Outpost Universe Forums
Outpost Series Games => Outpost 1 & Outpost General => Topic started by: Noctis on June 03, 2007, 05:45:17 PM
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Alright, for those still playing Op1, I've made a "map" for the different systems choosable in the begging.
All habitable systems contain a combination of 7 diffrent preset planets. These planets are the following...
Habitable Planet Types:
Type 1 (Venus\Mecury)
Equatorial Diameter: 0.38(4 878 kM)
Mass(Compared to Earth): 0.055
Rotation Period: 58.6D
Surface Gravity(Compared to Earth): 0.38
Mean Distance AU from Sun(Compared to Earth): 0.387
Solar Energy Recevied(Compared to Earth): 6.6
Aprox. Mean Temp. (Celsius): 350(Day), -170(Night)
Escape Velocity(kM\Sec): 4.25
Principal Atmospheric Gases: Helium Trace
Type 2 (Mars)
Equatorial Diameter: 0.53(6 794 kM)
Mass(Compared to Earth): 0.11
Rotation Period: 24.62h
Surface Gravity(Compared to Earth): 0.38
Mean Distance AU from Sun(Compared to Earth): 1.52
Solar Energy Recevied(Compared to Earth); 0.44
Aprox. Mean Temp. (Celsius): -23(Avg.)
Escape Velocity(kM\Sec): 5.02
Principal Atmospheric Gases: Carbon Dioxide, Nitrogen
Type 3 (Pluto)
Equatorial Diameter: 0.002(22 kM)
Mass(Compared to Earth): 0.000000018
Rotation Period: 0.32D
Surface Gravity(Compared to Earth): 0.001
Mean Distance AU from Sun(Compared to Earth): 1.52
Solar Energy Recevied(Compared to Earth): 0.43
Aprox. Mean Temp. (Celsius): -50
Escape Velocity(kM\Sec): Negligible
Principal Atmospheric Gases: None
Type 4 (Mercury)
Equatorial Diameter: 0.27(3 476 kM)
Mass(Compared to Earth): 0.12
Rotation Period: 27.3D, Retrograde
Surface Gravity(Compared to Earth): 0.165
Mean Dictance AU from Sun(Compared to Earth): 1.0
Solar Energy Recevied(Compared to Earth): 1.0
Aprox. Mean Temp. (Celsius): 130(Day), -170(Night)
Escape Velocity(kM\Sec): 2.38
Principal Atmospheric Gased: None
Type 5 (Venus)
Equatorial Diameter: 0.95(12 104 kM)
Mass(Compared to Earth): 0.815
Rotation Period: 243D, Retrograde
Surface Gravity(Compared to Earth): 0.91
Mean Distance AU from Sun(Compared to Earth): 0.723
Solar Energy Recevied(Compared to Earth): 2.2
Aprox. Mean Temp. (Celsius): 450(Surface), -23(Clouds)
Escape Velocity(kM\Sec): 10.36
Principal Atmospheric Gases: Carbon Dioxide, Nitrogen
Type 6 (Pluto)
Equatorial Diameter: 0.074(940 kM)
Mass(Compared to Earth): 0.00017
Rotation Period: 9.08h
Surface Gravity(Compared to Earth): 0.01
Mean Dictance AU from Sun(Compared to Earth): 2.8
Solar Energy Recevied(Compared to Earth): 0.43
Aprox. Mean Temp. (Celsius): -38
Escape Velocity(kM\Sec): Negligible
Principal Atmospheric Gased: None
Type 7 (Pluto)
Equatorial Diameter: 0.18(2 300 kM)
Mass(Compared to Earth): 0.002
Rotation Period: 6.4D
Surface Gravity(Compared to Earth): 0.04
Mean Distance AU from Sun(Compared to Earth): 39.52
Solar Energy Recevied(Compared to Earth): 0.0006
Aprox. Mean Temp. (Celsius): -230
Escape Velocity(kM\Sec): 1.1
Principal Atmospheric Gases: Traces of Methane, Carbon Dioxide
And here are the system build-ups. The Numbers represent the equalent planet types and a +1 means that there is addionalt one unhabitable planet present.
