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Transcript
Warm-Up • What are the five characteristics that make a mineral a mineral? • List 6 ways you can identify a mineral by physical properties? • How do igneous rocks form? What are the two classifications of igneous rocks? • How can you differentiate between the two igneous rocks? Give three specific examples The Rock Cycle Movie • https://www.youtube.com/watch?v=CvDw07i YaJQ • Write 5 Facts • Complete video assessment at the end What are the differences? Similarities? Igneous Rock Metamorphic Rock Earth’s 5 Structures lithosphere asthenosphere mantle outer core inner core This slide show is intended to help you understand important types of rocks. The diagram in the next slide represents the ROCK CYCLE—a scheme that represents the processes of continuous changes that connect the three major groups of rocks: SEDIMENTARY IGNEOUS METAMORPHIC It also shows two other important parts of the “Rock Cycle” – SEDIMENTS and molten LAVA and MAGMA Here is another version of the Rock Cycle Warm-Up • Define the 3 rock types: igneous, sedimentary, metamorphic Igneous Rocks Are Separated into Two Main Categories EXTRUSIVE INTRUSIVE Igneous Rocks • Igneous rocks are rocks that are formed from the crystallization of magma. Heat and melting Magma Cooling and crystallization Igneous Rocks Sedimentary Rocks Sedimentary rocks may be made of rock fragments—sediments— or by chemical reactions. The classification of sediments is shown below. Metamorphic Rocks • Are rocks formed from an increase in pressure and temperature deep within the lithosphere. Clastic rocks–made of cemented sediments—are classified by their grain sizes. Non-clastic rocks form by chemical precipitation (settling out from a solution.) Limestone is made from calcite, chert from quartz, and halite is rock salt. Biologic sedimentary rocks come from the remains of organic matter. • The most important of these is coal. Anthracite coal results from the greatest pressure and releases the most energy when burned. Other varieties are bituminous and lignite. “Petrified” (permineralized) wood is another organic rock. More about sedimentary rocks • Shale is the most common sedimentary rock • Sedimentary rocks cover about threequarters of the land surface Sedimentary Rocks • Rocks formed from lithification. lithification • transformation of sediments into rock through compaction and cementation Compaction the process in which pressure squeezed air and water out and pushes fragments together pressure comes from rock layers above Cementation the process in which water and minerals combine to from cement that holds sediment together. Three Types of Sedimentary Rocks • Clastic Sedimentary Rocks • Evaporites Sedimentary Rocks • Organic Sedimentary Rocks organic - once living Chemical Sedimentary Rocks • Formed from minerals that were once dissolved in water Evaporites • Formed when a change in temperature caused water to be evaporated • Examples: Gypsum and Halite GYPSUM HALITE Organic Sedimentary Rock • formed from the remains of living things FOSSILIFOROUS LIMESTONE Metamorphic Rocks • Are rocks formed from an increase in pressure and temperature deep within the lithosphere. How are metamorphic rocks classified? Metamorphic rocks are classified by how they are formed. Three Types of Metamorphic Rocks • Contact Metamorphism – occurs when molten rocks, such as those in an igneous intrusion, come in contact with solid rock Regional Metamorphism • are produced when high temperature and pressure affect large regions of Earth’s crust. • the grade of regional metamorphism reflects the intensity of temperature and pressure • classified as low grade, intermediate grade, and high grade. Metamorphic Rocks Are Classified By Their Texture MARBLE IS NONFOLIATED GNIESS IS FOLIATED Nonfoliated • composed mainly of minerals that form with blocky crystal shapes. – Quartzite and marble are two common examples of nonfoliated rocks. Foliated • metamorphic rocks are characterized by bands of minerals • high pressure during metamorphism causes minerals with flat or needlelike crystals to form with their long axes perpendicular to the pressure Chemical Change • When hot fluids, water or magma, migrate in and out of the rock during metamorphism the original composition of the rock can change. • Minerals melt into a liquid state then recombine with other elements to create new minerals. Mineral Changes • During metamorphism, the minerals in a rock change into new minerals that are stable under the new temperature and pressure conditions. Locations, types, and ages of the bedrocks are represented in a geologic map http://www.state.nj.us/dep/njgs/
