Antecanis Ceti Major Star System

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Antecanis Ceti Major
Type: A5III White Giant Star
Radius: 3.48 x 109 km
Mass: 4.76 x 1030 kg (2.4x Sol)
Temperature: 8700 K
Luminosity: 8.12 x 1027 W (21.3x Sol)
Ecosphere:Between 4.4 and 6.33 AU
Location: Xi Ursae Sector

This system contains 6 planets with 8 moons and 1 asteroid belt. There is 1 class O world in the system.

8915-FX

Class: C
Distance: 1.317 AU
Period: 1 year 187 days 6 hours and 54 minutes
Radius: 9,385.79 km
Gravity: 1.337 g

There are no moons orbiting this planet. There is no atmosphere and the surface has an average temperature of 224.2 degrees C. Dead worlds, no atmosphere Anthracite, basalt, hydrocarbons

3426-HV

Class: B
Distance: 3.408 AU
Period: 6 years 107 days 12 hours and 8 minutes
Radius: 833.36 km
Gravity: 0.097 g

There are no moons orbiting this planet. Surface conditions are an average of 125892.0 kPa or 1242.76 atmospheres and an average surface temperature of 20.0 degrees C. Helium, sodium, oxygen Small, molten, thin atmosphere Iron, potassium, silicon

Hydraqua

Class: O
Distance: 5.809 AU
Period: 14 years 3 days 18 hours and 50 minutes
Radius: 5,535.0 km
Gravity: 1.088 g

This Class O planet, orbiting the star Antecanis Ceti Major at a distance of 5.809 AU, has no moons. The average surface pressure is 103.7 kPa (1.02 atm) with an average temperature of 49.3°C, making it a warm and humid world. The planet is the native home world for the Hydraquari, a species of deep-water dwelling life forms similar to large crabs, though with a humanoid torso. Signals from the race were picked up by the Antecanis Terminal and first contact was made by Tsuna Charybdis and Typha Keane in 2389. The Hydroquari have agreed to share the planet with the station so long as the races abide by a mutual treaty which outlines responsibilities and privileges of each party.

The Antecanis Terminal, a Hermod Outpost operated by Solas Tempus, was installed near one of the minimal polar ice caps. The station is powered by the planet's abundant geothermal energy, harnessed from the planet's thin crust which averages 160km thick but can be as thin as 72km in certain areas. This thin crust contributes to the minimal volcanic activity observed on the planet.

The surface of the planet is 97.3% liquid water, with a shallow axial tilt resulting in mild seasonal variations and a stable climate. Most of the planet experiences conditions similar to Earth's tropical and subtropical regions. The atmosphere is composed primarily of oxygen, nitrogen, and argon, further supporting the possibility of life.

7172-FL

Class: C
Distance: 6.889 AU
Period: 18 years 33 days 18 hours and 55 minutes
Radius: 554.75 km
Gravity: 0.065 g

There are no moons orbiting this planet. There is no atmosphere and the surface has an average temperature of -63.5 degrees C. Dead worlds, no atmosphere Anthracite, basalt, hydrocarbons

3891-NB

Class: C
Distance: 7.587 AU
Period: 20 years 333 days 16 hours and 23 minutes
Radius: 4,546.14 km
Gravity: 0.614 g

There are no moons orbiting this planet. There is no atmosphere and the surface has an average temperature of -77.9 degrees C. Dead worlds, no atmosphere Anthracite, basalt, hydrocarbons

7931-BX

Class: C
Distance: 9.627 AU
Period: 29 years 325 days 8 hours and 27 minutes
Radius: 9,894.4 km
Gravity: 1.204 g

There are 8 moons orbiting this planet. There is no atmosphere and the surface has an average temperature of -89.2 degrees C. Dead worlds, no atmosphere Anthracite, basalt, hydrocarbons

841

Class: D
Distance: 2.30864 x 107 km
Period: 22 days 3 hours and 25 minutes
Radius: 1,243.36 km
Gravity: 0.167 g

There is no atmosphere and the surface has an average temperature of -96.1 degrees C. Small icy bodies (not true planets), often called dwarf or pseudo planets Frozen hydrocarbons, ice

373

Class: D
Distance: 5.64953 x 107 km
Period: 84 days 18 hours and 20 minutes
Radius: 2,320.24 km
Gravity: 0.307 g

There is no atmosphere and the surface has an average temperature of -99.8 degrees C. Small icy bodies (not true planets), often called dwarf or pseudo planets Frozen hydrocarbons, ice

176

Class: D
Distance: 6.33538 x 107 km
Period: 100 days 15 hours and 49 minutes
Radius: 1,539.61 km
Gravity: 0.177 g

There is no atmosphere and the surface has an average temperature of -97.1 degrees C. Small icy bodies (not true planets), often called dwarf or pseudo planets Frozen hydrocarbons, ice

765

Class: D
Distance: 6.66067 x 107 km
Period: 108 days 12 hours and 15 minutes
Radius: 2,427.99 km
Gravity: 0.371 g

There is no atmosphere and the surface has an average temperature of -95.9 degrees C. Small icy bodies (not true planets), often called dwarf or pseudo planets Frozen hydrocarbons, ice

540

Class: D
Distance: 7.23581 x 107 km
Period: 122 days 20 hours and 44 minutes
Radius: 648.29 km
Gravity: 0.079 g

There is no atmosphere and the surface has an average temperature of -87.2 degrees C. Small icy bodies (not true planets), often called dwarf or pseudo planets Frozen hydrocarbons, ice

834

Class: D
Distance: 7.52336 x 107 km
Period: 130 days 6 hours and 14 minutes
Radius: 327.85 km
Gravity: 0.045 g

There is no atmosphere and the surface has an average temperature of -87.0 degrees C. Small icy bodies (not true planets), often called dwarf or pseudo planets Frozen hydrocarbons, ice

455

Class: D
Distance: 7.59137 x 107 km
Period: 132 days and 43 minutes
Radius: 840.05 km
Gravity: 0.102 g

There is no atmosphere and the surface has an average temperature of -89.8 degrees C. Small icy bodies (not true planets), often called dwarf or pseudo planets Frozen hydrocarbons, ice

873

Class: D
Distance: 7.64752 x 107 km
Period: 133 days 11 hours and 57 minutes
Radius: 1,074.98 km
Gravity: 0.133 g

There is no atmosphere and the surface has an average temperature of -98.2 degrees C. Small icy bodies (not true planets), often called dwarf or pseudo planets Frozen hydrocarbons, ice

Asteroid Belt

An asteroid belt orbits roughly between 11.382 AU and 20.124 AU.