No, it is not possible to prevent the ash cloud from a volcano eruption, regardless of the presence of ice. Ash clouds are a natural result of volcanic eruptions and are formed as magma interacts with ice or snow on the volcano. The best course of action is to prepare emergency response plans and evacuation procedures to ensure the safety of nearby communities.
Ice will captor anything like animals, ash, etc. Let's say a volcanoe went off and ash went everywhere. Then the ash would settle on the ice, then ice would captor it and trap it in the ice. Scientists then can trace when the bomb went off. Ice will build layers over time and you could see the history of Earth.:)
Ice water doesn't reach thermal equilibrium because the ice and water are at different temperatures, with ice being at or below 0°C and water typically above that. Heat transfer occurs from the warmer water to the colder ice, causing the ice to melt while simultaneously cooling the water. This process continues until all the ice has melted, but as long as there is ice present, the system won't reach equilibrium. Once all the ice melts, equilibrium can be achieved at 0°C if the system is closed and insulated.
The ash from volcanic eruptions can reach altitudes of up to 20-30 kilometers into the atmosphere. The exact height can vary depending on the size and intensity of the eruption.
Pompeii was covered in ash during the eruption of Mount Vesuvius in 79 A.D. The ash preserved structures and artifacts, giving us valuable insights into ancient Roman life. Lava flows did not reach Pompeii during this eruption.
No, it is not possible to prevent the ash cloud from a volcano eruption, regardless of the presence of ice. Ash clouds are a natural result of volcanic eruptions and are formed as magma interacts with ice or snow on the volcano. The best course of action is to prepare emergency response plans and evacuation procedures to ensure the safety of nearby communities.
Volcanoes erupt hot ash or molten rock. It is the heat from this that can melt ice.
Yes, it sure did.
hickory and ash
No it does not go into outer space. The ash cannot go into outer space because it does not reach escape velocity. Instead the ash gets dispersed throughout the atmosphere and eventually settles back on Earth.
Ice will captor anything like animals, ash, etc. Let's say a volcanoe went off and ash went everywhere. Then the ash would settle on the ice, then ice would captor it and trap it in the ice. Scientists then can trace when the bomb went off. Ice will build layers over time and you could see the history of Earth.:)
No, it's a chemical change. A physical change is one which can be reversed. Like ice to water to ice etc.
Ice water doesn't reach thermal equilibrium because the ice and water are at different temperatures, with ice being at or below 0°C and water typically above that. Heat transfer occurs from the warmer water to the colder ice, causing the ice to melt while simultaneously cooling the water. This process continues until all the ice has melted, but as long as there is ice present, the system won't reach equilibrium. Once all the ice melts, equilibrium can be achieved at 0°C if the system is closed and insulated.
The ash from volcanic eruptions can reach altitudes of up to 20-30 kilometers into the atmosphere. The exact height can vary depending on the size and intensity of the eruption.
to reach into the ice for food
Yes you can it helps the female to reach her climax.
Even on 'frictional' ice it is possible to crawl, slide, walk on the ice.