Transcript Rock Notes
Types of Rocks: 1. Igneous 2. Sedimentary 3. Metamorphic Igneous Rocks •Rocks that forms when magma cools and hardens. •Form by solidification (crystallization) of melted minerals. •At the surface, LAVA hardens to form EXTRUSIVE rocks with tiny (FINE-GRAINED) crystals or GLASSY (no crystal) textures. •Beneath the surface, MAGMA hardens to form INTRUSIVE rocks with easily visible (COARSEGRAINED) crystal texture. 2 groups of Igneous Rock •Intrusive igneous rock – The slow cooling of magma deep below the crust. Slow loss of heat Long time large, well developed crystal grains. •Extrusive igneous rock – The rapid cooling of lava on the earth’s surface. Fast loss of heat Short time Can’t form large crystals Granite Rhyolite Mineral Composition •Felsic: igneous rocks rich in light-colored minerals such as orthoclase and quartz •Mafic: igneous rocks rich in dark-colored ferromagnesian minerals Igneous Examples •Dark-colored, fine- grained, extrusive •Formed where lava erupted onto surface •Most widespread igneous rock Igneous Examples •Natural volcanic glass •Forms when lava cools very quickly •Usually dark, but small pieces may be clear •Fractures along curved (conchoidal) surface •Light colored, frothy (many air spaces) Pumice Obsidian Sedimentary Rocks •Formed from the compaction and cementation of loose, solid particles (aka sediment). •Types of Formation: 1. Lithification of sediment 2. Precipitation from solution 3. Consolidation of organic remains Types of Formation CEMENTATION COMPACTION Lithification Types of Formation Precipitation Sedimentary Rock Groups • CLASTIC: Comprised of cemented sediment • CHEMICAL: Precipitation of minerals from solution • ORGANIC: From the remains of organisms Sedimentary Examples Conglomerate Breccia Rounded Angular Sedimentary Examples Coquina: Type of limestone made up of fossil shells with little or no matrix Fossiliferous Limestone: Contains the remains of ancient plants + animals, known as fossils Metamorphic Rocks • Formed when existing rocks undergo great amounts of heat + pressure. – Minerals recrystallize to form new minerals – Minerals change in size + shape – Minerals may line up in parallel bands * All of this creates a new rock! Controlling Factors of Metamorphism 1. Parent Rock composition 2. Temperature: certain minerals are unstable under specific temperatures 3. Time: the longer it takes for metamorphism to occur, the more change that occurs 4. Pressure: increases as depth into the Earth’s crust increases Types of Metamorphism 1. Contact Metamorphism: magma comes into contact with existing rock heat from the magma can change the structure + mineral makeup of that rock. Types of Metamorphism 1. Regional Metamorphism: occurs over a large area changes that take place at great depth (more than 5km) below ground related to plate tectonics causes a change in texture, structure, or composition of a rock. Regional Metamorphism Metamorphic Rock Groups • Foliated: minerals within the rock arranged in bands or planes a) Banding- alternating bands of light and dark minerals b) Schistocity- minerals have grown parallel planes in rock c) Rock Cleavage- looks like a rock can break into plates HEAT Minerals in random order Foliation Realigned minerals in bands HEAT Foliated Metamorphic Rocks Banding Schistocity Rock Cleavage Identifying Rocks • Observe and ask questions: – What does the rock look like? • Examine the grain of a section. – What is the rock's composition? • Determine what minerals are in it. – Where was the rock found? • Mountain • Stream or river • Volcano • Ocean floor