Basics New Star Systems[]
Sol System - Sol Directorate
Type G2 Yellow Dwarf Star – 332,900 x Earth Mass
Surface @ 4,700 to 5,700 degrees celsius
9 Planets
Mercury
0.055 x Earth Mass
Atmosphere – None
Surface Temperature – -183 to +427 degrees Celsius
Hydrosphere ( water ) – None
No Moons
Venus
0.815 x Earth Mass
Atmosphere – 93 x Earth volume, CO2, high Sulphuric Acid and SO2 clouds in the mesosphere
Surface temperature - 500 degrees Celsius.
Hydrosphere ( water ) – None.
No Moons
Earth
Habitable / Inhabited Planet
Moons – Moon – Rocky, no Atmosphere
Mars
0.107 x Earth Mass
Terraformed Planet – Since Badly Damaged
Atmosphere – 70% of Earth normal
Surface Temperature – now 30 degrees Celsius
Hydrosphere ( water ) – None.
Moons – 3 Deimos, Phobos, Havoc – Rocky, no Atmosphere
Asteroid Belt
Many Asteroids of different sizes – Rocky, Iron and some other Metals
Jupiter
Gas Giant – 318 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -108 degrees Celsius
Moons – 63 of various sizes
Saturn
Gas Giant – 95 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -139 degrees Celsius
Moons – 62+ of various sizes
Rings – Many, prominent.
Uranus
Ice Giant – 14 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -197 degrees Celsius
Moons – 27 of various sizes
Neptune
Ice Giant – 17 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -200 degrees Celsius
Moons – 13 of various sizes
Pluto – Dwarf Planet
Rock and Ice - 0.0024 x Earth Mass
Atmosphere – Very thin – Nitrogen, Methane, CO1
Surface Temperature - -229 degrees Celsius
Linked to Dwarf Planet Charon
Mostly Ice, and Rock – 0.000254 x Earth Mass
Atmosphere – None
Surface Temperature – -229 degrees Celsius
Satellites – Nix, Hydra, Styx and Kerberos
Attican System – Attican Republic
Type F2 Yellow-White Star – 500,870 x Earth Mass
Surface @ 5,900 degrees celsius
4 Planets
Ithica ( Alpha I )
0.97 x Earth Mass
Terraforming is being accelerated - to allow the Colony to be expanded.
Atmosphere – Earth-like - 100% of required volume.
Hydrosphere – 50% of required volume.
Surface Temperature – 10 degrees Celsius
Moons – Athene, Hecate
Argos ( Alpha II )
1.2 x Earth Mass
Ex Habitable Planet – Now Uninhabitable
Atmosphere – Earth-like - 100% of required volume
Surface temperature - 80 degrees Celsius.
Hydrosphere ( water ) – 40% coverage.
Radioactive surface - being reprocessed.
Four Moons – Syracuse ( large ), Ephesus, Galatia, Tyre
Asteroid Belt
Very Wide - comprising many Rocky and Metallic Asteroids
Carthage ( Alpha III )
Gas Giant – 650 x Earth mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -190 degrees Celsius
Inner Moons – 50+ - rocky
Extensive Gas Rings – clearly visible
Outer Moons – 200+ - Rocky, Water Ice, Dry Ice, Frozen Ammonia
Largest Moon – Rhodes – Research Station on rocky Aseroid.
Kraken ( Alpha IV ) - Dwarf Planet
Rock and Ice - 0.005 x Earth Mass
Atmosphere – Very thin – Nitrogen, Methane, CO1
Surface Temperature – -240 degrees Celsius
Beta System – Phoenix Confederation
Type K9 Orange Star – 380,259 x Earth Mass
Surface @ 3,100 degrees celsius
5 Planets
Beta I
0.45 x Earth Mass
Atmosphere – Acidic composition, H2SO4, HNO3, H2O, low volume
Surface Temperature – -12 to +150 degrees Celsius
Hydrosphere ( water ) – None
No Moons
Inhospitable to human life – but with a wealth of precious minerals.
No Ozone layer or Magnetic field.
Beta II
0.62 x Earth Mass
Atmosphere – Acidic composition, H2SO4, HNO3, H2O, low volume
Surface Temperature – -8 to +80 degrees Celsius
Hydrosphere ( water ) – None
No Moons
Inhospitable to human life – but with a wealth of precious minerals.
