No, Jupiter is composed mostly of gases.
No, Jupiter is composed mostly of gases.
Jupiter has very little water (0.0004%).There is no LIQUID water on Jupiter because Jupiter is a gas giant. However, Jupiter DOES have evaporated water in its atmosphere and one of its moons, Europa, is said to have a frozen ocean on its surface.
Jupiter is a gas giant and does not have a solid surface like Earth, so it does not have oceans in the traditional sense. However, it may have a layer of liquid metallic hydrogen deep below its clouds, which behaves more like a liquid metal than water.
There is no land on Jupiter as it is a gas planet. The visible "surface" is merely clouds.
Jupiter does not have a solid surface like rocky planets. It is a gas giant made mostly of hydrogen and helium. Therefore, it does not have a surface that can be described as rough or smooth like terrestrial planets.
No. Jupiter is a gas giant. There is no surface on which volcanoes might form. However, Io, one of Jupiter's moons, is covered in volcanoes.
Jupiter does not have a solid surface. It is a gas giant.
No. Jupiter is a gas giant with no solid surface. There is nothing there to build on.
Jupiter does not have a solid surface like Earth, so it does not have mountains or craters. Instead, it is a gas giant mostly made up of hydrogen and helium. It also does not have rivers or any liquid water on its surface.
Jupiter, in fact, has NO surface at all. Because Jupiter i s a gas giant, it is composed mostly of hydrogen gas. This gas gives the planet no real surface, however, some scientists theorize that the incredible pressure towards the core compresses the hydrogen into a metallic liquid, making the surface of Jupiter a massive, planet-covering ocean.
Jupiter is a gas giant made mostly of hydrogen and helium, and it does not have a solid surface like Earth. Therefore, it is unlikely to have liquid water on its surface. However, water vapor has been detected in Jupiter's atmosphere.
Since Jupiter is a gas giant, the surface is likely to be watery. You could fall through the surface and land on the inner core.