Ceres: Difference between revisions
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Despite serious delays, by the late 2080s, the first habitats of the [[Ceres Colony]] were established on Ceres, serving as hubs of scientific research, mining operations and preparation for larger-scale colonization. | Despite serious delays, by the late 2080s, the first habitats of the [[Ceres Colony]] were established on Ceres, serving as hubs of scientific research, mining operations and preparation for larger-scale colonization. | ||
[[Category:Lore]] |
Latest revision as of 09:45, 18 December 2024
Ceres is the largest object in the asteroid belt between Mars and Jupiter and was the first such object to be discovered. It holds a unique position in astronomy as both a dwarf planet and an asteroid.
Ceres has a diameter of approximately 940 kilometers (about 584 miles), making it the largest object in the asteroid belt and comprising roughly one-third of the belt's total mass. Its surface is a mixture of water ice, hydrated minerals, and carbonates, with evidence of past cryovolcanic activity.
Geography[edit | edit source]
The surface of Ceres is heavily cratered, with Occator Crater being the most notable. This large impact site is famous for its bright spots, with deposits of sodium carbonate within it. Other prominent craters include Kerwan and Yalode, which create significant topographical variation across the surface.
Ceres has surface features like ridges and scarps that hint at past geological activity. These formations create jagged, uneven terrain that separates the smoother plains from the deep basins.
Ahuna Mons is the most prominent mountain on Ceres, believed to be a cryovolcano. Its steep, solitary structure contrasts with the otherwise relatively flat surroundings, making it a key geographical landmark.
Ecosystem[edit | edit source]
As a cold, barren dwarf planet with no atmosphere capable of supporting life as we know it, there is no ecosystem in Ceres.
Climate[edit | edit source]
The climate on Ceres is harsh and unyielding due to its lack of a substantial atmosphere. Without atmospheric pressure or weather systems, Ceres does not experience climate variations like those on Earth.
The surface temperature on Ceres is extremely cold, averaging around -105°C (-157°F). In areas exposed to direct sunlight, temperatures can rise slightly, peaking at around -38°C (-36°F). However, the absence of an atmosphere means that any warmth from the Sun is quickly lost when the surface rotates into darkness, causing significant temperature drops.
Ceres has an incredibly thin exosphere composed mainly of water vapor, which is not dense enough to provide any significant climate regulation. This exosphere is produced when water ice sublimates directly into vapor due to solar heating. It is not capable of supporting weather phenomena, wind, or rain. Natural Resources
One of the most significant resources on Ceres is the presence of water ice, and vast subsurface ice deposits. These are harvested for life support systems and for hydrogen and oxygen production.
It is a mineral-rich planet with a lot of mining operations being conducted on its surface.
History[edit | edit source]
Ceres was discovered on January 1, 1801, by Italian astronomer Giuseppe Piazzi at the Palermo Astronomical Observatory in Sicily. Piazzi initially believed he had found a new star or comet, but subsequent observations confirmed it was a new type of object orbiting between Mars and Jupiter. Piazzi named it Ceres, after the Roman goddess of agriculture and fertility, reflecting a tradition of naming celestial bodies after mythological figures.
In the early 2060s, following a boon in spacefaring operations, plans begun to send manned expeditions to Ceres.
Despite serious delays, by the late 2080s, the first habitats of the Ceres Colony were established on Ceres, serving as hubs of scientific research, mining operations and preparation for larger-scale colonization.