No Ozone layer or Magnetic field.
Beta III
0.75 x Earth Mass
Atmosphere – Nitrogen and Ammonia x 60% of Earth volume.
Surface Temperature – Average 7 degrees Celsius
Hydrosphere ( water ) – None
Two Moons BIIIA, BIIIB
With a wealth of precious minerals.
Beta IV
0.93 x Earth Mass
Atmosphere – Nitrogen and Ammonia x 70% of Earth volume.
Surface Temperature – Average 10 degrees Celsius
Hydrosphere ( water ) – None
Four Moons BIVA, BIVB, BIVC, BIVD
Some precious minerals – surface only.
Beta V
Gas Giant – 150 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -130 degrees Celsius
Prominent dust and particle Rings
Moons – 21 of various sizes
Beta VI
Ice Giant – 10 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -300 degrees Celsius
Moons – 8 of various sizes
System Excelsis ( Ex System ‘X’ ) – Attican Republic
Type F1 Yellow-White Star – 280,600 x Earth mass
Surface @ 6,900 degrees celsius
Asteroid Belt
An Asteroid Belt of great width - from 1.1 AU to 10 AU ( 1 AU = Earth Orbit )
Comprising a vast number of Asteroids, both Rocky, Iron and Metallic.
Several very large Asteroids have sizes of 0.009 x Earth mass to 0.05 x Earth mass.
System Wyandot ( Ex System ‘Y’ ) – Attican Republic
Type G0 Yellow Star – 380,100 x Earth mass
Surface @ 5,700 degrees celsius
Inner Asteroid Belt
An Asteroid Belt from 0.4 AU to 0.8 AU ( 1 AU = Earth Orbit )
Comprising a large number of small Asteroids, both Rocky, Iron and Metallic.
Outer Asteroid Belt
An Asteroid Belt from 1.2 AU to 2.5 AU ( 1 AU = Earth Orbit )
Comprising a number of Asteroids, both Rocky, Iron and Metallic.
These are larger types.
Several large Asteroids have sizes of 0.01 x Earth mass to 0.05 x Earth mass.
System ‘H’ – The Halthoe - IPC
Type K2 Orange Star – 551,920 x Earth mass
Surface @ 3,900 degrees celsius
H I
0.062 x Earth Mass
Atmosphere – None
Surface Temperature – -200 to +300 degrees Celsius
Hydrosphere ( water ) – None
No Moons
H II
0.652 x Earth Mass
Atmosphere – 16 x Earth volume - Methane and CO2, SO2
Surface Temperature – 350 degrees Celsius
Hydrosphere ( water ) – None
No Moons
H III
0.920 x Earth Mass
Atmosphere – 85% x Earth volume - Nitrogen, Oxygen, CO2, Helium
Surface Temperature – Average 14 degrees Celsius
Hydrosphere ( water ) – 50% planet coverage
Two Moons
Asteroid Belt Many Asteroids – of Rocky and Iron type
H IV
Gas Giant – 101 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -136 degrees Celsius
Prominent dust and particle Rings
Moons – 40 of various sizes
H V
Ice Giant – 8 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -350 degrees Celsius
Moons – 11 of various sizes
System ‘G’ – The Goram - IPC
Type F4 White Star – 397,150 x Earth mass
Surface @ 6,820 degrees celsius
G I
0.039 x Earth Mass
Atmosphere – None
Surface Temperature – -180 to +330 degrees Celsius
Hydrosphere ( water ) – None
No Moons
G II
0.920 x Earth Mass
Atmosphere – 95% x Earth volume - Nitrogen, Oxygen, CO2, Helium
Surface Temperature – Average 16 degrees Celsius
Hydrosphere ( water ) – 58% plaet coverage
Three Moons
Asteroid Belt
Very wide Asteroid Belt - Many Asteroids of Rocky, Iron type and Metallic type
Mining Operations – A wealth of useful minerals and materials
G III
Gas Giant – 101 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -136 degrees Celsius
Prominent dust and particle Rings
Moons – 40 of various sizes
G IV
Ice Giant – 8 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -350 degrees Celsius
Moons – 11 of various sizes
System ‘K’ – The Kolee - IPC