Star Systems:
Alpha Aquilae...........No Habitable Planets
Alpha Centauri..........A 1, 2
Alpha Centauri..........B 2, 3
Banrnard's Star.........No Habitable Planets
Beta Hydri..............4, 2
Delta Pavonis...........1, 4, 2 +1
Epsilon Eridani.........5, 7
82 Eridani..............2, 7
Eta Cassiopeiae A.......1, 2
Hr 7703 A...............No Habitable Planets
Hr 8832 ................1 +1
Kruger 60...............No Habitable Planets
70 Ophiuchi A...........2 +1
36 Ophiuchi B...........3
36 Ophiuchi A...........7
Procyon.................No Habitable Planets
Ross 248................No Habitable Planets
Sigmata Draconis........1, 5, 4, 2
Sirius..................No Habitable Planets
Tau Ceti................1, 5, 2
Wolf 359................No Habitable Planets
- Noctis
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Hmm, I think the classification of planet types are a little strange.
I happen to have also collected these data myself, so maybe i'll post them here for checking:
Planets are listed from nearest to farthest.
“Habitable” Planet Attributes:
• Mercury-class Planets
- Equatorial diameter: 0.38 (4,878km)
- Mass: 0.055
- Rotation Period: 58.6 days
- Surface gravity: 0.38
- Mean distance AU from Sun: 0.387
- Solar Energy received: 6.6
- Approximate mean temperature (Centigrade): 350 (day), -170 (night)
- Escape velocity (km/sec): 4.25
- Principal atmospheric gases: Helium trace
- Estimated # of mining sites: 35
- Maximum digging depth: 1
• Venus-class Planets
- Equatorial diameter: 0.95 (12,104km)
- Mass: 0.815
- Rotation Period: 243 days, retrograde
- Surface gravity: 0.91
- Mean distance AU from Sun: 0.723
- Solar Energy received: 2.2
- Approximate mean temperature (Centigrade): 450 (surface), -23 (clouds)
- Escape velocity (km/sec): 10.36
- Principal atmospheric gases: Carbon Dioxide, Nitrogen
- Estimated # of mining sites: 40
- Maximum digging depth: 2
• Luna-class Planets (a.k.a. the Moon)
- Equatorial diameter: 0.27 (3,476km)
- Mass: 0.12
- Rotation Period: 27.3 days, retrograde
- Surface gravity: 0.165
- Mean distance AU from Sun: 1.0
- Solar Energy received: 1.0
- Approximate mean temperature (Centigrade): 130 (day), -170 (night)
- Escape velocity (km/sec): 2.38
- Principal atmospheric gases: None
- Estimated # of mining sites: 35
- Maximum digging depth: 3
• Mars-class Planets
- Equatorial diameter: 0.53 (6,794km)
- Mass: 0.11
- Rotation Period: 24.62 hours
- Surface gravity: 0.38
- Mean distance AU from Sun: 1.52
- Solar Energy received: 0.44
- Approximate mean temperature (Centigrade): -23 (average)
- Escape velocity (km/sec): 5.02
- Principal atmospheric gases: Carbon Dioxide, Nitrogen
- Estimated # of mining sites: 35
- Maximum digging depth: 4
• Phobos-class Planets
- Equatorial diameter: 0.002 (22km)
- Mass: 0.000000018
- Rotation Period: 0.32 days
- Surface gravity: 0.001
- Mean distance AU from Sun: 1.52
- Solar Energy received: 0.43
- Approximate mean temperature (Centigrade): -50
- Escape velocity (km/sec): Negligible
- Principal atmospheric gases: None
- Estimated # of mining sites: 12
- Maximum digging depth: 3
• Ceres Asteroid-class Planets
- Equatorial diameter: 0.074 (940km)
