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{{Article quote|The mystery of a thousand thousand lifetimes.}} | {{Article quote|The mystery of a thousand thousand lifetimes.}} | ||
''' | '''Titania''' is a Super-HydroJovian world in the Taishibeth system, erroneously classed as a double-system. It was discovered by the Argus array twenty years after the [[Arrival of the Black Fleet|Second Collapse]]. | ||
==Overview== | ==Overview== | ||
===Local star=== | ===Local star=== | ||
Titania orbits a white dwarf star named Taishibeth. No other planetary bodies have been detected. A major ring system of Hadaen, Cerean, and Vestian planetoids numbering in the upper billions orbits out at between four to five astronomical units and spans an AU in relative size. | |||
===Orbital position=== | ===Orbital position=== | ||
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====Satellites==== | ====Satellites==== | ||
*'''Oberon''': the second largest and most closest of these satellites, measuring at 6000 kilometers in size, it is tectonically active and possesses a sulphurous atmosphere. It is especially rich in volatiles. It is approximately four hundred thousand kilometers from | *'''Oberon''': the second largest and most closest of these satellites, measuring at 6000 kilometers in size, it is tectonically active and possesses a sulphurous atmosphere. It is especially rich in volatiles. It is approximately four hundred thousand kilometers from Titania. | ||
*'''Peasblossom''': similar in composition to Oberon, it is another world just shy of 5,000 km. It possesses no atmosphere but features active cryovolcanoes shooting volatiles from the subglacial ocean. It has great quantities of organic compounds and material. It is approximately sixteen million kilometers from | *'''Peasblossom''': similar in composition to Oberon, it is another world just shy of 5,000 km. It possesses no atmosphere but features active cryovolcanoes shooting volatiles from the subglacial ocean. It has great quantities of organic compounds and material. It is approximately sixteen million kilometers from Titania. | ||
*'''Cobweb''': a tiny world of barely 2,000 km, it is locked in a Trojan orbit with Moth. It has little significance apart from a subglacial ocean system and groups of methane lakes on the surface. It is approximately fifty million kilometers from | *'''Cobweb''': a tiny world of barely 2,000 km, it is locked in a Trojan orbit with Moth. It has little significance apart from a subglacial ocean system and groups of methane lakes on the surface. It is approximately fifty million kilometers from Titania. | ||
*'''Moth''': the smallest of the five moons, it is in a Trojan orbit with Cobweb. It is rich in minerals and useful material for orbital construction. It possesses no atmosphere and is approximately fifty million kilometers from | *'''Moth''': the smallest of the five moons, it is in a Trojan orbit with Cobweb. It is rich in minerals and useful material for orbital construction. It possesses no atmosphere and is approximately fifty million kilometers from Titania. | ||
*'''Mustardseed''': originally misclassed as a rocky world due to its great distance, further expeditions showed that it is in fact a MicroJovian (or a Gas dwarf) of almost 14000 kilometers in diameter, or a third of | *'''Mustardseed''': originally misclassed as a rocky world due to its great distance, further expeditions showed that it is in fact a MicroJovian (or a Gas dwarf) of almost 14000 kilometers in diameter, or a third of Titania's observed size, and has cleared a gap of nearly two hundred thousand kilometers in the rings, the largest yet, and is approximately seventy five million kilometers from Titania. There are no signs of life recorded anywhere on the planet. It possesses two moons. | ||
**'''Puck''': a tiny orbital, measuring twenty-odd kilometers in size, and has the appearance of 67P/C-G. | **'''Puck''': a tiny orbital, measuring twenty-odd kilometers in size, and has the appearance of 67P/C-G. | ||
**'''Ghosh''': another tiny orbital, measuring twelve kilometers, lumpy and pitted with craters. | **'''Ghosh''': another tiny orbital, measuring twelve kilometers, lumpy and pitted with craters. | ||
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===Physical characteristics=== | ===Physical characteristics=== | ||
Titania's atmosphere is predominantly hydrogen with trace elements of nitrogen, oxygen, methane, ammonia and argon making up less than five percent of the total. It has a relative Jovian mass averaging 12.5, suggesting that it is close to that of a Y-type, or ultra-cool, brown dwarf; its physical size is actually five times [[Earth]]'s radii. | |||
It has an average surface temperature of 300 Kelvin, or a warm summer’s day of approximately 80° Fahrenheit. It is colder towards the poles and warmer towards the equator, made possible by immense and violent windstorms that consume the planet. The planet’s physical coloration is a brilliant sky-blue from Rayleigh scattering and has an albedo of 0.12. | It has an average surface temperature of 300 Kelvin, or a warm summer’s day of approximately 80° Fahrenheit. It is colder towards the poles and warmer towards the equator, made possible by immense and violent windstorms that consume the planet. The planet’s physical coloration is a brilliant sky-blue from Rayleigh scattering and has an albedo of 0.12. | ||
===Internal characteristics=== | ===Internal characteristics=== | ||
Titania can be divided, roughly, into three layers: the atmosphere, extensively hydrogen with pockets of trace gasses; the oceans, liquid water, ammonia, and methane; and the crust, rock in varying states and metallic hydrogen. | |||
