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Post by Dazo on Nov 10, 2004 14:25:32 GMT -5
No it should be fine CELS don't worry, I was simply trying to give you an explanation for the way things are, if H&E generated it then its okay in my book, hell every world and system I have going at the minute was done using H&E, and I have some real doozies, just you wait. If your not comfortable with the rogue planet, and it need only be one, then we'll stick with the other explanation, ie it was like that when we got ere guvn'r, nothing to do with us.
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Post by Destecado on Nov 12, 2004 10:25:08 GMT -5
So if I have a thick layer of heavy benzine gas forming a sort of gas cloud ocean on some regions of this world... is the gas flammable enough for a small spark to incinerate a square kilometer? Benzine is highly volatile and flammable....but it is also odorless and colorless. It really wouldn't give you the cloud cover your looking for. I've had the past couple of days off and have been thinking about the problem. I need to check a couple of figures, but instead of lowering the tempreature and going with fog and mist to create cloud cover, we might want to consider creating a world with a runaway green house effect similar to Venus. The habitation of such a world would only be possible...at least for humans above a certain height on mountain tops. The only drawback to such an enviroment, be that it would be highly unlikely for humans to survive below the cloud line...mabe in pressurized tunnels within the mountains themselves, but otherwise the temperatures are going to be way too high. Wouldn't that have somthing to do with the lang point thingy. And yes it is strange, as they couldn't have formed through normal planetary formation. I would suspect they began as rogue planets that happened to end up in the same orbit as the main world. Instead of rogue planets, there is another possibility. They could have been part of a much larger moon that suffered an impact and broke apart. Over time the pices would have fallen back together and reformed into a new moon. Scientists have found this occuring in many of the moons circling the outer planets of our own solar system. Of course some of the mass of the satelite would have been lost to impacts on the planets surface as well as to space. Some of the material may have been cought and wound up at the lagrainge points of the system...although I would need to check on the size of object that can be held at these points. Too great a mass would throw of the system, as the new satelittes mass changed the relation ship between the planet and its other satelit or the sun.
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Post by Destecado on Nov 12, 2004 11:26:12 GMT -5
Alright, the follwoing figures show a break down between the atmospheres of earth and venus. Element | EARTH | VENUS | N2 | 0.79 | 2.00 | O2 | 0.20 | <0.001 | Ar | 0.01 | 0.005 | CO2 | 0.0003 | 64.00 | H2O | ~0.02 | 0.003 | Total | 1.00 | 66.00 |
Venus has clouds 50 to 70 km above surface containing H2SO4 (sulfuric acid). The higher levels of CO2 come from the fact that Venus does not have oceans similar to earth. On earth much of the CO2 is dissolved n sea water. With no oceans, this CO2 is free in Veu's atmosphere. The water that may have existed on the planet at one time would have evaporated and broken apart. The oxygen which readilly combines with other gasses or iron on the surface would have been stripped away, the less dense hydrogen would have escaped out of the atmosphere, because the lower gravity of Venus is not sufficient to hold such particles in. In order to make life possible on the world we are talking about, we will need gravity closer to 1 g (earth standard gravity) or perhaps a little in excess of it. this would allow for the retention of the hydrogen which could recombine with oxygen at higher altitudes. ATMOSPHERIC RETENTION Whether a planet can retain an atmosphere depends on two opposing forces 1. The force of gravity which tries to retain the atmosphere 2. The molecular motion of the gas molecules which try to escape. Thus the measurement or ability to retain atmospheric particles is equal to the escape velocity (ve). Escape Velosity is highest for high masses and high densities.(i.e. high densities) Earth has a ve of 11.2 km/s while Jupiter, has a ve of 59.5 km/s. For atmospheric particles, the escape velocity is measure as their mean molecular velocity (vm). The higher the temperature and lower the mass of the molecule or atom, the faster the speed. If ve >> vm atmosphere is retained If vm >> ve atmosphere escapes into space ExampleEarth has a fairly low ve since it has a moderate mass and a fairly high vm since is is close to the Sun so that only heavy molecules like nitrogen and oxygen are retained. Fast moving high speed molecules like hydrogen escape.* * Although much of the atmospheric hydrogen escapes, it is one one of the most plentiful elements in the universe. There are still vast quantities bound upin water and other substances including the earths crust.Jupiter being very massive has a very high ve and being far from the Sun has a low vm. As a result all gases, both light and heavy are retained. Since hydrogen and helium are by far the most numerous gases, they dominate the atmosphere. Mercury has a very low ve and a very high vm (since it is close to Sun) so that all molecules can escape, regardless of their mass and therefore no atmosphere . The green house effect raises the temperature of the atmosphere which int turn increases a particles mean molecular velocity (vm). To counteract the increase in temperature, there would also need to be an increase in either the density of the planets core or the size of the planet wich would increase the escape velocity (ve). This would allow for the retention of molecules that are more conducive to life existing on the planet. AIRSHIPSAirships, Dirigibles, Zepplins...I surmize based on your post that this is what you are after for a type of transportation between settlements. One thing that needs to be considdered for the use of such balloons is the height at which these cities will be located. Most modern (manned) airships have an operating ceiling only up to 10,000 feet (1.89 miles). There are weather balons and those carrying scientific payloads that can reach heights of 80,000 feet (15.15 miles appx.).
