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Post by CELS on Nov 8, 2004 13:19:30 GMT -5
Since I currently don't have Heaven & Earth on the computer of my school, I was wondering if someone would be kind enough to generate the physical data of two systems for me. 4,57,4 - M-V - A464AAA-G S Hi 700 Im 95(27) Ork world..If possible, try to enter the data a few times to avoid a fantastically low gravity. 0,56,0 - G-VI - C772514-9 602 Im 830 Ork world..5,30,17 - M-V - C676320-9 Lo 900 Im 650 Possible Knight World9,26,22 - M-V - B7966BA-A Ag 822 Im 330 Possible Knight WorldThanks in advance to the kind person who will help me build more worlds for the Anargo sector
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Post by Dazo on Nov 8, 2004 13:23:44 GMT -5
You know I live for this, do you want the extended system data as well, or just the main world stuff. Also do you just want the info pertinent to what is included on the SR or do you want everything that is generated. And do you want the info posted here or should I just PM it to you.
ok am off to generate those worlds wheeeee ;D
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Post by CELS on Nov 8, 2004 13:27:11 GMT -5
LoL! I was hoping you'd reply, Dazo. I need extended system data, all data needed for the SR. Other planets and gas giants in the system, etc. I do not need data that is irrelevant for the SR, and I seem to remember that Heaven and Earth generates a lot of it. Oh, and please just post the info here. One post per system/main world would be good. Thanks
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Post by Dazo on Nov 8, 2004 13:51:41 GMT -5
0,56,0 - G-VI - C772514-9 602 Im 830 Ork world
STELLAR DETAILS: Primary Star: G0 VI
STAR SYSTEM ORBITAL ZONES
1. Orbital Zones: Primary Star: 2 (Bodies Orbit around Primary Star)
SATELLITE DETAILS: Number: 3 Satellite 1: UWP:Y665000-0, Orbit: 5 Satellite 2: UWP:H614000-9, Orbit: 9 Satellite 3: UWP:Y553000-0, Orbit: 30
SIZE RELATED DETAILS
1. Basic World Type: Planet 2a. Planet Diameter: 7,200 miles (11,520 km) 2b. Planet Density: Heavy Core, 1.7 terra 5. World Mass: 1.139 terra 6. World Gravity: 1.488 terra 7. Planet Orbit Period: 7a. Stellar Mass: 0.6 sol 7b. Orbital Distance: 0.7 AU 7c. Orbital Period: 276.161 standard days 9. Rotation Period: 0.0 standard hours 10. Axial Tilt: 47 degrees 11. Orbital Eccentricity: 0.005 12. Seismic Stress Factor: 0.0
ATMOSPHERIC RELATED DETAILS
1. Atmospheric Composition: Standard oxygen-nitrogen mix, with sulfer compounds taint 2. Surface Atmospheric Pressure: 1.4 atm 3. Surface Temperature: 3a. Stellar Luminosity: 0.75 3b. Orbit Factor: 447.045 3c. Energy Absorption: 0.86 3d. Greenhouse Effect: 1.1 3e. Base Temperature: 44.179 degrees C 4. Orbital Eccentricity Effects: Tc=0.15 degrees C, Tf=-0.15 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: 28.2 degrees C 6b. Axial Tilt Base Decrease: -47 degrees C 6c. Axial Tilt Latitude Effects: (Hex Row=Degrees) 1=0.5, 2=0.75, 3=1, 4=1, 5=1, 6=1, 7=1, 8=1, 9=1, 10=1, 11=1 degrees 7a. Length of day and Night: 0.0 standard hours 7b. Rotation-Luminosity Effects: 0.75 7c. Daytime Rotation Effects: 0.375 +per hour of daylight, 594.71 absolute maximum plus temperature 7d. Nighttime Rotation Effects: 1.0 -per hour of darkness, 47.577 absolute maximum minus temperature 10. Tidally Locked Worlds: World is tidally locked 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: 21% 2. Hydrographic Composition: Tainted liquid water 3. Tectonic Plates: 1 4. Hydrographic Terraforming: Has not occurred 5. Terrain Terraforming: Has occurred 6. Continents and Oceans: 2 major oceans, 4 minor oceans, 11 small seas, 4 scattered lakes 7. Volcanoes: 4 8. Resources and Goods: Natural Resources: Ores Processed Resources: Metals Information Resources: Documents 9. Weather Control: Is not practiced
POPULATION RELATED DETAILS
1. Total World Population: 600,000 3. Cities: 3g. Moderate-Size Cities (UWP Pop-3): Cities=720, Population/City=500 3i. Small Cities (UWP Pop-4): Cities=4,800, Population/City=50 4. Primary Cities: 10 5. Starports and Spaceports: C/H/C/C/E/C/F/C/C/G 6. Orbital Cities: None 7. Social Outlook: 7a. Progressiveness: Reactionary, Stagnant 7b. Aggressiveness: Unaggressive, Neutral 7c. Extensiveness: Discordant, Aloof 8a. Number of Customs: 3 8b-g. Local Customs/Practicing Group: Unusual fingernails/All population. Eat only certain times/All population. Child named for living relative/All population.
