Starmap (Spaced Out)
The Spaced Out DLC starmap displays an hexagonal grid that spans a radius of 12 hexes from the central starting Planetoid. There are also Space POI (Point Of Interest) that could be mined for resources using a Drillcone module. Artifacts can be found in every space POI.
Hexes are revealed in two stages: half explored (has question marks where a POI or planetoid exist) and fully explored (you can travel there using any rocket). You can fully reveal hexes within 3 tiles of the colony when using a regular telescope, or 4 tiles when using an enclosed telescope. That means that some part of the starmap will be inaccessible from planetoids. These hexes will be later revealed by traveling to them with a rocket that has a cartographic module or use a telescope inside the spacefarer module.
Launching or Landing
The hexes covered by the circle around the planetoid is the orbital of that planetoid. Launching to orbit or landing from orbit to the planetoid, consumes the same amount of fuel as any other travelled hex, but takes much less time.
Space Points of Interest
Space points of interest (POI) can be discovered scattered around the starmap. Depending on the cluster, some types of POI are guaranteed to be found while others are chosen randomly within a selection of POIs.
Harvestable space POIs always contain an Artifact that can be collected using Artifact Transport Modules attached to the rocket. Once collected, a new Office Mug artifact will be available to be collected in 90 cycles, repeatable indefinitely.
Rockets with a fueled Drillcone can collect materials from POIs that have remaining mass. Mass is refilled each day based on its refill rate, up to its maximum capacity. The maximum capacity and refill rate are hidden values randomized on each POI during world creation. The refill rate is always a percentage between 1% and 2% of its maximum capacity.
Harvestable Space POIs
Note that elements are gathered at a fixed temperature independent of the POI which can lead to POIs having elements both very hot and very cold.
Space POI | Maximum Mass |
Refill Rate per Cycle |
Harvestable Resource | ||
---|---|---|---|---|---|
Element | Ratio | Temperature | |||
Carbon Asteroid Field |
30 – 45 t | 300 – 900 kg | Coal | 78.6% | 26.85 °C |
Refined Carbon | 21.4% | 26.85 °C | |||
Chlorine Cloud |
54 – 81 t | 540 – 1620 kg | Bleach Stone | 75% | 26.85 °C |
Liquid Chlorine | 25% | -73.15 °C | |||
Exploded Gas Giant |
15 – 20 t | 150 – 400 kg | Hydrogen | 70% | 26.85 °C |
Natural Gas | 10% | 26.85 °C | |||
Methane | 10% | -173.15 °C | |||
Solid Methane | 10% | -223.15 °C | |||
Exploded Ice Giant |
54 – 81 t | 540 – 1620 kg | Ice | 60% | -41 °C |
Solid Carbon Dioxide | 20% | -81 °C | |||
Oxygen | 15% | 26.85 °C | |||
Solid Methane | 5% | -223.15 °C | |||
Forested Ore Field |
54 – 81 t | 540 – 1620 kg | Igneous Rock | 70% | 26.85 °C |
Carbon Dioxide | 20% | 26.85 °C | |||
Aluminum Ore | 10% | 26.85 °C | |||
Frozen Ore Asteroid Field |
