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Pyroclastic material can form with magma of any composition, but it is more likely to form with high-viscosity magma.
Yes. It is not uncommon for rhyolitic material to form pyroclastic flows.
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In a pyroclastic flow, the magma would almost always be considered high-velocity. The velocity and strength of the magma is a result of its chemical composition.
Well, the least would most likley be in the hot spots.
Pyroclastic material is more likely to form with high viscosity magma.
Pyroclastic material can form with magma of any composition, but it is more likely to form with high-viscosity magma.
No. Magma is molten rock that is beneath earth's surface. When it erupts it can form lava or pyroclastic material. Although pyroclastic material can form rocks, most rocks are not from pyroclastic material.
Yes. It is not uncommon for rhyolitic material to form pyroclastic flows.
low viscosity lava due to the violent eruption of the volcano
you eat my butt
Cinder cone volcanoes are made of pyroclastic material and most often form from moderately explosive eruptions.
No. Magma is molten rock that has not erupted. After it erupts it may or may not form pyroclastic material depending on how explosive the eruption is.
Volcanic mountains form as layers of lava flows and/or pyroclastic material pile up from successive eruptions.
Cooled magma, lava, or pyroclastic material is igneous rock. Cooled magma forms intrusive igneous rock, while lava and pyroclastic material form extrusive rock. Anything beyond that depends on more specific factors.
In a pyroclastic flow, the magma would almost always be considered high-velocity. The velocity and strength of the magma is a result of its chemical composition.
Well, the least would most likley be in the hot spots.