answersLogoWhite

0

Yes. The Terrestrial Planets (Mercury, Venus, Earth and Mars) are primarily composed of rock, whereas the Jovian Planets (or Gas Giants) (Jupiter, Saturn, Uranus and Neptune) are composed of gases, and thus their densities are significantly less.

For example

The Earth has a mean density of approximately 5.5g cm3 whereas Saturn has a mean density of 0.687g cm3 which is less than water. If you could find a bath large enough and enough water, Saturn would actually float.

User Avatar

Wiki User

16y ago

What else can I help you with?

Continue Learning about Astronomy

Why are the densities of the terrestrial and jovian planets so different?

The terrestrial planets are primarily composed of rock and the jovian planets are mostly gas (primarily Hydrogen). Rock has a higher density than Hydrogen, giving the terrestrial planets a higher density.


How do the densities of the jovian planets compare with the densities of the terrestrial planets?

Although a lot more massive, the four outer gas giant planets are less dense than the inner rocky planets. The densities of the four inner planets are between 3.94 g/cm3 to 5.515 g/cm3, ehile the outer gas planet densities range from 0.7 g/cm3 to 1.76 g/cm3.


The most obvious difference between the terrestrial and the jovian planets is?

The most obvious difference between terrestrial and jovian planets is their composition. Terrestrial planets are rocky and dense, while jovian planets are mostly composed of gases and lack a solid surface. Additionally, jovian planets are typically larger in size and have extensive ring systems.


How do Jovian and terrestrial planets compare?

Jovian planets are gas giants made mostly of hydrogen and helium, while terrestrial planets are rocky planets with solid surfaces. Jovian planets are much larger in size and have thick atmospheres, while terrestrial planets are smaller and have thinner atmospheres. Jovian planets have many moons and ring systems, while terrestrial planets have fewer moons and no rings.


How does the diameter of the terrestrial and jovian planets compare?

Jovian planets generally have larger diameters than terrestrial planets. The average diameter of terrestrial planets like Earth is around 12,742 km, while the average diameter of Jovian planets like Jupiter is around 139,822 km. This difference is due to Jovian planets being mostly composed of gases and having less dense materials compared to the rocky composition of terrestrial planets.

Related Questions

Do the Jovian planets have lower average densities than the terrestrial planets?

Yes, the Jovian planets have lower average densities compared to the terrestrial planets. This is because the Jovian planets are mainly composed of gases and icy materials, while the terrestrial planets are composed of solid rock and metal.


Why are the densities of the terrestrial and jovian planets so different?

The terrestrial planets are primarily composed of rock and the jovian planets are mostly gas (primarily Hydrogen). Rock has a higher density than Hydrogen, giving the terrestrial planets a higher density.


Differentiate Jovian planet from terrestrial planet?

The four Jovian planets in our solar system are Jupiter, Saturn, Uranus and Neptune. The four terrestrial planets are Earth, Venus, Mars and Mercury. The difference between the Jovian planets and the terrestrial planets is that Jovian planets are enormous and made of gasses and ices while terrestrial planets are relatively small and made of rocks and metals. Other differences are that terrestrial planets have high densities, rotate slowly, have no moons or magnetic fields and have thin atmospheres (Earth is an exception because it has a moon and a magnetic field), while Jovian planets have low densities, rotate rapidly, have many moons and a magnetic field and have thick atmospheres.


How do the densities of the jovian planets compare with the densities of the terrestrial planets?

Although a lot more massive, the four outer gas giant planets are less dense than the inner rocky planets. The densities of the four inner planets are between 3.94 g/cm3 to 5.515 g/cm3, ehile the outer gas planet densities range from 0.7 g/cm3 to 1.76 g/cm3.


Are the jovian planets similar in mass to the terrestrial planets?

No. The Jovian planets are much more massive than the terrestrial planets.


Is venus jovian or terrestrial?

Venus is a terrestrial planet, not a jovian planet. Terrestrial planets are rocky and have solid surfaces, while jovian planets are gas giants.


Is hydrogen more abundant on terrestrial planets than on Jovian planets?

No, there is more hydrogen on the Jovian planets then the terrestrial ones.


Is a Jovian planets is call Inner?

Inner planets are terrestrial planets outer are jovian planets


Is the average density of terrestrial planets the same density as Jovian planet?

No. Terrestrial planets are much denser than Jovian planets.


The most obvious difference between the terrestrial and the jovian planets is?

The most obvious difference between terrestrial and jovian planets is their composition. Terrestrial planets are rocky and dense, while jovian planets are mostly composed of gases and lack a solid surface. Additionally, jovian planets are typically larger in size and have extensive ring systems.


By what criteria are the planets placed into either the Jovian or terrestrial group?

Planets are categorized as either Jovian or terrestrial based on their composition and physical characteristics. Jovian planets are large gas giants with no solid surface, while terrestrial planets are rocky with a solid surface. Jovian planets are typically further from the sun than terrestrial planets.


How do Jovian and terrestrial planets compare?

Jovian planets are gas giants made mostly of hydrogen and helium, while terrestrial planets are rocky planets with solid surfaces. Jovian planets are much larger in size and have thick atmospheres, while terrestrial planets are smaller and have thinner atmospheres. Jovian planets have many moons and ring systems, while terrestrial planets have fewer moons and no rings.