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Post by CELS on Nov 19, 2004 8:56:49 GMT -5
Well... for now, I'm abandoning the idea of the world with gas oceans. It would have been time-consuming work, and right now I feel that other matters need my attention first. So I'm building another Knight World, and I need someone (*eyes Dazo*) to run this UWP through H&E for me. Thanks 7,26,17 - M-V - C99A332-B Lo Wa 500 Im 290
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Post by CELS on Nov 19, 2004 11:51:17 GMT -5
Dazo, could you decrease the temperature on this world as much as possible? I'm thinking that maybe for my second Knight world, the planet is close to being a hive world, but the hives are all under kilometers of ice! This world is quite rich in minerals, and it's also very large, so even after many millennia of mining, it could still be a great resource to Proteus.
What do you think?
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Post by Dazo on Nov 20, 2004 4:02:20 GMT -5
Ok i'll rerun the stats for you, you will end up with a different extended system, hope thats Ok.
UWP: C99A332-B
PBG: 500
TRADE CODES: Low Population, Water World
ALLEGIANCE: Third Imperium
STELLAR DETAILS: Primary Star: M3 V
STAR SYSTEM ORBITAL ZONES
1. Orbital Zones: Primary Star: 0 (Bodies Orbit around Primary Star)
SIZE RELATED DETAILS
1. Basic World Type: Planet 2a. Planet Diameter: 9,000 miles (14,400 km) 2b. Planet Density: Molten Core, 0.96 terra 5. World Mass: 1.367 terra 6. World Gravity: 1.08 terra 7. Planet Orbit Period: 7a. Stellar Mass: 0.39 sol 7b. Orbital Distance: 0.2 AU 7c. Orbital Period: 52.312 standard days 9. Rotation Period: 34.95 standard hours 10. Axial Tilt: 21 degrees 11. Orbital Eccentricity: 0.0 12. Seismic Stress Factor: 2.95
ATMOSPHERIC RELATED DETAILS
1. Atmospheric Composition: Standard oxygen-nitrogen mix, with pollutants taint 2. Surface Atmospheric Pressure: 2.2 atm 3. Surface Temperature: 3a. Stellar Luminosity: 0.35 3b. Orbit Factor: 836.345 3c. Energy Absorption: 0.619 3d. Greenhouse Effect: 1.15 3e. Base Temperature: -64.627 degrees C 4. Orbital Eccentricity Effects: Tc=0 degrees C, Tf=0 degrees C 5. Latitude Temperature Effects: (Hex Row=Degrees C) 1=+21, 2=+14, 3=+7, 4=0, 5=-7, 6=-14, 7=-21, 8=-28, 9=-35, 10=-42, 11=-49 degrees C 6a. Axial Tilt Base Increase: 12.6 degrees C 6b. Axial Tilt Base Decrease: -21 degrees C 6c. Axial Tilt Latitude Effects: (Hex Row=Degrees) 1=0, 2=0, 3=0, 4=0.25, 5=0.5, 6=0.75, 7=1, 8=1, 9=1, 10=1, 11=1 degrees 7a. Length of day and Night: 17.475 standard hours 7b. Rotation-Luminosity Effects: 0.35 7c. Daytime Rotation Effects: 0.14 +per hour of daylight, 291.723 absolute maximum plus temperature 7d. Nighttime Rotation Effects: 0.5 -per hour of darkness, 20.837 absolute maximum minus temperature 11. Temperature Worksheet: See separate section 12. Native Life: Does not exist 13. Atmospheric Terraforming: Has not occurred 14. Greenhouse Effect Terraforming: Has not occurred 15. Albedo Terraforming: Has not occurred
HYDROSPHERE RELATED DETAILS
1. Hydrographic Percentage: 100% 2. Hydrographic Composition: Tainted liquid water 3. Tectonic Plates: 8 4. Hydrographic Terraforming: Has not occurred 5. Terrain Terraforming: Has not occurred 6. Continents and Oceans : 1 continents 8. Resources and Goods: Natural Resources: Ores, Radioactives, Crystals Processed Resources: Agroproducts 9. Weather Control: Is not practiced
POPULATION RELATED DETAILS
1. Total World Population: 5,000 3. Cities: 3e. Medium-Large Cities (UWP Pop-2): Cities=20, Population/City=50 3g. Moderate-Size Cities (UWP Pop-3): Cities=560, Population/City=5 4. Primary Cities: 10 5. Starports and Spaceports: C/C/C/C/C/C/C/C/C/F 6. Orbital Cities: None 7. Social Outlook: 7a. Progressiveness: Conservative, Advancing 7b. Aggressiveness: Unaggressive, Neutral 7c. Extensiveness: Discordant, Xenophobic 8a. Number of Customs: 3 8b-g. Local Customs/Practicing Group: Live in communal housing/Certain races. Vegetarians/All population. Live with bride's family/Certain occupations.