Type G2 Yellow Star – 280,600 x Earth mass
Surface @ 5,250 degrees celsius
K I
0.062 x Earth Mass
Atmosphere – None
Surface Temperature – -200 to +300 degrees Celsius
Hydrosphere ( water ) – None
No Moons
K II
0.55 x Earth Mass
Atmosphere – 12 x Earth volume - Methane and CO2, SO2
Surface Temperature – 390 degrees Celsius
Hydrosphere ( water ) – None
No Moons
K III
1.100 x Earth Mass
Atmosphere – 91% x Earth volume - Nitrogen, Oxygen, Water Vapour, CO2
Surface Temperature – Average 15 degrees Celsius
Hydrosphere ( water ) – 78% planet coverage
Three Moons
K IV
2.5 x Earth Mass
Atmosphere – 0.9 x Earth volume – Methane, Ammonia
Surface Temperature – Average -50 degrees Celsius
Moons - 0
K IV
Gas Giant – 309 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -160 degrees Celsius
Prominent dust and particle Rings
Moons – 56 of various sizes
K V
Ice Giant – 10 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -400 degrees Celsius
Moons – 23 of various sizes
System Pandora ( Ex – Zetan )
Type F1 Yellow Star – 380,100 x Earth mass
Surface @ 7,100 degrees celsius
Pandora I
0.8 x Earth Mass
Atmosphere – 91% x Earth volume - Nitrogen, Oxygen, Helium, CO2
Surface Temperature – Average 18 degrees Celsius
Hydrosphere ( water ) – 62% planet coverage
Carbon–based Eco-System, suitable for colonization
One Moon
Pandora II
1.1 x Earth Mass
Atmosphere – 110% x Earth volume - Nitrogen, Oxygen, Helium, CO2
Surface Temperature – Average 12 degrees Celsius
Hydrosphere ( water ) – 50% planet coverage
Carbon–based Eco-System, suitable for colonization
Two Moons
Pandora III
1.15 x Earth Mass
Atmosphere – 120% x Earth volume - Ammonia, CO1, Helium
Surface Temperature – Average 8 degrees Celsius
Hydrosphere – none
Recent Science Input indicates that bacteria in a water environment may be used to break down ammonia – into Nitrogen and Oxygen ( plus Hydrogen ).
Terraforming could be performed, once a Hydrosphere ( water areas ) has been created.
Three small Moons
Pandora IV
1.2 x Earth Mass
Atmosphere – 150% x Earth volume - Ammonia, CO1, Helium
Surface Temperature – Average 5 degrees Celsius
Hydrosphere – none
Recent Science Input indicates that bacteria in a water environment may be used to break down ammonia – into Nitrogen and Oxygen ( plus Hydrogen ).
Terraforming could be performed, once a Hydrosphere ( water areas ) has been created.
Two small Moons
System Delta – Attican Republic
Type K0 Orange Star – 410,150 x Earth mass
Surface @ 5,020 degrees celsius
Delta I
0.022 x Earth Mass
Atmosphere – None
Surface Temperature – -150 to +450 degrees Celsius
Hydrosphere ( water ) – None
No Moons
Delta II
0.98 x Earth Mass
Atmosphere – 98% x Earth volume - Nitrogen, Oxygen, CO2, Hydrogen
Surface Temperature – Average 8 degrees Celsius
Hydrosphere ( water ) – 70% planet coverage
Two small Moons
Carbon-based Eco-System around equator, suitable for colonization
Delta III
Gas Giant – 600 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -250 degrees Celsius
Moons – 41 of various sizes
Delta IV
Gas Giant – 95 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -359 degrees Celsius
Moons – 50+ of various sizes
Rings – Many, prominent.
System Epsilon – An Ancient Battleground
Type F2 Yellow-White Star – 410,150 x Earth mass
Surface @ 6,050 degrees celsius
Asteroid Belt
An Asteroid Belt of great width - from 0.6 AU to 6 AU ( 1 AU = Earth Orbit )
Comprising a vast number of Asteroids, both Rocky, Iron and Metallic.
Several very large Asteroids have sizes of 0.01 x Earth mass to 0.09 x Earth mass.
