A terrestrial planet, or rocky planet, is a planet that is mostly composed of silicate, rocks and metals. Earth is the "original" terrestrial planet. When astronomers started understanding the kinds of planet they extended the term to include our nearest rocky neighbours: Mercury, Venus and Mars.
It is often said that they are similar to Earth. This is true of most of the structure and composition, but not the surface or the atmosphere. A terrestrial planet may be much hotter or colder than Earth, and may have a very different atmosphere.
With the discovery of planets orbiting other stars (exoplanets), the term terrestrial planet has been extended again to any rocky (silicate) planet orbiting any star.
All terrestrial planets have a core, a mantle, and a crust. They are a bit like a boiled egg: the central yolk is the core; the white albumin is the mantle; and the shell is the crust. The crust of a terrestrial planet is thin, with the core and the mantle taking up the vast bulk, sometimes with a very large core, sometimes much smaller. Terrestrial planets have metallic cores of mostly iron, with rocky mantles and crusts.
All terrestrial planets have the same type of structure: a central metalliccore, mostly iron, with a surrounding silicatemantle.
The Moon is similar, but has a much smaller iron core. Io and Europa are also satellites that have internal structures similar to that of terrestrial planets. Terrestrial planets can have canyons, craters, mountains, volcanoes, and other surface structures, depending on the presence of water and tectonic activity. Terrestrial planets have secondary atmospheres, got from volcanism, meteorites, and photosynthesis. In the giant planets, their atmospheres are primary, captured directly from the original solar nebula.[1]
- setting this to "bottom-right" will display a (rather large) icon linking to the graphic, if desired
Notes:
Details on the new coding for clickable images is here: [1]
The smaller planets have a bit of an overlap just to ensure they're locatable, especially in the belts.
While it may look strange, it's important to keep the codes for a particular system in order. The clickable coding treats the first object created in an area as the one on top.
- I've placed moons on "top" so that their smaller circles won't disappear "under" their respective planets or dwarf planets.
The "poly" code would be more appropriate for the moons of Jupiter, Saturn, and Uranus. However, there appears to be a bug with that aspect of the code.
- I've compensated by using oversized circles for those moon groups, and tucking them UNDER their planets for now.
The Sun is a rectangle as that approximates the edge closely enough for the purposes of this template.
I've guessed as to the boundaries for the KB, SD, and OC - if they need adjustment, load the image into Paint and use the pencil tool to find the appropriate coordinates.