GOVERNMENT RELATED DETAILS
1. Representative Authority Guide: Self-perpetuating Oligarchy, Several Councils
LATITUDE BASE HEX BASE TEMPERATURE TEMPERATURE ROW TEMPERATURE EFFECTS FOR HEX ROW 1 -65 21 -44 2 -65 14 -51 3 -65 7 -58 4 -65 0 -65 5 -65 -7 -72 6 -65 -14 -79 7 -65 -21 -86 8 -65 -28 -93 9 -65 -35 -100 10 -65 -42 -107 11 -65 -49 -114
AXIAL TILT HIGHEST HEX SUMMER AXIAL TILT TEMP PLUS DAYTIME ORBIT ECC TEMP FOR ROW PLUS FACTOR IN SUMMER PLUS PLUS HEX ROW 1 13 0 0 2 0.0 -41 2 13 0 0 2 0.0 -48 3 13 0 0 2 0.0 -55 4 13 0.25 3 2 0.0 -59 5 13 0.5 6 2 0.0 -63 6 13 0.75 9 2 0.0 -67 7 13 1 13 2 0.0 -71 8 13 1 13 2 0.0 -78 9 13 1 13 2 0.0 -85 10 13 1 13 2 0.0 -92 11 13 1 13 2 0.0 -99
AXIAL TILT LOWEST HEX WINTER AXIAL TILT TEMP MINUS NIGHTTIME ORBIT ECC TEMP FOR ROW MINUS FACTOR IN WINTER MINUS MINUS HEX ROW 1 -21 0 0 9 0.0 -52 2 -21 0 0 9 0.0 -59 3 -21 0 0 9 0.0 -66 4 -21 0.25 -5 9 0.0 -79 5 -21 0.5 -11 9 0.0 -91 6 -21 0.75 -16 9 0.0 -103 7 -21 1 -21 9 0.0 -115 8 -21 1 -21 9 0.0 -122 9 -21 1 -21 9 0.0 -129 10 -21 1 -21 9 0.0 -136 11 -21 1 -21 9 0.0 -143
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Post by Dazo on Nov 20, 2004 4:27:33 GMT -5
M3 V
Knight world alpha(main world) C99A332-B
Knight world beta H252233-B Basic World Type: Planet Planet Diameter: 2,500 miles (4,000 km) Planet Density: Molten Core, 0.96 terra World Gravity: 0.24 terra Orbital Period: 147.961 standard days Rotation Period: 41.975 standard hours Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 0.75 atm Base Temperature: -86.093 degrees C Native Life: Exists Hydrographic Percentage: 23% Hydrographic Composition: Liquid water Volcanoes: 5
Knight world delta Y652262-A Basic World Type: Planet Planet Diameter: 6,400 miles (10,240 km) Planet Density: Molten Core, 0.98 terra Orbital Period: 584.868 standard days Rotation Period: 1.39 standard hours Seismic Stress Factor: 1.39 Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 0.5 atm Base Temperature: -154.789 degrees C Native Life: Exists Hydrographic Percentage: 23% Hydrographic Composition: Liquid water Volcanoes: 4 SATELLITE DETAILS: Number: 2 Satellite 1: UWP:Y100000-0, Orbit: 6
Satellite 2: UWP:H445235-A, Orbit: 7
Basic World Type: Satellite Planet Diameter: 4,000 miles (6,400 km) Planet Density: Molten Core, 1.08 terra World Gravity: 0.54 terra Satellite Orbital Distance: 22,400 km Satellite Orbital Period: 0.581 standard days Rotation Period: 32.382 standard hours Atmospheric Composition: Standard oxygen-nitrogen mix, with pollutants taint Surface Atmospheric Pressure: 0.5 atm Base Temperature: -165.786 degrees C Native Life: Exists Hydrographic Percentage: 52% Hydrographic Composition: Tainted liquid water Volcanoes: 36
Knight world epsilon G646210-A
Basic World Type: Planet Planet Diameter: 6,000 miles (9,600 km) Planet Density: Molten Core, 1.08 terra World Gravity: 0.81 terra Orbital Period: 1,183.69 standard days Rotation Period: 25.244 standard hours Atmospheric Composition: Standard oxygen-nitrogen mix, with pollutants taint Surface Atmospheric Pressure: 0.5 atm Base Temperature: -192.586 degrees C Native Life: Exists Hydrographic Percentage: 62% Hydrographic Composition: Tainted liquid water
SATELLITE DETAILS: Number: 3 Satellite 1: UWP:HR00000-0, Orbit: 3 Satellite 2: UWP:Y330000-0, Orbit: 11 Satellite 3: UWP:Y100000-0, Orbit: 20
Knight world iota G461263-A
Basic World Type: Planet Planet Diameter: 3,900 miles (6,240 km) Planet Density: Rocky Body, 0.66 terra World Gravity: 0.33 terra Orbital Period: 2,740.28 standard days Rotation Period: 33.139 standard hours Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 1.0 atm Base Temperature: -195.549 degrees C Native Life: Exists Hydrographic Percentage: 11% Hydrographic Composition: Liquid water Volcanoes: 4
Knight world kappa F445222-A
Basic World Type: Planet Planet Diameter: 4,100 miles (6,560 km) Planet Density: Molten Core, 1.0 terra World Gravity: 0.5 terra Orbital Period: 50,750.699 standard days Rotation Period: 13.02 standard hours Atmospheric Composition: Standard oxygen-nitrogen mix, with sulfer compounds taint Surface Atmospheric Pressure: 0.6 atm Base Temperature: -201.783 degrees C Native Life: Exists Hydrographic Percentage: 49% Hydrographic Composition: Tainted liquid water Volcanoes: 3
SATELLITE DETAILS: Number: 1 Satellite 1: UWP:YR00000-0, Orbit: 1
Knight world zeta Y513263-B
