1. Unit 3 Lesson 1 Minerals
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2. Animal, Vegetable, or Mineral?
Unit 3 Lesson 1 Minerals
Animal, Vegetable, or Mineral?
What do minerals have in common?
Not all minerals are sparkling gems, but they all have certain characteristics in common.
A mineral is a naturally occurring, inorganic solid with a definite crystalline structure and chemical composition.
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3. What do minerals have in common?
Unit 3 Lesson 1 Minerals
What do minerals have in common?
All minerals contain one or more elements, which are pure substances that cannot be broken down into simpler substances by chemical means.
Each element is made up of one kind of atom, the building block of matter.
Stable particles that are made up of strongly bonded atoms are called molecules.
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4. What do minerals have in common?
Unit 3 Lesson 1 Minerals
What do minerals have in common?
A substance made up of molecules of two or more elements is called a compound.
The chemical composition of a mineral is determined by the element or compound that makes up the mineral.
A mineral composed of only one element is called a native element. Copper and silver are two examples.
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5. What do minerals have in common?
Unit 3 Lesson 1 Minerals
What do minerals have in common?
In the mineral quartz, each silicon atom forms a bond with up to four oxygen atoms.
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6. What do minerals have in common?
Unit 3 Lesson 1 Minerals
What do minerals have in common?
Matter is anything that has mass and volume.
Volume refers to the amount of space something takes up.
All minerals are solid, meaning each has a definite volume and shape.
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7. What do minerals have in common?
Unit 3 Lesson 1 Minerals
What do minerals have in common?
All minerals are inorganic, which means they are not produced by living things or from the remains of living things.
All minerals are naturally occurring.
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8. What do minerals have in common?
Unit 3 Lesson 1 Minerals
What do minerals have in common?
All minerals form crystals, which are solid geometric forms produced by a repeating pattern of atoms or molecules.
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9. Crystal Clear! How are minerals formed?
Unit 3 Lesson 1 Minerals
Crystal Clear!
How are minerals formed?
The type of mineral that forms depends on the elements present in the area and the temperature and pressure.
Many minerals form from magma, which is molten rock inside Earth. As magma cools, the atoms join together to form different minerals.
Minerals also form from lava, which is molten rock that has reached Earth’s surface.
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10. How are minerals formed?
Quartz is one of the many minerals that crystalize from magma and lava.

11. How are minerals formed?
Unit 3 Lesson 1 Minerals
How are minerals formed?
Many minerals form by metamorphism.
High temperature and pressure within Earth cause new minerals to form as bonds between atoms break and reform with different atoms.
At high temperature and pressures, the element carbon in rocks forms the mineral diamond or the mineral graphite, which is used in pencils.
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12. How are minerals formed?
Unit 3 Lesson 1 Minerals
How are minerals formed?
Minerals also form from solutions.
Water usually has substances dissolved in it. As it evaporates, these substances form into solids and come out of solution, or precipitate. The mineral gypsum often forms as water evaporates.
As hot water cools, dissolved substances may precipitate out of solution. The mineral dolomite can form this way.
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13. Sort It Out How are minerals classified?
Unit 3 Lesson 1 Minerals
Sort It Out
How are minerals classified?
Minerals are usually classified based on their chemical composition as silicate or nonsilicate minerals.
Most common minerals are silicate minerals, containing a combination of silicon and oxygen. Feldspar and quartz are the most common silicate minerals in Earth’s crust.
Most silicate minerals are formed from silicate tetrahedrons, each made of one silicon atom bonded to four oxygen atoms.
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14. How are minerals classified?

15. Silicate Minerals

16. How are minerals classified?
Unit 3 Lesson 1 Minerals
How are minerals classified?
Nonsilicate minerals are minerals that do not contain the silicate tetrahedron building block.
Some of these minerals are made up of elements such as carbon, oxygen, fluorine, iron, and sulfur.
Groups of nonsilicate minerals include native elements, halides, sulfates, carbonates, oxides, and sulfides.
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18. Name That Mineral! What properties can be used to identify minerals?
Unit 3 Lesson 1 Minerals
Name That Mineral!
What properties can be used to identify minerals?
Color is helpful, but not the best way to identify a mineral.
The color of the powdered form of a mineral is its streak, found by rubbing it against a white tile streak plate.
The way a surface reflects light is called luster. Two major types of luster are metallic and nonmetallic.
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19. What properties can be used to identify minerals?
Unit 3 Lesson 1 Minerals
What properties can be used to identify minerals?
The tendency of a mineral to split along specific planes of weakness to form smooth, flat surfaces is called cleavage.
A mineral with cleavage breaks along flat surfaces that generally run parallel to planes of weakness in the crystal structure.
Minerals that don’t have cleavage will fracture, or break unevenly, along curved or jagged surfaces.
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20. What properties can be used to identify minerals?
Unit 3 Lesson 1 Minerals
What properties can be used to identify minerals?
Density, which is the amount of matter in a given amount of space, can be used to tell many similar-looking minerals apart.
A mineral’s resistance to being scratched is called its hardness. Mineral hardness is compared using the Mohs hardness scale.
A few minerals exhibit special properties such as magnetism.
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22. Made from Minerals Many useful substances come from minerals.
Unit 3 Lesson 1 Minerals
Made from Minerals
Many useful substances come from minerals.
The metal titanium comes from several minerals, including rutile.
Titanium is very valuable because it resists corrosion and is as strong as steel, but is much lighter than steel.
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23. Unit 3 Lesson 1 Minerals
Made from Minerals
Titanium is used for surgical devices because it resists corrosion and has elasticity similar to human bone.
Titanium dissipates heat, making it ideal for exhaust pipes.
Titanium is also valued for its shiny metallic luster, so it has also been used in architectural designs.
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