Several very large artifical structures in orbit – from 8 AU to 10 AU
System Gamma – Sol Directorate
Type G8 Yellow Star – 600,150 x Earth Mass
Surface @ 5,900 degrees celsius
Gamma I
Rocky Planet – 300 x Earth Mass
Atmosphere – 150 x Earth Volume - CO2, SO2, Nitrogen, Hydrogen, Helium
Surface Temperature – Average 400 degrees Celsius
Geologically violently active
Moons – 3 GIA, GIB, GIC – many smaller Moons
Gamma IA
Rocky - 0.89 x Earth Mass
Atmosphere – 98% x Earth volume - Nitrogen, Oxygen, CO2, Helium
Surface Temperature – Average 12 degrees Celsius
Hydrosphere ( water ) – 58% planet coverage.
Gamma IB
Rocky - 0.78 x Earth Mass
Atmosphere – 80% x Earth volume - Nitrogen, Oxygen, CO2, Helium
Surface Temperature – Average 12 degrees Celsius
Hydrosphere ( water ) – 25% planet coverage.
No geological activity – solid core
Gamma IC
Rocky – 1.02 x Earth Mass
Atmosphere – 99% x Earth volume - Nitrogen, Oxygen, CO2, Helium
Surface Temperature – Average 12 degrees Celsius
Hydrosphere ( water ) – 67% planet coverage
Many smaller Moons of Rocky, Iron and Metallic type, with mineral concentrations
Theta System – Sol Directorate
Type K8 Orange Star – 410,520 x Earth Mass
Surface @ 3,400 degrees celsius
8 Planets
Theta I
0.075 x Earth Mass
Atmosphere – None
Surface Temperature – -150 to +500 degrees Celsius
Hydrosphere ( water ) – None
No Moons
Theta II
0.75 x Earth Mass
Atmosphere – Acidic composition, H2SO4, HNO3, H2O, low volume
Surface Temperature – Average 28 degrees Celsius
Hydrosphere ( water ) – 10% surface coverage
Moons – one large TIIA.
Theta III
1.12 x Earth Mass
Atmosphere – 1.2 x Earth volume, Nitrogen, Oxygen, CO2, Water Vapour
Surface temperature - Average12 degrees Celsius.
Hydrosphere ( water ) – 60% surface coverage.
Moons – one large TIIIA, two very small TIIIB, TIIIC.
Asteroid Belt
Many small and some large Asteroids – comprising rocky, metallic and other mineral types
Theta IV
0.85 x Earth Mass
Atmosphere – Nitrogen and Ammonia x 70% of Earth volume.
Surface Temperature – Average 6 degrees Celsius
Hydrosphere ( water ) – None
Two Moons TIVA, TIVB.
Theta V
Gas Giant – 280 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -120 degrees Celsius
Moons – 72 of various sizes
Theta VI
Gas Giant – 100 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -150 degrees Celsius
Moons – 53+ of various sizes
Rings – Many, prominent.
Theta VII
Ice Giant – 20 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -200 degrees Celsius
Moons – 20+ of various sizes
Theta VIII
Ice Giant – 10 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -300 degrees Celsius
Moons – 9 of various sizes
Lambda System – Broderick’s Science Consortium
Type F4 Yellow-White – 390,210 x Earth Mass
Surface @ 6,700 degrees celsius
7 Planets
Lambda I
0.075 x Earth Mass
Atmosphere – None
Surface Temperature – -100 to +360 degrees Celsius
Hydrosphere ( water ) – None
No Moons
Lambda II
0.8 x Earth Mass
Atmosphere – 0.75 x Earth volume, Ammonia, Nitrogen, Helium
Surface Temperature – Average 40 degrees Celsius
Hydrosphere ( water ) – None
Moons – two medium LIIA, LIIB.
Lambda III
0.98 x Earth Mass
Atmosphere – 0.99 x Earth volume, Nitrogen, Oxygen, CO2, Water Vapour
Surface temperature - Average14 degrees Celsius.
Hydrosphere ( water ) – 68% surface coverage.
Moons – one large LIIIA, one very small LIIIB.
Lambda IV
0.6 x Earth Mass
Atmosphere – 0.7 x Earth volume, Nitrogen, Ocygen, CO2, CO1, Helium
Surface Temperature – Average 8 degrees Celsius
Hydrosphere ( water ) – 40% of surface coverage.
