The skies would be dark and volcanic ash would fill the air.
It does nothing... This website stinks and if you are reading this you are as dumb as the website.
The heat in the volcano is spewed out with the lava, and it clouds the air, the ash falls, but does not clear for a while
it helps form the volcano to make it a mountain
during and explosive eruption hot ash is thrown in the air. Leaving trails of smoke.
A pyroclastic flow.
The answer is Explosive . It is explosive because during a explosive eruption there are clouds of ash, gas , and rock , and with a pyroclastic flow there is dust and ash . there for the answer must be explosive .
Volcanic ash forms when rock or liquid magma is reduced to tiny fragments by an explosive eruption.
An eruption column consists of hot volcanic ash emitted during an explosive volcanic eruption. An explosive eruption always begins with some form of blockage in the crater of a volcano When magma flows towards the surface pressure builds, eventually causing the blockage to be blasted out in an explosive eruption. The pressure from the magma and gases are released through the weakest point in the cone, usually the crater. The sudden release of pressure causes the gases in the magma to suddenly froth and create volcanic ash and pumice, which is then ejected through the volcanic vent to create the signature eruption column commonly associated with explosive eruptions.
The explosive eruption had devastating effects on both people and the environment. People were directly impacted by the explosive force and heat of the eruption, resulting in numerous fatalities, injuries, and displacement. The environment was also severely affected, with the eruption causing widespread destruction, such as the leveling of forests and the creation of vast amounts of ash and debris, which polluted air, water, and soil, leading to long-term damage to ecosystems.
The event is called an eruption.
A pyroclastic flow.
during and explosive eruption hot ash is thrown in the air. Leaving trails of smoke.
The answer is Explosive . It is explosive because during a explosive eruption there are clouds of ash, gas , and rock , and with a pyroclastic flow there is dust and ash . there for the answer must be explosive .
Volcanic ash forms when rock or liquid magma is reduced to tiny fragments by an explosive eruption.
explosive, produces lahars and volcanic ash clouds.
The 1980 eruption was very explosive. Ash was blown 80,000 feet into the air and the mountain is a quarter mile shorter than it was before the eruption.
An eruption column consists of hot volcanic ash emitted during an explosive volcanic eruption. An explosive eruption always begins with some form of blockage in the crater of a volcano When magma flows towards the surface pressure builds, eventually causing the blockage to be blasted out in an explosive eruption. The pressure from the magma and gases are released through the weakest point in the cone, usually the crater. The sudden release of pressure causes the gases in the magma to suddenly froth and create volcanic ash and pumice, which is then ejected through the volcanic vent to create the signature eruption column commonly associated with explosive eruptions.
The explosive eruption had devastating effects on both people and the environment. People were directly impacted by the explosive force and heat of the eruption, resulting in numerous fatalities, injuries, and displacement. The environment was also severely affected, with the eruption causing widespread destruction, such as the leveling of forests and the creation of vast amounts of ash and debris, which polluted air, water, and soil, leading to long-term damage to ecosystems.
The event is called an eruption.
Ash, cinders, and bombs all form when a molten rock is fragmented by explosions. A non-explosive eruption cannot eject drops or globs of molten rock in such a manner.
Ash, cinders, and bombs all form when a molten rock is fragmented by explosions. A non-explosive eruption cannot eject drops or globs of molten rock in such a manner.
Composite volcanoes are highly variable in what they erupt. Most often, eruptions will release clouds of ash, pumice, and rock fragments. In some cases they fountain or extrude lava.