Basic World Type: Planet Planet Diameter: 4,700 miles (7,520 km) Planet Density: Molten Core, 0.98 terra Orbital Period: 141,353.156 standard days Rotation Period: 9.01 standard hours Atmospheric Composition: None Surface Atmospheric Pressure: 0.06 atm Base Temperature: -220.956 degrees C Hydrographic Percentage: 24% Hydrographic Composition: Liquid water Volcanoes: 3
SATELLITE DETAILS: Number: 3 Satellite 1: UWP:HS00000-0, Orbit: 7
Satellite 2: UWP:G440263-A, Orbit: 45 Basic World Type: Satellite Planet Diameter: 4,200 miles (6,720 km) Planet Density: Molten Core, 1.0 terra World Gravity: 0.5 terra Satellite Orbital Distance: 105,750 km Satellite Orbital Period: 7.828 standard days Atmospheric Composition: Standard oxygen-nitrogen mix, with low oxygen taint Surface Atmospheric Pressure: 0.6 atm Base Temperature: -223.14 degrees C Volcanoes: 1
Satellite 3: UWP:F100000-0, Orbit: 55
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Post by CELS on Nov 23, 2004 7:27:32 GMT -5
Dazo, please generate these worlds for me! M-V - B7966BA-A Ag 822 Im 330 M-V - C553A57-9 S Hi 524 Im 730
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Post by Dazo on Nov 23, 2004 7:42:03 GMT -5
UWP: B79666B-A
PBG: 822
TRADE CODES: Agricultural
ALLEGIANCE: Third Imperium
STELLAR DETAILS: Primary Star: M0 V
SATELLITE DETAILS: Number: 3 Satellite 1: UWP:G10126D-A, Orbit: 5 Satellite 2: UWP:Y344000-0, Orbit: 30 Satellite 3: UWP:F43256B-9, Orbit: 40
STAR SYSTEM ORBITAL ZONES
1. Orbital Zones: Primary Star: 0 (Bodies Orbit around Primary Star)
SIZE RELATED DETAILS
1. Basic World Type: Planet 2a. Planet Diameter: 7,100 miles (11,360 km) 2b. Planet Density: Heavy Core, 1.55 terra 5. World Mass: 1.038 terra 6. World Gravity: 1.356 terra 7. Planet Orbit Period: 7a. Stellar Mass: 0.49 sol 7b. Orbital Distance: 0.2 AU 7c. Orbital Period: 46.67 standard days 9. Rotation Period: 19.45 standard hours 10. Axial Tilt: 22 degrees 11. Orbital Eccentricity: 0.02 12. Seismic Stress Factor: 3.45
ATMOSPHERIC RELATED DETAILS
1. Atmospheric Composition: Standard oxygen-nitrogen mix, with sulfer compounds taint 2. Surface Atmospheric Pressure: 1.8 atm 3. Surface Temperature: 3a. Stellar Luminosity: 0.45 3b. Orbit Factor: 836.345 3c. Energy Absorption: 0.74 3d. Greenhouse Effect: 1.15 3e. Base Temperature: 47.278 degrees C 4. Orbital Eccentricity Effects: Tc=0.6 degrees C, Tf=-0.6 degrees C 5. Latitude Temperature Effects: (Hex Row=Degrees C) 1=+18, 2=+12, 3=+6, 4=0, 5=-6, 6=-12, 7=-18, 8=-24, 9=-30, 10=-36, 11=-42 degrees C 6a. Axial Tilt Base Increase: 13.2 degrees C 6b. Axial Tilt Base Decrease: -22 degrees C 6c. Axial Tilt Latitude Effects: (Hex Row=Degrees) 1=0, 2=0, 3=0, 4=0.25, 5=0.5, 6=0.75, 7=1, 8=1, 9=1, 10=1, 11=1 degrees 7a. Length of day and Night: 9.725 standard hours 7b. Rotation-Luminosity Effects: 0.45 7c. Daytime Rotation Effects: 0.18 +per hour of daylight, 576.501 absolute maximum plus temperature 7d. Nighttime Rotation Effects: 0.5 -per hour of darkness, 32.028 absolute maximum minus temperature 11. Temperature Worksheet: See separate section 12. Native Life: Exists 13. Atmospheric Terraforming: Has not occurred 14. Greenhouse Effect Terraforming: Has not occurred 15. Albedo Terraforming: Has not occurred
HYDROSPHERE RELATED DETAILS
1. Hydrographic Percentage: 60% 2. Hydrographic Composition: Tainted liquid water 3. Tectonic Plates: 7 4. Hydrographic Terraforming: Has not occurred 5. Terrain Terraforming: Has not occurred 6. Continents and Oceans: 5 major continents, 7 minor continents, 9 major islands, 12 archipelagoes 8. Resources and Goods: Natural Resources: Ores, Compounds Processed Resources: Agroproducts, Metals, Non-Metals Information Resources: Recordings, Artforms, Documents 9. Weather Control: Is practiced
POPULATION RELATED DETAILS
1. Total World Population: 8,000,000 3. Cities: 3e. Medium-Large Cities (UWP Pop-2): Cities=144, Population/City=50,000 3g. Moderate-Size Cities (UWP Pop-3): Cities=64, Population/City=5,000 3i. Small Cities (UWP Pop-4): Cities=768, Population/City=500 3k. Very Small Cities (UWP Pop-5): Cities=1,920, Population/City=50 4. Primary Cities: 10 5. Starports and Spaceports: B/D/C/C/F/D/F/B/B/B 6. Orbital Cities: Present 7. Social Outlook: 7a. Progressiveness: Conservative, Indifferent 7b. Aggressiveness: Unaggressive, Peaceable 7c. Extensiveness: Discordant, Aloof 8a. Number of Customs: 1 8b-g. Local Customs/Practicing Group: Non-marriage the rule/All population.
