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Earth Structures Day 2: Plate Boundaries and Movement
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Goal: ▪ I will be able to differentiate between the types of plate boundaries ▪ I will be able to recognize what a fossil is and how it relates to plate boundaries
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Plate Tectonics ▪ Many years ago… in 1915 a scientist by the name of Alfred Wegener suggested that the continents were moving very slowly! ▪ His theory became known as the continental drift.
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SHOW ME THE EVIDENCE!!! ▪ Wegener said that he knew his theory to be true because of fossils that were found and because of different rock formations. ▪ What is a fossil you ask? ▪ A fossil is a physical remain or trace of a plant or animal that lived long ago. ▪ Usually found in sedimentary rock
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But what about…… ▪ He was unable to explain how the continents moved through the solid crust of the ocean floor. ▪ He also could not explain the forces that move the continents. Thus his theory was REGECTED!
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New discoveries every day!
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1950’s The lithosphere is not one solid shell of rock ▪ Molten rock was rising from the mantle onto the ocean basins. As the rock cooled it hardened and was being added to the earth’s crust! Because of this discovery: ▪ Scientists now believe that the crust is broken up into giant slabs of rock called plates. ▪ These plates seem to “float” on top of the mantle, much like giant ships float on a sea of molten rock.
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Plate Tectonics The idea that giant plates of rock are moving slowly across the Earth’s surface The plates are moving relatively slow: the average speed is about 10 cm or 4 inches a year
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Kinds of plates Oceanic PlatesContinental Plates Consist almost entirely of dense ocean floor material Made up of lighter continental rock “riding” on top of denser rock.
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Plate Interaction ▪ Plates interact at their edges or plate boundaries.
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Converging Boundaries Two plates move toward each other. Eventually the plates will collide. One plate may move under the other one in the process called subduction.
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When will subduction occur? Subduction usually occurs when a continental and oceanic plate converge The dense rock of the oceanic plate slides under the lighter rock of the continental plate.
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Diverging ▪ Two plates move away or diverge from each other. ▪ Molten rock will rise up between the two rocks forming new crust. ▪ This usually happens in the middle of the ocean floor, so it is also called sea- floor spreading.
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Sliding Boundaries ▪ Plates may also slide past each other in opposite directions.
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Moving Plates ▪ Whether converging, diverging or sliding, Earth’s plates never stop moving and changing! ▪ New rock is added to the Earth’s crust in some places, Old rock is “lost” to the mantle in other places. ▪ Moving, separating and merging of the continents has been occurring for billions of years. Some of these changes are constructive and others are destructive.
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Where is your Evidence Mr. Science Man? ▪ Scientists claim that the plates have been moving for about 2 billion years ▪ Their evidence comes from the rocks at the Earth’s surface. ▪ Layers of sedimentary rocks provide clues to changes that were taking place at the time the layers were forming.
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What can these rock layers prove? The layers show the mineral content of the rocks and how the sediment was deposited. The layers may also contain fossils.
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How can studying fossils help prove the plates are moving? ▪ Fossils of similar species were buried on opposite sides of the ocean along the edges of different continents. ▪ Scientists have stated that this must have happened during a time that the continents were joined, like PANGEA! ▪ Over time the continents separated, thus the fossils are on different continents.
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Fossils ▪ Some fossils seem to also be very far from where they were deposited. ▪ Fossils of tropical plants and animals have been found in polar regions. ▪ Fossils of salt water fish have been found far from oceans ▪ Scientists believe that the moving of the plates carried these fossils to their current location.
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