Laboratory Manual For Introductory Geology Marshak Answer Key
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- Laboratory Manual For Introductory Geology Marshak Answer Key Questions
- Laboratory Manual For Introductory Geology Marshak Answer Key 2016
Rom hacking tools pokemon for mac. Adapted by Lyndsay R. How to download pdf in macbook pro. Hauber & Joyce M. McBeth (2018) University of Saskatchewan from Deline B, Harris R & Tefend K. (2015) 'Laboratory Manual for Introductory Geology'.First Edition. Chapter 11 'Metamorphic Rocks' by Karen Tefend, CC BY-SA 4.0. View source.
Metamorphic rocks form by the physical, and sometimes chemical, alteration of a pre-existing rock, whether it is igneous or sedimentary. In some cases, even metamorphic rocks can be altered into a completely different metamorphic rock. Mossberg 500 serial number history. With igneous rocks forming from the melt produced by any rock type and a sedimentary rock forming from the weathered product of any rock type, the alteration of any rock to produce a metamorphic one completes the components of what is known as the rock cycle. Basically, the rocks we encounter today that we classify as either igneous, metamorphic, or sedimentary, could have belonged to a different rock classification in the past, as rocks are recycled throughout geologic time, driven by the motion of the tectonic plates. It is easy to see that increasing the temperature of a rock can produce magma, and that rocks on the surface of the earth can break up into sediment that can ultimately lithify into a sedimentary rock. But how can we alter a solid rock into a new rock, without melting it or making it become sediment?
Laboratory Manual For Introductory Geology Marshak Answer Key Questions
All rocks are formed at certain temperatures and pressures on or more commonly, beneath the earth's surface, and these rocks are the most stable at the conditions under which they form. Therefore, changing the temperature and/or pressure conditions may lead to a different rock, one that changed in order to be stable under new external conditions. This new rock that forms in response to changes in its physical and chemical environment is called a metamorphic rock; metamorphism means to change form, and for rocks this means a recrystallization of minerals under subsolidus conditions (e.g. temperatures too low for melt production). A metamorphic change can also occur if the rock's composition is altered by hot, chemically reactive fluids, causing a change in the mineral content of the rock. Free hindi mp3 songs. To distinguish between the pre-existing rock and the new metamorphic one, the term protolith or parent rock is used to describe the pre-existing rock, and all metamorphic rocks have at least one protolith that has altered during metamorphism. In this chapter you will learn that all metamorphic rocks are identified by the mineral content and texture of the rock; for metamorphic rocks, texture refers to the orientation of the minerals in the rock, although crystal size does convey important information regarding the temperature conditions during metamorphism.
To summarize, metamorphism is the process by which a pre-existing rock (the protolith) is altered by a change in temperature, pressure, or by contact with chemically reactive fluids, or by any combination of these three parameters. The alteration process is a recrystallization event, where the initial rock's minerals (crystals) have changed size, shape, and/or composition in response to these new external conditions. The end result is a new metamorphic rock that has an altered appearance, sometimes strikingly different from what it used to look like before metamorphism occurred. The metamorphic rock you end up with is strongly dependent on the rock you started with before the metamorphic event. Of secondary importance is the agent of metamorphic change: was recrystallization due to increased temperature, pressure, or both, or were chemically reactive fluids involved? We must also consider how high the temperatures and pressures were, as metamorphism can occur in a range of temperature and pressure conditions. However, as mentioned in the preceding paragraph, metamorphism occurs under subsolidus conditions, meaning that elevated temperatures that promote the recrystallization of a rock are not high enough to cause melting.
5.1.1 Learning Outcomes
Laboratory Manual For Introductory Geology Marshak Answer Key 2016
After completing this chapter, you should be able to:
- Correctly identify the metamorphic rocks and their distinguishing features
- Identify foliated metamorphic rocks, and the type of foliation
- Determine the grade of metamorphism based on foliation and possible index minerals
- Recognize metamorphic environments and types of metamorphism
5.1.2 Key Terms
- Chemical replacement
- Contact metamorphism
- Differential pressure
- Foliation
- Gneissic banding
- Hydrothermal metamorphism
- Index mineral
- Lineation
- Metamorphism
- Non-foliated
- Phyllitic foliation
- Protolith
- Recrystallization
- Regional metamorphism
- Schistose foliation
- Slaty cleavage
- Thermal metamorphism
- Thermodynamic metamorphism