The Sun.
The Sun has a composition similar to that of Gas giantsThe sun has a similar composition to the gas giants
The Sun has a composition similar to that of Gas giantsThe sun has a similar composition to the gas giants
The Sun has a composition similar to that of Gas giantsThe sun has a similar composition to the gas giants
The Sun. In both cases, the main components are hydrogen and helium.
Jupiter has a composition of about 90% hydrogen and 10% heliumSaturn has a composition of about 96% hydrogen and 3% helium.The Sun is the closest, with a composition of about 74% hydrogen and 25% helium.The Sun does, but of course it's a lot hotter and it's very different from those planets.
Uranus and Neptune are sometimes refereed to as the Ice Giants.
ASTROID!
Yes Saturn and the other planets are in our Solar System. Many hundreds of planets exist outside of our solar system. These are often compared to the gas giants (Jupiter and Saturn) because of their size and composition.
There are only two gas giants in our Solar System. Jupiter and Saturn. Uranus and Neptune are classified as Ice Giants.
In our solar system, Neptune is most similar to Uranus, together they are classified as ice giants. They are roughly the same size and mass and evidence some similarities in structure and composition.
The planets in the outer solar system are called Jupiter, Saturn, Uranus, and Neptune. These planets are located beyond the asteroid belt and are known as the gas giants due to their composition.
Terrestrial planets, such as Earth and Mars, are primarily composed of rock and metal, featuring solid surfaces and higher densities. In contrast, gas giants like Jupiter and Saturn are largely made up of hydrogen and helium, possessing thick atmospheres and lacking solid surfaces. While terrestrial planets have a more varied geology with features like mountains and valleys, gas giants have complex atmospheric dynamics and extensive systems of rings and moons. This fundamental difference in composition reflects their formation processes and positions within the solar system.