- 32,835
- 38,111
It needs to be within the vicinity of the moon for that to happen thoNot really. Gravity is still something in space. The debris could still hit the moon, but it wouldn't be a result of the meteor impact, but gravity's
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It needs to be within the vicinity of the moon for that to happen thoNot really. Gravity is still something in space. The debris could still hit the moon, but it wouldn't be a result of the meteor impact, but gravity's
I'm aware, but in order for them to have even been drawn into the moon's gravitational pull, they'd have to have gone a ludicrous distance. And that doesnt factor in the fact the debris were launched in an omnidirectional burst, the furtther the debris go, the less debris would even get close to the moon as they're all being launched in a million ways. Over the course of hundreds of thousands of km, very, very few debris would be able to be pulled in the moon's gravity. Definitely not as much as wee see.Not really. Gravity is still something in space. The debris could still hit the moon, but it wouldn't be a result of the meteor impact, but gravity's
If anything, I'm still saying it's the earth.Not really, only the correct direction. The debris can cover only a few thousands of km, and still hit the moon. Most part of the distance covered is because of the gravity. Of course, assuming that thing is the moon
I said that not because of moon's gravitational pull, but if you trow something in space, that thing will move regardless the force you put on it, and considering the debris is moving far faster than sound, they wouldn't simply stop moving, but it wouldn't be the result of the impact. But as you said, that's not the moon and I belive that.I'm aware, but in order for them to have even been drawn into the moon's gravitational pull, they'd have to have gone a ludicrous distance. And that doesnt factor in the fact the debris were launched in an omnidirectional burst, the furtther the debris go, the less debris would even get close to the moon as they're all being launched in a million ways. Over the course of hundreds of thousands of km, very, very few debris would be able to be pulled in the moon's gravity. Definitely not as much as wee see.
but if you trow something in space, that thing will move regardless the force you put on it
Exactly my point. The meteor's no where close to those nebulae, yet on panel they are shown to be right next to the meteor. So whats stopping me from saying the planet debris are the exact same distance away from the moon the planet is and they only appear close to it because of perspective?Except it wasn't. It quite literally wasn't anywhere near those nebulae. It was lightyears and lightyears away from them. Like what in the actual **** are you arguing?
It isnt, because that would be the only way to show details like craters, which you cant see from being too zoomed out."Showing the entire moon and having it zoomed in", is a contradictory statement.
Yes and theres only, at best, 4 of them. There's obviously much more earth present unless you want to say the art depicting the pokemon earth with only 4 or so landmasses is legit.Regardless, literally wrong, we do see landmasses in the earth shot.
And your wrong here again. Ive said this about 3 times so far.Yes, a celestial object, stripped of any and all detail, with debris gravitating around it. You're assuming that the debris were launched 380000km
See aboveand all just so happened to be hovering around the moon
And again, its not drawn as the moon because you wouldnt be able to see those details on the moon from such a distance.that's drawn at the same angle as the earth previously was mind you, despite not being drawn as the moon at all, opposed to it being the earth stripped of its surface. Occam's razer is the what requires the least amount of assumptions here.
Nope, it only works if you assume thats the earth.And yet it doesnt. Pretty straightforward.
Or quite simplyYou are though, because if that IS THE MOON in that panel, then all the debris moved almost 380000km, as the debris in that panel are less then 400km away from the moon.
You keep pivoting back to me supposedly arguing the debris were flung to the moon during the explosion when thats not what im arguing. So yes your are interpreting my argument wrong.It's not interpreting what you're saying wrong though, it's the fact what you're saying is a complete nonargument.
And again, see above.So yes, you're arguing that the debris ended up not even 400km away from the moon, of the 380000km, except it's even less because that's the distance of the moon from the POV, in which the debris can be seen like half that distance if not less closer to the moon.
Exactly my point. The meteor's no where close to those nebulae. So what's stopping me from saying the planet debris are the exact same distance away from the moon the planet is and they only appear close to it because of perspective?
And incase you arent understanding anything here, my point is that the planet debris, despite "appearing" right above the moon, can very easily be appearing like that because of perspective. The moon isnt anywhere close by to them, it appears like that due to being shown in the distance.
It isnt, because that would be the only way to show details like craters, which you cant see from being too zoomed out.
Massive reach here, those dont even look like landmasses and if anything appears no different from what the planets body of water looks like.
Yes and theres only, at best, 4 of them. There's obviously much more earth present unless you want to say the art depicting the pokemon earth with only 4 or so landmasses is legit.
And your wrong here again. Ive said this about 3 times so far.
Im not arguing the debris moved anywhere near the moon or moved beyond the distance they moved from the planet getting smashed apart. Stop bringing this point up.
And again, its not drawn as the moon because you wouldnt be able to see those details on the moon from such a distance.
The only point here I'll give you is that its drawn at the same angle, but that also isnt 100% ironclad since the moon orbits the earth and could also be shown from that angle as well.
Nope, it only works if you assume that's the earth.
