Son Goku vs 40 Tons in 100 Gs
The Feat
Because fuck it, I want to highlight how nothing this feat is to demonstrate why everyone should just maybe shut up?
As we know from the "Super Exciting Guide?" Goku was doing this in over 100 Gs.
So?
Potential Energy = MGH
M = Mass = 40 Tons = 40,000 Kilograms
G = 100 Gs = 980 m/s^2
H = 1 meter (melee range for purposes of just lifting that shit at all)
Majin Buu Arc Son Goku vs 40 Tons in 100 Gs Yield = 39,200,000 joules or 9.369 kilograms of tnt
Or sitting on the order of just north of a tank shell's kinetic energy by more than 3 times or so (take a 10 kg shell and have it move about 1,555 m/s like the M829A3 for example).
But wait, what would this feat have looked like under 1 G you ask?
392,000 joules, so... like half a grenade going off? Maybe a bit less? Depends on the kind.
These are all pretty shit, but it's on the order of bad that exists right on up their with 5 gigajoules Bleach and using that to incapacitate Kenpachi Zaraki (arguably not even given she didn't even use named attacks~), so that's neat too I guess.
Innocent Majin Buu's Zenshinkara no Shōgekiha
The Feat
Foreground
Kei Car Height = 18 pixels
Tree Height = 87 pixels
Tree Height/Kei Car Height = Do I really need a ratio?
Kei Car Height = 1.8 meters (here; circa the time frame the arc was being released in the 90s)
Tree Height = 8.7 meters
Background
Tree Height = 12 pixels
Hill Height = 578 pixels
Hill Height/Tree Height = 48.167
Hill Height = 419.053 meters
Panel Width = Crater Diameter at least as ultimately none of those hills remain in the final shot with the fully formed crater.
Hill Height = 124 pixels
Crater Diameter = 3120 pixels
Crater Diameter/Hill Height = 25.161
Crater Diameter = 10,543.793 meters
Yes, I can see Buu at the center of the Crater. No, he is obviously not to scale. Thank you for letting me know and commenting though~
Crater Diameter = 1392 pixels
Crater Depth = 465 pixels
Crater Depth/Crater Diameter = 0.334
Crater Depth = 3,521.627 meters
Volume = (2/3)PIr1^2r2
r1 = Crater Diameter/2
r2 = Crater Depth
Crater Volume = 204,887,514,855.434 m^3
200 j/cc
6,147 j/cc (melting, got it using SD.net's calculator)
30342 j/cc (vaporization, got it using SD.net's calculator)
Innocent Majin Buu's Zenshinkara no Shōgekiha Yield (Low End) = 40,977,502,971,086,810,000 joules or 9.794 gigatons
Innocent Majin Buu's Zenshinkara no Shōgekiha Yield (Middle End) = 1,259,443,553,816,353,000,000 joules or 301.014 gigatons
Innocent Majin Buu's Zenshinkara no Shōgekiha Yield (High End) = 6,216,696,975,743,580,000,000 joules or 1.486 teratons
Majin Super Saiyan 2 Vegeta's Final Explosion
The Feat
Panel Width = 1471 pixels
Hill = 61 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(61/(1471/tan(70/2 deg)))
Hill = 3.326 Degrees
Hill Height = 419.053 meters (derived above, just going to treat it as averageish for the region)
Height Above Hill = 7,216.8 meters
Add that and the hill height to get...
Height of Eye = 7,635.853 meters
Distance to Horizon = 312.2 kilometers or 312,200 meters
Now for the rest.
Panel Width = 1471 pixels
Explosion Diameter = 1471 pixels
Explosion Diameter = Field of View (FoV) = 70 Degrees
Explosion Diameter = 222,930 meters
Majin Super Saiyan 2 Vegeta's Final Explosion Yield (near-total fatalities) = 75.5 gigatons
Innocent Majin Buu's Flame Shower Breath
The Feat
I mean, I basically did the work for this here in the Piccolo Daimao Collection.
As a refresher?
Panel Width = 1130 pixels
Two-Lane Road = 11 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(11/(1130/tan(70/2 deg)))
Two-Lane Road = 0.781 Degrees
Two-Lane Road = 7.8 meters (here; it's a large city, why would this not be a two-lane road at least?)
Distance From Two-Lane Road/Height Above Ground = 572.22 meters
Distance to Horizon = 85,400 meters
So, got my city diameter.
Now? Gotta get a volume for the air Buu was blowing. While I have my diameter, so surface area, my third dimension will be the Height Above Ground as that's effectively what it looks like.