Moons – two medium LIVA, LIVB
Lambda V 0.3 x Earth Mass
Atmosphere – Nitrogen and Ammonia x 30% of Earth volume.
Surface Temperature – Average 2 degrees Celsius
Hydrosphere ( water ) – None
Moons – four small TVA, TVB, TVC, TVD.
Lambda VI
Gas Giant – 300 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -100 degrees Celsius
Moons – 60 of various sizes
Rings – Many, prominent.
Lambda VII
Gas Giant – 100 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -220 degrees Celsius
Moons – 45+ of various sizes
Mu System – The “Dragon System” – Attican Republic
Complex Star cluster – 3 main Stars and 2 “micro-stars”.
Type K1 Orange – 600,240 x Earth Mass
Surface @ 4,500 degrees celsius
Type F2 Yellow-White – 380,490 x Earth Mass
Surface @ 6,000 degrees celsius
Type G4 Yellow – 180,320 x Earth Mass
Surface @ 5,500 degrees celsius
Type A8 White – 0.28 x Earth Mass
Surface @ 9,100 degrees celsius
Type A2 White – 0.19 x Earth Mass
Surface @ 8,500 degrees celsius
8 Planets
Mu I – Dr 1
0.06 x Earth Mass
Atmosphere – None
Surface Temperature – Average 250 degrees Celsius
Hydrosphere ( water ) – None
No Moons
Asteroid Belt 1
Many small Asteroids of rocky and metallic types.
Mu 2 – Dr 2
0.98 x Earth Mass
Atmosphere – 0.99 x Earth volume, Nitrogen, Oxygen, CO2, Water Vapour
Surface Temperature – Average 16 degrees Celsius
Hydrosphere ( water ) – 65% of surface area.
Note – functioning eco-system – very similar to Earth in the Caboniferous Epoch.
Moons – two medium Dr IIA, Dr IIB.
Mu 3 – Dr 3
1.02 x Earth Mass
Atmosphere – 1.02 x Earth volume, Nitrogen, Oxygen, CO2, Water Vapour
Surface temperature - Average 12 degrees Celsius.
Hydrosphere ( water ) – 80% surface coverage.
Note – functioning eco-system – very similar to Earth in the Ordovician Epoch.
Moons – one largish Dr IIIA, one very small Dr IIIB.
Asteroid Belt 2
Many Asteroids - including sveral very large Asteroids up to 0.05 x Earth mass, and several smaller Asteroids – both rocky and iron types.
Mu 4 – Dr 4
Gas Giant – 445 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – 1,400 degrees Celsius
Moons – 60+ of various sizes
Asteroid Belt 3
Many Asteroids – of rocky, metallic, and ice composition.
Mu 5 – Dr 5
Gas Giant – 300 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -108 degrees Celsius
Moons – 50+ of various sizes
Mu 6 – Dr 6
Gas Giant – 40 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -250 degrees Celsius
Moons – 30+ of various sizes
Rings – Many, prominent.
Mu 7 – Dr 7
Ice Giant – 1.25 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -380 degrees Celsius
Moons – 20+ of various sizes
Mu 8 – Dr 8
Ice Giant – 0.42 x Earth Mass
Atmosphere – None
Surface Temperature – -500 degrees Celsius
Moons – 4 of various sizes
Gas Rings – “The Smoke Ring”
A ring of gas and dust around the whole Star System, extending well out into space – faintly illuminated.
Psi System – Attican Republic
Type G5 Yellow – 420,350 x Earth Mass
Surface @ 5,500 degrees celsius
No Planets
Asteroid Belt
A very wide belt of a very great many Asteroids – from 0.4 AU to 100 AU.
Asteroids with sizes from 0.1 x Earth Mass down to 0.001 x Earth Mass and smaller. Comprising rocky, iron, metallic and mineral Asteroids – with ice Asteroids near the outer edge.
Omega System – Attican Republic
Type K8 Orange – 340,120 x Earth Mass
Surface @ 4,900 degrees celsius
7 Planets
Omega I
0.05 x Earth Mass
Atmosphere – None
Surface Temperature – -90 to +420 degrees Celsius
Hydrosphere ( water ) – None
No Moons
Omega II
0.8 x Earth Mass
Atmosphere – 0.75 x Earth volume, Nitrogen, Oxygen, Water Vapour, CO2, Helium
Surface Temperature – Average 16 degrees Celsius
Hydrosphere ( water ) – 40% surface coverage
Moons – two medium OIIA, OIIB.
