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Yes. Large explosive volcanic eruptions can produce enormouys ash clouds that can turn day as dark as night in areas around the volcano. Ash and gas from such eruptions can filter out enough sunlight to reuduce global temperatures.
Yes. Explosive volcanic eruptions release sulfur dioxide into the atmopshere. This gas forms tiny droplets of sulfuric acid in the upper atmosphere, which reflect some of the sun's warming rays back into space.
No. A sunspot is a slightly cooler area of the surface associated with magnetic disturbances within the Sun. The eruptions of gas are called prominences, and they are related to the phenomenon called solar flares.
The answer is planets.
ash arises making the sun blocked and the temperatures be effected
solar prominences
solar prominences
Yes. Large explosive eruptions can release large amounts of sulfur dioxide. This gas forms tiny droplets of sulfuric acid in the upper atmosphere, which reflect a portion of the sun's light back into space and reduce global temperatures.
solar prominences
The sun (or just stars in general)
solar flares.
solar flares.
Yes. Large explosive volcanic eruptions can produce enormouys ash clouds that can turn day as dark as night in areas around the volcano. Ash and gas from such eruptions can filter out enough sunlight to reuduce global temperatures.
The gas was in space from the beginning of the Universe - the Big Bang. Eventually, gravity pulled parts of this gas together, to make the Sun, as well as other stars.
Yes, the sun.
The sun is a large, hot sphere of gas, which condensed out of an even larger but cooler cloud of gas some five billion years ago. The position of the sun in the sky is what we see from our perspective here on Earth, but the sun is in outer space, some 93 million miles away from Earth.
the gas keeps it up the gas keeps it up the gas keeps it up