Volume = PIr^2*H
r = Distance to Horizon/2
H = Height Above Ground
Air Volume = 3,276,034,231,932 m^3
Air Density = 1.225 kg/m^3
Air Mass = 4,013,141,934,116.7 kilograms
Notice here? The Time Frame is for how long it takes the air to cross the entire city, the time span of which allows for the debris to reach roughly the height of Buu's vantage point.
Time Frame = sqrt(2d/g)
d = Height Above Ground
g = 9.8 m/s^2
Time Frame = 10.806 seconds
Divide the Distance to Horizon, the City Diameter, by the time frame for...
Breath Travel Speed = 7,903.017 m/s
KE = 0.5mv^2
m = Air Mass
v= Breath Travel Speed
Innocent Majin Buu's Flame Shower Breath Yield = 125,325,762,747,300,800,000 joules or 29.954 gigatons
At least, this is my best guess at how to model this feat? I have no fucking clue otherwise shrugs
Innocent Majin Buu's Finger Ki Blast
The Feat
2-Lane Road = 16 pixels
Building = 72 pixels
Building/2-Lane Road = 4.5
2-Lane Road = 7.8 meters (here; it's a large city, why would this not be a two-lane road at least?)
Building = 35.1 meters
Building = 17 pixels
Crater Diameter = 1144 pixels
Crater Diameter/Building = 67.294
Crater Diameter = 2,362.019 meters
Volume = (2/3)PIr1^2r2
r1 = Crater Diameter/2
r2 = Crater Diameter/4
Crater Volume = 1,724,134,274.969 m^3
200 j/cc
6,147 j/cc (melting, got it using SD.net's calculator)
30342 j/cc (vaporization, got it using SD.net's calculator)
Innocent Majin Buu's Finger Ki Blast Yield (Low End) = 344,824,854,993,800,000 joules or 82.415 megatons
Innocent Majin Buu's Finger Ki Blast Yield (Middle End) = 10,598,191,918,234,440,000 joules or 2.533 gigatons
Innocent Majin Buu's Finger Ki Blast Yield (High End) = 52,313,378,751,110,940,000 joules or 12.503 gigatons
Super Saiyan 3 Son Goku's Ki Reaches The Kaioshin Realm
The Feat
So, you have what Kibito was saying in the raw here.
So, reaches is the crux of the deal here, right? What are we talking about in terms of "reaches?"
Apparently some other vs jackass decided to ask this already here?
So, on that merit, I guess that suggests Goku's Ki/Power is literally expanding to reach the Kaioshin Realm in a manner similar in nature to a wave is reaching a distant shore. And it's being felt in the Kaioshin Realm enough to be commented on beyond just sensing it.
So, a speed and power feat.
Neat I guess.
Kanzenshuu also seems to be corroborating this.
Let's establish some things.
So, we know that Earth is at the edge of Universe 7's own Living World section of the cosmos (both stated in the Super anime and manga). We know that the Kaioshin Realm takes up about 1/10th the space of both the Living World and World Beyond alike. So we can get a radius as we can work backwards from that volume.
The fuck does this want me to do with the "combined space" shit though? I mean, I could multiply the diameter of the observable universe by the square root of 2 to approximate the increased diameter parameter as a high end, but that's about it. Low end is still just going to be the observable universe's diameter to determine everything.
Any rate?
So, lets work with some imaginary numbers for a minute, because fuck the significant figures of the actual scale of the universe just to derive a fucking ratio~
Let's also just model the volumes as cubes, because it doesn't matter for deriving the ratio. Take a hypothetical space of 1000 to the cube root and you get 10. Take a hypothetical space of 100 to the cube root and get yourself about ~4.64.
That makes the ratio between Kaioshin Realm's Radius and Diameter compared to the Universe's Radius and Diameter about 0.464.
Sure, why not. The alternative would be scaling from the few scans we have of the cosmos in Dragon Ball (and the occasion it was drawn in the Super manga here), but given Snake Way is visible? Most people including myself don't treat it as to scale, so why would I start to do so right now? That also means ignoring the gap between the Universe and Kaioshin Realm, but again, nothing about that model can be taken as granted as to scale. I can use it in lieu of the statement about the volume of the Kaioshin Realm, that's about it otherwise.
Right, so, size of the observable universe and that junk?
Observable Universe Diameter (Low End) = ~8.8 * 10^26 meters (about 93 Billion Light Years)
Let's also do that thing with the square root of 2 for the high end distance for Dragon Ball's Observable Universe.
Observable Universe Diameter (High End) = 1.245 * 10^27 meters
Which makes the Kaioshin Realm's Diameter?
