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OC/GEO103 Lecture 5 Earth Structure What’s inside the Earth? Is there really another world at the center? What is the energy for changing surface features? The Earth System Atmosphere Hydrosphere Atmosphere Hydrosphere Atmosphere Cryosphere Biosphere Hydrosphere Atmosphere Cryosphere Lithosphere Biosphere Hydrosphere Atmosphere Cryosphere Our Dynamic Earth • Earth’s surface is constantly changing • How do we know it’s dynamic?? • Earthquakes (and tsunamis) • Volcanic eruptions • Magnetic Field • Surface Features: – Mountain Ranges; Mid-Ocean Ridges; Deep-Sea Trenches Topography of the Ocean Floor Topography of the Ocean Floor Topography of the Ocean Floor Topography of the Ocean Floor Continents vs Oceans Elevated Continents Elevated Continents Submerged Ocean Basins How Big is the Earth? • Circumference 40,000 km (25,000 miles) • Radius 6,300 km (4,000 miles) • (1 meter = 1/10,000,000 distance from equator to pole) Major Questions: How are the ocean basins formed? How permanent are these features? What is the age of the ocean floor? What’s the age of the continents? Why are the ocean basins deep and the continents high? The Surface of the Earth • 2 levels: – elevated continents – submerged ocean basins • What causes these surface features? • We must know what goes on inside the Earth What’s going on inside the Earth? Early Ideas • Jules Verne “Journey to the Center of the Earth” • Entered in Iceland • Exited in Italy Edgar Rice Burroughs • “Tarzan” • “John Carter of Mars” Earth’s Interior is: • Too hot! -- melted rock (magma) comes from even shallow depths Heat comes from radioactivity (principally K, U and Th in the mantle) • Crushingly high pressure! -- no open spaces! Information about the Earth’s Interior comes from: • Volcanoes • Seismic Waves (“sound images”) • Meteorites Volcanoes • Hawaiian “hotspot” etc • Windows into the Earth • Samples 200km down (e.g., diamonds!) Seismic Waves • Sound energy from earthquakes and large explosions is recorded at seismometers distributed around the globe Meteor Crater (Arizona) Willamette Meteorite • Found 1902, in West Linn • Largest in the U.S.A. • Sold and now resides at the American Museum of Natural History, in NYC Dimensions and Boundaries • Top of Mantle – 10 to 70 km (5 to 30 miles) • Top of Core – 2,900 km (2000 miles) • Center of Earth – 6,300 km (4,000 miles) • Mt. Everest 9 km high. • Mariana Trench 11 km deep. Where does this picture come from? Direct Observations: • Exposures on Surface • Up from 50 km (30 miles) depth • Drilling • To 15 km (10 miles) • Volcanic Material • Up from 200 km (120 miles) depth Indirect Observations: • Magnetic Field => Iron core • Gravity Field • Densities: – Crust: 2 - 3 gm/cm3 – Mantle: 3.3 - 5.8 gm/cm3 – Core: 10.8 gm/cm3 • Earthquake Seismic Waves => Physical state of crust, mantle, core. Interior of Earth by STRENGTH • LITHOSPHERE – – – – rigid outer shell crust and upper mantle (~ 50 to 200 km thick) somewhat brittle, breakable cold (like butter out of fridge) • ASTHENOSPHERE – – – – warmer, plastic layer under lithosphere mantle from ~ 150 to 700 km squishy, plastic warm (like softened butter) • LOWER MANTLE – Solid, but can flow over time! – ~700 to 2900 km • OUTER CORE – liquid • INNER CORE – solid Elevated Continents Submerged Ocean Basins Swimming Pool Earth’s Mantle Continental Crust Earth’s Mantle Types of Crust • Continental Crust Types of Crust • Continental Crust – 20 to 70 km (10 to 30 miles) thick. – Composed of highly evolved rocks, like granite, and metamorphic rocks, squeezed and heated under mountain ranges Continental Crust Earth’s Mantle Oceanic Crust Types of Crust • Continental Crust – 20 to 70 km (10 to 30 miles) thick. • Oceanic Crust Types of Crust • Continental Crust – 20 to 70 km (10 to 30 miles) thick. • Oceanic Crust – 7 km (4 miles) thick. – Composed of basalt (volcanic). Elevated Continents Submerged Ocean Basins Thick, Buoyant Continental Crust Thin, Less-Buoyant Oceanic Crust Thick Continental Crust Floats Higher Thick Continental Crust Floats Higher Thin Oceanic Crust Floats Lower Water Fills in the Low Areas And Hides Features on the Ocean Floor! Water Fills in the Low Areas PLATE BOUNDARIES PLATE TECTONICS • Tectonics: • From the Greek “tecton” • builder • “architect” • The study of large features on Earth’s surface and the processes that formed them. PLATE TECTONICS: • Large features: – continents, mountain ranges – ocean basins • and processes: – earthquakes – volcanic eruptions • due to movement of plates of Earth’s outer shell. All resulting from mantle convection