Mixed

How do the interiors of the other Jovian planets compared to that of Jupiter?

How do the interiors of the other Jovian planets compared to that of Jupiter?

How do the interiors of the other Jovian planets compare to that of Jupiter? Saturn is the most similar to Jupiter; the layers only differ because of its lower mass and weaker gravity. The less mass makes the outer lying layers’ weight less on Saturn. Jupiter is still slowly contracting.

What does the interior of the Jovian planets look like?

Interiors. The cores of all four jovian planets are made of some combination of rock, metal and hydrogen compounds. Jupiter and Saturn have similar interiors, with layers extending outward of metallic hydrogen, liquid hydrogen, gaseous hydrogen, and topped with a layer of visible clouds.

READ:   Why are retrospective laws unfair?

Do Jovian planets have layered interiors?

(2) Both terrestrial and Jovian planets have layered interiors, with density increasing toward the center.

How do the interiors of Jupiter and Saturn differ?

Jupiter has a larger metallic hydrogen core than Saturn, and the larger this region is the stronger a magnetic field can be. Because of the two planets’ similar rotation periods, the difference in the magnetic fields must come from the differential core sizes.

Why do Jovian planets differ in size?

The main atmosphere of terrestrial planets is a gaseous mix of carbon dioxide and nitrogen gases, and all terrestrial planets have rocky surfaces. Jovian planets are larger, further from the sun, rotate faster, have more moons, have more rings, are less dense overall and have denser cores than terrestrial planets.

How do the interiors of the other Jovian planets compare to that of Jupiter chegg?

How do the interiors of the other jovian planets compare to that of Jupiter? The core is rock, metal & hydro compounds, metallic hydrogen, liquid hydrogen, gaseous hydrogen, cloudtops. It is layered this way because the gravity compresses it into layers. All the other Jovian planets are similar in composition and size.

READ:   How do you find standard deviation with upper and lower limits?

How do Jovian planets differ from terrestrial planets?

They are opposite to terrestrial planets in many ways. Jovian planets are larger, further from the sun, rotate faster, have more moons, have more rings, are less dense overall and have denser cores than terrestrial planets. Jovian planets also have gaseous atmospheres, with the main gases being hydrogen and helium.

What are the basic differences between the terrestrial and jovian planets which planets fall into each group?

What are the basic differences between the terrestrial and jovian planets? Which planets fall into each group? Jovian planets are much larger in size and lower in density than terrestrial planets: Jupiter, Saturn, Uranus, Neptune. You just studied 69 terms!

Which planet is Jovian?

These images of the four Jovian planets — Jupiter, Saturn, Uranus, and Neptune — hint at some of the remarkable attributes that set them apart from the smaller, rocky terrestrial planets.

READ:   Can you reset a fuse after it blows?

What are planetary rings made of and how do they differ among the four Jovian planets quizlet?

What are planetary rings made of, and how do they differ among the four jovian planets? They are made of small icy and rocky particles from the size of dust to large boulders. Saturn has the brightest rings as it has larger, brighter, and more ring particles than the other jovians.

What is the internal structure of Jupiter?

Jupiter is composed primarily of gaseous and liquid matter, with denser matter beneath. It’s upper atmosphere is composed of about 88–92\% hydrogen and 8–12\% helium by percent volume of gas molecules, and approx. 75\% hydrogen and 24\% helium by mass, with the remaining one percent consisting of other elements.

How are terrestrial and jovian planets similar?

Similarities: They were all formed at roghly the same time 4.6 billion years ago. All of them/both Jovian and Terrestrial planets orbit the sun. Both groups have magnetic fields.