Minerals That compose the Earth’s Crust. What is a mineral? Is it inorganic? Nothing alive or...
Transcript of Minerals That compose the Earth’s Crust. What is a mineral? Is it inorganic? Nothing alive or...
Minerals
That compose the Earth’s Crust
What is a mineral?
• Is it inorganic? Nothing alive or alive at one time qualifies.
• Does it occur naturally? Nothing human-made qualifies.
• Is it a crystalline solid? If there are no crystals it does not qualify.
• Does it have a consistent chemical composition? Same ratio of compounds through out.
Kinds of Minerals
• Silicate Minerals - all silicate minerals contain some combination of Si (silicon) and O (oxygen). Make up 96% of Earth’s crust.
• Non-silicate Minerals – as indicated by the name, they contain no silicon and fall into 1 of 6 classes of non-silicates. Only 4% of Earth’s crust is made of non-silicates.– Carbonates - compounds that contain a carbonate
group (CO3)
Non-silicates continued
– Halides - compounds that consist of chlorine or fluorine combined with sodium, potassium, or calcium.
– Native elements - elements such as gold, silver, and copper.
– Oxides – compounds that contain oxygen and another element other than silicon.
– Sulfates – compounds that contain a sulfate group (SO4).
– Sulfides - compounds that consist of 1 or more elements combined with sulfur.
Crystalline Structure
• Crystal - a solid whose atoms, ions, or molecules are arranged in a regular, repeating pattern.– Silicate minerals – all silicates will have a silicon-
oxygen tetrahedron. These tetrahedron combine in different arrangements to form different silicate minerals.
– Non-silicate minerals - since non-silicates have such diverse chemical combinations, there are a vast variety of non-silicate crystals.
Identifying Minerals
• The physical properties of minerals are helpful in identifying them.– Color - is the least helpful because some minerals
can be seen in a variety of colors.– Streak - is the powdered form of a mineral.
Usually created by rubbing the mineral on a streak plate.
– Luster - how light is reflected by the mineral. Usually described as metallic or non-metallic.
Identifying Minerals continued
– Cleavage and Fracture – cleavage is the tendency for some minerals to split at joints. Fracture is the tendency of other minerals to break unevenly.
– Hardness - the ability of a mineral to resist scratching or the ability to scratch other materials. This is based on the Mohs Hardness Scale.
– Crystal shape - there are 6 basic crystal shapes and this influences what type of a mineral it can be.
– Density - is also a key identifier for minerals, based on the ratio of mass to volume.
Identifying Minerals continued
• Special Properties of Minerals - some minerals have other properties that aid in identifying them.– Fluorescence and Phosphorescence – fluorescence is
the ability of a mineral to glow when in the presence of a U-V light and phosphorescence is the ability for the mineral to continue to glow after the U-V light has been turned off.
– Chatoyancy and Asterism – chatoyancy is the ability of a mineral to display a silky appearance when reflecting light and asterism is displaying a six-sided star when reflecting light.
Special Properties continued
– Double refraction - the ability to bend light as it passes through the mineral to show a double image of what is behind the mineral.
– Magnetism - some minerals will have magnetic abilities.
– Radioactivity - some minerals are radioactive, meaning the nuclei of the atoms are unstable and break down over time. This special property is detectable with a Geiger counter.