Omega III – “Piscemund”
1.02 x Earth Mass
Atmosphere – 1.2 x Earth volume, Nitrogen, Oxygen, Water Vapour, CO2
Surface temperature - Average14 degrees Celsius.
Hydrosphere ( water ) – 95% surface coverage.
Note – the seas were found to contain very prolific water life.
Moons – one large OIIIA, one small OIIIB.
Omega IV – “Panthalassa”
0.98 x Earth Mass
Atmosphere – 0.98 x Earth volume, Nitrogen, Oxygen, Water Vapour, CO2
Surface Temperature – Average 10 degrees Celsius
Hydrosphere ( water ) – 99% of surface coverage.
Moons – two medium OIVA, OIVB
Omega V
0.5 x Earth Mass
Atmosphere – 50% x Earth volume, Nitrogen, Oxygen, CO2, Water Vapour.
Surface Temperature – Average 8 degrees Celsius
Hydrosphere ( water ) – 40% of surface coverage.
Moons – three small OVA, OVB, OVC.
Asteroid Belt
Belt of many Asteroids, small types - being rocky and metallic Asteroids.
Omega VI
Gas Giant – 400 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -150 degrees Celsius
Moons – 80 of various sizes
Rings – Many, prominent.
Asteroid Belt
Belt of many Asteroids, small types - being rocky and icy Asteroids.
Omega VII
Ice Giant – 100 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -320 degrees Celsius
Moons – 40 of various sizes
Sigma System – The IPC ( Korgoth )
Type G2 Yellow – 420,320 x Earth Mass
Surface @ 4,800 degrees celsius
7 Planets
Sigma I
0.09 x Earth Mass
Atmosphere – None
Surface Temperature – -100 to +390 degrees Celsius
Hydrosphere ( water ) – None
No Moons
Sigma II
0.8 x Earth Mass
Atmosphere – 0.75 x Earth volume, Nitrogen, Water Vapour, CO2, Helium
Surface Temperature – Average 30 degrees Celsius
Hydrosphere ( water ) – 40% surface coverage
Moons – two medium SIIA, SIIB, one very small SIIC.
Sigma III
1.05 x Earth Mass
Atmosphere – 1.2 x Earth volume, Nitrogen, Oxygen, Water Vapour, CO2
Surface temperature - Average13 degrees Celsius.
Hydrosphere ( water ) – 62% surface coverage.
Moons – one large SIIIA, two small SIIIB, SIIIC.
Sigma IV
0.98 x Earth Mass
Atmosphere – 0.99 x Earth volume, Nitrogen, Oxygen, Water Vapour, CO2
Surface Temperature – Average 11 degrees Celsius
Hydrosphere ( water ) – 68% of surface coverage.
Moons – one large SIVA, one small SIVB.
Sigma V
0.5 x Earth Mass
Atmosphere – 60% x Earth volume, Nitrogen, Oxygen, CO2, Water Vapour.
Surface Temperature – Average 5 degrees Celsius
Hydrosphere ( water ) – 35% of surface coverage.
Moons – two small SVA, SVB.
Sigma VI
Gas Giant – 400 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -90 degrees Celsius
Moons – 90 of various sizes
Rings – Many, prominent.
Asteroid Belt
Belt of many Asteroids, small types - being rocky, and icy Asteroids.
Sigma VII
Ice Giant – 90 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -400 degrees Celsius
Moons – 45 of various sizes
Asteroid Belt
Belt of many Asteroids, small to large types - being rocky, and icy Asteroids.
Iota System
Type T4 “Brown Dwarf” Star - Magenta
350,788 x Earth Mass
Surface @ 810 degrees C
2 Planets, 1 Dwarf Star with Planetoids
“Jinx” ( Io I )
0.9 x Earth Mass
Prolate Spheroid ( Rugby Ball ) –
Ratio 1.2 : 1
Atmosphere at Equator – 1.1 x Earth - N2, O2, Water Vapour, CO2, Heliumr
Atmosphere at Poles – None
Surface Temperature at Equator – 15 degrees C
Surface Temperature at Poles -80 degrees C
Geologically Active – Magnetic Field
Hydrosphere ( water ) – 30% coverage - at Equator, Sea Life
Eco-System in two rings, north and south of the Equatorial Sea.