- Mass: 0.00017
- Rotation Period: 9.08 hours
- Surface gravity: 0.01
- Mean distance AU from Sun: 2.8
- Solar Energy received: 0.43
- Approximate mean temperature (Centigrade): -38
- Escape velocity (km/sec): Negligible
- Principal atmospheric gases: None
- Estimated # of mining sites: 12
- Maximum digging depth: 3
• Pluto-class Planets
- Equatorial diameter: 0.18 (2,300km)
- Mass: 0.002
- Rotation Period: 6.4 days
- Surface gravity: 0.04
- Mean distance AU from Sun: 39.52
- Solar Energy received: 0.0006
- Approximate mean temperature (Centigrade): -230
- Escape velocity (km/sec): 1.1
- Principal atmospheric gases: Traces of Methane and Carbon Dioxide
- Estimated # of mining sites: 35
- Maximum digging depth: 1
Systems Summary:
Uninhabitable Systems:
- Alpha Aquilae
- Barnard’s Star
- HR 7703 A
- Kruger 60
- Procyon
- Ross 248
- Sirius
- Wolf 359
“Habitable” planet type availability
• Mercury-class Planets
- Alpha Centauri A
- Delta Pavonis
- Eta Cassiopeiae A
- HR 8832
- Sigma Draconis
- Tau Ceti
• Venus-class Planets
- Epsilon Eridani
- Sigma Draconis
- Tau Ceti
• Luna-class Planets
- Beta Hydri
- Delta Pavonis
- Sigma Draconis
• Mars-class Planets
- Alpha Centauri A
- Alpha Centauri B
- Beta Hydri
- Delta Pavonis
- 82 Eridani
- Eta Cassiopeiae A
- 70 Ophiuchi A
- Sigma Draconis
- Tau Ceti
• Phobos-class Planets
- Alpha Centauri B
- 36 Ophiuchi B
• Ceres Asteroid-class Planets
- Epsilon Eridani
• Pluto-class Planets
- 82 Eridani
- 36 Ophiuchi A
System Details:
Alpha Aquilae
• Details
- Spectral Class: A7
- Distance: 16.0
- Mass: 2
- Travel Time: 81.98
- “Habitable” planet probability: 0.000
• Planets: 1
- Jupiter
Alpha Centauri A
• Details
- Spectral Class: G4
- Distance: 4.2
- Mass: 1.08
- Travel Time: 24.17
- “Habitable” planet probability: 0.054
• Planets: 2
- Mercury
- Mars
Alpha Centauri B
• Details
- Spectral Class: K1
- Distance: 4.2
- Mass: 0.88
- Travel Time: 24.17
- “Habitable” planet probability: 0.057
• Planets: 2
- Mars
- Phobos
Barnard’s Star
• Details
- Spectral Class: M4
- Distance: 6.0
- Mass: 0.15
- Travel Time: 32.5
- “Habitable” planet probability: 0.00
• Planets: 1
- Jupiter
Beta Hydri
• Details
- Spectral Class: G1
- Distance: 21.3
- Mass: 1.23
- Travel Time: 107.95
- “Habitable” planet probability: 0.037
• Planets: 2
- Luna
- Mars
Delta Pavonis
• Details
- Spectral Class: G7
- Distance: 19.2
- Mass: 0.98
- Travel Time: 97.66
- “Habitable” planet probability: 0.057
• Planets
- Mercury
- Luna
- Mars
- Saturn
Epsilon Eridani
• Details
- Spectral Class: K2
- Distance: 10.8
- Mass: 0.80
- Travel Time: 56.5
- “Habitable” planet probability: 0.033
• Planets: 2
- Venus
- Ceres Asteroid
82 Eridani
• Details
- Spectral Class: G5
- Distance: 20.9
- Mass: 0.91
- Travel Time: 105.99
- “Habitable” planet probability: 0.057
• Planets: 2
- Mars
- Pluto
Eta Cassiopeiae A
• Details
- Spectral Class: F9
- Distance: 18.0
- Mass: 0.94
- Travel Time: 91.78
- “Habitable” planet probability: 0.057
• Planets: 2
- Mercury
- Mars
HR 7703 A
• Details
- Spectral Class: K2
- Distance: 18.6
- Mass: 0.76
- Travel Time: 94.72
- “Habitable” planet probability: 0.020
• Planets: 1
- Neptune
