Magma contains dissolved gases that are released into the atmosphere during eruptions. Gases are also released from magma that either remains below ground (for example, as an intrusion) or rises toward the surface. In such cases, gases may escape continuously into the atmosphere from the soil, volcanic vents, fumaroles, and hydrothermal systems. The most common gas released by magma is steam (H 2 O), followed by CO 2 (carbon dioxide), SO 2 (sulfur dioxide), (HCl) hydrogen chloride and other compounds.
At high pressures deep beneath the earth's surface, volcanic gases are dissolved in molten rock. But as magma rises toward the surface where the pressure is lower, gases held in the melt begin to form tiny bubbles. The increasing volume taken up by gas bubbles makes the magma less dense than the surrounding rock, which may allow the magma to continue its upward journey. Closer to the surface, the bubbles increase in number and size so that the gas volume may exceed the melt volume in the magma, creating a magma foam. The rapidly expanding gas bubbles of the foam can lead to explosive eruptions in which the melt is fragmented into pieces of volcanic rock, known as tephra . If the molten rock is not fragmented by explosive activity, a lava flow will be generated.
Together with the tephra and entrained air, volcanic gases can rise tens of kilometers into Earth's atmosphere during large explosive eruptions. Once airborne, the prevailing winds may blow the eruption cloud hundreds to thousands of kilometers from a volcano. The gases spread from an erupting vent primarily as acid aerosols (tiny acid droplets), compounds attached to tephra particles, and microscopic salt particles.
2007-03-04 21:22:35
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answer #1
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answered by ♥!BabyDoLL!♥ 5
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The viscosity of the magma will determine the type of eruption. If the magma is thick and sticky it will cause an explosive (Mt. St. Helens) type of eruption. If the magma is thin and runny it will erupt like Hawaiian volcanoes.
2007-03-05 00:14:47
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answer #2
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answered by physandchemteach 7
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