Kaioshin Realm's Diameter (Low End) = 4.0832 * 10^26 meters
Kaioshin Realm's Diameter (High End) = 5.7768 * 10^26 meters
So, the Radius, or Distance Goku's Ki/Power Needs to Travel to reach the planet at the center? Which is just dividing the above low and high end by 2?
Distance Super Saiyan 3 Goku's Ki/Power Travels (Low End) = 2.0416 * 10^26 meters
Distance Super Saiyan 3 Goku's Ki/Power Travels (High End) = 2.8884 * 10^26 meters
Next up, Surface Area. Spherical here as his power is radiating in an omnidirectional fashion.
Surface Area = 4PIr^2
r = Distance Super Saiyan 3 Goku's Ki/Power Travels
Surface Area Super Saiyan 3 Goku's Ki/Power Wave (Low End) = 5.235 * 10^53 m^2
Surface Area Super Saiyan 3 Goku's Ki/Power Wave (High End) = 1.048 * 10^54 m^2
Neat, so?
Why not something easy to low ball?
They clearly noticed the vibration it caused moving across their forms. For this purpose, the kind of vibrations a cellphone's vibration motor outputs would function as a serviceable enough kind of "oh shit, we notice that we feel that" kind of sensation.
So, looking across here?
So, how about a low end?
For a cell phone's surface area?
This motor that this article linked about Apple products? It's contemporary to the iPhone 11, so I'll use the 11's dimensions.
Because why not.
The relevant cross-section being discussed would be 0.0757 meters by 0.151 meters and the surface area would be 0.0114 m^2
Ratios would be therefore...
Super Saiyan 3 Goku's Power Wave/Motor (Low End; Low End) = 4.942 * 10^55
Super Saiyan 3 Goku's Power Wave/Motor (Low End; Low End) = 9.193 * 10^55
I'll be using the lowest number I derived under the above spoiler tag in 0.169 joules/second, or just 0.169 joules for the purpose of this ratio multiplication.
Thus?
Super Saiyan 3 Son Goku Powering Up Yield (Low End; Low End) = 8.352 * 10^54 joules or 83.52 gigafoe
Super Saiyan 3 Son Goku Powering Up Yield (Low End; High End) = 1.554 * 10^55 joules or 155.4 gigafoe
For the high end?
Taking it as just the motor's cross-section? Let's use the 0.01 meter diameter one given they're all about the same ballpark in terms of joules/second.
Surface Area = PIr^2
r = 0.01/2
Motor Cross-Sectional Surface Area = 0.0000785 m^2
Super Saiyan 3 Goku's Power Wave/Motor (High End; Low End) = 6.669 * 10^57
Super Saiyan 3 Goku's Power Wave/Motor (High End; High End) = 1.335 * 10^58
Thus?
Multiply those ratio by the 0.169 joules for...
Super Saiyan 3 Son Goku Powering Up Yield (High End; Low End) = 1.127 * 10^57 joules or 11.27 terafoe
Super Saiyan 3 Son Goku Powering Up Yield (High End; High End) = 2.256 * 10^57 joules or 22.56 terafoe
Any rate?
Now, time frames?
Let's talk the low end, which would assume that the ki only reaches them long after Goku's stopped using it. What was his window to stay on Earth again after he transformed and fought Buu?
Here, about 30 minutes, or 1,800 seconds. In which time frame he proceeded to go back to the World Beyond and find his Son training shortly after.
So?
Time Frame (Low End) = 1800 seconds
Here and here, the alternative is the fact we know Goku needs about a minute to max his Ki to his own awareness, and he certainly didn't try when fighting Fat Buu, so...
Time Frame (High End) = 60 seconds
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (Low End; Low End) = 56,837,222,222,222,222,222,222 m/s or 189,457,407,407,407.4C
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (Low End; High End) = 3,410,233,333,333,333,333,333,333 m/s or 11,367,444,444,444,444C
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (High End; Low End) = 80,233,333,333,333,333,333,333 m/s or 267,444,444,444,444.4C
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (High End; High End) = 4,814,000,000,000,000,000,000,000 m/s or 16,046,666,666,666,670C
Innocent Majin Buu's Majin Kamehameha
The Feat
So, what IS 1/10th Earth's surface area?
Need it's full surface area first~
Earth Diameter = 12,742,000 meters
Thus?
Earth Radius = 6,371,000 meters
Surface Area = 4PIr^2
r = Earth Radius
Earth's Surface Area = 509,805,890,960,000 m^2
A tenth of that?
Surface Area Razed = 50,980,589,096,000 m^2
That'd be the cross-section of the explosion, so I need to work backwards as if it were the surface area of a circle to get the explosion radius.
