User blog:DreamcrosserSquad/Calc: GBE of Betemia + its planets

I'm gonna calculate the GBE of Betemia and the planets of it because I feel like it, lmao.

Anyway, if you're wondering what the hell a Betemia is, it's basically the main solar system in TDS. The one the squad lives in. I made a little Universe Sandbox 2 simulation showing how it would actually look.

Anyway, I'm gonna use the formula for GBE: U = 3GM^2 / 5R, where G = the gravitational constant, 6.67408e-11, M = the mass of the object and R = the radius of the object.

Anyway, I'mma start off with Betemia, Virgo's star. It's a pretty small star, being an orange dwarf that's only 3/4 the size of the Sun.

Anyhow,

3(6.67408e-11(9.95e+29^2)) / 5(521625000) = a whopping 1.9000736310567936736161035226456e+42 joules

Large Star level

That is...pretty big. I'm surprised. Eh, it was probably because Tier 4 desperately needs to be revised.

Now onto Heatrius, the biggest and hottest planet in the system. It's so close to Betemia, this is how big it would look if we were to land on Heatrius! It also spins and orbits backwards, which is pretty cool too.

3(6.67408e-11(2.31e+27^2)) / 5(50000000) = 1.06840674864e+38 joules

Large Planet level+

Well then.

Anyhow, time for Lethius. The most dense planet in the entire system that's entirely desert and has 3 moons.

3(6.67408e-11(1.62e+25^2)) / 5(7124693) = 3.687623218010937453726076337605e+34 joules

Large Planet level

Pretty unexpected.

Anyway, now onto Virgo. The planet of life. Bustling, giant cities and really advanced technology. Shifuto's home planet.

3(6.67408e-11(4.48e+26^2)) / 5(24902940) = 8.0684121171235203554279133307152e+36 joules

Large Planet level

And then an expected result, lol.

Onto Aquarrus. This planet is almost entirely water with several sandy, beachy islands, and it doesn't have a moon.

3(6.67408e-11(8.96e+25^2)) / 5(22061000) = 3.6431201277911246090385748606138e+35 joules

Large Planet level

Frozel. The farthest main planet from the system. It is freezing cold and has an icy asteroid for a moon. This is how small Betemia would be from Frozel's surface.

3(6.67408e-11(2.46e+26^2)) / 5(20000000) = 3.0291646896e+36 joules

Large Planet level

Now onto the dwarfs.

Druel. The first dwarf. It has one moon, lives in the Outer Belt (the farthest asteroid belt) and has an extremely elliptical orbit that crosses through Frozel's.

3(6.67408e-11(2.15e+23^2)) / 5(2116839) = 2.1861087309899335754868461890583e+31 joules

Small Planet level

Alas, Posiden, even though its water is frozen, lol. This planet is the farthest of the far. It also lives in the Outer Belt with Druel. It has four asteroid moons that came from the Outer Belt as well. While it is bigger than Druel, it is less massive than it.

3(6.67408e-11(9.34e+22^2)) / 5(2246494) = 3.8875067544004123759066349609658e+30 joules

Small Planet level

Here are the results:

Betemia: 1.9000736310567936736161035226456e+42 joules; Large Star level

Heatrius: 1.06840674864e+38 joules; Large Planet level+

Lethius: 3.687623218010937453726076337605e+34 joules; Large Planet level

Virgo: 8.0684121171235203554279133307152e+36 joules; Large Planet level

Aquarrus: 3.6431201277911246090385748606138e+35 joules; Large Planet level

Druel: 2.1861087309899335754868461890583e+31 joules; Small Planet level

Posiden: 3.8875067544004123759066349609658e+30 joules; Small Planet level