| Full Element Name | Rarity | Distribution |
|---|
| Silicon (Si) | Common | Everywhere |
| Iron (Fe) | Common | Everywhere (+ near volcanoes) |
| Carbon (C) | Common | Above sea level |
| Copper (Cu) | Common | Above sea level |
| Tin (Sn) | Common | Above sea level |
| Aluminum (Al) | Uncommon | High altitude (Mountains) |
| Silver (Ag) | Uncommon | High altitude (Mountains) |
| Nickel (Ni) | Rare | High altitude (Mountains) |
| Chromium (Cr) | Rare | High altitude (Mountains) |
| Titanium (Ti) | Rare | Very high altitude |
| Gold (Au) | Very rare | Low altitude (Deep in the sea) |
| Lead (Pb) | Very rare | Low altitude (+ near volcanoes) |
| Tungsten (W) | Rare | Mixed (high and low altitude) |
| Uranium (U) | Very rare | Low altitude (Deep in the sea) |
| Fluorite (F) | Very rare | Near volcanoes only |
[celestial]
orbit_distance = 1.5e11 ; meters
base_radius = 6200000 ; meters
outer_radius = 6400000 ; meters
mass = 6e24 ; kg
orbital_plane_tilt = 0 ; degrees
orbit_offset = 0 ; degrees
axial_tilt = -10 ; degrees
rotation_period = 43200 ; seconds
albedo = 0.2 0.2 0.25
[terrain]
height_variation = 15000 ; meters
hydrosphere = 0.2 ; as a ratio of terrain variation
module = ARCHEAN_celestial
continent_ratio = 0.5
continent_size = 2000 ; km
seed = 14182121141
[atmosphere]
density_at_surface = 1.3 ; kg/m3
mie_scattering_coefficient = 0.000001
g = -0.99
temperature_at_surface = 330 ; kelvin
[atmosphere_composition]
; By mole fractions, given arbitrary number of molecules they will be automatically re-normalized to 100% by the engine
N2 = 78.0
CO2 = 15.0
CH4 = 4.0
H2O = 2.5
O2 = 0.5