GOVERNMENT RELATED DETAILS
1. Representative Authority Guide: Captive Government 2. Representative Authority: Several Councils 3. Division of Authority: 2-way division 6. 2-Way Division: Representative Authority=Executive & Legislative, Other Authorities=Judicial 7. Organisation of Other Authorities: Ruler
LATITUDE BASE HEX BASE TEMPERATURE TEMPERATURE ROW TEMPERATURE EFFECTS FOR HEX ROW 1 47 18 65 2 47 12 59 3 47 6 53 4 47 0 47 5 47 -6 41 6 47 -12 35 7 47 -18 29 8 47 -24 23 9 47 -30 17 10 47 -36 11 11 47 -42 5
AXIAL TILT HIGHEST HEX SUMMER AXIAL TILT TEMP PLUS DAYTIME ORBIT ECC TEMP FOR ROW PLUS FACTOR IN SUMMER PLUS PLUS HEX ROW 1 13 0 0 2 0.0 67 2 13 0 0 2 0.0 61 3 13 0 0 2 0.0 55 4 13 0.25 3 2 0.0 52 5 13 0.5 7 2 0.0 50 6 13 0.75 10 2 0.0 47 7 13 1 13 2 0.0 44 8 13 1 13 2 0.0 38 9 13 1 13 2 0.0 32 10 13 1 13 2 0.0 26 11 13 1 13 2 0.0 20
AXIAL TILT LOWEST HEX WINTER AXIAL TILT TEMP MINUS NIGHTTIME ORBIT ECC TEMP FOR ROW MINUS FACTOR IN WINTER MINUS MINUS HEX ROW 1 -22 0 0 5 0.0 60 2 -22 0 0 5 0.0 54 3 -22 0 0 5 0.0 48 4 -22 0.25 -6 5 0.0 37 5 -22 0.5 -11 5 0.0 25 6 -22 0.75 -17 5 0.0 14 7 -22 1 -22 5 0.0 2 8 -22 1 -22 5 0.0 -4 9 -22 1 -22 5 0.0 -10 10 -22 1 -22 5 0.0 -16 11 -22 1 -22 5 0.0 -22
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Post by Dazo on Nov 23, 2004 7:59:48 GMT -5
M0 V
Main world B79666B-A SATELLITE DETAILS: Number: 3 Satellite 1: UWP:G101000-0, Orbit: 5
Satellite 2: UWP:Y344000-0, Orbit: 30 Basic World Type: Satellite Planet Diameter: 2,900 miles (4,640 km) Planet Density: Rocky Body, 0.56 terra World Gravity: 0.21 terra Satellite Orbital Distance: 106,500 km Satellite Orbital Period: 3.798 standard days Seismic Stress Factor: 6.013 Atmospheric Composition: Standard oxygen-nitrogen mix, with gas mix taint Surface Atmospheric Pressure: 0.5 atm Base Temperature: 32.864 degrees C Hydrographic Percentage: 38% Hydrographic Composition: Tainted liquid water Volcanoes: 4
Satellite 3: UWP:F43256B-9, Orbit: 40 Basic World Type: Satellite Planet Diameter: 4,400 miles (7,040 km) Planet Density: Rocky Body, 0.68 terra World Gravity: 0.34 terra Satellite Orbital Distance: 142,000 km Satellite Orbital Period: 5.848 standard days Seismic Stress Factor: 5.013 Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 0.18 atm Base Temperature: 29.213 degrees C Hydrographic Percentage: 22% Hydrographic Composition: Liquid water Volcanoes: 2
ASTEROID BELT 1 km/1000 km, n-50 m-40 c-10, 1.0 AU
World beta Y100000-0
ASTEROID BELT 50 km/50 km, n-50 m-40 c-10, 0.1 AU
World Gamma XC00000-0 Basic World Type: Large Gas Giant Gas Giant UWP Size: 130 Gas Giant Diameter: 130,000 miles (208,000 km) Gas Giant Density: Solid core of frozen gases, 0.24 terra Rotation Period: 1.306 standard hours
SATELLITE DETAILS: Number: 10 Satellite 1: UWP:HR00000-0, Orbit: 1 Satellite 2: UWP:HR00000-0, Orbit: 2 Satellite 3: UWP:YR00000-0, Orbit: 3 Satellite 4: UWP:Y344000-0, Orbit: 4
Satellite 5: UWP:Y493220-A, Orbit: 5 Basic World Type: Satellite Planet Diameter: 4,600 miles (7,360 km) Planet Density: Molten Core, 0.94 terra World Gravity: 0.47 terra Satellite Orbital Distance: 30,000 km Satellite Orbital Period: 0.017 standard days Seismic Stress Factor: 9.806 Atmospheric Composition: Standard oxygen-nitrogen mix, with low oxygen taint Surface Atmospheric Pressure: 2.0 atm Base Temperature: -141.402 degrees C Native Life: Exists Hydrographic Percentage: 28% Hydrographic Composition: Tainted liquid water