HR 8832
• Details
- Spectral Class: K3
- Distance: 21.4
- Mass: 0.74
- Travel Time: 108.44
- “Habitable” planet probability: 0.011
• Planets: 2
- Mercury
- Jupiter
Kruger 60
• Details
- Spectral Class: M3
- Distance: 13.0
- Mass: 0.25
- Travel Time: 67.28
- “Habitable” planet probability: 0.00
• Planets: 1
- Jupiter
70 Ophiuchi A
• Details
- Spectral Class: F9
- Distance: 17.3
- Mass: 0.90
- Travel Time: 88.35
- “Habitable” planet probability: 0.057
• Planets: 2
- Mars
- Neptune
36 Ophiuchi B
• Details
- Spectral Class: K1
- Distance: 18.2
- Mass: 0.76
- Travel Time: 92.76
- “Habitable” planet probability: 0.020
• Planets: 1
- Phobos
36 Ophiuchi A
• Details
- Spectral Class: K2
- Distance: 18.2
- Mass: 0.77
- Travel Time: 92.76
- “Habitable” planet probability: 0.023
• Planets: 1
- Pluto
16. Procyon
• Details
- Spectral Class: F5
- Distance: 11.4
- Mass: 1.8
- Travel Time: 59.44
- “Habitable” planet probability: 0.000
• Planets: 1
- Jupiter
Ross 248
• Details
- Spectral Class: M6
- Distance: 10.1
- Mass: 0.13
- Travel Time: 53.07
- “Habitable” planet probability: 0.000
• Planets: 1
- Jupiter
Sigma Draconis
• Details
- Spectral Class: G9
- Distance: 18.2
- Mass: 0.82
- Travel Time: 92.76
- “Habitable” planet probability: 0.036
• Planets: 4
- Mercury
- Venus
- Luna
- Mars
Sirius
• Details
- Spectral Class: A1
- Distance: 8.6
- Mass: 2.3
- Travel Time: 45.00
- “Habitable” planet probability: 0.000
• Planets: 1
- Jupiter
Tau Ceti
• Details
- Spectral Class: G8
- Distance: 11.7
- Mass: 0.82
- Travel Time: 60.91
- “Habitable” planet probability: 0.036
• Planets: 3
- Mercury
- Venus
- Mars
Wolf 359
• Details
- Spectral Class: M6
- Distance: 7.5
- Mass: 0.1
- Travel Time: 40.33
- “Habitable” planet probability: 0.000
• Planets: 1
- Jupiter
There are some things that can be improved, such as collecting images of possible site topologies on each type of planet, but I don't think I feel like performing such a tedious job anytime soon.
What i've found out is that the number of mining beacons on a site and their locations differ each time you start a game, so such information may not be worth collecting.
Let me know if anything isn't accurate here.
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Probably the wrong place for this*, but wasn't OP1 supposed to have Earth-like worlds? Or was that just for one of those planned expansions?
*But hey, it's the OP1 forum. Anything goes here.
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Yeah... Well, I was drunk and did not bother to double check the guesses I made at first glance.
@Sirbomber
Op1 has only has planets similar to Mercury, Pluto, Venus and Mars, except for the unhabitable ones. There aint any Terra-Class planets.
-Noctis
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@Sirbomber
Op1 has only has planets similar to Mercury, Pluto, Venus and Mars, except for the unhabitable ones. There aint any Terra-Class planets.
Which is why I asked:
Wasn't OP1 supposed to have Earth-like worlds?
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Actually the habitable planet types are:
Mercury, Venus, Luna, Mars, Phobos, Ceres, and Pluto.