GOVERNMENT RELATED DETAILS
1. Representative Authority Guide: Company/Corporation 2. Representative Authority: Ruler 3. Division of Authority: No division
LAW RELATED DETAILS
1. Uniformity of Law: Undivided 2. Legal Profile: 4-10623
TEMPERATURE WORKSHEET ---------------------
LATITUDE BASE HEX BASE TEMPERATURE TEMPERATURE ROW TEMPERATURE EFFECTS FOR HEX ROW 1 44 18 62 2 44 12 56 3 44 6 50 4 44 0 44 5 44 -6 38 6 44 -12 32 7 44 -18 26 8 44 -24 20 9 44 -30 14 10 44 -36 8 11 44 -42 2
AXIAL TILT HIGHEST HEX SUMMER AXIAL TILT TEMP PLUS DAYTIME ORBIT ECC TEMP FOR ROW PLUS FACTOR IN SUMMER PLUS PLUS HEX ROW 1 28 0.5 14 0 0.0 76 2 28 0.75 21 0 0.0 77 3 28 1 28 0 0.0 78 4 28 1 28 0 0.0 72 5 28 1 28 0 0.0 66 6 28 1 28 0 0.0 60 7 28 1 28 0 0.0 54 8 28 1 28 0 0.0 48 9 28 1 28 0 0.0 42 10 28 1 28 0 0.0 36 11 28 1 28 0 0.0 30
AXIAL TILT LOWEST HEX WINTER AXIAL TILT TEMP MINUS NIGHTTIME ORBIT ECC TEMP FOR ROW MINUS FACTOR IN WINTER MINUS MINUS HEX ROW 1 -47 0.5 -24 0 0.0 39 2 -47 0.75 -35 0 0.0 21 3 -47 1 -47 0 0.0 3 4 -47 1 -47 0 0.0 -3 5 -47 1 -47 0 0.0 -9 6 -47 1 -47 0 0.0 -15 7 -47 1 -47 0 0.0 -21 8 -47 1 -47 0 0.0 -27 9 -47 1 -47 0 0.0 -33 10 -47 1 -47 0 0.0 -39 11 -47 1 -47 0 0.0 -45
Is that what you want, tell me now beforw I post the other three, do you want the info on the moons and other planets as i've done above or do you just want the basic UWP's, ie Y665000-0, or do you want the gravity/pressure/temp details, if the latter it may take some time for me to gather all the info
Second thoughts i'll post the main world stuff then we can talk about what you need in terms of extended system info, some provisional names would be helpful aswell
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Post by Dazo on Nov 8, 2004 14:02:36 GMT -5
5,54,5 - M-V - B65A8A9-7 Both Wa 123 Im 940 Ork world
STELLAR DETAILS: Primary Star: M3 V
SATELLITE DETAILS: Number: 3 Satellite 1: UWP:Y35541C-6, Orbit: 45 Satellite 2: UWP:G103238-6, Orbit: 55 Satellite 3: UWP:G23256A-6, Orbit: 60
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: 6,200 miles (9,920 km) 2b. Planet Density: Molten Core, 1.08 terra 5. World Mass: 0.456 terra 6. World Gravity: 0.81 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: 23 degrees 11. Orbital Eccentricity: 0.0 12. Seismic Stress Factor: 0.95
ATMOSPHERIC RELATED DETAILS
1. Atmospheric Composition: Standard oxygen-nitrogen mix 2. Surface Atmospheric Pressure: 0.7 atm 3. Surface Temperature: 3a. Stellar Luminosity: 0.35 3b. Orbit Factor: 836.345 3c. Energy Absorption: 0.619 3d. Greenhouse Effect: 1.05 3e. Base Temperature: -82.746 degrees C 4. Orbital Eccentricity Effects: Tc=0 degrees C, Tf=0 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: 13.8 degrees C 6b. Axial Tilt Base Decrease: -23 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: 17.475 standard hours 7b. Rotation-Luminosity Effects: 0.35 7c. Daytime Rotation Effects: 0.21 +per hour of daylight, 99.883 absolute maximum plus temperature 7d. Nighttime Rotation Effects: 3.0 -per hour of darkness, 57.076 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: 100% 2. Hydrographic Composition: Liquid water 3. Tectonic Plates: 10 4. Hydrographic Terraforming: Has not occurred 5. Terrain Terraforming: Has occurred 6. Continents and Oceans : 1 continents 8. Resources and Goods: Natural Resources: Agriculture, Ores Processed Resources: Agroproducts, Metals, Non-Metals Manufactured Resources: Durables, Consumables Information Resources: Recordings, Documents 9. Weather Control: Is not practiced
POPULATION RELATED DETAILS
1. Total World Population: 100,000,000 3. Cities: 3e. Medium-Large Cities (UWP Pop-2): Cities=12, Population/City=5,000,000 3g. Moderate-Size Cities (UWP Pop-3): Cities=5, Population/City=500,000 3i. Small Cities (UWP Pop-4): Cities=160, Population/City=50,000 3k. Very Small Cities (UWP Pop-5): Cities=6,400, Population/City=5,000 4. Primary Cities: 10 5. Starports and Spaceports: B/C/B/B/B/F/F/C/D/B 6. Orbital Cities: Present 7. Social Outlook: 7a. Progressiveness: Radical, Advancing 7b. Aggressiveness: Unaggressive, Militant 7c. Extensiveness: Discordant, Aloof 8a. Number of Customs: 3 8b-g. Local Customs/Practicing Group: Non-marriage prohibited/Medical figures. Segregated during meals/All population. Unusual cosmetics/All population.