Surface Area = PIr^2
r = sqrt(Surface Area/PI)
Explosion Radius = 4,029,374 meters
Innocent Majin Buu's Majin Kamehameha (Low End; widespread destruction) = 210.33 teratons
Innocent Majin Buu's Majin Kamehameha (High End; near-total fatalities) = 3.9833 petatons
Innocent Majin Buu's Chōbakuhatsuha
The Feat
Earth = 5575 pixels
Explosion = 865 pixels
Explosion/Earth = 0.155
Earth = 12,742,000 meters
Explosion = 1,975,010 meters
Innocent Majin Buu's Chōbakuhatsuha Yield (Near-total fatalities) = 56.18 teratons
Super Saiyan Gotenks' Speed
The Feat
Earth = 380 pixels
Diameter 1 = 776 pixels
Diameter 2 = 739 pixels
Diameter 3 = 597 pixels
Diameter 4 = 558 pixels
Diameter 5 = 409 pixels
Diameter 1/Earth = 2.042
Diameter 2/Earth = 1.945
Diameter 3/Earth = 1.571
Diameter 4/Earth = 1.468
Diameter 5/Earth = 1.076
Earth = 12,742,000 meters
Diameter 1 = 26,019,164 meters
Diameter 2 = 24,783,190 meters
Diameter 3 = 20,017,682 meters
Diameter 4 = 18,705,256 meters
Diameter 5 = 13,710,392 meters
All 5 Ellipse Circumference will use the Earth's Radius for one of their's in addition to the derived elongated Diameter measured.
Ergo?
Flight Circumference 1 = 62,685,362 meters
Flight Circumference 1 = 60,471,772 meters
Flight Circumference 1 = 52,095,322 meters
Flight Circumference 1 = 49,842,304 meters
Flight Circumference 1 = 41,565,243 meters
Added together to get...
Total Super Saiyan Gotenks Flight Distance = 266,660,003 meters
So, time frame?
Visual acuity, basically the resolution of the naked eye, can perceive upwards of shit as small as 0.02 degrees and perceive it as its own distinct object without them all blurring the fuck together.
Now, there's a couple ways to treat that. A Geostationary Orbit seems to be the most simplified means of accounting for this.
^Taken from reddit here, that's about 20 frames, the fixed spots in the sky are geostationary orbital satelites. Apparently each frame is about 4 minutes. Overall, what you see of the various stars in the sky? At 15 Degrees of movement an hour (24 hours, 360 degrees, you do the math), you're talking 20 Degrees of movement total.
I'm just talking about being able to notice movement of the background as both our vantage of the planet and the planet itself continue to orbit. Something that should be fairly simple to observe, even if you'd need to strain to be able to parse it out.
For our planet's day? If 360 degrees is equal to 86,400 seconds (24 hours), that would make 0.02 degrees about 4.8 seconds.
I'm using geostationary because honestly? It's the low end as far as I can tell. A satelite with a higher respective relative orbit compared to Earth's would reduce the speed we should be observing some change in the sky, be it the stars as we go around the planet or the rotation of the planet itself, over a much shorter interval.
Any rate?
Time Frame = 4.8 seconds
Super Saiyan Gotenks Flight Speed = 55,554,167 m/s or 0.185C
Evil Majin Buu's Guilty Flash
The Feat
I'm just using Super Buu's height for Evil Buu's height. I'm sure you could scale Evil Buu off Innocent Buu and Innocent Buu off someone else, but I'm also sure the size difference won't be retained by official sizes
Ergo, single step comparison and Super Buu should be about the same height anyway.
Gohan = 100 pixels
Buu = 135 pixels
Buu/Gohan = 1.35
Gohan = 1.76 meters (official height)
Buu = 2.376 meters
Panel Width = 1368 pixels
Trench Width = 909 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(909/(1368/tan(70/2 deg)))
Trench Width = 49.902 Degrees
Height of Eye = 2.376 meters
Distance to Horizon = 5.5 kilometers or 5,500 meters
Trench Width = 5,117.9 meters
Next?
Trench Width = 909 pixels
Trench Depth = 115 pixels
Trench Depth/Trench Width = 0.127
Trench Depth = 649.973 meters
Volume = (1/3)PIr1r2r3
r1 = Trench Depth
r2 = Distance to Horizon
r3 = Trench Width/2
Trench Volume = 9,574,766,670.735 m^3
200 j/cc
6,147 j/cc (melting, got it using SD.net's calculator)
30342 j/cc (vaporization, got it using SD.net's calculator)
Evil Majin Buu's Guilty Flash Yield (Low End) = 1,914,955,334,147,000,000 joules or 457.685 megatons
Evil Majin Buu's Guilty Flash Yield (Middle End) = 58,856,152,195,008,050,000 joules or 14.067 gigatons
Evil Majin Buu's Guilty Flash Yield (High End) = 290,517,570,323,441,400,000 joules or 69.435 gigatons
Super Saiyan 3 Gotenks Physical Might
The Feat
There are like no good scalable shots of the trees near Korin's Tower, so that's... neat.
