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Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
Minerals
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Minerals
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Minerals

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  • 1. Minerals Nature’s Beautiful Creation
  • 2. Mineral
    • A naturally occurring, inorganic solid with definite composition and an orderly arrangement of atoms
    • There are about 4,000 different minerals found on Earth
  • 3. Mineral Characteristics
    • All minerals are formed by a natural process
    • Minerals are inorganic
    • Every mineral is an element or compound with a definite chemical composition
    • Minerals are crystalline solids ( crystalline means that atoms are arranged in a pattern that is repeated over and over again)
  • 4. The Structure of Minerals
    • A crystal is a solid in which the atoms are arranged in orderly, repeating patterns.
  • 5. Crystal Systems
    • A crystal’s shape depends on how its atoms are arranged.
    • Crystal shapes can be organized into groups known as crystal systems
  • 6. Cubic
    • Minerals are equal in size along all three principal dimensions.
  • 7. Fluorite
  • 8. Hexagonal
    • Horizontal distances between the opposite crystal surfaces are equal. These crystal surfaces intersect to form 60 ° or 120° angles.
    • The vertical length is longer or shorter than the horizontal lengths.
  • 9. Aragonite
  • 10. Tetragonal
    • Tetragonal crystals are much like cubic, except that one of the principal dimensions is longer or shorter than the other two dimensions.
  • 11. Zircon
  • 12. Orthorhombic
    • Have dimensions that are unequal in length, resulting in crystals with a brick-like shape.
  • 13. Barite
  • 14. Monoclinic
    • Exhibit unequal dimensions in their crystal structure.
    • Only one right angle forms where crystal surfaces meet. The other angles are oblique.
  • 15. Orthoclase
  • 16. Triclinic
    • Minerals exhibiting the least symmetry.
    • They are unequal in all dimensions.
    • All angles where crystal surfaces meet are oblique.
  • 17. Rhodonite
  • 18. Crystal Formations
  • 19. Crystals from Magma
    • As magma cools, its atoms lose heat energy, move closer together, and begin to combine into compounds. During the process, atoms of different compounds arrange themselves into orderly, repeating patterns.
    • The type and amount of elements present in a magma partly determine which minerals will form.
    • The size of the crystals that form depends partly on how rapidly the magma cools.
  • 20. Crystals from Solution
    • When water evaporates, as in a dry climate, ions that are left behind can come together to form crystals like halite.
    • If too much of a substance is dissolved in water, ions can come together and crystals of that substance can begin to form in a solution.
  • 21. Halite
  • 22. Mineral Compositions and Groups
    • Ninety elements occur naturally in Earth’s crust.
    • Approximately 98% of the crust is made of only 8 of these elements (O, Si, Al, Fe, Ca, Na, K, Mg)
  • 23. Silicates
    • A group where most of the common rock-forming minerals belong
    • Minerals that contain Silicon and Oxygen
    • Si and O are the two most abundant elements in Earth’s crust.
  • 24. Feldspar
  • 25. Quartz
  • 26. Carbonate
    • Calcite
  • 27. Mineral Identification
  • 28. Physical Properties
    • Mineral Appearance
    • Color and appearance are the two obvious clues that can be used to identify minerals.
    • Hardness
    • A measure of how easily a mineral can be scratched.
  • 29. Mohs Scale
    • In 1824, the Austrian scientist Friedrich Mohs developed a list of minerals to compare their hardness.
    • Hardness of common objects:
    • Fingernail – 2.5
    • Piece of copper – 2.5 to 3
    • Iron nail – 4.5
    • Steel file – 6.5
    • Streak plate – 7.0
  • 30. Talc – 1 (softest)
  • 31. Gypsum – 2
  • 32. Calcite – 3
  • 33. Fluorite – 4
  • 34. Apatite – 5
  • 35. Feldspar – 6
  • 36. Quartz – 7
  • 37. Topaz – 8
  • 38. Corundum – 9
  • 39. Diamond – 10 (Hardest)
  • 40.
    • Luster
    • The way mineral reflects light.
    • a. Metallic Luster – can be compared to the luster of a belt buckle or the shine to metallic cooking utensils.
    • b. Nonmetallic Luster – included terms are dull, pearly, silky, and glassy (quartz, calcite, halite, and fluorite).
    • Specific Gravity
    • The ratio of a mineral’s weight compared with the weight of an equal volume of water
  • 41.
    • Streak
    • The color of a mineral when it is in a powdered form.
    • Cleavage and Fracture
    • Minerals that break along smooth, flat surfaces have cleavage (mica).
    • Minerals that break with uneven, rough, or jagged surfaces have fracture (quartz).
  • 42. Other Properties
    • Attraction to magnets
    • Transparency
    • Reaction to acid

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