GOVERNMENT RELATED DETAILS
1. Representative Authority Guide: Charismatic Dictator, Ruler
TEMPERATURE WORKSHEET ---------------------
LATITUDE BASE HEX BASE TEMPERATURE TEMPERATURE ROW TEMPERATURE EFFECTS FOR HEX ROW 1 -83 18 -65 2 -83 12 -71 3 -83 6 -77 4 -83 0 -83 5 -83 -6 -89 6 -83 -12 -95 7 -83 -18 -101 8 -83 -24 -107 9 -83 -30 -113 10 -83 -36 -119 11 -83 -42 -125
AXIAL TILT HIGHEST HEX SUMMER AXIAL TILT TEMP PLUS DAYTIME ORBIT ECC TEMP FOR ROW PLUS FACTOR IN SUMMER PLUS PLUS HEX ROW 1 14 0 0 4 0.0 -61 2 14 0 0 4 0.0 -67 3 14 0.25 3 4 0.0 -70 4 14 0.5 7 4 0.0 -72 5 14 0.75 10 4 0.0 -75 6 14 1 14 4 0.0 -77 7 14 1 14 4 0.0 -83 8 14 1 14 4 0.0 -89 9 14 1 14 4 0.0 -95 10 14 1 14 4 0.0 -101 11 14 1 14 4 0.0 -107
AXIAL TILT LOWEST HEX WINTER AXIAL TILT TEMP MINUS NIGHTTIME ORBIT ECC TEMP FOR ROW MINUS FACTOR IN WINTER MINUS MINUS HEX ROW 1 -23 0 0 52 0.0 -117 2 -23 0 0 52 0.0 -123 3 -23 0.25 -6 52 0.0 -135 4 -23 0.5 -12 52 0.0 -147 5 -23 0.75 -17 52 0.0 -158 6 -23 1 -23 52 0.0 -170 7 -23 1 -23 52 0.0 -176 8 -23 1 -23 52 0.0 -182 9 -23 1 -23 52 0.0 -188 10 -23 1 -23 52 0.0 -194 11 -23 1 -23 52 0.0 -200
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Post by Dazo on Nov 8, 2004 14:04:49 GMT -5
5,30,17 - M-V - C676320-9 Lo 900 Im 650 possible knight world
STELLAR DETAILS: Primary Star: M2 V
SATELLITE DETAILS: Number: 1 Satellite 1: UWP:Y100223-9, Orbit: 4
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: 6,600 miles (10,560 km) 2b. Planet Density: Molten Core, 0.96 terra 5. World Mass: 0.405 terra 6. World Gravity: 0.72 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: 15.15 standard hours 10. Axial Tilt: 1 degrees 11. Orbital Eccentricity: 0.005 12. Seismic Stress Factor: 3.15
ATMOSPHERIC RELATED DETAILS
1. Atmospheric Composition: Standard oxygen-nitrogen mix with pollutant taint 2. Surface Atmospheric Pressure: 1.0 atm 3. Surface Temperature: 3a. Stellar Luminosity: 0.39 3b. Orbit Factor: 836.345 3c. Energy Absorption: 0.74 3d. Greenhouse Effect: 1.1 3e. Base Temperature: -7.494 degrees C 4. Orbital Eccentricity Effects: Tc=0.15 degrees C, Tf=-0.15 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: 0.6 degrees C 6b. Axial Tilt Base Decrease: -1 degrees C 6c. Axial Tilt Latitude Effects: (Hex Row=Degrees) 1=0, 2=0, 3=0, 4=0, 5=0, 6=0, 7=0, 8=0, 9=0, 10=0.25, 11=0.5 degrees 7a. Length of day and Night: 7.575 standard hours 7b. Rotation-Luminosity Effects: 0.39 7c. Daytime Rotation Effects: 0.195 +per hour of daylight, 258.868 absolute maximum plus temperature 7d. Nighttime Rotation Effects: 1.0 -per hour of darkness, 39.826 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: 5 4. Hydrographic Terraforming: Has not occurred 5. Terrain Terraforming: Has not occurred 6. Continents and Oceans: 6 major continents, 1 minor continents, 12 major islands, 7 archipelagoes 8. Resources and Goods: Natural Resources: Agriculture, Ores Processed Resources: Agroproducts, Non-Metals Information Resources: Recordings 9. Weather Control: Is not practiced
POPULATION RELATED DETAILS
1. Total World Population: 9,000 2. Cities If Population < 1,000,000: All population in one large city 4. Primary Cities: 1 5. Starports and Spaceports: C 6. Orbital Cities: None 7. Social Outlook: 7a. Progressiveness: Progressive, Advancing 7b. Aggressiveness: Expansionistic, Peaceable 7c. Extensiveness: Discordant, Xenophobic 8a. Number of Customs: 3 8b-g. Local Customs/Practicing Group: Very long marriages the rule/Scientific figures. Offworld contact prohibited for.../Certain occupations. Eat with unusual utensils/All population.