That was the best of nothing, so that's the something I'm using.
Goku = 160 pixels
Tree = 1163 pixels
Tree/Goku = 7.269
Goku = 1.23 meters (Goku was 12, he should be at least as tall as his son Goten)
Tree = 8.941 meters
It's more like patches of forest, but I can't distinguish a single tree from the collection so... low ends all around I guess.
Tree = 8 pixels
Crater Diameter = 1365 pixels
Crater Diameter/Tree = 170.625
Crater Diameter = 1,525.558 meters
Volume = (2/3)PIr1^2r2
r1 = Crater Diameter/2
r2 = Crater Diameter/4
Crater Volume = 464,520,171.174 m^3
200 j/cc
Super Saiyan 3 Gotenks' Physical Might = 92,904,034,234,800,000 joules or 22.205 megatons
Gotenks Absorbed Super Buu's Physical Might
The Feat
Earth = 1355 pixels
Trench Exit Hole Diameter = 29 pixels
Trench Length = 996 pixels
Ki Blast Travel = 1639 pixels
Trench Exit Hole Diameter/Earth = 0.021
Trench Length/Earth = 0.735
Ki Blast Travel/Earth = 1.21
Earth = 12,742,000 meters
Trench Exit Hole Diameter = 267,582 meters
Trench Length = 9,365,370 meters
Ki Blast Travel = 15,417,820 meters
Buu = 269 pixels
Debris Height = 1270 pixels
Debris Height/Buu = 4.721
Buu = 2.376 meters (derived above)
Debris Height = 11.217 meters
Time Frame = 1.513 seconds
I'll treat the overall time frame as though the debris is reaching that height and just about falling to where it was before it began to be ejected per the scans where there's still debris sitting well above the dust/smoke.
Total Time Frame = 3.026 seconds
Now to get the blasts speed through the planet, and thus the speed of the mass being dispersed for it to travel on through.
Ki Blast Speed = 5,095,115.664 m/s
Panel Height = 676 pixels
Buu Half Armspan = 286 pixels
2*atan(Object_Size/(Panel_Height/tan(FoV/2))) = object degree size
2*atan(286/(676/tan(70/2 deg)))
Buu Half Armspan = 33.003 Degrees
Buu Armspan = Buu = 2.376 meters (derived above)
Buu Half Armspan = 1.188 meters
Height Above Buu = 2.005 meters
Debris Height = 11.217 meters
Total Height = 13.222 meters
Next?
Panel Height = 676 pixels
Trench Entrance Hole Diameter = 495 pixels
2*atan(495/(676/tan(70/2 deg)))
Trench Entrance Hole Diameter = 54.291 Degrees
Trench Entrance Hole Diameter = 12.894 meters
Trench Volume = 1.75561 * 10^17 m^3
Earth Average Density = 5,515 kg/m^3
Trench Mass = 9.68218915 * 10^20 kilograms
KE = 0.5mv^2
m = Trench Mass
v = Ki Blast Speed
Gotenks Absorbed Super Buu's Physical Might = 12,567,580,095,685,250,000,000,000,000,000,000 joules or 3.004 yottatons
Kid Buu's Chikyū Hōkai no Ichigeki
The Feat
And from Dragon Ball Super's opening moments here.
Earth = 305 pixels
Expanded = 635 pixels
Expanded/Earth = 2.082
Earth = 12,742,000 meters
Expanded = 26,528,844 meters
Expanded = 90 pixels
Mass Expansion Distance = 923 pixels
Mass Expansion Distance/Expanded = 10.256
Mass Expansion Distance = 272,079,824 meters
Time Frame = 0.91 seconds (here and here)
Mass Expansion Speed = 298,988,818 m/s
Earth Mass = 5.972 * 10^24 kilograms
Kid Buu's Chikyū Hōkai no Ichigeki Yield (High End) = 6.014 * 10^42 joules or 0.06 Foe
Gonna just throw it out there that it's probably safer to stick with the Earth's mass energy (about 5.375 * 10^41 joules or ~0.0054 Foe) on account that I'm not even fucking sure how this worked out the way it did, but it somehow barely still remained sub-SoL. Rounding error could push it beyond or a bit below what I have I figure. Hell, using a larger average diameter for Earth would have pushed it FTL alone probably.