The moon is shown in the background, far away from the debris, and appears that way because of, again, perspective. Which is what my entire argument is about. The debris wouldnt need to move anywhere close to the moon for that to happen.
Just like the meteor doesnt need to be remotely close to those nebulae to appear right next to them (which you yourself agree with)
You keep pivoting back to me supposedly arguing the debris were flung to the moon during the explosion when thats not what im arguing. So yes your are interpreting my argument wrong.
And again, see above.
I think that's good? I'll have to look over it but that may be a good approximate.Got it, but with a way more human way ofc
3 Yotatons?! Now I can actually throw Fatalis at Rayquaza! Space Dragon Fight, WHOO!
If you dont want to debate me Chariot (which I never asked you to do and quite frankly dont care whether you do/dont), then don't. Thats up to you.I'm at the point I straight up can't debate with you because you're arguing things you clearly don't understand.
If you dont want to debate me Chariot (which I never asked you to do and quite frankly dont care whether you do/dont)
If you assume the entire mass of the crust moved that far within 30 seconds instead of the normal debris stuff, you'd get 3.5e+33 J or Planet level.
Maximum crust thickness is of 90 km, the debris are like 970 km in diameterWhat the heck, 5-A?
If you assume the entire mass of the crust moved that far within 30 seconds instead of the normal debris stuff, you'd get 3.5e+33 J or Planet level.
I think we can all agree on here that as long as the feat can still be legitimately tier 5, thats the better goal to meet than to make it higher (if not possible ofc).What the heck, 5-A?
If you assume the entire mass of the crust moved that far within 30 seconds instead of the normal debris stuff, you'd get 3.5e+33 J or Planet level.
If you assume each debris piece weighs 1.362339e21 kg on average, 83 of them would easily exceed the crust's total mass.
Whatever, not my problem or my concern anymore.I don't want to debate anyone, especially not right now, but when you're trying to insinuate something without even realizing the extent of what you're saying and then trying to use something as basic as nebulae being shown lightyears away to somehow invalidate basic angsizing and depth scaling which can be quantified to be less then 400km away, then I have no choice but to debate you on that. I'm forced to do so because you're trying to argue something as right that's literally wrong.
Hmmmmmm, good point, could have been something from the mantle.I don't want to debate anyone, especially not right now, but when you're trying to insinuate something without even realizing the extent of what you're saying and then trying to use something as basic as nebulae being shown lightyears away to somehow invalidate basic angsizing and depth scaling which can be quantified to be less then 400km away, then I have no choice but to debate you on that. I'm forced to do so because you're trying to argue something as right that's literally wrong.
I still have no idea what the hell you were even trying to argue with the nebulae because whatever it was, it had absolute no bearing on how close the moon was to the POV, especially when we can calculate the distance to the nebulae and the moon irrespective of each other and the nebulae being light years away. And I still stand by that you really need to learn how to angsize and learn how depth effects how things appear because this shouldnt even be an argument.
Tbh, im not even sure if it was just the crust, while I stand firmly by what i said in that earth is still around afterwards and to be honest, I doubt my opinion will change on that, that doesnt mean that some extra mass beyond just the crust was torn off too. The mass torn could have extended below the crust to an extent, maybe that's where the extra mass comes from?
I think this?Scan (Actual panel height that should be used is 317), the small rectangle where we see the floating debris)
Low end:
- New planet Diameter : sqrt(1-(tan(35)(1978/317))^2/((tan(35)(1978/317))^2+1))*12742 = 4082.63263751 km = 4082632.63751 m
- Planet diameter = 1978 px = 4082632.63751 m
- Distance the debris crossed = 1260.69 px =2602090.06056 m
Mid end
- Time = 30 s
- Speed = 86736.33535 m/s
- KE = 0.5 * 2.77e22 * (86736.33535^2) = 1.04196207398775085771625e+32 Joule / 24.903491252 Zettatons (Small Planet level)
High end
- Time = 15 s
- Speed = 173472.670704 m/s
- KE = 0.5 * 2.77e22 * (173472.670704^2) = 4.1678483e+32 Joule / 99.613965 Zettatons (Planet level)
- Time = 5 s
- Speed = 520418.012112 m/s
- KE = 0.5 * 2.77e22 * (520418.012112^2) = 3.751063466529e+33 Joule / 896.52568511687377395 zettatons (Planet level)
That was before you clarified what you agreed with on me.To be clear I wasn't awear that KLOL made a correction for the calc when I said I agree with everything.
Can I see his correction?
This one is the non-angsizing version, I believe we switched to your angsizing version later.I think this?
Shit, you're right, I used curvature formula and used angsizing after, it'd still be far away from the moon, assuming that round planetoid is the moon, of course.You're right, but that would only change the result by like, 2% if memory serves. It's negligible.
My point is, at the absolute minimum, no matter how you look at it, the debris are at best, only a few hundred km away from it. So if that is the moon, the debris would have traveled over 379000km to get there.