GOVERNMENT RELATED DETAILS
1. Representative Authority Guide: Participating Democracy, Demos
TEMPERATURE WORKSHEET ---------------------
LATITUDE BASE HEX BASE TEMPERATURE TEMPERATURE ROW TEMPERATURE EFFECTS FOR HEX ROW 1 -7 18 11 2 -7 12 5 3 -7 6 -1 4 -7 0 -7 5 -7 -6 -13 6 -7 -12 -19 7 -7 -18 -25 8 -7 -24 -31 9 -7 -30 -37 10 -7 -36 -43 11 -7 -42 -49
AXIAL TILT HIGHEST HEX SUMMER AXIAL TILT TEMP PLUS DAYTIME ORBIT ECC TEMP FOR ROW PLUS FACTOR IN SUMMER PLUS PLUS HEX ROW 1 1 0 0 1 0.0 12 2 1 0 0 1 0.0 6 3 1 0 0 1 0.0 0 4 1 0 0 1 0.0 -6 5 1 0 0 1 0.0 -12 6 1 0 0 1 0.0 -18 7 1 0 0 1 0.0 -24 8 1 0 0 1 0.0 -30 9 1 0 0 1 0.0 -36 10 1 0.25 0 1 0.0 -42 11 1 0.5 0 1 0.0 -48
AXIAL TILT LOWEST HEX WINTER AXIAL TILT TEMP MINUS NIGHTTIME ORBIT ECC TEMP FOR ROW MINUS FACTOR IN WINTER MINUS MINUS HEX ROW 1 -1 0 0 8 0.0 3 2 -1 0 0 8 0.0 -3 3 -1 0 0 8 0.0 -9 4 -1 0 0 8 0.0 -15 5 -1 0 0 8 0.0 -21 6 -1 0 0 8 0.0 -27 7 -1 0 0 8 0.0 -33 8 -1 0 0 8 0.0 -39 9 -1 0 0 8 0.0 -45 10 -1 0.25 0 8 0.0 -51 11 -1 0.5 -1 8 0.0 -58
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Post by Dazo on Nov 8, 2004 14:06:31 GMT -5
9,26,22 - M-V - B7966BA-A Ag 822 Im 330
possible knight world
STELLAR DETAILS: Primary Star: M0 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: 7,200 miles (11,520 km) 2b. Planet Density: Molten Core, 1.0 terra 5. World Mass: 0.67 terra 6. World Gravity: 0.875 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: 45 degrees 11. Orbital Eccentricity: 0.0 12. Seismic Stress Factor: 1.45
ATMOSPHERIC RELATED DETAILS
1. Atmospheric Composition: Standard oxygen-nitrogen mix, with low oxygen taint 2. Surface Atmospheric Pressure: 2.4 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 degrees C, Tf=0 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: 27 degrees C 6b. Axial Tilt Base Decrease: -45 degrees C 6c. Axial Tilt Latitude Effects: (Hex Row=Degrees) 1=0.5, 2=0.75, 3=1, 4=1, 5=1, 6=1, 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: 59% 2. Hydrographic Composition: Tainted liquid water 3. Tectonic Plates: 6 4. Hydrographic Terraforming: Has not occurred 5. Terrain Terraforming: Has not occurred 6. Continents and Oceans: 4 major continents, 4 minor continents, 7 major islands, 7 archipelagoes 8. Resources and Goods: Natural Resources: Agriculture, Ores Processed Resources: Agroproducts, Non-Metals Manufactured Resources: Durables, Consumables Information Resources: Recordings, Documents 9. Weather Control: Is not practiced
POPULATION RELATED DETAILS
1. Total World Population: 8,000,000 3. Cities: 3g. Moderate-Size Cities (UWP Pop-3): Cities=1,600, Population/City=5,000 4. Primary Cities: 10 5. Starports and Spaceports: B/B/B/B/B/B/B/B/B/B 6. Orbital Cities: Present 7. Social Outlook: 7a. Progressiveness: Conservative, Indifferent 7b. Aggressiveness: Competitive, Peaceable 7c. Extensiveness: Discordant, Aloof 8a. Number of Customs: 5 8b-g. Local Customs/Practicing Group: Unusual hair colour/Low social class. Unusual leavetakings/All population. Unusual food preparation/All population. Vegetarians/All population. Bodily abuse prohibited/All population.
