1. Lesson 1 Earth’s Atmosphere Lesson 2 Energy Transfer in the Atmosphere
Chapter Introduction
Lesson 1 Earth’s Atmosphere
Lesson 2 Energy Transfer in the Atmosphere
Lesson 3 Air Currents
Lesson 4 Air Quality
Chapter Wrap-Up
Chapter Menu

2. Lesson 3 Reading Guide - KC
Air Currents
How does uneven heating of Earth’s surface result in air movement?
How are air currents on Earth affected by Earth’s spin?
What are the main wind belts on Earth?
Lesson 3 Reading Guide - KC

3. Lesson 3 Reading Guide - Vocab
Air Currents
wind
trade winds
westerlies
polar easterlies
jet stream
sea breeze
land breeze
Lesson 3 Reading Guide - Vocab

4. Global Winds Wind patterns can be global or local.
There are great wind belts that circle the globe, and the energy that causes this massive movement of air originates at the Sun.
Not all areas of Earth receive the same amount of energy from the Sun.
Lesson 3-1

5. Global Winds (cont.)
The differences in pressure between areas with low temperatures and high temperatures create wind.
Wind is the movement of air from areas of high pressure to areas of low pressure.
Lesson 3-1

6. Global Winds (cont.)
How does uneven heating of Earth’s surface result in air movement?
Lesson 3-1

7. Global Wind Belts
Three cells in each hemisphere move air through the atmosphere.
Lesson 3-2

8. Global Wind Belts (cont.)
In the first cell, hot air at the equator moves to the top of the troposphere then moves toward the poles until it cools and moves back to Earth’s surface near the 30° latitude.
Lesson 3-2

9. Global Wind Belts (cont.)
The second cell, between 30° and 60° latitude, is not a convection cell because its motion is driven by the other two cells.
Lesson 3-2

10. Global Wind Belts (cont.)
The third cell, at the highest latitudes, is also a convection cell. Air from the poles moves toward the equator along Earth’s surface, and warmer air is pushed upward by the cooler air near the 60° latitude.
Lesson 3-2

11. Global Wind Belts (cont.)
The three cells exist in both the Northern and Southern Hemispheres.
Most of the air in this convection cell returns to the equator near Earth’s surface.
Lesson 3-2

12. Global Wind Belts (cont.)
The Coriolis effect occurs when the rotation of Earth causes moving air and water to move to the right in the Northern Hemisphere and to the left in the Southern Hemisphere.
The contrast between high and low pressure and the Coriolis effect creates distinct wind patterns, called prevailing winds.
Lesson 3-2

13. Global Wind Belts (cont.)
How are air currents on Earth affected by Earth’s spin?
Lesson 3-2

14. Global Wind Belts (cont.)
The trade winds are steady winds that flow from east to west between 30°N latitude and 30°S latitudes.
The prevailing westerlies are steady winds that flow from west to east between latitudes 30°N and 60°N, and 30°S and 60°S.
Lesson 3-2

15. Global Wind Belts (cont.)
The polar easterlies are cold winds that blow from the east to the west near the North Pole and the South Pole.
What are the main wind belts on Earth?
Lesson 3-2

16. Global Wind Belts (cont.)
Located near the top of the troposphere is a narrow band of high winds called the jet stream.
Jet streams influence weather as they move cold air from the poles toward the tropics and warm air from the tropics toward the poles.
Lesson 3-2

17. Local Winds
Local winds occur whenever air pressure is different from one location to another.
A sea breeze is wind that blows from the sea to the land due to local temperature and pressure differences.
A land breeze is a wind that blows from the land to the sea due to local temperature and pressure differences.
Lesson 3-3

18. Sea breezes and land breezes are created as part of a large reversible convection current.
Lesson 3-3

19. Wind is created by pressure differences between one location and another.
Prevailing winds in the global wind belts are the trade winds, the westerlies, and the polar easterlies.
Lesson 3 - VS

20. Sea breezes and land breezes are examples of local winds.
Lesson 3 - VS

21. What does the difference in pressure between areas with low temperatures and those with high temperatures create?
A. wind
B. low pressure
C. stability
D. the Coriolis effect
Lesson 3 – LR1

22. A. prevailing westerlies B. jet streams C. polar easterlies
What term refers to steady winds that flow from east to west between 30°N latitude and 30°S latitudes?
A. prevailing westerlies
B. jet streams
C. polar easterlies
D. trade winds
Lesson 3 – LR2

23. C. prevailing westerlies D. polar easterlies
Which type of global winds move cold air from the poles toward the tropics and warm air from the tropics toward the poles?
A. trade winds
B. jet streams
C. prevailing westerlies
D. polar easterlies
Lesson 3 – LR3

24. 6. Warm air sinks and cold air rises.
Do you agree or disagree?
5. Uneven heating in different parts of the atmosphere creates air circulation patterns.
6. Warm air sinks and cold air rises.
Lesson 3 - Now

25. The gases in Earth’s atmosphere help sustain life on Earth and regulate the cycling of thermal energy among Earth’s systems.
The BIG Idea

26. Lesson 3: Air Currents
Uneven heating of Earth’s surface creates pressure differences. Wind is the movement of air from areas of high pressure to areas of low pressure.
Air currents curve to the right or to the left due to the Coriolis effect.
The main wind belts on Earth are the trade winds, the westerlies, and the polar easterlies.
Key Concepts 3