What i'm curious about is if a particular system's attributes affect the condition of the planet as well, or if a single type of planet is all just generic. :P
Sirbomber, I do agree with your statement. Earth was listed in the manual, but then it never showed up... I also thought there would be an earth-like planet, and it's part of the reason I went checking each system in hopes of finding a true habitable planet. :)
And neither did Uranus either (strange, it shouldn't have been a problem to include it since it's inhabitable anyway).
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Here are all of the planets in the game (and not in the game).
(http://arklon.outpost2.net/mcshay/Files/Outpost/op1%20Planets.jpg)
It's interesting to note that the Mars and Unknown Planet #2 avatars are switched (I double checked it too) in Outpost. It seems that a more-massive-than-earth planet was in the works too (based off of Unknown Planet #3's avatar).
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That's crazy that there are so many unused avatars in the game file. I wonder how much longer OP1 needed before it would have really been considered "finished."
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Any idea what the unused planets are supposed to be?
I can't tell by just looking at them, since i'm not much of an astronomer - I only knew that Luna existed in the game even though it didn't appear in the manual because the attributes it possessed were pretty obvious... :P
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Hmm, I think the classification of planet types are a little strange.
I happen to have also collected these data myself, so maybe i'll post them here for checking:
Planets are listed from nearest to farthest.
“Habitable” Planet Attributes:
• Mercury-class Planets
- Equatorial diameter: 0.38 (4,878km)
- Mass: 0.055
- Rotation Period: 58.6 days
- Surface gravity: 0.38
- Mean distance AU from Sun: 0.387
- Solar Energy received: 6.6
- Approximate mean temperature (Centigrade): 350 (day), -170 (night)
- Escape velocity (km/sec): 4.25
- Principal atmospheric gases: Helium trace
- Estimated # of mining sites: 35
- Maximum digging depth: 1
• Venus-class Planets
- Equatorial diameter: 0.95 (12,104km)
- Mass: 0.815
- Rotation Period: 243 days, retrograde
- Surface gravity: 0.91
- Mean distance AU from Sun: 0.723
- Solar Energy received: 2.2
- Approximate mean temperature (Centigrade): 450 (surface), -23 (clouds)
- Escape velocity (km/sec): 10.36
- Principal atmospheric gases: Carbon Dioxide, Nitrogen
- Estimated # of mining sites: 40
- Maximum digging depth: 2
• Luna-class Planets (a.k.a. the Moon)
- Equatorial diameter: 0.27 (3,476km)
- Mass: 0.12
- Rotation Period: 27.3 days, retrograde
- Surface gravity: 0.165
- Mean distance AU from Sun: 1.0
- Solar Energy received: 1.0
- Approximate mean temperature (Centigrade): 130 (day), -170 (night)
- Escape velocity (km/sec): 2.38
- Principal atmospheric gases: None
- Estimated # of mining sites: 35
- Maximum digging depth: 3
• Mars-class Planets
- Equatorial diameter: 0.53 (6,794km)
- Mass: 0.11
- Rotation Period: 24.62 hours
- Surface gravity: 0.38
- Mean distance AU from Sun: 1.52
- Solar Energy received: 0.44
- Approximate mean temperature (Centigrade): -23 (average)
- Escape velocity (km/sec): 5.02
- Principal atmospheric gases: Carbon Dioxide, Nitrogen
- Estimated # of mining sites: 35
- Maximum digging depth: 4
