Planet
**Vlugai:**h
6th planet in system ranked by distance from sun
Axial tilt: 32 degrees
Length of day: 32 hours
Gravity acceleration: 5.81 m/s²
polar radius: 6357 km
equatorial radius: 8222 km
Volume: 1.362 × 10^12 cubic kilometers.
The mean density of Vlugai is approximately 1 g/cm³.
Inner Core Composition:
Iron: 40%
Carbon-based metals: 40%
Silicon: 20%
Radius of inner core 1,275 miles
radius of outer core 3083 km
Surface area using the polar radius (r_polar = 6357 km):
Surface Area_polar = 161,645,796π square kilometers
Surface area using the equatorial radius (r_equatorial = 8222 km):
Surface Area_equatorial = 270,405,136π square kilometers
Volume using the polar radius (r_polar = 6357 km):
Volume_polar = 342,527,441,724π cubic kilometers
Vlugai formed 3.1 Billion years ago
Volume using the equatorial radius (r_equatorial = 8222 km):
Volume_equatorial = (2,223,271,028,192π/3) cubic kilometers
In the first 100 million years after Vlugai's formation, the Garu moon formed.
Between 100 and 400 million years after Vlugai's formation, the Slu-ahn rogue moon was captured by Vlugai's gravitational forces. This suggests that the moon originated from elsewhere and was captured into orbit around Vlugai during this time period.
Around 1.2 billion years after Vlugai's formation, the Nillak asteroid was captured by Vlugai's gravitational pressures, resulting in the formation of a moon. The gravitational interactions between Vlugai and the Nillak asteroid caused it to coalesce and become a moon in Vlugai's orbit.
At some point post-formation, the Funkahn moon was captured by Vlugai. The exact timing of this event is not specified in the data.
Diameter of inner core
2,550
Diameter of outer core
6,166 kilometers
volume of inner core 8.5 billion cubic km
Surface area using the polar radius (r_polar = 6357 km):
Surface Area_polar = 161,645,796π square kilometers
Surface area using the equatorial radius (r_equatorial = 8222 km):
Surface Area_equatorial = 270,405,136π square kilometers
Volume using the polar radius (r_polar = 6357 km):
Volume_polar = 342,527,441,724π cubic kilometers
Volume using the equatorial radius (r_equatorial = 8222 km):
Volume_equatorial = (2,223,271,028,192π/3) cubic kilometers
Escape velocity of Vlugai: √(8.798398144 × 10^18) ≈ 2.964 × 10^9 m/s
1/3 of Vlugai's crust thickness in the 10-50 km range: (1/3) * 100% = 33.33%
1/3 of Vlugai's crust thickness in the 50-100 km range: (1/3) * 100% = 33.33%
1/3 of Vlugai's crust thickness in the 25-60 km range: (1/3) * 100% = 33.33%
Inner core circumference 8,011 miles
The distance from Vlugai to Jigaonazlar in the Oort Cloud is 811.11 million miles.
The distance from Vlugai to Alokenazlar is 619.11 million miles.
Outer core
The diameter is 6166 kilometers, the circumference is approximately 19371.0603 kilometers, and the area is approximately 29860489.5 square kilometers. These calculations are based on the formulae you provided, assuming a constant value of π (pi) as 3.14159265359.
Inner core
The diameter is 2550 miles, the circumference is approximately 8011.06127 miles, and the area is approximately 5107051.56 square miles
Atmospheric chemical distribution:
Nitrogen gas: 40%
Methane: 20%
Hydrogen sulfide: 20%
Supercritical carbon dioxide: 10%
Dusty plasma: 4%
Sulfur: 6%
Nitrogen Gas:
Low Density: 0.5 kg/m³
Standard Density: 1.25 kg/m³
High Density: 2 kg/m³
Oxygen Gas:
Low Density: 0.2 kg/m³
Standard Density: 1 kg/m³
High Density: 1.8 kg/m³
Carbon Dioxide:
Low Density: 0.7 kg/m³
Standard Density: 1.8 kg/m³
High Density: 2.5 kg/m³
Methane:
Low Density: 0.1 kg/m³
Standard Density: 0.6 kg/m³
High Density: 1.2 kg/m³
Hydrogen:
Low Density: 0.01 kg/m³
Standard Density: 0.08 kg/m³
High Density: 0.2 kg/m³
Helium:
Low Density: 0.005 kg/m³
Standard Density: 0.04 kg/m³
High Density: 0.1 kg/m³
Moons of Vlugai:
Moon:
**Garu**
Distance from Vlugai: 509,000 km
Orbit period: 30 days
Diameter: 1,159.1 mi
Eccentricity: 0