GOVERNMENT RELATED DETAILS
1. Representative Authority Guide: Non-Charismatic Dictator, Ruler
LAW RELATED DETAILS
1. Uniformity of Law: Personal 2. Legal Profile: A-9DFCB
TEMPERATURE WORKSHEET ---------------------
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 27 0.5 14 2 0.0 81 2 27 0.75 20 2 0.0 81 3 27 1 27 2 0.0 82 4 27 1 27 2 0.0 76 5 27 1 27 2 0.0 70 6 27 1 27 2 0.0 64 7 27 1 27 2 0.0 58 8 27 1 27 2 0.0 52 9 27 1 27 2 0.0 46 10 27 1 27 2 0.0 40 11 27 1 27 2 0.0 34
AXIAL TILT LOWEST HEX WINTER AXIAL TILT TEMP MINUS NIGHTTIME ORBIT ECC TEMP FOR ROW MINUS FACTOR IN WINTER MINUS MINUS HEX ROW 1 -45 0.5 -23 5 0.0 38 2 -45 0.75 -34 5 0.0 21 3 -45 1 -45 5 0.0 3 4 -45 1 -45 5 0.0 -3 5 -45 1 -45 5 0.0 -9 6 -45 1 -45 5 0.0 -15 7 -45 1 -45 5 0.0 -21 8 -45 1 -45 5 0.0 -27 9 -45 1 -45 5 0.0 -33 10 -45 1 -45 5 0.0 -39 11 -45 1 -45 5 0.0 -45
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Post by CELS on Nov 9, 2004 3:49:30 GMT -5
Thanks a bunch for your help, Dazo! Now, in addition to the information about the main world, I need the extended system generation. In other words, I need to know about the other gas giants and planets and asteroid rings in the system. The first ork world is perfect. Enough said. The second ork world has a very low gravity. Is there any chance you could increase it slightly, by randomly increasing the planet's density? More later... Edit later that day: Right. Late last night, I was thinking about what I wanted my next two Imperial worlds to be like. Feeling inspired by Dazo's wonderful crystal world, I felt that I needed something somewhat original. In other words, no terraformed worlds with standard atmospheres. Idea 1) A world where some sort of heavy gas lies like an ocean above the actual ocean. If anyone has played LBA 2: Twinsen's Oddyssey, they'll know what I mean. The people on this world would live on islands of land above the cloudy oceans of heavy gas. A common type of vehicle might be a sort of hover-craft, with gas containers that cause it to float above the layer of heavy gas clouds, with only small jets or propellers for propulsion. Idea 2) Not really that exciting, really. I need one of the Knight worlds to be tidally locked, with one side infernally hot. I also want the world to have such extreme differences in temperature that powerful winds constantly ravage the world (though not powerful enough to prevent colonisation) and send heavy cloud formations crashing into eachother, creating near constant thunderstorms. So on one side, you'd have a hot inferno, and on the other side you'd have an everlasting thunderstorm in perpetual darkness. Now I just need everyone's help to explain such conditions. What kind of gas would be heavy enough to actually seperate itself and form a sort of cloudy gas-ocean? Is this even possible? And what would cause such great thunderstorms and massive cloud formations? Is this possible without creating conditions that are as inhospitable as Jupiter in our own system?
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Post by Dazo on Nov 9, 2004 8:05:35 GMT -5
Primary Star: G0 VI
Ork world alpha X100000-0 SATELLITE DETAILS: Number: 1 Satellite 1: UWP:YS00000-0, Orbit: 8 Planet Diameter: 1,000 miles (1,600 km) World Gravity: 0.115 terra Rotation Period: 8.0 standard hours Base Temperature: 291.533 degrees C Seismic Stress Factor: 0.0
Ork world beta X100000-0 SATELLITE DETAILS: Number: 1 Satellite 1: UWP:YS00000-0, Orbit: 55 Planet Diameter: 800 miles (1,280 km) World Gravity: 0.122 terra Rotation Period: 26.5 standard hours Base Temperature: 126.185 degrees C Seismic Stress Factor: 0.0
Ork world gammer (main world) C772514-9 SATELLITE DETAILS: Number: 3 Satellite 1: UWP:Y665000-0, Orbit: 5 Satellite 2: UWP:H614000-9, Orbit: 9 Satellite 3: UWP:Y553000-0, Orbit: 30
Ork world delta UWP: XC00000-0 Gas Giant UWP Size: 110 Gas Giant Diameter: 109,000 miles (174,400 km) Gas Giant Density: Solid core of frozen gases, 0.2 terra
SATELLITE DETAILS: Number: 11 Satellite 1: UWP:Y704000-0, Orbit: 4 Planet Diameter: 6,600 miles (10,560 km) World Gravity: 0.858 terra Satellite Orbital Period: 0.02 standard days Rotation Period: 8,410.837 standard hours Seismic Stress Factor: 26.944 Base Temperature: -65.977 degrees C Hydrographic Percentage: 43% Volcanoes: 6 Vacuum world
Satellite 2: UWP:Y100000-0, Orbit: 6 Satellite 3: UWP:Y420000-0, Orbit: 7
Satellite 4: UWP:H784100-8, Orbit: 8 Planet Diameter: 6,800 miles (10,880 km) World Gravity: 0.858 terra Satellite Orbital Period: 0.054 standard days Rotation Period: 10.0 standard hours Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 1.6 atm Base Temperature: -8.471 degrees C Native Life: Exists Hydrographic Percentage: 39% Liquid water
