Stratos: Difference between revisions
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| min_temp_1 = -147.3 °C | | min_temp_1 = -147.3 °C | ||
| mean_temp_1 = -102.8 °C | | mean_temp_1 = -102.8 °C | ||
| max_temp_1 = -72.4 °C<sup>*excluding | | max_temp_1 = -72.4 °C<sup>*excluding volcanic activity<sup> | ||
| temp_name2 = Fahrenheit | | temp_name2 = Fahrenheit | ||
| min_temp_2 = -233.1 °F | | min_temp_2 = -233.1 °F | ||
| mean_temp_2 = -153.0 °F | | mean_temp_2 = -153.0 °F | ||
| max_temp_2 = -98.3 °F<sup>*excluding | | max_temp_2 = -98.3 °F<sup>*excluding volcanic activity<sup> | ||
| temp_name3 = | | temp_name3 = | ||
| min_temp_3 = | | min_temp_3 = |
Revision as of 17:59, 25 May 2020
Orbital characteristics | |||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Epoch A2000 | |||||||||||||
Aphelion | 380161000 km (236221000 mi) | ||||||||||||
Perihelion | 348306000 km (216427000 mi) | ||||||||||||
364233416 km (226324152 mi) | |||||||||||||
Eccentricity | ~0.0437290 | ||||||||||||
1454.46 d (47.785 months) | |||||||||||||
Average orbital speed | 19.085 km/s (11.859 mi/s) | ||||||||||||
Inclination | 2.5318° | ||||||||||||
Satellites | 3 natural satellites 10+ operational artificial satellites | ||||||||||||
Physical characteristics | |||||||||||||
Equatorial radius | 6241.9 km (3878.5 mi) | ||||||||||||
Polar radius | 6225.7 km (3868.5 mi) | ||||||||||||
Flattening | .0025972 | ||||||||||||
Circumference | 39190.866 km (24352.075 mi) (mean) | ||||||||||||
488,900,000km2 (316,944,000 mi2) | |||||||||||||
Volume | 1.01649 × 1012 km3 | ||||||||||||
Mass | 5.42164 × 1024 kg | ||||||||||||
Mean density | 5.3337 g/cm3 | ||||||||||||
9.300 m/s2 | |||||||||||||
10.77 km/s (6.69 mi/s) | |||||||||||||
Sidereal rotation period | 1.0512 d (25.23 h) | ||||||||||||
Equatorial rotation velocity | 0.58104 km/s (0.36104 mi/s) | ||||||||||||
11.71944° | |||||||||||||
Albedo | 0.671 Bond | ||||||||||||
| |||||||||||||
Atmosphere | |||||||||||||
Surface pressure | 283.710 kPa (at MSL) | ||||||||||||
Composition by volume | 60.1% nitrogen (N2) 27.5% methane (CH4) 2.0% argon 0.4% other |
Stratos is the third planet from the Sun in the Tendor system. Despite its similarity in size and mass with Anteria, it is quite unsuitable for life, hosting an average temperature of below -100 degrees celcius thanks to its high albedo and distance from the Sun, with the frosting on the cake being that its atmosphere has a relatively high concentration of toxic gases in the likes of sulfur dioxide and nitrogen dioxide.
The planet is a terrestrial planet, and is often referred to as Anteria's 'sister planet' due to its similar size and mass, and its landforms, thanks to it having liquid on its surface and having a thick atmosphere, is surprisingly similar to Anteria's. It is one of the brighter objects in the night sky thanks to its high albedo caused by its icy surface of frozen carbon dioxide (dry ice), solid hydrocarbons, and water ice. It appears slightly blue-green thanks to the high amount of copper present in the planet's crust, forming a large amount of copper salts and oxides of the color that mixes with the other constituents of its surface. Lakes and seas of light hydrocarbons are present on the surface of the planet, though it likely does not host any extraterrestrial life.
Despite its inhospitability, it is still one of the more prominent celestial bodies that Anterians wish to colonize within the near future thanks to its relative proximity, though it is quite likely that colonies would instead be constructed on one of its two substantial moons first, being easier to use as stepping stones for further exploration than Stratos, having an atmosphere over two and a half times thicker than on Anteria.
Physical Characteristics
Stratos is one of the four terrestrial planets in the Tendor system, hosting a surprising amount of interesting geography for a supposed frozen ice ball, due to its thick atmosphere allowing for liquid to exist on its surface.
Geography
Stratoan geography is surprisingly familiar thanks to the presence of liquid C2-C5 hydrocarbons, and hosts the same sort of geography one sees on Anteria, including river valleys, floodplains, and in certain locations even mesas. The main difference (ignoring the obvious lack of life) is that there are only a handful of shallow seas and lakes, meaning that there are regions that receive little to no precipitation, creating large swaths of barren desert, which much more resembles what scientists would expect on a frozen planet of the sort, similar to the planet Mars in the fictional system of Sol.
Surface Geology
The Stratoan surface appears to have been shaped primarily by various forms of weathering, plate tectonics, and volcanic activity, with little to no signs of asteroid impact, while it is formed primarily of volcanic rock in the likes of basalt, andesite, and granite, with a high concentration of copper and nickel, contributing to the planet's blue-green tint. WIP
Orbit and Rotation
WIP
Moons
WIP
Habitability
Stratos in its current state is fairly inhospitable to life, and will take a large amount of terraforming to make the entire planet habitable for humans, if that is at all possible, though it is speculated that there may be Stratoan microbes in certain volcanic hotspots acround the planet, given that liquid water have been observed to be present on the surface near volcanic vents, though if they do exist, likely only in small numbers.
Stratos would tough to colonize effectively, thanks to its thick atmosphere and similar gravity to Anteria making leaving the planet require more fuel than leaving Anteria itself, though not to say it is entirely unfeasible. For starters, water ice is fairly common on Stratos, albeit requiring a bit of excavation to get to, allowing for the creation of breathable oxygen, and possibly fuel as well in the form of hydrogen. The surface gravity is practically the same as on Anteria, and there are plenty of exploitable resources on the surface of the planet. The main hurdle as of the time being is actually making it to Stratos without receiving a lethal dose of cosmic radiation, and to set up a base to begin with. In the grand scheme of things, despite the abundance of fuel and resources on Stratos itself, it is likely more practical to set up camp on one of its moons to start instead, before moving onto the planet itself.