And what about the weather on the Gas Giants, the other four planets in our solar system? Gas giants have deep, massive atmospheres, low densities, many satellites, and rings. A gas giant has gravity that behaves the same as gravity for anything else. Sunlight can't penetrate very far into these atmospheres. Contents[show] What is a Gas Giant? These planets, often known as Jovian planets or giant planets, make up 1/2 of our solar system.
But the temperature is too high, so the gas simply gets denser at lower depths, resembling a thick, hot liquid, with no well-defined surface. A Gas Giant is a large planet that is not primarily composed of rock or solid matter. The gas giant or gaseous planet as it is also known, is a large planet composed mainly of gases, such as hydrogen and helium, with a relatively small rocky nucleus.The gas giants of our solar system are Jupiter, Saturn, Uranus and Neptune.These four giant planets, also called jovial planets after Jupiter, reside in the outer part of our solar system beyond the orbits of Mars and the asteroid belt. Much like the other gas giants in our Solar System, the core of Uranus gives off far more heat than is absorbed from the Sun. The gas giants are composed of hydrogen and helium, which can remain in a gaseous state at extremely low temperatures, even lower than thous found in the atmospheres of the gas giants. If we could survive the crushing pressure deep within the giant planets, we would enter a murky "twilight zone" between vapor and liquid. Astronomers have surveyed nearby young stars to see which ones have these clouds of gas, and the answer is that only stars younger than a few million years have them. In other words, Four of our eight planets are known as Gas Giants. Jupiter, Saturn, Uranus, and Neptune are all gas giants. Gas giants have been found around more than a thousand stars by the Kepler mission. The cores of the gas giants are crushed under tremendously high pressures and they are very hot (up to 20,000 K), while the cores of the ice giants Uranus and Neptune are at 5000K and 5,400K respectively.

It would also be interesting to see some sort of proto-planets, stellar formation or belt objects, such as dwarf planets. Learn about Jupiter ‘s Great Red Spot , a storm that’s possibly been going on since the 1600s, Saturn ‘s serious winds, Uranus ‘ diamond rain, and Neptune ‘s extreme lack of sunlight. Gas giants do have moons and some sort of way to extract gases from the atmosphere might be something that is within the realm of sci/fi limited reality. Class V: Silicate Clouds – this applies to the hottest of gas giants, with temperatures above 1400 K (1100 °C; 2100 °F), or cooler planets with lower gravity than Jupiter. The gas giants of our solar system are Jupiter, Saturn, Uranus and Neptune. Not sure how that would be … A gas giant with a temperature of 300 K would be a Sudarsky Class II, with its atmosphere dominated by water clouds like those on Earth (but in a hydrogen/helium atmosphere). The formation of gas giants has to take place within the lifetime of the gaseous protoplanetary disk surrounding a young star in which the planet is forming. All else being equal, in a gas giant you would descend to the point at which the density of the gas giant is equal to your density (a little greater than 1g cm-3 to a rough approximation), this the point at which you would be 'neutrally buoyant'. A gas giant is a large planet composed mostly of gases, such as hydrogen and helium, with a relatively small rocky core.