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The Earth as a Planet of Change: Introduction to Physical Geography By Mr. Friedel TEKS: WG.3(A-C), WG.4(A-C). 2013
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The Earth
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Part 1: Earth-Sun Relationship Objective (WG.3A): Explain weather conditions and climate in relation to annual changes in Earth-Sun relationships. We will explain how the earth sun-sun relationship affects climate and seasons I will complete the earth-sun relationship graphic organizer for notes
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Earth is the third planet from the Sun, and the densest and fifth-largest of the eight planets in the Solar System. It is also the largest of the Solar System's four terrestrial planets. Radius: 3,959 miles (6,371 km) Age: 4.54 billion years Distance from Sun: 92,960,000 miles (149,600,000 km) Mass: 5.972E24 kg Population: 6.974 billion (2011) World Bank Moon: Moon
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The Earth’s Tilt KEY VOCABULARY WORDS Tilt: the angle of incline of the Earth’s axis affects the temperature of a place. Revolution: the Earth’s trip around the sun (one year) Rotation: the Earth completely rotates on its axis every 24 hours. (alternating between night and day)
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5 Major Circles of Latitude
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Latitude and Longitude
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Greenhouse Effect Natural way for Earth to retain its warmth and for plants and animals to survive. The planet Venus is the hottest planet in the Solar System and is covered in a dense atmosphere that retains the heat
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Key Vocabulary/Concepts Rotation Revolution Position in Solar System Solstice Equinox Seasons Latitudinal Location
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Part 2: The Four Spheres of the Earth System
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Objective (WG.4C) Examine the physical processes that affect the lithosphere, atmosphere, hydrosphere, and biosphere. We will examine the physical processes that affect the Earth’s four spheres. I will complete a graphic organizer of the Earth system.
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The Earth’s Layers
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The Earth’s Four Spheres The area near the surface of the earth can be divided up into four inter-connected "geo-spheres:" Lithosphere Hydrosphere Biosphere Atmosphere The names of the four spheres are derived from the Greek words for stone (litho), air (atmo), water (hydro), and life (bio).
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The Lithosphere Lithosphere: The lithosphere is the solid, rocky crust covering entire planet. This crust is inorganic and is composed of minerals It covers the entire surface of the earth from the top of Mount Everest to the bottom of the ocean.
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About 70% of the earth’s surface is covered with water 97% percent of the water on the earth is salt water. Salt water is filled with salt and other minerals, and humans cannot drink this – Although the salt can be removed through desalinization, it is a difficult and expensive process 2% of the water on earth is glacier ice at the North and South Poles. – This ice is fresh water and could be melted; however, it is too far away from where people live to be usable. Less than 1% of all the water on earth is fresh water that we can actually use. – We use this small amount of water for drinking, transportation, heating and cooling, industry, and many other purposes. The Hydrosphere
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The Atmosphere The atmosphere is the body of air which surrounds our planet Most of our atmosphere is located close to the earth's surface where it is most dense The air of our planet is 79% nitrogen and just under 21% oxygen; the small amount remaining is composed of carbon dioxide and other gasses.
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Layers of the Atmosphere
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The Bisophere The biosphere is composed of all living organisms Plants, animals, and one-celled organisms are all part of the biosphere Most of the planet's life is found from three meters below the ground to thirty meters above it and in the top 200 meters of the oceans and seas
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The distribution of life on earth
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How many of the Earth’s spheres can you see in this picture?
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Key Vocabulary/Concepts Atmosphere Bisophere Hydrosphere Lithosphere Desalinization How much of the Earth’s surface is covered in water? How much of the Earth’s water can we drink?
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Part 3: Weather and Climate
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Objective (WG.4A): Explain how elevation, latitude, wind systems, ocean currents, position on a continent, and mountain barriers influence temperature, precipitation, and distribution of climate regions. We will explain how physical geographic factors influence climate I will complete a climagraph
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Climate Vs. Weather Climate: The average temperature and precipitation in an area over a long period of time. Weather: Current temperature & precipitation in an area (Short period of time).
