Rock and Mineral Introduction PDF
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This document provides an introduction to minerals and rocks, covering topics like their properties, classification, and formation processes. It details the various characteristics of rocks and minerals, and includes diagrams and images. It serves as an educational resource.
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Examining Minerals and Rocks What is a mineral? A mineral is homogenous, naturally occurring substance formed through geological processes that has a characteristic chemical composition, a highly ordered atomic structure and specific physical properties. Physical...
Examining Minerals and Rocks What is a mineral? A mineral is homogenous, naturally occurring substance formed through geological processes that has a characteristic chemical composition, a highly ordered atomic structure and specific physical properties. Physical properties citrine rose quartz prasiolite milky quartz 1. COLOR agate amethyst jasper smoky quartz Physical properties The color of a mineral when it is powdered is called the streak of the mineral. Physical properties metallic adamantine glassy The luster of a mineral is the way its surface reflects light. dull pearly waxy Hardness-Mohs scale 1 talc 2 gypsum 3 calcite 4 fluorite 5 apatite 6 feldspar 7 quartz 8 topaz 9 corundum 10 diamond Cleavage Cleavage is the way a mineral breaks. one direction two directions three directions mica feldspar calcite Fracture Fracture is breakage that is not flat. The two main kinds of fracture are conchoidal (shell-shaped, as in quartz) and uneven. conchoidal Others… Heft is how heavy a mineral feels in the hand, an informal sense of density. Taste is definitive for halite (rock salt), of course, but a few other evaporite minerals also have distinctive tastes. What is a rock? A rock is a naturally occurring aggregate of minerals and/or other rock fragments Rock classification Igneous Sedimentary Metamorphic Igneous rocks Igneous rocks form when molten rock (magma) cools and solidifies, with or without crystallization,either below the surface as intrusive (plutonic) rocks or on the surface as extrusive (volcanic) rocks. Texture Texture refers to the physical appearance or character of a rock, such as grain size, shape, and arrangement. Igneous rocks that crystallize slowly beneath the Earths surface, typically have visible individual minerals. Extrusive igneous rocks tend to cool much more rapidly, and the minerals grow quicker and can not get as large. They thus have a sugary or fine grained texture. Texture coarse coarse coarse Glassy/fine Mineralogic contents felsic rock, with predominance of quartz, alkali feldspar and/or feldspathoids: the felsic minerals; these rocks (e.g., granite) are usually light colored, and have low density. mafic rock, with predominance of mafic minerals pyroxenes, olivines and calcic plagioclase; these rocks (example, basalt) are usually dark colored, but not always, and have a higher density than felsic rocks. ultramafic rock, with more than 90% of mafic minerals (e.g., dunite) Sedimentary rocks Sedimentary rocks are classified by the source of their sediments, and are produced by one or more processes that follow: Sedimentary rocks Clastic sedimentary rocks are composed of fragments of older rocks that have been deposited and consolidated boulders greater than 25.6 cm cobbles 6.4 to 25.6 cm pebbles 2 mm to 6.4 cm sand 1/16 mm to 2 mm silt 1/256 mm to 1/16 mm clay less than 1/256 mm Sedimentary rocks Chemical sedimentary rocks form when minerals precipitate from a solution, usually sea water. Halite and gypsum are examples of minerals that precipitate from aqueous solutions to form chemical sedimentary rocks. Biochemical sedimentary rocks are composed of accumulations of organic debris. Coal and some limestones are examples of biological sedimentary rocks. Metamorphic rocks Metamorphic rocks are the result of the transformation of a pre-existing rock type, the protolith, in a process called metamorphism, which means "change in form". The protolith is subjected to heat (greater than 150 degrees Celsius) and/or extreme pressure causing profound physical and/or chemical change. The protolith may be sedimentary rock, igneous rock or another older metamorphic rock. Texture - Foliated Foliation refers to flat or wavy planar features (looking like layers) caused by the alignment of platy minerals such as mica. Foliation may also look like alternating bands of light and dark minerals. Texture - Nonfoliated Nonfoliated rocks have interlocking grains with no specific pattern. They are classified based on composition, and this usually depends on the type of rock it originally formed from. Homogeneous quartz characteristic chemical composition Sulphur S characteristic chemical composition Quartz SiO2 characteristic chemical composition Tourmaline (Ca,K,Na)(Al,Fe,Li,Mg,Mn)3 (Al,Cr, Fe,V)6(BO3)3(Si,Al,B)6 O18(OH,F)4 ordered atomic structure nesosilicates sorosilicates SiO4 Si2O7 Chemical classification acid igneous rocks containing a high silica content, greater than 63% SiO2 intermediate igneous rocks containing between 52 - 63% SiO2 basic igneous rocks have low silica 45 - 52% and typically high iron - magnesium content ultrabasic igneous rocks with less than 45% silica.