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Lesson2d. Volcanoes. Olympus Mons (volcano on Mars) compared to Arizona. Olympus Mons on Mars. Google Mars Mars Reconnaissance orbiter – HiRISE Basal Scarp on Olympus Mons. Hawaiian Islands. Mt. Saint Helens – May 18, 1980.
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Lesson2d Volcanoes
Olympus Mons on Mars • Google Mars • Mars Reconnaissance orbiter – HiRISE • Basal Scarp on Olympus Mons
The lava from the Hawaiian volcanoes is very low in silica and it flows easily across the surface, all the way to the ocean. • What can you conclude about the Hawaiian volcanoes?
. • Without silica their slopes will be steep • The magma must not be contaminated with crustal material • Both 1 & 2 • None of the above
Lava Composition • Felsic lava (Strato-volcanoes) -- high viscosity and strength, high in silica, aluminium, potassium, sodium, and calcium, forming a polymerized liquid rich in feldspar and quartz. • Mafic or basaltic lavas (Shield volcanoes) are typified by their high ferromagnesian content, Basaltic magma is high in ironand magnesium, and has relatively lower aluminium and silica. This is mantle material. • Note: Similar to the lava in the Mid-atlantic ridge.
Shield volcanoes • Shield volcanoes get their appearance because the low viscosity lava flows out and spreads easily. • Slopes for Shield volcanoes are around 1o – 5o • Slopes for Stratovolcanoesare ~ 30o near summit and ~10o on outer slopes.
Detailed model of plume rise.Slow process, last slide is 76.8 Million years.
Oldest Island Youngest Island
Oldest Youngest
Evidence. • Magma plumes take many millions of years to form and rise up through the mantle. • The Big Island is the only one to have active volcanoes today. • The farther away in the chain of islands you get the older the island is. • Given all this information, how did the Hawaiian Island chain form?
. • From magma coming from a Pacific ridge similar to the mid-Atlantic ridge • From the wandering of the magma plume under the sea floor • From the motion of the Pacific Oceanic Plate over the magma plume.
Ocean plate motion relative to the mantle plume (Plate Tectonics)
Age from radiometric datingDistance is just measured • Age = 60,000,000 years • Distance = 5000 km. • Speed = Distance/time • Speed = (5 x 103 km)/(6 x 107 years) or • Speed = (5 x 106 m)/(6 x 107 years) • Speed = 0.083 meters/year or 8.3 cm/year.
Using GPS velocity vectors to study plate motion Google Earth w/ http://pboweb.unavco.org/products/velocity/pbo_final_frame.kmz http://facility.unavco.org/data/maps/maps.html http://jules.unavco.org/VoyagerJr/EarthScope Velocity vectors in Google Earth Velocity Vectors in Jules Verne Voyager
Global Plate Motions and Boundary Zones ObservedGPS Velocities Plus Earthquake Slip directions Plate Tectonic Model with Deformable Boundaries Model Velocities and Plate Boundary Strain 5170 geodetic velocities from 86 different studies GSRM Model of Kreemer and Holt
Age from radiometric datingDistance is just measured • Age = 60,000,000 years • Distance = 5000 km. • Speed = Distance/time • Speed = (5 x 103 km)/(6 x 107 years) or • Speed = (5 x 106 m)/(6 x 107 years) • Speed = 0.083 meters/year or 8.3 cm/year. • Geodetic measurement of plate motion is 10.3 to 11.8 cm/year
Results we can use • A shield volcano arises from a deep mantle plume. • Shield volcanoes have gentle slopes (less than 5o). • A chain of shield volcanoes can indicate plate tectonics is occurring.
Mons RumkerLunar volcano Mons Rumker Lava flow
Mons Rumker – Exaggerated viewHeight ~ 1100 metersDiameter ~ 70 km.
Slope Measurement 1,100 m Angle ϴ Angle ϴ 35,000 m 1,100 m 35,000 m
Which trigonometric function should you use to find the angle? 1,100 m Angle ϴ Angle ϴ 35,000 m 1,100 m 35,000 m
The correct answer is Tangent • Tan(θ) = opposite/adjacent • Tan(θ) = 1100/35000 • Tan(θ) = 0.314 • Θ = Tan-1(0.314) • Θ = 1.8o
The correct answer is Tangent • Tan(θ) = opposite/adjacent • Tan(θ) = 1100/35000 • Tan(θ) = 0.314 • Θ = Tan-1(0.314) • Θ = 1.8o Mons Rumker is a shield volcano
Olympus Mons – Largest volcano on Mars (and entire solar system)
Topographical map of Mars OlympusMons
Using the ratio of 20km/320km = 0.0625 That gives θ = 3.6o Olympus Mons is a shield volcano.