Satellite 6: UWP:Y756500-9, Orbit: 7 Basic World Type: Satellite Planet Diameter: 7,600 miles (12,160 km) Planet Density: Molten Core, 0.94 terra World Gravity: 0.823 terra Satellite Orbital Distance: 42,000 km Satellite Orbital Period: 0.03 standard days Seismic Stress Factor: 12.931 Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 0.65 atm Base Temperature: -169.611 degrees C Tidally Locked Worlds: World is tidally locked Native Life: Exists Hydrographic Percentage: 62% Hydrographic Composition: Liquid water Volcanoes: 98
Satellite 7: UWP:F462462-A, Orbit: 10 Basic World Type: Satellite Planet Diameter: 3,800 miles (6,080 km) Planet Density: Molten Core, 0.94 terra World Gravity: 0.47 terra Satellite Orbital Distance: 60,000 km Satellite Orbital Period: 0.051 standard days Seismic Stress Factor: 7.556 Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 1.4 atm Base Temperature: -147.124 degrees C Native Life: Exists Hydrographic Percentage: 19% Hydrographic Composition: Liquid water
Satellite 8: UWP:Y251000-0, Orbit: 30 Satellite 9: UWP:GS00000-0, Orbit: 35 Satellite 10: UWP:Y100000-9, Orbit: 40
World Delta XB00000-0 Basic World Type: Small Gas Giant Gas Giant UWP Size: 70 Gas Giant Diameter: 74,000 miles (118,400 km) Gas Giant Density: Solid core of frozen gases, 0.24 terra
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Post by Dazo on Nov 23, 2004 8:05:57 GMT -5
UWP: C553A57-9
PBG: 524
TRADE CODES: High Population
BASES: Imperial Scout Base
STELLAR DETAILS: Primary Star: M2 V
STAR SYSTEM ORBITAL ZONES
1. Orbital Zones: Primary Star: 0 (Bodies Orbit around Primary Star)
SIZE RELATED DETAILS
1. Basic World Type: Planet 2a. Planet Diameter: 4,900 miles (7,840 km) 2b. Planet Density: Molten Core, 0.94 terra 5. World Mass: 0.23 terra 6. World Gravity: 0.588 terra 7. Planet Orbit Period: 7a. Stellar Mass: 0.43 sol 7b. Orbital Distance: 0.2 AU 7c. Orbital Period: 49.82 standard days 9. Rotation Period: 31.15 standard hours 10. Axial Tilt: 26 degrees 11. Orbital Eccentricity: 0.02 12. Seismic Stress Factor: 1.15
ATMOSPHERIC RELATED DETAILS
1. Atmospheric Composition: Standard oxygen-nitrogen mix 2. Surface Atmospheric Pressure: 0.6 atm 3. Surface Temperature: 3a. Stellar Luminosity: 0.39 3b. Orbit Factor: 836.345 3c. Energy Absorption: 0.86 3d. Greenhouse Effect: 1.05 3e. Base Temperature: 21.536 degrees C 4. Orbital Eccentricity Effects: Tc=0.6 degrees C, Tf=-0.6 degrees C 5. Latitude Temperature Effects: (Hex Row=Degrees C) 1=+15, 2=+10, 3=+5, 4=0, 5=-5, 6=-10, 7=-15, 8=-20, 9=-25, 10=-30, 11=-35 degrees C 6a. Axial Tilt Base Increase: 15.6 degrees C 6b. Axial Tilt Base Decrease: -26 degrees C 6c. Axial Tilt Latitude Effects: (Hex Row=Degrees) 1=0, 2=0, 3=0.25, 4=0.5, 5=0.75, 6=1, 7=1, 8=1, 9=1, 10=1, 11=1 degrees 7a. Length of day and Night: 15.575 standard hours 7b. Rotation-Luminosity Effects: 0.39 7c. Daytime Rotation Effects: 0.234 +per hour of daylight, 172.303 absolute maximum plus temperature 7d. Nighttime Rotation Effects: 3.0 -per hour of darkness, 88.361 absolute maximum minus temperature 11. Temperature Worksheet: See separate section 12. Native Life: Exists 13. Atmospheric Terraforming: Has not occurred 14. Greenhouse Effect Terraforming: Has not occurred 15. Albedo Terraforming: Has not occurred
HYDROSPHERE RELATED DETAILS
1. Hydrographic Percentage: 31% 2. Hydrographic Composition: Liquid water 3. Tectonic Plates: 1 4. Hydrographic Terraforming: Has not occurred 5. Terrain Terraforming: Has occurred 6. Continents and Oceans: 1 major oceans, 8 minor oceans, 7 small seas, 11 scattered lakes 7. Volcanoes: 1 8. Resources and Goods: Natural Resources: Agriculture, Crystals, Compounds Processed Resources: Agroproducts, Non-Metals Manufactured Resources: Durables, Consumables Information Resources: Recordings, Artforms, Software, Documents 9. Weather Control: Is practiced
