool air from the water moves over the land. A sea breeze forms during the day, when cool air from the water moves over the land.

12. Sea and Land Breeze Air over the land is heated by conduction Air over the land is heated by conduction The heated air is less dense and has lower pressure. The heated air is less dense and has lower pressure. The cooler, denser, air over the water has higher pressure and flows toward the warmer, less dense air over land. The cooler, denser, air over the water has higher pressure and flows toward the warmer, less dense air over land. A land breeze forms at night, when cool air over the land moves toward the warmer air over the water. A land breeze forms at night, when cool air over the land moves toward the warmer air over the water. Air over the land becomes much cooler than air over the ocean. Air over the land becomes much cooler than air over the ocean. The cooler, denser air over land moves over the water, as the warm air over the ocean rises. The cooler, denser air over land moves over the water, as the warm air over the ocean rises.