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Factors that Influence Climate Regions Factors that affect climate regions – Latitude – Landforms – Ocean (Currents: warm and cold, proximity) – Wind (Prevailing) – Continental Position – Elevation Remember LLOWCE
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Important Lines of Latitude 66° N 23 1/2 ° N 0 ° 23 1/2 ° S 66° S Arctic Circle Tropic of Cancer Equator Tropic of Capricorn Antarctic Circle
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Latitude, latitude, latitude Latitude: The most influential factor that affects climate type There are three latitude zones: – Low Latitude- between 23 ½° N and 23 ½ ° S – Mid Latitude- between 23 ½ °N and 66 ° N AND 23 ½ ° S and 66 ° S – High Latitude- Poles; above 66 ° N AND below 66 ° S
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Low Latitude Climates Latitude Range World LocationVegetationSeasons Tropical Rainforest 10° S to 25 ° NAmazon basin, equatorial Africa, East Indies, from Sumatra to New Guinea A canopy of tall trees with layers of shorter trees and plants underneath Heavy rainfall in all months, no difference in seasons Tropical Grasslands 15° to 25° N and SIndia, Southeast Asia, West Africa, southern Africa, South America, north coast of Australia Grasses, short trees (Ex. Savanna in Africa) Warm year round, wet and dry seasons Desert 18° to 28° N and S, centered on Tropics of Cancer and Capricorn Western North America (southwest U.S.) southwest South America (Chili) north central Mexico, north Africa, southwest Africa, central Australia, north Asia (China, Mongolia) Scattered vegetation; short grasses and shrubs, cacti Warm or cold, little to no precipitation year round ©2012, TESCCC
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Mid-Latitude Climates Latitude Range World LocationVegetationSeasons/ Rainfall Grasslands Central areas of continents between 35° and 50° N Western North America (Great Plains); Central South America, Central Africa (Sahel) (Patagonia) Eurasian interior (Kazakhstan) Grassland, few trees Steppe: Central Asia Llanos: Central South America Prairie: (North America) Savanna (Africa) Low precipitation year round, hot summers, cold winters Humid subtropical Southeast coast of continents between 20° and 40° N and S Southeastern North America, Southeastern Asia, Southeastern Australia Coniferous/Deciduous (mixed) Forests and grassland Warm, humid summer, and mild winters precipitation year round Mediterranean 30° to 50° N and S The Mediterranean basin, west coasts of California, central Chile, South Africa, western/southern Australia Shrubs, grasses, and mixed trees (Chaparral) Long, hot, dry summers, and mild, rainy winters ©2012, TESCCC
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Mid-Latitude Climates Latitude Range World LocationVegetationSeasons/ Rainfall Humid Continental 30 to 55 N and S, to 60 N in Europe North central North America; north central Asia (China); Korea; Japan; central and eastern Europe Mixed coniferous and deciduous forest Warm summer cold winters, moderate rainfall throughout the year Marine-West Coast 30 to 60 N and S West coast of N. America, west coast of southern Chile, and northwestern Europe Mixed coniferous and deciduous forests Cool summers, mild winters, high rainfall year round ©2012, TESCCC
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High Latitude Climates Latitude RangeWorld LocationVegetationSeasons/ Rainfall Subarctic 50° to 60° NNorthern North America and Eurasia Coniferous forests - taigaExtremely cold winter, short, cool summer Arctic 60° to 70° NNorthern North America and Eurasia Short grasses, mosses, lichens, tundra Extremely cold and dry all year ©2012, TESCCC
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Taiga is a biome characterized by coniferous forests consisting mostly of pines, spruces and larches. It is the world’s largest biome
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Other Climates Latitude Range World LocationVegetationSeasons/Rainfall Highland Found all over the world Mountain Ranges: Himalayas, Andes, Rockies, Alps, etc. Varies with elevation and location on mountain. Leeward side is drier with less vegetation. Windward side receives the most rainfall while leeward side remains dry. ©2012, TESCCC
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Distribution of Earth’s Major Climates
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Landforms Landforms affect the status of climates by interceding to the natural flow of weather systems in a particular area. Some of the major effects of landforms to climate are orographic lifting, the rainshadow effect, creation of landform breezes that affects temperatures and wind funnels.
