- 4,231
- 2,255
Heya. So... I was looking at this again. According to the lifting strength page, this is how Stellar is listed.:
Stellar: 2x10^29 to ? kg (The mass of a smaller star up to a solar system)
Here's the thing. The combined mass of our solar system, which we have always used as a reference for Solar System-level ANYTHING, is only 1.0014 times the mass of the sun, with 99.86% of that mass being, well, the sun. The mass of the sun is 1.98847*10^30 kg, which would put Stellar class at 2*10^29 to 1.9913*10^30 kg. Why was the upper limit listed as "? kg" for so long if we already know what the mass of our solar system is?
Of course I should also bring up two other stars because I feel it would be necessary. Rigel, which is used as a baseline for Large Star-level anything, has a mass of 21 solar masses, or 4.175787*10^31 kg. The other star I will bring up is the most massive thing that is actually considered a star: the Wolf-Rayet star R136a1. R136a1 has a mass of 315 solar masses, or 6.2636805*10^32 kg.
With that, the upper limit of Stellar class should be either 1.9913*10^30 kg (mass of our solar system), 4.175787*10^31 kg (mass of Rigel), or 6.2636805*10^32 kg (mass of R136a1).
Multi-Stellar Class' limit is obviously going to be the mass of a galaxy. The mass of a galaxy, obviously varies. I'll pluck out several different galaxies for this one.
Segue 2 is the least massive galaxy with a mass of 550,000 solar masses, or 1.0936585*10^36 kg.
The Milky Way, which is the galaxy we use for Galaxy-level anything, has a lower-bound mass of 800 billion solar masses, or 1.590776*10^42 kg.
The Andromeda Galaxy, which is the galaxy nearest to us (not really) has a mass of 1.5 trillion solar masses, or 2.982705*10^42 kg
Lastly, the most massive known galaxy, ESO 146-5, has a mass of approximately 30 trillion solar masses, or 5.96541*10^43 kg.
The last thing I shall bring up is the mass of the Observable Universe (which would be usable for Universal class since we don't actually know how massive the thing really is). Going off ordinary matter alone (it's impossible to obtain dark matter), the universe has a mass of 1.5*10^53 kg. Good to know.
But yeah, I'm mainly saying that the Lifting Strength page should better clarify its listings. Mhmm.
Stellar: 2x10^29 to ? kg (The mass of a smaller star up to a solar system)
Here's the thing. The combined mass of our solar system, which we have always used as a reference for Solar System-level ANYTHING, is only 1.0014 times the mass of the sun, with 99.86% of that mass being, well, the sun. The mass of the sun is 1.98847*10^30 kg, which would put Stellar class at 2*10^29 to 1.9913*10^30 kg. Why was the upper limit listed as "? kg" for so long if we already know what the mass of our solar system is?
Of course I should also bring up two other stars because I feel it would be necessary. Rigel, which is used as a baseline for Large Star-level anything, has a mass of 21 solar masses, or 4.175787*10^31 kg. The other star I will bring up is the most massive thing that is actually considered a star: the Wolf-Rayet star R136a1. R136a1 has a mass of 315 solar masses, or 6.2636805*10^32 kg.
With that, the upper limit of Stellar class should be either 1.9913*10^30 kg (mass of our solar system), 4.175787*10^31 kg (mass of Rigel), or 6.2636805*10^32 kg (mass of R136a1).
Multi-Stellar Class' limit is obviously going to be the mass of a galaxy. The mass of a galaxy, obviously varies. I'll pluck out several different galaxies for this one.
Segue 2 is the least massive galaxy with a mass of 550,000 solar masses, or 1.0936585*10^36 kg.
The Milky Way, which is the galaxy we use for Galaxy-level anything, has a lower-bound mass of 800 billion solar masses, or 1.590776*10^42 kg.
The Andromeda Galaxy, which is the galaxy nearest to us (not really) has a mass of 1.5 trillion solar masses, or 2.982705*10^42 kg
Lastly, the most massive known galaxy, ESO 146-5, has a mass of approximately 30 trillion solar masses, or 5.96541*10^43 kg.
The last thing I shall bring up is the mass of the Observable Universe (which would be usable for Universal class since we don't actually know how massive the thing really is). Going off ordinary matter alone (it's impossible to obtain dark matter), the universe has a mass of 1.5*10^53 kg. Good to know.
But yeah, I'm mainly saying that the Lifting Strength page should better clarify its listings. Mhmm.