• Phobos-class Planets
- Equatorial diameter: 0.002 (22km)
- Mass: 0.000000018
- Rotation Period: 0.32 days
- Surface gravity: 0.001
- Mean distance AU from Sun: 1.52
- Solar Energy received: 0.43
- Approximate mean temperature (Centigrade): -50
- Escape velocity (km/sec): Negligible
- Principal atmospheric gases: None
- Estimated # of mining sites: 12
- Maximum digging depth: 3
• Ceres Asteroid-class Planets
- Equatorial diameter: 0.074 (940km)
- Mass: 0.00017
- Rotation Period: 9.08 hours
- Surface gravity: 0.01
- Mean distance AU from Sun: 2.8
- Solar Energy received: 0.43
- Approximate mean temperature (Centigrade): -38
- Escape velocity (km/sec): Negligible
- Principal atmospheric gases: None
- Estimated # of mining sites: 12
- Maximum digging depth: 3
• Pluto-class Planets
- Equatorial diameter: 0.18 (2,300km)
- Mass: 0.002
- Rotation Period: 6.4 days
- Surface gravity: 0.04
- Mean distance AU from Sun: 39.52
- Solar Energy received: 0.0006
- Approximate mean temperature (Centigrade): -230
- Escape velocity (km/sec): 1.1
- Principal atmospheric gases: Traces of Methane and Carbon Dioxide
- Estimated # of mining sites: 35
- Maximum digging depth: 1
Systems Summary:
Uninhabitable Systems:
- Alpha Aquilae
- Barnard’s Star
- HR 7703 A
- Kruger 60
- Procyon
- Ross 248
- Sirius
- Wolf 359
“Habitable” planet type availability
• Mercury-class Planets
- Alpha Centauri A
- Delta Pavonis
- Eta Cassiopeiae A
- HR 8832
- Sigma Draconis
- Tau Ceti
• Venus-class Planets
- Epsilon Eridani
- Sigma Draconis
- Tau Ceti
• Luna-class Planets
- Beta Hydri
- Delta Pavonis
- Sigma Draconis
• Mars-class Planets
- Alpha Centauri A
- Alpha Centauri B
- Beta Hydri
- Delta Pavonis
- 82 Eridani
- Eta Cassiopeiae A
- 70 Ophiuchi A
- Sigma Draconis
- Tau Ceti
• Phobos-class Planets
- Alpha Centauri B
- 36 Ophiuchi B
• Ceres Asteroid-class Planets
- Epsilon Eridani
• Pluto-class Planets
- 82 Eridani
- 36 Ophiuchi A
System Details:
Alpha Aquilae
• Details
- Spectral Class: A7
- Distance: 16.0
- Mass: 2
- Travel Time: 81.98
- “Habitable” planet probability: 0.000
• Planets: 1
- Jupiter
Alpha Centauri A
• Details
- Spectral Class: G4
- Distance: 4.2
- Mass: 1.08
- Travel Time: 24.17
- “Habitable” planet probability: 0.054
• Planets: 2
- Mercury
- Mars
Alpha Centauri B
• Details
- Spectral Class: K1
- Distance: 4.2
- Mass: 0.88
- Travel Time: 24.17
- “Habitable” planet probability: 0.057
• Planets: 2
- Mars
- Phobos
Barnard’s Star
• Details
- Spectral Class: M4
- Distance: 6.0
- Mass: 0.15
- Travel Time: 32.5
- “Habitable” planet probability: 0.00
• Planets: 1
- Jupiter
Beta Hydri
• Details
- Spectral Class: G1
- Distance: 21.3
- Mass: 1.23
- Travel Time: 107.95
- “Habitable” planet probability: 0.037
• Planets: 2
- Luna
- Mars
Delta Pavonis
• Details
- Spectral Class: G7
- Distance: 19.2
- Mass: 0.98
- Travel Time: 97.66
- “Habitable” planet probability: 0.057
• Planets
- Mercury
- Luna
- Mars
- Saturn
Epsilon Eridani
• Details
- Spectral Class: K2
- Distance: 10.8
- Mass: 0.80
- Travel Time: 56.5
- “Habitable” planet probability: 0.033
• Planets: 2
- Venus
- Ceres Asteroid
82 Eridani
• Details
- Spectral Class: G5
- Distance: 20.9
- Mass: 0.91
- Travel Time: 105.99
- “Habitable” planet probability: 0.057
• Planets: 2
- Mars
- Pluto
Eta Cassiopeiae A
• Details
- Spectral Class: F9
- Distance: 18.0
- Mass: 0.94
- Travel Time: 91.78
- “Habitable” planet probability: 0.057
• Planets: 2
- Mercury
- Mars
HR 7703 A
