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Magma from the Asthenosphere A buoyant force acts on magma that forms from rock surrounding it. Hot, nearly molten rock in Earth’s asthenosphere can change to a liquid by decompression melting.
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Chapter 12Section 4 - Volcanoes
Movement along a fault causes a decrease in pressure – decompression
A decrease in pressure causes a decrease in melting point
The temperature remains the same
Magma from the Asthenosphere
• A buoyant force acts on magma that forms from rock surrounding it.
• Hot, nearly molten rock in Earth’s asthenosphere can change to aliquid by decompression melting.
Why Magma Rises• Rising magma
may reach Earth’s surface if pressure conditions allow and the rock has conduits (openings) through which it can flow.
Eruptive Products
• All solid materials expelled by a volcano are collectively called pyroclasts.
• Volcanoes release a broad variety of superheated gases, the most common of which is water vapor.
• In addition carbon dioxide and gases composed of sulfur compounds are expelled.
Solids
Gases
• Viscosity is a measure of the resistance of a fluid to flow. • High viscosity is thick like pancake
syrup.• Low viscosity is runny like water.
Liquids• Lavas can vary considerably in
composition, which in turn affects their physical properties.
Plate Boundary Setting• Most of Earth’s volcanoes lie in subduction
zones where continental and oceanic materials are being mixed and partially melted.
Hot Spots• Hot spots are volcanically active sites
that arise in places where large quantities of magma move to the surface in large, column-like plumes.
• A hot spot under an oceanic plate forms volcanic island chains, such as the Hawaiian Islands.
• Yellowstone National Park is an example of a hot spot under a continental plate.
• Moderate slopes, 20 degrees• Made of pyroclasts (cinder, bombs)• Rock type – basalt• Relatively small in size• Examples: Sunset Crater (AZ), Hawaii
Types of Volcanoes• Volcanoes are classified according to
their size, shape, and the materials that compose them.
Cinder Cone Volcanoes
• Low slope angles, 2 to 8 degrees• Long, fluid (basaltic) lava flows• Rock type – basalt• Can be very large• Example: Mauna Loa, Hawaii
Shield Volcanoes
• Also called Stratovolcano• Made of lava flows and pyroclastics
(mostly ash)• Moderate in size• Rock type – andesite• Examples: Mt. St. Helens, Fuji, Pinatubo
Composite Volcanoes
Section Check
Question 1Where do most volcanoes occur?
AnswerMost volcanoes occur at plate boundaries where huge pieces of the crust pull apart or push together. As a result, the crust often fractures, allowing magma to reach the surface.
Section Check
Question 2What type of volcano is formed by an explosive eruption followed by a quiet eruption?
A. cinder cone volcanoB. composite volcanoC. fissure eruptionD. shield volcano
Section Check
AnswerThe correct answer is B. Composite volcanoes erupt explosively releasing large quantities of gas and ash. They are followed by quieter eruptions that form a lava layer over the ash.
Section Check
Question 3How does a hot spot volcano form?
AnswerA volcano forms above a hot spot when magma erupts through the crust and reaches the surface. Hot spot volcanoes may lie in the middle of plates far from any plate boundaries or near or on plate boundaries.
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