Revision for Thargoid's Teeth | ||
Previous Revision, by CMDR Marx [2023-02-16 12:43:43] | → | Selected revision, by PhoenixBlue [2023-02-17 11:28:39] |
DISCOVERER | ||
CMDR RoyalKnight557 | → | CMDR RoyalKnight557 |
NAME | ||
Thargoid's Teeth | → | Thargoid's Teeth |
SYSTEMNAME | ||
Dryoi Eaec HF-C d14-3 | → | Dryoi Eaec HF-C d14-3 |
CATEGORY | ||
Organic | → | Organic |
CATEGORY 2 | ||
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REGION | ||
Formidine Rift | → | Formidine Rift |
LATITUDE | ||
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LONGITUDE | ||
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CALLSIGN | ||
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SUMMARY | ||
Two moons with crystalline shards orbit a ringed Ammonia World in this system. | → | Two moons with crystalline shards orbit a ringed Ammonia World in this system. |
DESCRIPTION | ||
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Situated about 1,150 light-years East of the NGC 1491 Nebula, this system contains a ringed Ammonia World with two moons, both of which are home to Crystalline Shard fields. Carbon dioxide geysers dot the surface of B 7 a, while B 7 b features ammonia-based volcanism. The crystalline shards on both moons yield ruthenium. The shards on B 7 a seem to populate the flat portions of the moon's surface, while they're more populous in the highlands of B 7 b. In addition to the exobiology payout from sampling the crystalline shards, their ruthenium deposits can be used for premium Automated Field Unit Maintenance module reload synthesis. The name of this point of interest is inspired by dragon's teeth fortifications, first used to impede tanks and infantry vehicles in World War II. Clusters of crystalline shards have been known to similarly impede surface reconnaissance vehicles. | → | Situated about 1,150 light-years East of the NGC 1491 Nebula, this system contains a ringed Ammonia World with two moons, both of which are home to Crystalline Shard fields. Carbon dioxide geysers dot the surface of B 7 a, while B 7 b features ammonia-based volcanism. The crystalline shards on both moons yield ruthenium. The shards on B 7 a seem to populate the flat portions of the moon's surface, while they're more populous in the highlands of B 7 b. In addition to the exobiology payout from sampling the crystalline shards, their ruthenium deposits can be used for premium Automated Field Maintenance Unit module reload synthesis. The name of this point of interest is inspired by dragon's teeth fortifications, first used to impede tanks and infantry vehicles in World War II. Clusters of crystalline shards have been known to similarly impede surface reconnaissance vehicles. |
JOURNAL | ||
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OBSERVATORY | ||
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