• Details
- Spectral Class: K2
- Distance: 18.6
- Mass: 0.76
- Travel Time: 94.72
- “Habitable” planet probability: 0.020
• Planets: 1
- Neptune
HR 8832
• Details
- Spectral Class: K3
- Distance: 21.4
- Mass: 0.74
- Travel Time: 108.44
- “Habitable” planet probability: 0.011
• Planets: 2
- Mercury
- Jupiter
Kruger 60
• Details
- Spectral Class: M3
- Distance: 13.0
- Mass: 0.25
- Travel Time: 67.28
- “Habitable” planet probability: 0.00
• Planets: 1
- Jupiter
70 Ophiuchi A
• Details
- Spectral Class: F9
- Distance: 17.3
- Mass: 0.90
- Travel Time: 88.35
- “Habitable” planet probability: 0.057
• Planets: 2
- Mars
- Neptune
36 Ophiuchi B
• Details
- Spectral Class: K1
- Distance: 18.2
- Mass: 0.76
- Travel Time: 92.76
- “Habitable” planet probability: 0.020
• Planets: 1
- Phobos
36 Ophiuchi A
• Details
- Spectral Class: K2
- Distance: 18.2
- Mass: 0.77
- Travel Time: 92.76
- “Habitable” planet probability: 0.023
• Planets: 1
- Pluto
16. Procyon
• Details
- Spectral Class: F5
- Distance: 11.4
- Mass: 1.8
- Travel Time: 59.44
- “Habitable” planet probability: 0.000
• Planets: 1
- Jupiter
Ross 248
• Details
- Spectral Class: M6
- Distance: 10.1
- Mass: 0.13
- Travel Time: 53.07
- “Habitable” planet probability: 0.000
• Planets: 1
- Jupiter
Sigma Draconis
• Details
- Spectral Class: G9
- Distance: 18.2
- Mass: 0.82
- Travel Time: 92.76
- “Habitable” planet probability: 0.036
• Planets: 4
- Mercury
- Venus
- Luna
- Mars
Sirius
• Details
- Spectral Class: A1
- Distance: 8.6
- Mass: 2.3
- Travel Time: 45.00
- “Habitable” planet probability: 0.000
• Planets: 1
- Jupiter
Tau Ceti
• Details
- Spectral Class: G8
- Distance: 11.7
- Mass: 0.82
- Travel Time: 60.91
- “Habitable” planet probability: 0.036
• Planets: 3
- Mercury
- Venus
- Mars
Wolf 359
• Details
- Spectral Class: M6
- Distance: 7.5
- Mass: 0.1
- Travel Time: 40.33
- “Habitable” planet probability: 0.000
• Planets: 1
- Jupiter
There are some things that can be improved, such as collecting images of possible site topologies on each type of planet, but I don't think I feel like performing such a tedious job anytime soon.
What i've found out is that the number of mining beacons on a site and their locations differ each time you start a game, so such information may not be worth collecting.
Let me know if anything isn't accurate here.
Your information you provided was the most Usefull I have found for planets. I was looking for a good planet to start with and now I can start over because the one I went to only had 1 landing site and only 1 level of depth.
If anyone wants to know earths sun is a G2 sun so if something is a G1 the sun is hotter, so the O is hotest, B, A, F, G is our sun range, K, M
where M is the coolest so just thought I'd at that information the scale is OBAFGKM and 1-10 (or maybe 0-9, don't recall exactly from my atronomy class 10 years ago).
Thanks for posting the information.
PS) I registered just to make a comment...
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I posted a single page summary a while back.
https://forum.outpost2.net/index.php/topic,3500.0.html (https://forum.outpost2.net/index.php/topic,3500.0.html)
EDIT (leeor_net): Fixing broken link
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:o
... if only I saw that thread earlier, I wouldn't have reinvented the wheel (and an inferior one at that) <_<
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Haha. No sweat. Hopefully it's useful...