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Minerals
This is not a spider web. It is a fractal; a repeating
geometric design
What is a mineral
• A mineral is a natural, inorganic, crystalline solid• Ask these questions:
– Is it organic? (is it alive or was it once alive)• Coal is made from dead plants and is organic
– Does it occur naturally ?• Steel is man-made and is not a mineral
– Does it have a crystalline form?• Petroleum occurs naturally and is inorganic but is not a solid so
it has no crystalline form and is not a mineral– Does it have a definite chemical composition?
• Mixtures are not minerals; compounds can be minerals
Types of Minerals
• The most common minerals are rock-forming
• All minerals fall into two categories:– Silicate minerals– Non-silicate minerals
Silicate MineralsSilicate Minerals• All silicate minerals contain silicon
(Si) and Oxygen (O) in varying combinations– Quartz contains only Si and O
• Feldspar is the most common silicate mineral– Different types of Feldspar are formed
when other elements (K, Na, Ca, etc) are combined with the Si and O
• Feldspar and quartz make up 50% of the earth’s crust
• Silicate minerals make up 96% of the Earth’s crust
• All silicate minerals contain silicon (Si) and Oxygen (O) in varying combinations– Quartz contains only Si and O
• Feldspar is the most common silicate mineral– Different types of Feldspar are formed
when other elements (K, Na, Ca, etc) are combined with the Si and O
• Feldspar and quartz make up 50% of the earth’s crust
• Silicate minerals make up 96% of the Earth’s crust
Non-silicate MineralsNon-silicate Minerals
• Only 4% of the Earth’s crust• 6 groups:
– Sulfides– Sulfates– Oxides– Halides– Carbonates– Native Elements
• Only 4% of the Earth’s crust• 6 groups:
– Sulfides– Sulfates– Oxides– Halides– Carbonates– Native Elements
Crystalline structureCrystalline structure
• A crystal is a natural solid with a definite shape– A large mineral crystal will display the
characteristic geometry of its crystalline structure
– Crystals have a specific geometry of atoms that repeats (like a trelis)
– If a mineral is allowed to develop unrestricted then it will form one, huge crystal
• A crystal is a natural solid with a definite shape– A large mineral crystal will display the
characteristic geometry of its crystalline structure
– Crystals have a specific geometry of atoms that repeats (like a trelis)
– If a mineral is allowed to develop unrestricted then it will form one, huge crystal
Crystal Shapes
• Draw table 9.3
Mineral identification
• A Mineralogist is a scientist who identifies minerals• Characteristics:
– Color– Luster– Streak– Cleavage/fracture– Hardness– Crystal shape– Density
Color
• This is probably the worst characteristic to classify minerals because it is inconsistent– Some minerals have distinctive colors (Sulfur is yellow,
azurite is blue, serpentine is green)– Many minerals are similar in color– Very small amounts of certain element can greatly affect
the color • Corundum is a colorless mineral made from Aluminum and
Oxygen but with a little bit of chromium it forms a ruby• Sapphire is corundum with traces of cobalt and titanium• Amethyst is quartz that has a purple color because of small
amount of Manganese and Iron
Luster• Light reflected off the
surface of a mineral is called luster– Minerals will either have
metallic luster (shiny) or nonmetallic luster (not as shiny)
– Minerals that have no shine have a dull, Earthy luster
Streak• The color of the mineral
in its powdered form is called the streak– This is fairly reliable for
identification
• Metallic minerals have a dark streak– Ex. Pyrite (fool’s gold) has
a black streak
• Nonmetallic minerals have a streak that is colorless or a very light shade of the mineral’s normal color
Cleavage and Fracture
• Cleavage: when a mineral splits evenly along flat surfaces– Ex. Micas which split in sheets– The cleavage runs parallel to a plane in the crystal
where the bonding is weak– Fracture: when a mineral breaks unevenly
• Curved surfaces are called conchoidal• Fibrous surfaces look like broken wood• Rough surfaces are called uneven or irregular
HardnessHardness
• Hardness is the ability of a mineral to resist scratching– Ex. A diamond is extremely hard but can easily
be split along cleavage planes– The hardness of an unknown mineral can be
determined by scratching it against other minerals of a known hardness on the Mohs hardness scale
– The hardness of the mineral determines the strength of the bonds between the atoms• Graphite and diamonds are made from carbon. Graphite
has no crystal structure so it is not as hard as diamonds
• Hardness is the ability of a mineral to resist scratching– Ex. A diamond is extremely hard but can easily
be split along cleavage planes– The hardness of an unknown mineral can be
determined by scratching it against other minerals of a known hardness on the Mohs hardness scale
– The hardness of the mineral determines the strength of the bonds between the atoms• Graphite and diamonds are made from carbon. Graphite
has no crystal structure so it is not as hard as diamonds
Crystal Shape
• A certain mineral always has the same general shape because the atoms or ions that form its crystals always combine in the same geometric pattern
Density
• Density = Mass ÷ Volume
• The density depends on what type of atoms the mineral contains and how closely they are packed together– Most of the common
minerals have densities between 2 and 3 g/cm3
– Heavy metals (gold, uranium, lead) can have densities from 7 to 20 g/cm3
Special Properties• Magnetism
– Magnetite is the most common• Lodestone is a type of magnetite
that acts like a magnet
• Double Refraction– Clear minerals still fracture light
that passes through them creating double images
• Radioactivity– Some atoms have unstable
protons and neutrons. This nuclear decay releases energy
• Uranium and Radium are some radioactive elements that occur in minerals
• Pitchblende is the most common uranium containing mineral
Special PropertiesSpecial Properties
• Florescence (ability to glow under UV light)– Calcite is white under normal light but red under
UV light– Florescent minerals absorb UV light and then
produce visible light of various colors
• Phosphorescence (ability to glow under UV light even after UV light is shut off)
• Florescence (ability to glow under UV light)– Calcite is white under normal light but red under
UV light– Florescent minerals absorb UV light and then
produce visible light of various colors
• Phosphorescence (ability to glow under UV light even after UV light is shut off)