Satellite 5: UWP:H300000-0, Orbit: 11 Satellite 6: UWP:H300000-0, Orbit: 15
Satellite 7: UWP:Y701000-0, Orbit: 30 Planet Diameter: 7,200 miles (11,520 km) Planet Density: Molten Core, 1.04 terra World Gravity: 0.91 terra Satellite Orbital Period: 0.392 standard days Rotation Period: 100.0 standard hours Seismic Stress Factor: 5.246 Base Temperature: -64.294 degrees C Vacuum world Hydrographic Percentage: 4% Liquid water Volcanoes: 4
Satellite 8: UWP:Y402000-9, Orbit: 35
Satellite 9: UWP:H660000-0, Orbit: 40 Planet Diameter: 5,800 miles (9,280 km) Planet Density: Molten Core, 1.04 terra World Gravity: 0.78 terra Satellite Orbital Period: 0.603 standard days World is tidally locked Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 1.0 atm Base Temperature: -26.144 degrees C Volcanoes: 6
Satellite 10: UWP:H300000-0, Orbit: 45 Satellite 11: UWP:Y430000-0, Orbit: 55
Ork world epsilion UWP: XC00000-0 Gas Giant UWP Size: 130 Gas Giant Diameter: 132,000 miles (211,200 km) Gas Giant Density: Solid rocky core, 0.28 terra
SATELLITE DETAILS: Number: 9 Satellite 1: UWP:YR00000-0, Orbit: 2 Satellite 2: UWP:Y100000-0, Orbit: 4 Satellite 3: UWP:Y400000-0, Orbit: 6 Satellite 4: UWP:G300100-8, Orbit: 8 Satellite 5: UWP:H612000-0, Orbit: 9 Planet Diameter: 6,200 miles (9,920 km) Planet Density: Molten Core, 0.92 terra Satellite Orbital Period: 0.041 standard days Rotation Period: 8,782.985 standard hours Seismic Stress Factor: 10.792 Atmospheric Composition: None Surface Atmospheric Pressure: 0.06 atm Base Temperature: -109.777 degrees C Hydrographic Percentage: 15% Liquid water Volcanoes: 2
Satellite 6: UWP:Y311300-8, Orbit: 10 Satellite 7: UWP:H300000-0, Orbit: 15 Satellite 8: UWP:YS00200-8, Orbit: 20
Satellite 9: UWP:Y540000-0, Orbit: 30 Planet Diameter: 4,700 miles (7,520 km) Planet Density: Rocky Body, 0.74 terra World Gravity: 0.463 terra Satellite Orbital Period: 0.252 standard days Rotation Period: 60.0 standard hours Seismic Stress Factor: 5.979 Atmospheric Composition: Standard oxygen-nitrogen mix, with low oxygen taint Surface Atmospheric Pressure: 0.7 atm Base Temperature: -86.713 degrees C Native Life: Exists Volcanoes: 4
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Post by Dazo on Nov 9, 2004 8:53:57 GMT -5
Primary Star: M3 V
ORK WORLD2 ALPHA(main world) B65A8A9-7 SATELLITE DETAILS: Number: 3 Satellite 1: UWP:Y35541C-6, Orbit: 45 Planet Diameter: 2,600 miles (4,160 km) Planet Density: Rocky Body, 0.74 terra World Gravity: 0.277 terra Satellite Orbital Period: 8.596 standard days Rotation Period: 20.0 standard hours Seismic Stress Factor: 2.992 Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 0.6 atm Base Temperature: -33.262 degrees C Native Life: Exists Hydrographic Percentage: 46% Liquid water Volcanoes: 3
Satellite 2: UWP:G103000-0, Orbit: 55 Planet Diameter: 800 miles (1,280 km) World Gravity: 0.115 terra Base Temperature: -35.603 degrees C Hydrographic Percentage: 30% vacuum world
Satellite 3: UWP:G23256A-6, Orbit: 60 Planet Diameter: 1,800 miles (2,880 km) Planet Density: Molten Core, 0.94 terra World Gravity: 0.235 terra Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 0.3 atm Base Temperature: -37.945 degrees C Hydrographic Percentage: 22% Volcanoes: 4
ASTEROID BELT Belt Profile Notation: 300 m/1 km, n-40 m-40 c-20, 0.01 AU
ORK WORLD2 beta XC00000-0 Gas Giant UWP Size: 120 Gas Giant Diameter: 119,000 miles (190,400 km) Gas Giant Density: Solid core of frozen gases, 0.23 terra
SATELLITE DETAILS: Number: 3
Satellite 1: UWP:G506710-6, Orbit: 6 Planet Diameter: 5,300 miles (8,480 km) Planet Density: Molten Core, 0.96 terra World Gravity: 0.6 terra Seismic Stress Factor: 10.411 Base Temperature: -168.928 degrees C Satellite Orbital Period: 0.028 standard days Tidally Locked Worlds: World is tidally locked Hydrographic Percentage: 57% Volcanoes: 80
Satellite 2: UWP:YS00000-0, Orbit: 50 Satellite 3: UWP:Y200000-0, Orbit: 55
ORK WORLD2 gamma XC00000-0 Gas Giant UWP Size: 150 Gas Giant Diameter: 153,000 miles (244,800 km) Gas Giant Density: Solid core of frozen gases, 0.18 terra SATELLITE DETAILS: Number: 6
Satellite 1: UWP:G301000-0, Orbit: 6 Satellite 2: UWP:Y202000-0, Orbit: 7
Satellite 3: UWP:F544620-6, Orbit: 10 Planet Diameter: 4,900 miles (7,840 km) Planet Density: Molten Core, 0.98 terra World Gravity: 0.613 terra Atmospheric Composition: Standard oxygen-nitrogen mix, with gas mix taint Surface Atmospheric Pressure: 0.48 atm Base Temperature: -183.893 degrees C Tidally Locked Worlds: World is tidally locked Native Life: Exists Hydrographic Percentage: 40% Hydrographic Composition: Tainted liquid water