Actually, Mass Energy for FTL explosions might be a good solution for the issue of not being able to use KE to measure them shrugs
Son Goku's Super Genki-dama
The Feat
I already did the leg work for this above with SSJ3 Goku's Ki Expansion Feat into the Kaioshin Realm.
Just this time it's only the high end alone for the time frame as that's pretty much the most you can ask for a Base Vegeta to squeeze out of distracting Kid Buu when his SSJ2 form struggled to accomplish the same.
Also worth noting Goku hoovered ki from all over the universe apparently per Super's opening narration in both the anime and manga?
That said, I'm not going to use that on account that it's the population of Earth that are being the stubborn hold outs, not the rest of the universe to my knowledge.
Ergo?
Kaioshin Realm's Diameter (Low End) = 4.0832 * 10^26 meters
Kaioshin Realm's Diameter (High End) = 5.7768 * 10^26 meters
Thus?
Kaioshin Realm Radius (Low End) = 2.0416 * 10^26 meters
Kaioshin Realm Radius (High End) = 2.8884 * 10^26 meters
Time Frame = 60 Seconds
Now?
Majin Buu Arc Son Goku's Super Genki-dama Speed (Low End) = 3,410,233,333,333,333,333,333,333 m/s or 11,367,444,444,444,444C
Majin Buu Arc Son Goku's Super Genki-dama Speed (High End) = 4,814,000,000,000,000,000,000,000 m/s or 16,046,666,666,666,670C
I could probably get some kind of yield for the hole it punched in the planet, but that'd require I know the size of Kaioshin Kai and I'm not opening up that can of worms. Would probably use a pressure akin to what you'd find at the center of North Kai's planet for what was needed to punch through that matter on account of Elder Kai talking up the place's durability?
Doesn't matter, bit feat by measurable shit at any rate.
Any way?
Can't really think of anything else super notable to gauge for Majin Buu's Arc. Bullet catching for Super Saiyan Gohan is a neat bit feat, but a bit feat it is. Super Saiyan 2 Son Goku and Majin Super Saiyan 2 Vegeta collapsing mountains/rock formations in the distance with their shock waves is nice, but not really easy to measure. Not really much to work with respective to SSJ3 Goku chucking Buu into that bay either. Super Buu's Jinrui Zetsumetsu Kōgeki lacks a meaningful time frame, though it was likely short given context. Super Buu's Revenge Death Bomber is a generic explosion with little to measure it with. Guess you have these feats for Mr. Satan?
The Feat
Because fuck it, I want to highlight how nothing this feat is to demonstrate why everyone should just maybe shut up?
As we know from the "Super Exciting Guide?" Goku was doing this in over 100 Gs.
Translated Text From Scan said:
So?
Potential Energy = MGH
M = Mass = 40 Tons = 40,000 Kilograms
G = 100 Gs = 980 m/s^2
H = 1 meter (melee range for purposes of just lifting that shit at all)
Majin Buu Arc Son Goku vs 40 Tons in 100 Gs Yield = 39,200,000 joules or 9.369 kilograms of tnt
Or sitting on the order of just north of a tank shell's kinetic energy by more than 3 times or so (take a 10 kg shell and have it move about 1,555 m/s like the M829A3 for example).
But wait, what would this feat have looked like under 1 G you ask?
392,000 joules, so... like half a grenade going off? Maybe a bit less? Depends on the kind.
These are all pretty shit, but it's on the order of bad that exists right on up their with 5 gigajoules Bleach and using that to incapacitate Kenpachi Zaraki (arguably not even given she didn't even use named attacks~), so that's neat too I guess.
Innocent Majin Buu's Zenshinkara no Shōgekiha
The Feat
Foreground
Kei Car Height = 18 pixels
Tree Height = 87 pixels
Tree Height/Kei Car Height = Do I really need a ratio?
Kei Car Height = 1.8 meters (here; circa the time frame the arc was being released in the 90s)
Tree Height = 8.7 meters
Background
Tree Height = 12 pixels
Hill Height = 578 pixels
Hill Height/Tree Height = 48.167
Hill Height = 419.053 meters
Panel Width = Crater Diameter at least as ultimately none of those hills remain in the final shot with the fully formed crater.