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Orographic Effect
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What is going on here?
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Microclimate
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Ocean’s Impact on Climate Water heats and cools slower than does land Milder climates near large bodies of water More extreme climates away from large bodies of water (continental climate)
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Ocean Currents Humboldt Current
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Shifts in Climate: El Niño and La Niña El Niño: is a band of anomalously warm ocean water temperatures that occasionally develops off the western coast of South America and can cause climatic changes across the Pacific Ocean. El Nino's typical winter impacts: Above-average precipitation from Southern California to Texas and Florida. Drier-than-average in the Ohio and Tennessee Valleys. La Niña: the sea surface temperature across the equatorial Eastern Central Pacific Ocean will be lower than normal by 3–5 °C. La Nina's typical winter impacts: Drier-than-average from Arizona to Texas the Gulf Coast and Florida. Above-average precipitation in the Pacific Northwest and Ohio Valley.
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Wind Currents Doldrums
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Wind Currents Wind: Air moving across a pressure gradient
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Impact of Global Wind Currents on Biosphere
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Coriolis Effect http://www.youtube.com/watch?v=aeY9tY9vKgs
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The Coriolis Effect The Coriolis effect is the apparent deflection of objects (such as airplanes, wind, missiles, and ocean currents) moving in a straight path relative to the earth's surface Its strength is proportional to the speed of the earth's rotation at different latitudes but it has an impact on moving objects across the globe.
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The Coriolis Effect: Hurricanes and Cycles
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Hurricane Katrina
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Continental Location Impacts Climate
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Elevation Impacts Climate
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Climagraph
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Key Vocabulary/Concepts Weather Climate Factors that Impact Climate – Latitude (most important) – Landforms – Ocean (Currents: warm and cold, proximity) – Wind (Prevailing) – Continental Position – Elevation Orographic Effect El Niño and La Niña Climagraph Coriolis Effect
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Part 4: Earth’s Landforms
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Objective (WG.4B): Explain landforms and the physical processes that cause their development. We will explain landforms and the physical processes that cause their development. I will complete the earth-sun relationship graphic organizer for notes
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Earth’s Landforms
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The Earth’s Layers
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Plate Tectonics Geologists have an explanation—a scientific theory—of how the Earth's surface behaves called plate tectonics Tectonics means large-scale structure. So "plate tectonics" says that the large-scale structure of the Earth's outer shell is a set of plates Plates move with respect to each other in three ways: – they move together (converge) – they move apart (diverge) – they move past each other (transform).
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The Plates Fit Together
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The Earth’s Plates
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Forces that Cause Tectonic Movement Slab pull Ridge Push Convection
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Plate Tectonics
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Transform (San Andreas Fault) Diverging (Mid-Oceanic Ridge, Great Rift Valley) Converging (Two Types) – Same type of plates colliding (example: continental to continental which creates folded mountains like the Himalayas) – Different types of plates colliding (example: ocean to continental causing subduction zone, coastal ranges like the Andes Mountains, etc.)
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Plate Tectonics An earthquake is the result of a sudden release of energy in the Earth's crust that creates seismic waves A tsunami is a series of water waves caused by the displacement of a large volume of a body of water (usually from an earthquake or volcano) A Volcano is an opening, or rupture, in a planet's surface or crust, which allows hot magma, volcanic ash and gases to escape from the magma chamber below
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Tsunami in Japan, 2011
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Processes that Formed Different Landforms
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Weathering Weathering: Weathering is the breaking down of rocks, soils and minerals as well as artificial materials through contact with the Earth's atmosphere, biota and waters Erosion is the process by which soil and rock are removed from the Earth's surface by processes such as wind or water flow, and then transported and deposited in other locations.transporteddeposited
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How did this u-shaped valley happen?
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River Deltas
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Plateau: an area of relatively level high ground
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Key Vocabulary/Concepts Plate Tectonics – Diverging – Converging (two types) – Transform Earthquakes Weathering Erosion River Delta Ring of Fire
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