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"Edible Plate Tectonics" Problem: How do the tectonic plates that make up the lithosphere move about on top of the asthenosphere? What geologic features form as a result of these plates moving? Materials: 1 small Milky Way Candy bar Napkin BACKGROUND INFORMATION (Must be read before performing lab!) Plate Tectonics is Geology’s most important theory – it explains so much about our planet! Most volcanoes and earthquakes occur along the boundaries of tectonic plates. This theory also explains how certain surface features such as mountain ranges, ocean trenches, and fault lines formed. The lithosphere, which is made up of the entire crust and the uppermost part of the mantle, is broken into separate pieces that fit together like a puzzle - these are the tectonic plates. These plates move because of convection currents underneath them in the asthenosphere. The mantle material that makes up the asthenosphere is a dense, plastic-like layer of solid rock. The extreme heat and pressure causes this rock to move and flow. The plates that sit on top move as well. The flowing rock in the asthenosphere moves underneath them. The following activity uses a scale model to introduce some of the basic concepts of the Plate Tectonics theory. Procedure: 1. Keep in mind you will be allowed to eat the candy upon completion of the lab. Try to be as sanitary as possible. Wash your hands first and then carefully unwrap the candy bar and place it on the paper towel. Use your fingernail to make a few cracks across the middle portion of its top. The cracked chocolate models the plates of the Earth's lithosphere. 2. Hold the candy bar top facing up, with your left thumb and forefinger holding the sides of one end and your right thumb and forefinger holding the sides of the other end, slowly stretch the candy bar, pulling it apart a few millimeters. DO NOT pull the candy bar completely apart. The chocolate should separate, exposing the caramel. The exposed caramel represents new material that can rise to the Earth's surface. 3. Slowly pushed the candy bar back together again. The chocolate may crumble. “Mountain ranges” may form where pieces of chocolate overlap. Also one chocolate “plate” may slide beneath another chocolate “plate”. This is called subduction. 4. Continue to slowly pull the candy bar apart and push the candy bar back together until you have a good sense of how the chocolate “plates” can be moved by the motion of the caramel “asthenosphere” beneath. 5. Once you have finished, pull the candy completely apart. Look at its exposed interior and think of the candy bar as model of the Earth's layers. The top layer of chocolate represents Earth's brittle lithosphere, broken into plates. The caramel and nougat represent the asthenosphere, where the material is solid yet still able to flow. 6. Answer the questions BEFORE eating you candy bar! Questions need to be answered in your own composition book in complete sentences. "Edible Plate Tectonics” OBSERVATIONS/ RESULTS: 1. Describe the consistency of the candy bar layers (Consistency means level of thickness or smoothness of something) chocolate caramel nougat 2. Compare these layers to the layers of the Earth. Which does each layer represent? Label the drawing with the layers of the earth in your composition book. chocolate caramel nougat 3. Describe what you observed when the candy was pulled apart. What might you expect to see at that point on Earth where two plates are moving? 4. Analyze what you observed when the stretched candy was pushed together. What might you expect to see at a point on Earth where two plates collide? 5. What natural process moves tectonic plates over the surface of the Earth? (use the summary if you need help) 6. Make sure all questions are answered. Enjoy your candy bar and clean up your lab station please.