The atmosphere, when measured from the surface to the point where true space begins, is approximately 24000 kilometers thick. This keeps the surface, and the oceans below, warm, heated by the dual processes of the greenhouse effect and the immense pressures on the planetary core from its gravity. Despite violent storms wracking the planet on the super-continental scale there exists life aplenty drifting along the turbulent currents. Many of these are collective organisms, resembling enormous floating jellyfish. They feed on aerial colonies of plankton and algae. Others follow the lightning storms, feasting on the energy discharges. Others are massive winged entities, some of these reaching wingspans of ten kilometers or more, hunting the floaters. The most notable of these are a species of enormous bird-like creatures, tentatively termed “rocs”, apparently at the top of the food chain. Incredibly there exist floating continents, solidifed hydrogen and other gasses that have formed on the canopies of some of the most massive of the floaters, which can measure up to twenty kilometers around. Upon these alien continents live entirely unique ecosystems of wholly unique organisms similar to Terran species, not unlike the Galapagos Islands. | The atmosphere, when measured from the surface to the point where true space begins, is approximately 24000 kilometers thick. This keeps the surface, and the oceans below, warm, heated by the dual processes of the greenhouse effect and the immense pressures on the planetary core from its gravity. Despite violent storms wracking the planet on the super-continental scale there exists life aplenty drifting along the turbulent currents. Many of these are collective organisms, resembling enormous floating jellyfish. They feed on aerial colonies of plankton and algae. Others follow the lightning storms, feasting on the energy discharges. Others are massive winged entities, some of these reaching wingspans of ten kilometers or more, hunting the floaters. The most notable of these are a species of enormous bird-like creatures, tentatively termed “rocs”, apparently at the top of the food chain. Incredibly there exist floating continents, solidifed hydrogen and other gasses that have formed on the canopies of some of the most massive of the floaters, which can measure up to twenty kilometers around. Upon these alien continents live entirely unique ecosystems of wholly unique organisms similar to Terran species, not unlike the Galapagos Islands. | ||
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The subglacial oceans beneath, spanning a mere eighty kilometers deep at their most extreme, are largely walled off from the surface by shifting cave systems and crushing ice packs; seldom are these tunnels stable, the great tectonic currents of the mountains below pushing and squeezing any sort of escape. The seas are ice water mixed liberally with ammonia, methane, liquid hydrogen, and trace elements. Vast mountainous chains break up the ocean floor, anchoring the continents above; offshoots of the surface volcanoes are plentiful, and are host to vast and complex ecosystems that live near poisonous and concentrated salt oceans. Upside-down waterfalls are common sights. The spaces between the mountain ranges and volcanoes are perilous, full of supercritical fluids hostile to even chemoautotrophic life, the haunt of predators capable of surviving there. | The subglacial oceans beneath, spanning a mere eighty kilometers deep at their most extreme, are largely walled off from the surface by shifting cave systems and crushing ice packs; seldom are these tunnels stable, the great tectonic currents of the mountains below pushing and squeezing any sort of escape. The seas are ice water mixed liberally with ammonia, methane, liquid hydrogen, and trace elements. Vast mountainous chains break up the ocean floor, anchoring the continents above; offshoots of the surface volcanoes are plentiful, and are host to vast and complex ecosystems that live near poisonous and concentrated salt oceans. Upside-down waterfalls are common sights. The spaces between the mountain ranges and volcanoes are perilous, full of supercritical fluids hostile to even chemoautotrophic life, the haunt of predators capable of surviving there. | ||
At the very bottom is the ocean floor, a mixture of metallic hydrogen and superheated rock, provoked into searing heat by the crushing power of | At the very bottom is the ocean floor, a mixture of metallic hydrogen and superheated rock, provoked into searing heat by the crushing power of Titania's own gravity. Even here life has made a home. Most life native to Titania lives in the oceans. Chemotrophs make up the food web, their entire biosphere and global biodiversity built to live inside the ocean. Every species observed is bioluminescent. | ||
Owing to lower genetic diversity around ninety percent of extant species exist in symbiotic relationships, forming the enormous forests of coral and seaweed that cover the slopes and hillsides of underground mountain ranges and vast drifting swarms of plankton and algaes. The other ten percent is estimated to be ordinary invertebrates, vertebrates, and other individual animals. These range from massive herbivorous beasts stretching almost a kilometer in size in their wingspan (from abyssal gigantism) to tiny predators less than a foot in size. They feed off of hydrocarbons for nourishment, such as acetylene, and either directly from other organisms or from the environment. | Owing to lower genetic diversity around ninety percent of extant species exist in symbiotic relationships, forming the enormous forests of coral and seaweed that cover the slopes and hillsides of underground mountain ranges and vast drifting swarms of plankton and algaes. The other ten percent is estimated to be ordinary invertebrates, vertebrates, and other individual animals. These range from massive herbivorous beasts stretching almost a kilometer in size in their wingspan (from abyssal gigantism) to tiny predators less than a foot in size. They feed off of hydrocarbons for nourishment, such as acetylene, and either directly from other organisms or from the environment. | ||
==History== | ==History== | ||
===The Ancient Past=== | ===The Ancient Past=== | ||
===Evacuation of Earth=== | |||
=== | |||
===The Present Day=== | ===The Present Day=== |