Hill Height = 124 pixels
Crater Diameter = 3120 pixels
Crater Diameter/Hill Height = 25.161
Crater Diameter = 10,543.793 meters
Yes, I can see Buu at the center of the Crater. No, he is obviously not to scale. Thank you for letting me know and commenting though~
Crater Diameter = 1392 pixels
Crater Depth = 465 pixels
Crater Depth/Crater Diameter = 0.334
Crater Depth = 3,521.627 meters
Volume = (2/3)PIr1^2r2
r1 = Crater Diameter/2
r2 = Crater Depth
Crater Volume = 204,887,514,855.434 m^3
200 j/cc
6,147 j/cc (melting, got it using SD.net's calculator)
30342 j/cc (vaporization, got it using SD.net's calculator)
Innocent Majin Buu's Zenshinkara no Shōgekiha Yield (Low End) = 40,977,502,971,086,810,000 joules or 9.794 gigatons
Innocent Majin Buu's Zenshinkara no Shōgekiha Yield (Middle End) = 1,259,443,553,816,353,000,000 joules or 301.014 gigatons
Innocent Majin Buu's Zenshinkara no Shōgekiha Yield (High End) = 6,216,696,975,743,580,000,000 joules or 1.486 teratons
Majin Super Saiyan 2 Vegeta's Final Explosion
The Feat
Panel Width = 1471 pixels
Hill = 61 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(61/(1471/tan(70/2 deg)))
Hill = 3.326 Degrees
Hill Height = 419.053 meters (derived above, just going to treat it as averageish for the region)
Height Above Hill = 7,216.8 meters
Add that and the hill height to get...
Height of Eye = 7,635.853 meters
Distance to Horizon = 312.2 kilometers or 312,200 meters
Now for the rest.
Panel Width = 1471 pixels
Explosion Diameter = 1471 pixels
Explosion Diameter = Field of View (FoV) = 70 Degrees
Explosion Diameter = 222,930 meters
Majin Super Saiyan 2 Vegeta's Final Explosion Yield (near-total fatalities) = 75.5 gigatons
Innocent Majin Buu's Flame Shower Breath
The Feat
I mean, I basically did the work for this here in the Piccolo Daimao Collection.
Dragon Ball Feats - Piccolo Daimao Collection
Obviously, Piano is not to scale, so fuck using him, I'm using a normal sized passenger vehicle. Car = 49 pixels Tower Top Diameter = 230 pixels Tower Top Diameter/Car = 4.694 Wikipedia claims The minimum size of a normal passenger vehicle in...
onelastforum.com
As a refresher?
Panel Width = 1130 pixels
Two-Lane Road = 11 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(11/(1130/tan(70/2 deg)))
Two-Lane Road = 0.781 Degrees
Two-Lane Road = 7.8 meters (here; it's a large city, why would this not be a two-lane road at least?)
Distance From Two-Lane Road/Height Above Ground = 572.22 meters
Distance to Horizon = 85,400 meters
So, got my city diameter.
Now? Gotta get a volume for the air Buu was blowing. While I have my diameter, so surface area, my third dimension will be the Height Above Ground as that's effectively what it looks like.
Volume = PIr^2*H
r = Distance to Horizon/2
H = Height Above Ground
Air Volume = 3,276,034,231,932 m^3
Air Density = 1.225 kg/m^3
Air Mass = 4,013,141,934,116.7 kilograms
Notice here? The Time Frame is for how long it takes the air to cross the entire city, the time span of which allows for the debris to reach roughly the height of Buu's vantage point.
Time Frame = sqrt(2d/g)
d = Height Above Ground
g = 9.8 m/s^2
Time Frame = 10.806 seconds
Divide the Distance to Horizon, the City Diameter, by the time frame for...
Breath Travel Speed = 7,903.017 m/s
KE = 0.5mv^2
m = Air Mass
v= Breath Travel Speed
Innocent Majin Buu's Flame Shower Breath Yield = 125,325,762,747,300,800,000 joules or 29.954 gigatons
At least, this is my best guess at how to model this feat? I have no fucking clue otherwise shrugs
Innocent Majin Buu's Finger Ki Blast
The Feat
2-Lane Road = 16 pixels
Building = 72 pixels
Building/2-Lane Road = 4.5
2-Lane Road = 7.8 meters (here; it's a large city, why would this not be a two-lane road at least?)
Building = 35.1 meters
Building = 17 pixels
Crater Diameter = 1144 pixels
Crater Diameter/Building = 67.294
Crater Diameter = 2,362.019 meters
Volume = (2/3)PIr1^2r2
r1 = Crater Diameter/2
r2 = Crater Diameter/4
Crater Volume = 1,724,134,274.969 m^3
200 j/cc
6,147 j/cc (melting, got it using SD.net's calculator)
30342 j/cc (vaporization, got it using SD.net's calculator)
Innocent Majin Buu's Finger Ki Blast Yield (Low End) = 344,824,854,993,800,000 joules or 82.415 megatons
Innocent Majin Buu's Finger Ki Blast Yield (Middle End) = 10,598,191,918,234,440,000 joules or 2.533 gigatons
Innocent Majin Buu's Finger Ki Blast Yield (High End) = 52,313,378,751,110,940,000 joules or 12.503 gigatons
Super Saiyan 3 Son Goku's Ki Reaches The Kaioshin Realm
The Feat
So, you have what Kibito was saying in the raw here.