POPULATION RELATED DETAILS
1. Total World Population: 50,000,000,000 3. Cities: 3c. Large Cities (UWP Pop-1): City : 8,000,000,000 City : 1,000,000,000 City : 1,000,000,000 3e. Medium-Large Cities (UWP Pop-2): Cities=24, Population/City=500,000,000 3g. Moderate-Size Cities (UWP Pop-3): Cities=112, Population/City=50,000,000 3i. Small Cities (UWP Pop-4): Cities=448, Population/City=5,000,000 3k. Very Small Cities (UWP Pop-5): Cities=40,320, Population/City=500,000 4. Primary Cities: 3 5. Starports and Spaceports: C/C/C 6. Orbital Cities: None 7. Social Outlook: 7a. Progressiveness: Radical, Advancing 7b. Aggressiveness: Competitive, Conciliatory 7c. Extensiveness: Harmonious, Friendly 8a. Number of Customs: 2 8b-g. Local Customs/Practicing Group: Daytime (siesta) rest period prohibited/All population. Omnivorous/All population.
GOVERNMENT RELATED DETAILS
1. Representative Authority Guide: Fuedal Technocracy 2. Representative Authority: Several Councils 3. Division of Authority: 2-way division 6. 2-Way Division: Representative Authority=Executive & Legislative, Other Authorities=Judicial 7. Organisation of Other Authorities: Elite Council
LATITUDE BASE HEX BASE TEMPERATURE TEMPERATURE ROW TEMPERATURE EFFECTS FOR HEX ROW 1 22 15 37 2 22 10 32 3 22 5 27 4 22 0 22 5 22 -5 17 6 22 -10 12 7 22 -15 7 8 22 -20 2 9 22 -25 -3 10 22 -30 -8 11 22 -35 -13
AXIAL TILT HIGHEST HEX SUMMER AXIAL TILT TEMP PLUS DAYTIME ORBIT ECC TEMP FOR ROW PLUS FACTOR IN SUMMER PLUS PLUS HEX ROW 1 16 0 0 4 0.0 40 2 16 0 0 4 0.0 35 3 16 0.25 4 4 0.0 34 4 16 0.5 8 4 0.0 33 5 16 0.75 12 4 0.0 32 6 16 1 16 4 0.0 31 7 16 1 16 4 0.0 26 8 16 1 16 4 0.0 21 9 16 1 16 4 0.0 16 10 16 1 16 4 0.0 11 11 16 1 16 4 0.0 6
AXIAL TILT LOWEST HEX WINTER AXIAL TILT TEMP MINUS NIGHTTIME ORBIT ECC TEMP FOR ROW MINUS FACTOR IN WINTER MINUS MINUS HEX ROW 1 -26 0 0 47 0.0 -10 2 -26 0 0 47 0.0 -15 3 -26 0.25 -7 47 0.0 -27 4 -26 0.5 -13 47 0.0 -38 5 -26 0.75 -20 47 0.0 -50 6 -26 1 -26 47 0.0 -61 7 -26 1 -26 47 0.0 -66 8 -26 1 -26 47 0.0 -71 9 -26 1 -26 47 0.0 -76 10 -26 1 -26 47 0.0 -81 11 -26 1 -26 47 0.0 -86
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Post by Dazo on Nov 23, 2004 8:25:45 GMT -5
M2 V
MAIN WORLD C553A57-9
World beta XC00000-0 Basic World Type: Large Gas Giant Gas Giant UWP Size: 160 Gas Giant Diameter: 156,000 miles (249,600 km) Gas Giant Density: Solid rocky core, 0.26 terra
SATELLITE DETAILS: Number: 5 Satellite 1: UWP:YR00000-0, Orbit: 1 Satellite 2: UWP:Y203000-0, Orbit: 5 Satellite 3: UWP:Y313000-0, Orbit: 10 Satellite 4: UWP:Y333000-0, Orbit: 40 Satellite 5: UWP:Y100000-0, Orbit: 45
World Gamma XC00000-0 Basic World Type: Large Gas Giant Gas Giant UWP Size: 230 Gas Giant Diameter: 236,000 miles (377,600 km) Gas Giant Density: Solid rocky core, 0.28 terra
SATELLITE DETAILS: Number: 5 Satellite 1: UWP:YR00000-0, Orbit: 1
Satellite 2: UWP:G563712-8, Orbit: 4 Basic World Type: Satellite Planet Diameter: 4,900 miles (7,840 km) Planet Density: Molten Core, 0.94 terra World Gravity: 0.588 terra Satellite Orbital Distance: 24,200 km Seismic Stress Factor: 18.146 Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 1.0 atm Base Temperature: -108.067 degrees C Native Life: Exists Hydrographic Percentage: 29% Hydrographic Composition: Liquid water
Satellite 3: UWP:YS00000-0, Orbit: 8 Satellite 4: UWP:H210000-0, Orbit: 10
Satellite 5: UWP:Y400100-8, Orbit: 30 Basic World Type: Satellite Planet Diameter: 3,700 miles (5,920 km) Planet Density: Molten Core, 1.08 terra World Gravity: 0.54 terra Satellite Orbital Distance: 181,500 km Base Temperature: -116.087 degrees C Vacuum world Tidally Locked Worlds: World is tidally locked Volcanoes: 4
