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Geol 110 Earth Materials. Lecture: MWF 1:25- 2:15 p.m. Lab: T 9:30 – 12:15 OR Th 1:30 – 4:30 p.m Professor: Greg Druschel Office: Delehanty 321 Office Hours : WF 2:15-3:15 pm T.A.: Phoebe Judge. Class Goals.
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Geol 110Earth Materials Lecture: MWF 1:25- 2:15 p.m. Lab: T 9:30 – 12:15 OR Th 1:30 – 4:30 p.m Professor: Greg Druschel Office: Delehanty 321 Office Hours : WF 2:15-3:15 pm T.A.: Phoebe Judge
Class Goals • Recognize major rock-forming minerals and other selected minerals in hand specimen and thin section • Master use of several techniques for the identification of minerals, including the petrographic microscope and x-ray diffractometer • Develop the ability to relate crystal chemistry, crystallographic alignment, and physical attributes of a mineral to guide identification and assess a mineral’s origin and history
Grading • Laboratories 20% • Lab exam 10% • Mid-term exam 20% • Final exam 20% • Adopted mineral paper 10% • Homeworks 10% • Participation 10 %
Energy • We will revisit the concept of energy as a waveform in many manifestations – light energy, particle energy, sound energy • Waves in water are also an expression of energy, but the expression of that energy has different forms, a point surfers know well…
Earthquakes • Energy stored (in faults) due to movement of plates is periodically released, generating an earthquake • Energy transmitted as different types of waves through the earth – the amplitude of the largest wave is the strength • Richter Scale – Logarithmic measure of wave • Mercalli index – Based on observations of earthquake damage
Water • 70% of the surface of the earth is covered with water • The interaction of water with rocks is responsible for many reactions in the crust • Water is the one universal requirement for life as we know it – the range of conditions we know life to be present is constrained by the H2O being a liquid
Energy • We will revisit the concept of energy as a waveform in many manifestations – light energy, particle energy, sound energy • Waves in water are also an expression of energy, but the expression of that energy has different forms, a point surfers know well…
Waves • Any wave motion through any medium (water, air, rock) does NOT involve any transfer of mass, i.e., a tsunami does not carry water particles thousands of miles • Why does a wave have a physical manifestation then? • Particles are affected by energy, but they are displaced, returning to their original state – water waves can displace particles up, down, sideways, and circularly shallow waves generate circular displacement, causing breaking
Tsunamis • Tsunami wave is generated by a physical displacement – earthquake WITH ground rupture, landslides, glacial ice calving, etc. • Extremely high energy, but the wave in the open ocean is very small… • Energy of the wave extends to the bottom of the ocean (wind-generated waves are much lower energy!)
Volcanic settings Cinder cones
Weathering • How is massive rock broken down and transported?
Sedimentary deposition • Weathering of any rock and transport of that material to lower E environment followed by lithification yields sed. rx
Depositional settings • Keyed to transport of physical/ chemical components of parent material • Tells 2 stories – who were the parents and how far away did it go?
Chemical deposition • Formation of minerals from aqueous solution requires some change in environment for the ions to precipitate
Fossils • Here parent material were organisms – usually ones that were partially composed of a durable mineral material • Requires a special depositional setting • Quick burial, fine/ chemical covering, replacement reactions • Also tell us approximate age of deposition
Biominerals • Microorganisms may also have a significant impact on mineralogy!
A word about classification… • Umbrella terms • Mineral nomenclature α taxonomy of animals, plants, and microbes