Signs of an irregular mid-oceanic ridge – and Volcanoes on land, near to the Sea Coasts.
Two Moons
Asteroid Belt
Many Asteroids of different sizes – from 2 AU to 40 AU
Rocky, Iron and some other Metals.
It II
Ice Planet – 1.2 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -300 degrees Celsius
Moons – None
Iota B
Type DB3 White Dwarf Star
10,000 x Earth Mass
Surface @ 15,000 degrees C
Moons – 6 Mini-Planets
ItB I
0.005 x Earth Mass
Atmosphere – None
Surface Temperature – 400 degrees C
Hydrosphere ( water ) – None
No Moons
ItB II
0.015 x Earth Mass
Atmosphere – None
Surface Temperature – 200 degrees C
Hydrosphere ( water ) – None
No Moons
ItB III
0.05 x Earth Mass
Atmosphere – Earth-like – N2, O2, CO2, Helium
Surface Temperature – 16 degrees C
Hydrosphere – 10% coverage.
Moons – Large IoB IIIA, small IoB IIIB
ItB IV
0.15 x Earth Mass
Atmosphere – Earth-like – N2, O2, CO2, Helium
Surface Temperature – 12 degrees C
Hydrosphere – 20% coverage.
Moons – IoB IIIA, IoB IIIB
ItB V
0.25 x Earth Mass
Atmosphere – Earth-like – N2, O2, CO2, Helium
Surface Temperature – 8 degrees C
Hydrosphere – 40% coverage.
Moons – IoB IVA, IoB IVB, IoB IVC
ItB VI
0.5 x Earth Mass
Atmosphere –Hydrogen, Helium
Surface Temperature -200 degrees C
Hydrosphere – None.
Moons – 8.
Nu System
Type F3 Yellow-White Star – 600,130 x Earth Mass
Surface @ 5,600 degrees celsius
5 Planets
Nu I
0.045 x Earth Mass
Atmosphere – None
Surface Temperature – -170 to +440 degrees C
Hydrosphere ( water ) – None
No Moons
Nu II
0.97 x Earth Mass
Atmosphere – Earth-like – N2, O2, CO2, Helium
Surface Temperature – 8 degrees C
Hydrosphere – 35% coverage.
Moons – Large NuII A, small NuII B
Nu III
1.2 x Earth Mass
Atmosphere – Earth-like – N2, O2, CO2, Helium
Surface temperature – 11 degrees C
Hydrosphere ( water ) – 70% coverage.
Four Moons – Large NuIII A, smaller NuIII B, NuIII C
Asteroid Belt
Very Wide - comprising many Rocky and Metallic Asteroids
Nu IV
Gas Giant – 400 x Earth mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -190 degrees Celsius
Inner Moons – 50+ - rocky
Extensive Gas Rings – clearly visible
Outer Moons – 200+ - Rocky, Water Ice, Dry Ice, Frozen Ammonia
NU V
Ice Planet – Rock and Ice 1.2 x Earth mass
Atmosphere – 1.2 x Earth – Nitrogen, Methane, CO1
Surface Temperature – -240 degrees Celsius
Chi System
Type K4 Orange Star – 450,120 x Earth Mass
Surface @ 2,950 degrees C
5 Planets
Chi I
0.25 x Earth Mass
Atmosphere – Acidic composition, H2SO4, HNO3, H2O, low volume
Surface Temperature – -12 to +150 degrees Celsius
Hydrosphere ( water ) – None
No Moons
No Ozone layer or Magnetic field.
Chi II
0.62 x Earth Mass
Atmosphere – Acidic composition, H2SO4, HNO3, H2O, low volume
Surface Temperature – -8 to +80 degrees Celsius
Hydrosphere ( water ) – None
No Moons
No Ozone layer or Magnetic field.
