That's not the problem. The problem is that you start with the assumption of Planet Vegeta's radius to calc the moon's distance, but then you use pixel scaling to recalculate Planet Vegeta's radius from the orbit of the moon. This makes the radius of the planet MASSIVELY inflated and makes the entire calculation wrong
Yes, this is acceptable. However, scaling Planet Vegeta's size from this orbital distance is absolutely not, because you need the size of the planet to calculate the orbit in the first place
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I wouldn’t necessarily say it is unrealistic to being Large Planet Level as we have Jupiter, a gas giant, being awfully larger than our Earth yet isn’t a star like Our sun for that matter.
Hmmm, in real life, there is multiple planets out there in the known universe so it being unrealistic is debatable tbh.
to be fair, anything in DB is unrealistic @.@
Of course, but we’re only talking about how GBE itself works IRL, not really applying it to DB.
Which typically don’t have rock and metal the density of water.
I actually think it could colapse into a Neutron Star, but Black Hole, lol
I meant if you try to apply it again, but for the first value of the radius, it'll definitely collapse into a Neutron Star (or maybe even a Black Hole too if there'll be nothing to stop the collapse)
Fiction can do as it pleases as far as planet sizes go so I don't think it just being too large should be an issue (Xianxias and I think Toriko come to mind).
You're technically not wrong, but we need a lot of proof to support such a claim given how unrealistic it is in real life. And usually, fictional planet are usually earth-sized most commonly, so the massive ones are an exception
Well yeah, I agree on that. Unlike here, those planets usually have stated sizes for them.
Wait, why would rocks and metal been literally the density of water? Don’t recall that tbh.
Oh, just remebered something. Another reason to why the moon even have phases is because the moon is tidially locked to Earth, and the sun's light is reflected in a different way each day while it spins around the Earth
Because that's what you'd get with the example planet I gave.
For now, we wait until Firestorm produces a new calculation.
Unless they're specifically stated to be as such, I'm never gonna accept a random planet being bigger than the sun, especially since the only ones that are that size are the realm of the kaioshin, and heaven apperantly. All the rest seem to be normal sized planets
It's not the size of the planet that is the reason why it's wrong, but the way he got to that result
Kinda weird you get that assumption, but does that have to with gravity or something?
| Planet Vegeta Blast Energy Via Speed - Adjacent Distance Scale - Upper Moon | ||||
| Moon - Degrees off Adjacent Line | deg | 45 | 60 | 75 |
| Planet Vegeta Radius | m | 1.26E+08 | 8.93E+07 | 4.62E+07 |
| Planet Vegeta Mass | kg | 2.34E+28 | 1.17E+28 | 3.14E+27 |
| Blast Radius | m | 1.95E+09 | 1.38E+09 | 7.14E+08 |
| Time | s | 7.00 | 7.00 | 7.00 |
| Blast Velocity | m/s | 2.79E+08 | 1.97E+08 | 1.02E+08 |
| KE | Joules | 9.10E+44 | 2.28E+44 | 1.63E+43 |
| Rev. KE | Joules | 3.64E+45 | 3.43E+44 | 1.79E+43 |
It's just the result of a planet with 10 x the mass of Earth and 90x the radius.
Ah, forgot about that. Corrected the previous post now.