ASTEROID BELT 25 m/1000 km, n-40 m-40 c-20, 0.1 AU
World delta XB00000-0 Basic World Type: Small Gas Giant Gas Giant UWP Size: 80 Gas Giant Diameter: 81,000 miles (129,600 km) Gas Giant Density: Solid rocky core, 0.27 terra
SATELLITE DETAILS: Number: 4 Satellite 1: UWP:YR00000-0, Orbit: 1 Satellite 2: UWP:Y222000-0, Orbit: 25 Satellite 3: UWP:YS00000-0, Orbit: 35
Satellite 4: UWP:G556960-8, Orbit: 40 Basic World Type: Satellite Planet Diameter: 5,200 miles (8,320 km) Planet Density: Molten Core, 0.96 terra World Gravity: 0.6 terra Satellite Orbital Distance: 216,000 km Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 0.55 atm Base Temperature: -223.297 degrees C Native Life: Exists Hydrographic Percentage: 55% Hydrographic Composition: Liquid water Volcanoes: 9
World epsilon XC00000-0 Basic World Type: Large Gas Giant Gas Giant UWP Size: 120 Gas Giant Diameter: 126,000 miles (201,600 km) Gas Giant Density: Solid rocky core, 0.26 terra
SATELLITE DETAILS: Number: 7 Satellite 1: UWP:YR00000-0, Orbit: 1 Satellite 2: UWP:YR00000-0, Orbit: 2 Satellite 3: UWP:YS00000-0, Orbit: 7 Satellite 4: UWP:FS00000-0, Orbit: 9 Satellite 5: UWP:YS00000-0, Orbit: 12 Satellite 6: UWP:H102000-0, Orbit: 30
Satellite 7: UWP:Y766634-9, Orbit: 50 Basic World Type: Satellite Planet Diameter: 7,300 miles (11,680 km) Planet Density: Heavy Core, 1.3 terra World Gravity: 1.138 terra Satellite Orbital Distance: 305,000 km Satellite Orbital Period: 0.633 standard days Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 1.1 atm Base Temperature: -236.568 degrees C Native Life: Exists Hydrographic Percentage: 57% Hydrographic Composition: Liquid water
ASTEROID BELT 50 m/1000 km, n-10 m-80 c-10, 0.5 AU
World Iota G437000-0 Basic World Type: Planet Planet Diameter: 4,100 miles (6,560 km) Planet Density: Molten Core, 1.04 terra Orbital Period: 377,817.393 standard days Rotation Period: 13.006 standard hours Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 0.2 atm Base Temperature: -240.017 degrees C Native Life: Exists Hydrographic Percentage: 70% Hydrographic Composition: Liquid water
SATELLITE DETAILS: Number: 1 Satellite 1: UWP:GS00000-0, Orbit: 45
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Post by Dazo on Nov 24, 2004 14:43:23 GMT -5
Should you need them any time soon i've done every other world in your sub sector that is populated but so far unclaimed, and some are rather odd, or at least interesting, apart from one, which is really naff.
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Post by CELS on Nov 26, 2004 2:54:57 GMT -5
Thanks, Dazo! You never know when those might come in handy. At the moment though, I think I've covered all the probably Imperial worlds in the subsector. Rather cool, actually, that the Archaios sector is beginning to take shape. If only Zidagar Dinoman and High Inquisitor would finish their worlds....
Anyway. Dazo, could you please enter the high-gravity world (B79666B-A)in H&E a few more times, and see if you get a lower gravity? Thanks a bunch.
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Post by Dazo on Nov 26, 2004 3:12:42 GMT -5
Ok no probs, heres the relevant data you will need to change 7,300 miles (11,680 km) Planet Density: Molten Core, 0.94 terra World Mass: 0.63 terra World Gravity: 0.823 terra And I don't think you covered all the worlds, this one looks fairly important: 4,28,18 - M-V - CAB9400-7 Fl 412 Im 0C0 Look at that resource value, this would surely be one of the major worlds in your sub. And if no one wants it maybe you might let me have a go
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