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The Jupiter trojans, commonly called trojan asteroids or simply trojans, are a large group of asteroids that share the planet Jupiter's orbit around the Sun. Relative to Jupiter, each trojan librates around one of Jupiter's stable Lagrange points: either L 4, existing 60° ahead of the planet in its orbit, or L 5, 60° behind. Jupiter trojans ...
The orbital distribution of the asteroids reaches a maximum at an eccentricity around 0.07 and an inclination below 4°. [67] Thus, although a typical asteroid has a relatively circular orbit and lies near the plane of the ecliptic , some asteroid orbits can be highly eccentric or travel well outside the ecliptic plane.
Asteroids are given minor planet numbers, but not all minor planets are asteroids. Minor planet numbers are also given to objects of the Kuiper belt , which is similar to the asteroid belt but farther out (around 30–60 AU), whereas asteroids are mostly between 2–3 AU from the Sun or at the orbit of Jupiter 5 AU from the Sun.
The asteroids are like fossils themselves, representing the leftover material hanging around after the formation of giant planets in our solar system, including Jupiter, Saturn, Uranus and Neptune.
List of Jupiter trojans (Greek camp) (600001–700000) List of Jupiter trojans (Trojan camp) List of Jupiter trojans (Trojan camp) (1–100000) List of Jupiter trojans (Trojan camp) (100001–200000) List of Jupiter trojans (Trojan camp) (200001–300000) List of Jupiter trojans (Trojan camp) (300001–400000) List of Jupiter trojans (Trojan ...
Hence the smallest object orbits around the barycenter with the same orbital period as the planet, and the arrangement can remain stable over time. [1] In the Solar System, most known trojans share the orbit of Jupiter. They are divided into the Greek camp at L 4 (ahead of Jupiter) and the Trojan camp at L 5 (trailing Jupiter).
NASA has blasted a spacecraft, traveling at speeds up to 92,000 mph, to the most mysterious asteroids in our solar system.Called the Trojan asteroids, they are trapped in two swarms — one in ...
The Grand tack hypothesis explains how in the Solar System giant planets migrated in unique way to form the Solar System belts and near circular orbit of planets around the Sun. [10] [11] [9] The Solar System's belts are one key parameters for a Solar System that can support complex life, as circular orbits are a parameter needed for the ...