54 – 81 t | 540 – 1620 kg | Ice | 27.4% | -41 °C |
Polluted Ice | 27.4% | -43.15 °C | |||
Aluminum Ore | 23.6% | 26.85 °C | |||
Snow | 21.6% | -31 °C | |||
Gilded Asteroid Field |
30 – 45 t | 300 – 900 kg | Sedimentary Rock | 45% | 26.85 °C |
Gold | 25% | 26.85 °C | |||
Fullerene | 10% | -31 °C | |||
Refined Carbon | 10% | 26.85 °C | |||
Regolith | 10% | 26.85 °C | |||
Glimmering Asteroid Field |
30 – 45 t | 300 – 900 kg | Wolframite | 60% | 26.85 °C |
Liquid Tungsten | 20% | 3726.85 °C | |||
Coal | 10% | 26.85 °C | |||
Carbon Dioxide | 10% | 26.85 °C | |||
Helium Cloud |
30 – 45 t | 300 – 900 kg | Water | 80% | 26.85 °C |
Hydrogen | 20% | 26.85 °C | |||
Ice Asteroid Field |
54 – 81 t | 540 – 1620 kg | Solid Carbon Dioxide | 70% | -81 °C |
Ice | 25% | -41 °C | |||
Solid Oxygen | 5% | -43.15 °C | |||
Interstellar Ocean |
15 – 25 t | 150 – 500 kg | Salt Water | 25% | 26.85 °C |
Brine | 25% | 9 °C | |||
Salt | 25% | 16.85 °C | |||
Ice | 25% | -41 °C | |||
Metallic Asteroid Field |
54 – 81 t | 540 – 1620 kg | Obsidian | 70% | 26.85 °C |
Copper Ore | 17.5% | 26.85 °C | |||
Liquid Iron | 12.5% | 2226.85 °C | |||
Oily Asteroid Field |
15 – 25 t | 150 – 500 kg | Solid Carbon Dioxide | 77.5% | -81 °C |
Solid Methane | 11.3% | -223.15 °C | |||
Crude Oil | 11.3% | 76.85 °C | |||
Organic Mass Field |
54 – 81 t | 540 – 1620 kg | Slime | 30% | 16.85 °C |
Algae | 30% | 16.85 °C | |||
Dirt | 30% | 16.85 °C | |||
Polluted Oxygen | 10% | 26.85 °C | |||
Oxidized Asteroid Field |
54 – 81 t | 540 – 1620 kg | Rust | 80% | 26.85 °C |
Solid Carbon Dioxide | 20% | -81 °C | |||
Oxygen Rich Asteroid Field |
15 – 25 t | 150 – 500 kg | Water | 40% | 26.85 °C |
Ice | 40% | -41 °C | |||
Polluted Oxygen | 20% | 26.85 °C | |||
Radioactive Asteroid Field |
5 – 10 t | 50 – 200 kg | Rust | 36.4% | 26.85 °C |
Sulfur | 27.3% | 16.85 °C | |||
Uranium Ore | 18.2% | 26.85 °C | |||
Bleach Stone | 18.2% | 26.85 °C | |||
Radioactive Gas Cloud |
5 – 10 t | 50 – 200 kg | Carbon Dioxide | 63.6% | 26.85 °C |
Uranium Ore | 18.2% | 26.85 °C | |||
Liquid Chlorine | 18.2% | -73.15 °C | |||
Rocky Asteroid Field |
54 – 81 t | 540 – 1620 kg | Sedimentary Rock | 40% | 26.85 °C |
Igneous Rock | 40% | 26.85 °C | |||
Copper Ore | 20% | 26.85 °C | |||
Salty Asteroid Field |
54 – 81 t | 540 – 1620 kg | Salt Water | 50% | 26.85 °C |
Brine | 40% | 9 °C | |||
Solid Carbon Dioxide | 10% | -81 °C | |||
Sandy Ore Field |
54 – 81 t | 540 – 1620 kg | Sandstone | 40% | 26.85 °C |
Sand | 30% | 26.85 °C | |||
Algae | 20% | 16.85 °C | |||
Copper Ore | 10% | 26.85 °C | |||
Space Debris |
30 – 45 t | 300 – 900 kg | Sand | 30% | 26.85 °C |
Iron Ore | 30% | 26.85 °C | |||
Liquid Copper | 26.7% | 1526.85 °C | |||
Glass | 13.3% | 26.85 °C | |||
Swampy Ore Field |
54 – 81 t | 540 – 1620 kg | Polluted Dirt | 70% | 26.85 °C |
Mud | 20% | 26.85 °C | |||
Cobalt Ore | 10% | 26.85 °C |
Other Points of Interest
Space POI | What to Find |
---|---|
Space Ruins |
Artifacts |
Russell's Teapot |
Encrusted Teapot |
Temporal Tear |
The final destination |