mNo edit summary
|
ce + "moon-sized ... ... form out of km-sized planetesimals" is problematic (there are many km-sized moons) and not necessary to say (this way) anyway
|
||
Line 1: | Line 1: | ||
[[File:Vesta-HST-Color.jpg|thumb|A surviving protoplanet, [[4 Vesta]].]] |
[[File:Vesta-HST-Color.jpg|thumb|A surviving protoplanet, [[4 Vesta]].]] |
||
'''Protoplanets''' are |
'''Protoplanets''' are large planetary embryos within [[protoplanetary disc]]s that have undergone internal melting to produce differentiated interiors. They are believed to form out of kilometer-sized [[planetesimal]]s that attract each other gravitationally and collide. According to [[solar nebula|planet-formation theory]], protoplanets perturb each other's orbits slightly and thus collide in giant impacts to gradually form the dominant [[planet]]s. |
||
In the case of the [[Solar System]] it is thought that the collisions of planetesimals created a few hundred planetary embryos. Such embryos were similar to [[Ceres (dwarf planet) |
In the case of the [[Solar System]] it is thought that the collisions of planetesimals created a few hundred planetary embryos. Such embryos were similar to [[Ceres (dwarf planet)|Ceres]] and [[Pluto]] with masses of about 10<sup>22</sup> to 10<sup>23</sup> kg and were a few thousand kilometers in diameter. Over the course of about 100 [[Annum|Ma]] they were involved in giant impacts with one another. The exact sequence whereby planetary embryos collided to assemble the planets is not known, but it is thought that initial collisions would have replaced the first "generation" of embryos with a second generation consisting of fewer but larger embryos. These in their turn would have collided to create a third generation of fewer but even larger embryos. Eventually only a handful of embryos were left, which collided to complete the assembly of the [[planet]]s proper.<ref>{{cite book |
||
|title=An Introduction to the Solar System |
|title=An Introduction to the Solar System |
||
|pages=56 |
|pages=56 |
||
Line 13: | Line 13: | ||
|isbn=978052183735}}</ref> |
|isbn=978052183735}}</ref> |
||
Early protoplanets had more [[radioactive]] elements, the quantity of which has been reduced over time due to [[radioactive decay]]. |
Early protoplanets had more [[radioactive]] elements, the quantity of which has been reduced over time due to [[radioactive decay]]. Heating due to radioactivity, impact, and gravitational pressure melted parts of protoplanets as they grew toward being planets. In melted zones their heavier [[Chemical element|element]]s sank to the center, while lighter elements rose to the surface. Such a process is known as [[planetary differentiation]]. The composition of some [[meteorite]]s show that differentiation took place in some [[asteroid]]s. |
||
The [[giant impact |
The [[giant impact hypothesis]] proposes that [[Earth]]'s [[Moon]] formed from a colossal impact of a hypothetical protoplanet, named [[Theia (planet)|Theia]], with Earth, early in the [[Formation and evolution of the Solar System|Solar System's history]]. |
||
In the inner Solar System, the three protoplanets to survive more-or-less intact are the [[asteroid]]s 1 Ceres, [[2 Pallas]], and [[4 Vesta]].<ref>{{cite web |
In the inner Solar System, the three protoplanets to survive more-or-less intact are the [[asteroid]]s 1 Ceres, [[2 Pallas]], and [[4 Vesta]].<ref>{{cite web |
||
Line 29: | Line 29: | ||
| doi = |
| doi = |
||
| accessdate = 2009-10-08}} |
| accessdate = 2009-10-08}} |
||
</ref> [[Kuiper |
</ref> [[Kuiper belt|Kuiper-belt]] [[dwarf planet]]s have also been referred to as protoplanets.<ref name=msnbc>{{cite web |
||
|date=2009-10-08 |
|date=2009-10-08 |
||
|title=Protoplanet frozen in time |
|title=Protoplanet frozen in time |
||
Line 35: | Line 35: | ||
|author=Alan Boyle |
|author=Alan Boyle |
||
|url=http://cosmiclog.msnbc.msn.com/archive/2009/10/08/2092402.aspx |
|url=http://cosmiclog.msnbc.msn.com/archive/2009/10/08/2092402.aspx |
||
|accessdate=2009-09-12}}</ref> |
|accessdate=2009-09-12}}</ref> Because [[Iron meteorite|iron meteorites]] have been found on Earth, it is deemed likely that there once were other metal-cored protoplanets in the [[asteroid belt]] that since have been disrupted and that are the source of these meteorites. |
||
==References== |
==References== |
Protoplanets are large planetary embryos within protoplanetary discs that have undergone internal melting to produce differentiated interiors. They are believed to form out of kilometer-sized planetesimals that attract each other gravitationally and collide. According to planet-formation theory, protoplanets perturb each other's orbits slightly and thus collide in giant impacts to gradually form the dominant planets.
In the case of the Solar System it is thought that the collisions of planetesimals created a few hundred planetary embryos. Such embryos were similar to Ceres and Pluto with masses of about 1022 to 1023 kg and were a few thousand kilometers in diameter. Over the course of about 100 Ma they were involved in giant impacts with one another. The exact sequence whereby planetary embryos collided to assemble the planets is not known, but it is thought that initial collisions would have replaced the first "generation" of embryos with a second generation consisting of fewer but larger embryos. These in their turn would have collided to create a third generation of fewer but even larger embryos. Eventually only a handful of embryos were left, which collided to complete the assembly of the planets proper.[1]
Early protoplanets had more radioactive elements, the quantity of which has been reduced over time due to radioactive decay. Heating due to radioactivity, impact, and gravitational pressure melted parts of protoplanets as they grew toward being planets. In melted zones their heavier elements sank to the center, while lighter elements rose to the surface. Such a process is known as planetary differentiation. The composition of some meteorites show that differentiation took place in some asteroids.
The giant impact hypothesis proposes that Earth's Moon formed from a colossal impact of a hypothetical protoplanet, named Theia, with Earth, early in the Solar System's history.
In the inner Solar System, the three protoplanets to survive more-or-less intact are the asteroids 1 Ceres, 2 Pallas, and 4 Vesta.[2] Kuiper-belt dwarf planets have also been referred to as protoplanets.[3] Because iron meteorites have been found on Earth, it is deemed likely that there once were other metal-cored protoplanets in the asteroid belt that since have been disrupted and that are the source of these meteorites.
{{cite web}}
: Cite has empty unknown parameter: |coauthors=
(help)