Satellite 4: UWP:Y100000-0, Orbit: 25 Satellite 5: UWP:Y100200-0, Orbit: 35 Satellite 6: UWP:Y340000-0, Orbit: 100 ORK WORLD2 delta XB00000-0 Gas Giant UWP Size: 70 Gas Giant Diameter: 76,000 miles (121,600 km) Gas Giant Density: Solid rocky core, 0.26 terra SATELLITE DETAILS: Number: 2 Satellite 1: UWP:YR00000-0, Orbit: 1 Satellite 2: UWP:HR00000-0, Orbit: 3
ASTEROID BELT Belt Profile Notation: 1 km/1 km, n-20 m-30 c-50, 1.0 AU
ORK WORLD2 epsilion Y755100-6 Planet Diameter: 7,000 miles (11,200 km) Planet Density: Molten Core, 0.98 terra World Gravity: 0.858 terra Orbital Period: 18,495.153 standard days Rotation Period: 25.039 standard hours Base temperature: -239.096 degrees C Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 0.5 atm Hydrographic Percentage: 50% Liquid water
SATELLITE DETAILS: Number: 3 Satellite 1: UWP:F599622-6, Orbit: 4 Planet Diameter: 5,100 miles (8,160 km) Planet Density: Molten Core, 1.1 terra World Gravity: 0.688 terra Satellite Orbital Period: 0.228 standard days Rotation Period: 27.757 standard hours Seismic Stress Factor: 16.57 Atmospheric Composition: Standard oxygen-nitrogen mix, with pollutants taint Surface Atmospheric Pressure: 2.2 atm Base Temperature: -243.484 degrees C Native Life: Exists Hydrographic Percentage: 88% Hydrographic Composition: Tainted liquid water
Satellite 2: UWP:F330000-0, Orbit: 9 Satellite 3: UWP:F403000-0, Orbit: 35
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Post by Dazo on Nov 9, 2004 10:03:44 GMT -5
Primary Star: M2 V
Knight world Alpha C676320-9 SATELLITE DETAILS: Number: 1 Satellite 1: UWP:Y100000-0, Orbit: 4 Planet Diameter: 700 miles (1,120 km) Planet Density: Rocky Body, 0.7 terra Satellite Orbital Distance: 13,200 km Satellite Orbital Period: 0.265 standard days World is tidally locked Base Temperature: 20.557 degrees C Seismic Stress Factor: 8.056 Volcanoes: 1
Knight world Beta G260211-9 Planet Diameter: 1,700 miles (2,720 km) Planet Density: Molten Core, 1.02 terra World Gravity: 0.254 terra Orbital Period: 140.911 standard days Rotation Period: 30.075 standard hours Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 1.0 atm Base Temperature: -44.666 degrees C Volcanoes: 4
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Post by Dazo on Nov 9, 2004 10:08:11 GMT -5
Primary Star: M0 V
Knight world Alpha(main world) B7966BA-A
Knight world Beta X210000-0 Planet Diameter: 2,200 miles (3,520 km) 2b. Planet Density: Rocky Body, 0.68 terra World Gravity: 0.17 terra Orbital Period: 132.003 standard days Rotation Period: 18.225 standard hours Atmospheric Composition: None Surface Atmospheric Pressure: 0.08 atm Seismic Stress Factor: 1.225 Base temperature:-33.489 degrees C Volcanoes: 5
SATELLITE DETAILS: Number: 1 Satellite 1: UWP:YS00000-0, Orbit: 7
Knight world gamma F40152A-9 Planet Diameter: 3,800 miles (6,080 km) Planet Density: Rocky Body, 0.62 terra World Gravity: 0.31 terra Orbital Period: 305.59 standard days Rotation Period: 21.7 standard hours Seismic Stress Factor: 0.7 Vacuum world Base Temperature: -106.23 degrees C Hydrographic Percentage: 8% Liquid water Volcanoes: 6
Asteroid belt Belt Profile Notation: 10 m/1 km, n-0 m-20 c-80, 1.5 AU
Knight world delta XB00000-0 Gas Giant UWP Size: 80 Gas Giant Diameter: 76,000 miles (121,600 km) Gas Giant Density: Solid core of frozen gases, 0.18 terra SATELLITE DETAILS: Number: 1 Satellite 1: UWP:YS00000-0, Orbit: 9
Asteroid belt Belt Profile Notation: 50 km/100 km, n-50 m-40 c-10, 2.0 AU
Knight world epsilion XB00000-0 Gas Giant UWP Size: 80 Gas Giant Diameter: 84,000 miles (134,400 km) Gas Giant Density: Solid core of frozen gases, 0.2 terra
SATELLITE DETAILS: Number: 6 Satellite 1: UWP:YR00000-0, Orbit: 1 Satellite 2: UWP:YR00000-0, Orbit: 2 Satellite 3: UWP:Y222000-0, Orbit: 6 Satellite 4: UWP:Y230000-0, Orbit: 8 Satellite 5: UWP:YS00000-0, Orbit: 12 Satellite 6: UWP:YS00000-0, Orbit: 45
Knight world zeta H35456A-9 Planet Diameter: 2,700 miles (4,320 km) Planet Density: Molten Core, 1.02 terra World Gravity: 0.383 terra Orbital Period: 16,500.313 standard days Rotation Period: 50.0 standard hours Seismic Stress Factor: 1.049 Atmospheric Composition: Standard oxygen-nitrogen mix Surface Atmospheric Pressure: 0.6 atm Base Temperature: -227.174 degrees C Hydrographic Percentage: 39% Liquid water Volcanoes: 3
SATELLITE DETAILS: Number: 3 Satellite 1: UWP:HS00000-0, Orbit: 4 Satellite 2: UWP:F102000-0, Orbit: 9 Satellite 3: UWP:Y100000-0, Orbit: 12
Knight world eta H200100-9 Planet Diameter: 2,300 miles (3,680 km) Planet Density: Molten Core, 1.06 terra World Gravity: 0.266 terra Vacuum world Orbital Period: 45,276.859 standard days Rotation Period: 1.025 standard hours Base temperature: -238.784 degrees C Volcanoes: 1
SATELLITE DETAILS: Number: 2 Satellite 1: UWP:Y100000-0, Orbit: 45 Satellite 2: UWP:YS00000-0, Orbit: 60