Inclination: 1.4 degrees
Density: 3.00 g/cm³
Volume: 2.1958×10^10 km³
Mass: 6.587×10^25 grams
Moon 2:
**Slu-ahn**
Distance from Vlugai: 700,000 km
Orbit period: 20 days
Diameter: 3,231.4 mi
Eccentricity: 0
Inclination: 4.5 degrees
Density: 4.34 g/cm³
Volume: 3.1958×10^10 km³
Mass: 1.38700 × 1026 grams
Moon 3:
**Nillak**
Distance from Vlugai: 1,100,000 km
Orbit period: 23 days
Diameter: 2,444.2 mi
Eccentricity: 1
Inclination: 3.2 degrees
Density: 5.55 g/cm³
Volume: 2.5555×10^10 km³
Mass: 1.418×10^26 grams
Moon 4(rogue)
Name: Funkahn
Distance from Vlugai: 2,000,000 km
Diameter: 1,600.1 mi
Eccentricity: 0
Inclination: 2.2 degrees
Radius: 1,309.5 miles
Density: 6.00 g/cm³
Volume: 1.9726×10^9 km³
Orbital period: 40 days
1/3 of Vlugai's crust thickness in the 10-50 km range: (1/3) * 100% = 33.33%
1/3 of Vlugai's crust thickness in the 50-100 km range: (1/3) * 100% = 33.33%
1/3 of Vlugai's crust thickness in the 25-60 km range: (1/3) * 100% = 33.33%
10-50 km range:
10-20 km: 30% of the 33.33% (10% of the total range)
20-30 km: 50% of the 33.33% (16.67% of the total range)
30-50 km: 20% of the 33.33% (6.67% of the total range)
50-100 km range:
50-60 km: 5% of the 33.33% (1.67% of the total range)
60-70 km: 20% of the 33.33% (6.67% of the total range)
70-80 km: 25% of the 33.33% (8.33% of the total range)
80-90 km: 25% of the 33.33% (8.33% of the total range)
25-60 km range:
25-35 km: 30% of the 33.33% (10% of the total range)
35-40 km: 50% of the 33.33% (16.67% of the total range)
45-47 km: 20% of the 33.33% (6.67% of the total range)
10-50 km range:
10-20 km: 10% of the total range
20-30 km: 16.67% of the total range
30-50 km: 6.67% of the total range
50-100 km range:
50-60 km: 1.67% of the total range
60-70 km: 6.67% of the total range
70-80 km: 8.33% of the total range
80-90 km: 8.33% of the total range
25-60 km range:
25-35 km: 10% of the total range
35-40 km: 16.67% of the total range
45-47 km: 6.67% of the total range
10-20 km sub range:
30% of the 33.33% (equivalent to 10% of the total range):
11 km: 30% of the sub range
13 km: 20% of the sub range
15 km: 40% of the sub range
19 km: 25% of the sub range
20-30 km sub range:
50% of the 33.33% (equivalent to 16.67% of the total range):
25 km: 30% of the sub range
22 km: 30% of the sub range
29 km: 40% of the sub range
30-50 km sub range:
20% of the 33.33% (equivalent to 6.67% of the total range):
35 km: 40% of the sub range
50 km: 40% of the sub range
40 km: 20% of the sub range
50-60 km sub range:
5% of the 33.33% (equivalent to 1.67% of the total range):
52 km: 10% of the sub range
53 km: 10% of the sub range
54 km: 10% of the sub range
55 km: 5% of the sub range
58 km: 30% of the sub range
60 km: 45% of the sub range
60-70 km sub range:
20% of the 33.33% (equivalent to 6.67% of the total range):
60 km: 10% of the sub range
62 km: 10% of the sub range
64 km: 10% of the sub range
66 km: 35% of the sub range
68 km: 35% of the sub range
70-80 km sub range:
25% of the 33.33% (equivalent to 8.33% of the total range):
70 km: 25% of the sub range
73 km: 25% of the sub range
76 km: 25% of the sub range
80 km: 25% of the sub range
80-90 km sub range:
25% of the 33.33% (equivalent to 8.33% of the total range):
80 km: 15% of the sub range
83 km: 35% of the sub range
87 km: 25% of the sub range
90 km: 25% of the sub range
25-35 km sub range:
30% of the 33.33% (equivalent to 10% of the total range):
30 km: 50% of the sub range
25 km: 10% of the sub range
35 km: 10% of the sub range
34 km: 10% of the sub range
28 km: 20% of the sub range
35-40 km sub range:
50% of the 33.33% (equivalent to 16.67% of the total range):
36 km: 5% of the sub range
37 km: 5% of the sub range
38 km: 5% of the sub range
39 km: 60% of the sub range
40 km: 25% of the sub range
45-47 km sub range:
20% of the 33.33% (equivalent to 6.67% of the total range):
45 km: 50% of the sub range
46 km: 25% of the sub range
47 km: 25% of the sub range