Chi III
1.2 x Earth Mass
Atmosphere – 1.5 x Earth Volume, N2, O2, CO2, Water Vapour, Helium
Surface Temperature – Average 10 degrees Celsius
Hydrosphere ( water ) – 80% coverage
Two Moons ChiIII A, ChiIII B
Chi IV
2.0 x Earth Mass
Atmosphere – 3 x Earth Volume, N2, O2, CO2, Water Vapour, Helium
Surface Temperature – Average 14 degrees Celsius
Hydrosphere ( water ) – 50% coverage
Four Moons ChiIV A, ChiIV B, CiIV C, ChiIV D
Signs of an Intelligent Alien Species – some small Cities and several Warships on the Ground, one being very large. Approx 200 Million people.
( The Rhynwyr - Rimstalkers ).
Chi V
Gas Giant – 190 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -144 degrees Celsius
Prominent dust and particle Rings
Moons – 30 of various sizes
Chi VI
Ice Giant – 12 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -290 degrees Celsius
Moons – 8 of various sizes
Upsilon System
Type K1 Orange Star
601,200 x Earth mass
Surface @ 4,100 degrees celsius
Up I
0.078 x Earth Mass
Atmosphere – None
Surface Temperature – -200 to +300 degrees C
Hydrosphere ( water ) – None
No Moons
Up II
0.72 x Earth Mass
Atmosphere – 1.2 x Earth volume – NH3, CH4, CO2, O2
Surface Temperature – Average 8 degrees C
Hydrosphere ( water ) – 40% coverage
No Moons
Up III
1.05 x Earth Mass
Atmosphere – 1.3 x Earth volume – N2, O2, CO2, Water Vapour, Helium
Surface Temperature – Average 15 degrees Celsius
Hydrosphere ( water ) – 60% planet coverage
Two Moons
Asteroid Belt
Many Asteroids – of Rocky and Iron type
Up IV
Gas Giant – 101 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -110 degrees C
Prominent dust and particle Rings
Moons – 100 of various sizes
Up V
Ice Giant – 20 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -300 degrees C
Moons – 20 of various sizes
Stigma System
Type F4 Yellow-White Star
750,400 x Earth mass
Surface @ 6,400 degrees celsius
5 Planets.
St I
0.054 x Earth Mass
Atmosphere – None
Surface Temperature – -190 to +440 degrees C
Hydrosphere ( water ) – None
No Moons
St II
0.72 x Earth Mass
Atmosphere – 1.2 x Earth volume – NH3, CH4, CO2, O2
Surface Temperature – Average 4 degrees C
Hydrosphere ( water ) – None
No Moons
St III
1.05 x Earth Mass
Atmosphere – 1.1 x Earth volume – N2, O2, CO2, Water Vapour, Helium
Surface Temperature – Average 14 degrees Celsius
Hydrosphere ( water ) – 70% planet coverage
Water – single Species of Edible Algae.
Land – single Species of Humanoids.
Two Moons
Inhabited by 1.25 Billion Intelligent Humanoids in a Pre-Stone Age level of culture / civilization – forced into cannibalism.
Asteroid Belt
Many Asteroids – of Rocky and Iron type
St IV
Gas Giant – 80 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -150 degrees C
Prominent dust and particle Rings
Moons – 20 of various sizes
St V
Ice Giant – 10 x Earth Mass
Atmosphere – Hydrogen and Helium
Surface Temperature – -350 degrees C
Moons – 8 of various sizes
Phi System – Phoenix Confederation/Primian Federation
Type S4 Red Giant Star
2,630,200 x Earth Mass Surface
@ 4,300 degrees Celsius No Planets
Inner Asteroid Belt
Belt of many Asteroids – largely small, but including a number of Giant Asteroids. Composition – both Rocky and Metallic, with Heavy Metals. Prospecting has proved the presence of significant amounts of Zirconium Oxide, Titanium Oxide, Vanadium Oxide, Yttrium Oxide, Technetium, Cyanogen, Lithium, Tungsten, Platinum, Rhodium and Rhenium. Significant amounts of Copper have also been found. These are all important and valuable metals – with the exception of Technetium and Cyanogen which have very limited use. Some of these are extremely rare metals on earth, but if Mined in the apparent quantities available on these Asteroids – they may be used to develop new and important Alloys.
Outer Asteroid Belt
Belt of many Asteroids, small types – being Rocky, Metallic and icy Asteroids. Prospecting has proved the presence of significant amounts of Aluminium, Beryllium, Titanium, Lithium, Sodium, Magnesium, and Nickel. These metals may be Mined from these Asteroids in significant amounts – and will be of considerable value.