Is that ok, ive given info on some of the more interesting sattilites, if there's any info you needed but I havn't included let me know and i'll modify the post.
Also i've done that new ork world you gave me, its the 5th post down i believe, the gravity is still low, but have a look and let me know your opinion
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Post by Dazo on Nov 9, 2004 10:34:03 GMT -5
Are these the knight worlds you had me do, or are these going to be in anargo in one of the sub sectors. As neither strike me as the type of worlds that would prove to be of any use as a kinght world.
If not knight worlds, then high pressures and exotic atmospheres would explain the gas seas, high gravity or at least normal gravity would be needed I think. Marsh gas springs to mind, that is low lying and forms a white mist, that would be methane I think, and you will need a cold world. chlorine and flourine are the only other gases I know of that would form what you want
However you want to be able to float on it and that has me a little stumped as I don't know how that could happen. Also you want it to cover the oceans, the thing is it would probably end up being absorbed into the water.
The storm world would be easier, all you need is large temperature variences and a decent atmosphere, that is substantial enough to support the storms you want
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Post by CELS on Nov 9, 2004 12:06:16 GMT -5
Thanks again, Dazo In the system of the first ork world (with a G0VI star), I'm not sure if I'm reading this correctly. 2 worlds closer to the star than the mainworld, and then three satelites around the mainworld that are almost as big as the mainworld itself, and then two gas giants further out? What size are these gas giants, by the way? For the second ork world's system, I'm reading it as the mainworld being closest to the star, with three gas giants and one other planet in the system. Is that correct? Are you sure about the number of planets and gas giants though? Sometimes when I use Heaven & Earth, it generates more gas giants and planets than the UWP gives. Are these the knight worlds you had me do, or are these going to be in anargo in one of the sub sectors. As neither strike me as the type of worlds that would prove to be of any use as a kinght world. Any use as a knight world? Why would they not be of use? I was planning on them being the knight worlds of Proteus. Cool. Well, that means that I need to find a mainworld with an exotic atmosphere. I didn't mean that one could float on it like one might float in the water. I'm just saying that if the lower atmosphere is divided into two (a light gas and a heavy gas), then you could have vehicles that use gas tanks to stay above the heavy gas. Same principle as rubber boats such as the Zodiacs, really. Erf... no way around this? Perhaps by changing the composition or amount of water? Weee
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Post by Dazo on Nov 9, 2004 12:46:49 GMT -5
Yes, it might be a sub-dwarf but its still a G class star so it will still be very hot yes, to be honest I hadn't looked, but on closer inspection the main world is tidally locked, as is one of its moons so I expect this would be a rather volcanic system, is that a problem Yes thats right. Two I have updated it so the sizes are included, I will do that for all the other giants i've generated for you Yes, M class are small and cold Yes, that is correct, the gas giant sizes will be added as soon as I finish this post. There are also two asteroid belts. Yes, i've double checked for you and the numbers add up, I have also had that problem sometimes, I asked Kage about it and he said I probably had it set on the wrong generation sytem, I did, now I changed it it works fine Simply put the surface conditions would be unsuitable, ie the toxic sea world with the people having to live on the high ground and mountains, I wouldn't like to try and manouver a giant two legged metal monster over that sort of terrain, plus there would be more economical/tactically sound ways of defending that sort of terrain. And the storm world would depend on how powerful the winds were, every body might have to live underground with the surface being a storm wracked death zone, again would knights be the best form of defence in those conditions, they might just get blown over. then you are talking about a fluidic atmosphere, where the gas has actually condenced into a liquid, you cant really float on it, wait did you simply mean float above it as a hot air ballon might do? It might be the water has, and this is ironic, reached saturation levels and can no longer absorb anymore...maybe, im not sure, chemistry is not my strong point
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