not very It is all gases around a small cool rock core.
Many newly detected extrasolar planets are called hot Jupiters because they are large, gaseous planets with characteristics similar to Jupiter, but they orbit very close to their host star. This proximity to their star causes them to have high surface temperatures, hence the term "hot."
The "exoplanets" known as "Hot Jupiters".
Io, the innermost of Jupiter's four largest moons, appears the brightest from Jupiter's surface due to its proximity to the planet and its reflective surface.
From Jupiter's surface, its moons would appear as bright points of light in the sky, similar to our view of Jupiter's moons from Earth. They would range in size and brightness depending on their distance from Jupiter and their individual characteristics. The sight would be quite spectacular, with some moons appearing larger than others and potentially casting shadows on Jupiter's surface.
Hot Jupiters were among the earliest known exoplanets discovered because they are large gas giants that orbit very close to their parent stars, making them easier to detect using early planet-hunting techniques.
very cold
very cold
gass
Many newly detected extrasolar planets are called hot Jupiters because they are large, gaseous planets with characteristics similar to Jupiter, but they orbit very close to their host star. This proximity to their star causes them to have high surface temperatures, hence the term "hot."
No. Jupiter is a gas giant, so it does not even have a definite surface.
Models suggest that the clouds on hot Jupiters could be composed of minerals like corundum and silicates, as well as exotic compounds such as titanium oxide and aluminum oxide. These clouds may form due to strong winds, vertical mixing, and high temperatures in the atmospheres of hot Jupiters.
io is the brightest from jupiters surface
Many extrasolar planets are called hot-Jupiters because they are gas giants like Jupiter but much closer to their parent stars, leading to high surface temperatures. Their close proximity to the star results in rapid orbital periods and high levels of irradiation, causing them to be hot compared to Jupiter in our solar system.
Europa...
Small & cold.
Hot Jupiters may have migrated close to their stars due to interactions with the protoplanetary disk during their formation, gravitational interactions with other planets, or tidal forces from the star.
4.56 billion years old, but it's surface is younger.