Diamond rain: Diamonds, an extremely valuable material on Earth, are extremely common on Saturn thanks to interesting “diamond rains”. It is estimated that nearly 1,000 tons of diamonds fall to the surface of this planet in the form of “rain”. Not only Saturn, but also Neptune and Jupiter also have similar rains. However, Not everything is transformed into diamonds. Scientists say most of the carbon will turn into graphite as it moves through Saturn’s dense, layered atmosphere.Helium rain at extremely high pressure: In 2021, a report published in the journal Nature revealed evidence that helium (or helium) rain is quite common in gas planets like Jupiter and Saturn. They consist of drops of liquid helium mixed with hydrogen and liquid metals, which occur under special pressure conditions, about 40,000 times greater than the earth’s atmosphere.Hot acid rain: Venus is the hottest planet in the Solar System, with a surface temperature of up to 463.85 degrees Celsius. Venus’s atmosphere is also filled with clouds of sulfuric acid, and regularly rains down on the planet. This crystal. However, the temperature is so hot at the planet’s surface that acid raindrops are quickly converted into vapor from an altitude of about 25 km, and hang there.Methane rain cold: On Titan, Saturn’s largest moon, icy methane rains often occur at extremely cold temperatures, about -179 degrees Celsius, just like Earth has a water cycle, while Titan has a very distinct methane cycle. The rains dump liquid methane into the reservoir, which evaporates into clouds, before it begins a new cycle.Dry snow and ice showers: In 2012, NASA’s Mars Reconnaissance Orbiter data provided scientists with evidence of carbon dioxide snow and ice showers taking place on the Red Planet. There, frozen carbon dioxide rains down on the planet’s surface in the form of solid ice cubes. It is known that the ideal conditions for these rains to occur are below minus 125 degrees Celsius. These “rains” do not carry liquid water, so they are called “dry hail”, or “rain”. dry snow”.Intense plasma rain: Because the sun’s surface is millions of degrees Celsius hot, water cannot evaporate or condense. Instead, these rains come from charged plasma flows, launched into the Sun’s outer atmosphere. Here, the plasma is cooled, and will condense into thick gas masses, before falling back down to the surface of the Sun, forming intense “rains” called coronal.
Diamond rain: Diamonds, an extremely valuable material on Earth, are extremely common on Saturn thanks to interesting “diamond rains”. It is estimated that nearly 1,000 tons of diamonds fall to the surface of this planet in the form of “rain”. Not only Saturn, but also Neptune and Jupiter also have similar rains. However, Not everything is transformed into diamonds. Scientists say most of the carbon will turn into graphite as it moves through Saturn’s dense, layered atmosphere.
Helium rain at extremely high pressure: In 2021, a report published in the journal Nature revealed evidence that helium (or helium) rain is quite common in gas planets like Jupiter and Saturn. They consist of drops of liquid helium mixed with hydrogen and liquid metals, which occur under special pressure conditions, about 40,000 times greater than the earth’s atmosphere.
Hot acid rain: Venus is the hottest planet in the Solar System, with a surface temperature of up to 463.85 degrees Celsius. Venus’s atmosphere is also filled with clouds of sulfuric acid, and regularly rains down on the planet. This crystal. However, the temperature is so hot at the planet’s surface that acid raindrops are quickly converted into vapor from an altitude of about 25 km, and hang there.
Methane rain cold: On Titan, Saturn’s largest moon, icy methane rains often occur at extremely cold temperatures, about -179 degrees Celsius, just like Earth has a water cycle, while Titan has a very distinct methane cycle. The rains dump liquid methane into the reservoir, which evaporates into clouds, before it begins a new cycle.
Dry snow and ice showers: In 2012, NASA’s Mars Reconnaissance Orbiter data provided scientists with evidence of carbon dioxide snow and ice showers taking place on the Red Planet. There, frozen carbon dioxide rains down on the planet’s surface in the form of solid ice cubes. It is known that the ideal conditions for these rains to occur are below minus 125 degrees Celsius. These “rains” do not carry liquid water, so they are called “dry hail”, or “rain”. dry snow”.
Intense plasma rain: Because the sun’s surface is millions of degrees Celsius hot, water cannot evaporate or condense. Instead, these rains come from charged plasma flows, launched into the Sun’s outer atmosphere. Here, the plasma is cooled, and will condense into thick gas masses, before falling back down to the surface of the Sun, forming intense “rains” called coronal.