No
Yes, there was a significant lava flow during the eruption of Mount St. Helens in 1980. The eruption caused the collapse of the volcano's summit, leading to a massive explosion and the release of a pyroclastic flow. This flow melted the ice and snow on the volcano, mixing with ash and rock fragments to create a fast-moving lava flow known as a lahar.
Yes. Mount St. Helens produced many pyroclastic flows.
No. It has a crater, which is not quite the same as a caldera.
300 miles per hr
No. Mount St. Helens is a stratovolcano. There is a lava dome in the crater.
No
Mt. St. Helens benenfited humans by the rock from lava are used to build and repair roads in this day!
Mt. St. Helens benenfited humans by the rock from lava are used to build and repair roads in this day!
Yes, there was a significant lava flow during the eruption of Mount St. Helens in 1980. The eruption caused the collapse of the volcano's summit, leading to a massive explosion and the release of a pyroclastic flow. This flow melted the ice and snow on the volcano, mixing with ash and rock fragments to create a fast-moving lava flow known as a lahar.
Lava can't flow violently. Highly explosive eruptions such as the 1980 eruption of Mount St. Helens do not produce lava flows: they produce clouds of ash, gas, and pumice. Mount St. Helens has produced "quiet" lava flows at times.
hot liquid called lava or magma
Yes. Mount St. Helens produced many pyroclastic flows.
At Mt. St. Helens.
Mt. St. Helens erupted by the pressure to make a volcano explode. Lava originates deep below the Earth's surface where it is still extremely hot, with magma at the bottom of the lava. a 5.1 earthquake triggered mt st helens to erupt
The last major eruption in the US was the 1980 eruption of Mount St. Helens in Washington. This eruption resulted in significant damage to the surrounding area and was one of the most destructive volcanic events in US history.
No. It has a crater, which is not quite the same as a caldera.