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What causes climate

What causes climate. Chapter 4 – Section 1. Weather is day-to-day events. The weather may be cloudy and rainy one day and clear and sunny the next. Weather refers to the condition of the atmosphere at a particular place and time.

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What causes climate

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  1. What causes climate Chapter 4 – Section 1

  2. Weather is day-to-day events. • The weather may be cloudy and rainy one day and clear and sunny the next. • Weather refers to the condition of the atmosphere at a particular place and time. • Climate, on the other hand, refers to the average, year-after-year conditions of temperature, precipitation, winds, and clouds in an area. • Two main factors—temperature and precipitation—determine the climate of a region. • A climate region is a large area with similar climate conditions throughout.

  3. Factors Affecting Temperature • The main factors that influence temperature are latitude, altitude, distance from large bodies of water, and ocean currents. • In general, climates of locations farther from the equator are cooler than climates of areas closer to the equator. • Why is this? • The sun’s rays hit Earth’s surface most directly at the equator. • At the poles, the same amount of solar radiation is spread out over a larger area, and therefore brings less warmth.

  4. The tropical zone is the area near the equator, between about 23.5° north latitude and 23.5° south latitude. • The tropical zone receives direct or nearly direct sunlight all year round, making climates there warm. • Latitude is the distance from the equator, measured in degrees. • Based on latitude, Earth’s surface can be divided into the three temperature zones.

  5. As a result, the areas near both poles have cold climates. • These polar zones extend from about 66.5° to 90° north and 66.5° to 90° south latitudes. • In contrast, the sun’s rays always strike at a lower angle near the North and South poles.

  6. In summer, the sun’s rays strike the temperate zones more directly. • In winter, the sun’s rays strike at a lower angle. • As a result, the weather in the temperate zones ranges from warm or hot in summer to cool or cold in winter. • The temperate zones are between the tropical and the polar zones—from about 23.5° to 66.5° north and 23.5° to 66.5° south latitudes.

  7. Altitude • The temperature of the troposphere decreases about 6.5 Celsius degrees for every 1-kilometer increase in altitude. • As a result, highland areas everywhere have cool climates, no matter what their latitude. • At nearly 6 kilometers, the air at the top of Mount Kilimanjaro is about 39 Celsius degrees colder than the air at sea level at the same latitude. • Altitude is a more important climate factor than latitude.

  8. Distance From Large Bodies of Water • Oceans or large lakes can also affect temperatures. • Oceans greatly moderate, or make less extreme, the temperatures of nearby land. • Water heats up more slowly than land; it also cools down more slowly. • Therefore, winds from the ocean keep coastal regions from reaching extremes of hot and cold. • Much of the west coasts of North America, South America, and Europe have mild marine climates, with relatively warm winters and cool summers.

  9. The centers of North America and Asia are too far inland to be warmed or cooled by the oceans. • Most of Canada and Russia, as well as the central United States, have continental climates. • Continental climates have more extreme temperatures than marine climates. • Winters are cold, while summers are warm or hot.

  10. Ocean Currents • Many marine climates are influenced by ocean currents, streams of water within the oceans that move in regular patterns. • In general, warm ocean currents carry warm water from the tropics toward the poles. • Cold currents bring cold water from the polar zones toward the equator. • The surface of the water warms or cools the air above it. • The warmed or cooled air then moves over the nearby land. • So a warm current brings warm air to the land it touches. • A cold current brings cool air.

  11. Ocean Currents

  12. Factors Affecting Precipitation • The amount of rain and snow that falls in an area each year determines how wet or dry its climate is. • But what determines how much precipitation an area gets? • The main factors that affect precipitation are prevailing winds and the presence of mountains. • Weather patterns depend on the movement of huge air masses. • Air masses are moved from place to place by prevailing winds, the directional winds that usually blow in a region. • Air masses can be warm or cool, dry or humid. • The amount of water vapor in the air mass influences how much rain or snow will fall.

  13. Factors Affecting Precipitation • Warm air can carry more water vapor than cold air can. • When warm air rises and cools, water comes out of the air as precipitation. • For example, surface air near the equator is generally hot and humid. • As the air rises and cools, heavy rains fall, nourishing thick tropical forests. • In contrast, sinking cold air is usually dry. • Because the air becomes warmer as it sinks, it can hold more water vapor. • The water vapor stays in the air and little or no rain falls -- The result may be a desert.

  14. Factors Affecting Precipitation • The amount of water vapor in prevailing winds also depends on where the winds come from. • Winds that blow inland from oceans carry more water vapor than winds that blow from over land. • For example, the Sahara in Africa is near both the Atlantic Ocean and the Mediterranean Sea. • Yet the Sahara is very dry. • This is because few winds blow from the oceans toward this area. • Instead, the prevailing winds are the dry northeast trade winds. • The source of these winds is cool, sinking air from southwest Asia.

  15. Mountain Ranges • A mountain range in the path of prevailing winds can also influence where precipitation falls. • When humid winds blow from the ocean toward coastal mountains, they are forced to rise up to pass over the mountains. • The rising warm air cools and its water vapor condenses, forming clouds. • Rain or snow falls on the windward side of the mountains, the side the oncoming wind hits.

  16. Mountain Ranges • By the time the air reaches the other side of the mountains, it has lost much of its water vapor, so it is cool and dry. • The land on the leeward side of the mountains—downwind—is in a rain shadow.

  17. Microclimates • Have you ever noticed that it is cooler and more humid in a grove of trees than in an open field? • The same factors that affect large climate regions also affect smaller areas. • A small area with specific climate conditions may have its own microclimate. • Inland mountains, lakes, forests, and other natural features can influence climate nearby, resulting in a microclimate.

  18. Microclimates • You might find a microclimate in a downtown area with clusters of tall buildings, or on a windy peninsula jutting out into the ocean. • Even a small park, if it is usually sunnier or windier than nearby areas, may have its own microclimate. • The grass on a lawn can be covered in dew and produce conditions like a rain forest, while the pavement in the parking lot is dry, like a desert.

  19. The Seasons • Although you can describe the average weather conditions of a climate region, these conditions are not constant all year long. • Instead, most places on Earth outside the tropics have four seasons: winter, spring, summer, and autumn. • You might think that Earth is closer to the sun during the summer and farther away during winter. • If this were true, every place on Earth would have summer at the same time. • Actually, when it is summer in the Northern Hemisphere it is winter in the Southern Hemisphere. • So the seasons are not a result of changes in the distance between Earth and the sun.

  20. Tilted Axis • The seasons are caused by the tilt of Earth’s axis as Earth travels around the sun. • The axis is an imaginary line through Earth’s center that passes through both poles. • Earth’s axis is not straight up and down, but is tilted at an angle of 23.5°. • The axis always points in the same direction—toward the North Star. • As Earth travels around the sun, the north end of the axis is pointed away from the sun for part of the year and toward the sun for part of the year.

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