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the 7th Moon of Meko 5, Please Wait... Displaying Data
Planet DataFile:
The 7th Moon of Meko Alpha V is a barrain chlorine moon of very little use, unless you need chlorine.
ME.8409-KO.6383 System (Meko)
Star:
Meko A Orbital Bodies:
Name
Planet Type
Moons
Alpha I
Cratered Rock
0
Alpha II
Airless Rock
1
Alpha III
Cratered Moon
0
Alpha IV
Gas Giant
16
Alpha V
Gas Giant
21
Alpha VI
Gas Giant
12
Alpha VII
Ball of Ice
1
Star:
Meko B Orbital Bodies:
Name
Planet Type
Moons
Beta I
Searing Rock
0
Beta II
Cratered Moon
1
7th of Meko 5 Type:
Satellite Temperature:
Cool Atmosphere:
Type IV (Environment Suit Required) Hydrosphere:
Dry Gravity:
Light Terrain:
Chlorine Moon Length of Day:
16.24:761 Hours Length of Year:
653.322 Local Days Sapient Species:
None Starport:
None Population:
0 Planet Function:
None Government:
None Tech Level:
None Major Exports:
None Major Imports:
None
World Summary:
The 7th moon of Meko 5 appears to hold a light chlorine atmosphere. Light weather patterns do exist which seem to create the occasional chlorine rain shower. No life signs found. Only use would be chlorine extraction.
System Summary:
The ME.8409-KO.6383 System was nick named "Meko" by local spacers of the Abrion Sector. Meko was simply a lot shorter to say then its star catalog name. Meko seems to pull a larger mass shadow at different times of the year based on the far orbit of its binary companion star. During these times hyperspace jumps close to the system are often affected, pushing ships off course. As such most major space lanes now avoid the area around Meko all together. Beyond the Astrophysical malfunctions Meko is a worthless binary system with 3 gas giants and a few score of moons. Nothing of any real interest can be found here.
The first few planets of Meko A and both planets of Meko B are airless cratered rocks of a carbon and iron mixture.
The Meko system also holds three Gas Giants, each of these contains a number of moons, 49 between the three of them. Again these moons seem to be Carbon, Iron, and Ice moons as you get out toward the outer system orbits.