Translation via ChatGPT said:
So, reaches is the crux of the deal here, right? What are we talking about in terms of "reaches?"
Apparently some other vs jackass decided to ask this already here?
sundowner said:
So, on that merit, I guess that suggests Goku's Ki/Power is literally expanding to reach the Kaioshin Realm in a manner similar in nature to a wave is reaching a distant shore. And it's being felt in the Kaioshin Realm enough to be commented on beyond just sensing it.
So, a speed and power feat.
Neat I guess.
Daizenshuu 7 said:
Kanzenshuu also seems to be corroborating this.
Let's establish some things.
So, we know that Earth is at the edge of Universe 7's own Living World section of the cosmos (both stated in the Super anime and manga). We know that the Kaioshin Realm takes up about 1/10th the space of both the Living World and World Beyond alike. So we can get a radius as we can work backwards from that volume.
The fuck does this want me to do with the "combined space" shit though? I mean, I could multiply the diameter of the observable universe by the square root of 2 to approximate the increased diameter parameter as a high end, but that's about it. Low end is still just going to be the observable universe's diameter to determine everything.
Any rate?
So, lets work with some imaginary numbers for a minute, because fuck the significant figures of the actual scale of the universe just to derive a fucking ratio~
Let's also just model the volumes as cubes, because it doesn't matter for deriving the ratio. Take a hypothetical space of 1000 to the cube root and you get 10. Take a hypothetical space of 100 to the cube root and get yourself about ~4.64.
That makes the ratio between Kaioshin Realm's Radius and Diameter compared to the Universe's Radius and Diameter about 0.464.
Sure, why not. The alternative would be scaling from the few scans we have of the cosmos in Dragon Ball (and the occasion it was drawn in the Super manga here), but given Snake Way is visible? Most people including myself don't treat it as to scale, so why would I start to do so right now? That also means ignoring the gap between the Universe and Kaioshin Realm, but again, nothing about that model can be taken as granted as to scale. I can use it in lieu of the statement about the volume of the Kaioshin Realm, that's about it otherwise.
Right, so, size of the observable universe and that junk?
Observable Universe Diameter (Low End) = ~8.8 * 10^26 meters (about 93 Billion Light Years)
Let's also do that thing with the square root of 2 for the high end distance for Dragon Ball's Observable Universe.
Observable Universe Diameter (High End) = 1.245 * 10^27 meters
Which makes the Kaioshin Realm's Diameter?
Kaioshin Realm's Diameter (Low End) = 4.0832 * 10^26 meters
Kaioshin Realm's Diameter (High End) = 5.7768 * 10^26 meters
So, the Radius, or Distance Goku's Ki/Power Needs to Travel to reach the planet at the center? Which is just dividing the above low and high end by 2?
Distance Super Saiyan 3 Goku's Ki/Power Travels (Low End) = 2.0416 * 10^26 meters
Distance Super Saiyan 3 Goku's Ki/Power Travels (High End) = 2.8884 * 10^26 meters
Next up, Surface Area. Spherical here as his power is radiating in an omnidirectional fashion.
Surface Area = 4PIr^2
r = Distance Super Saiyan 3 Goku's Ki/Power Travels
Surface Area Super Saiyan 3 Goku's Ki/Power Wave (Low End) = 5.235 * 10^53 m^2
Surface Area Super Saiyan 3 Goku's Ki/Power Wave (High End) = 1.048 * 10^54 m^2
Neat, so?
Why not something easy to low ball?
They clearly noticed the vibration it caused moving across their forms. For this purpose, the kind of vibrations a cellphone's vibration motor outputs would function as a serviceable enough kind of "oh shit, we notice that we feel that" kind of sensation.
So, looking across here?
Take note on the listed data sheets for precision microdrives? Most have an Acceleration Efficiency graph for their products where it’s acceleration is measured in Gs divided by number of Watts. That's how you can find the number of joules (Watts just being joules/second) the motor would produce for vibration.
Ergo?
Acceleration Efficiency = g/Watts
Watts = g/(Acceleration Efficiency)
Tyical Vibration Efficiency = 5.71 G/W
Typical Vibration Amplitude = 1.13 G
Typical Norm. Amplitude = 1.13 G
Watts = 0.198 joules/second
Tyical Vibration Efficiency = 4.1 G/W
Typical Vibration Amplitude = 0.75 G
Typical Norm. Amplitude = 0.75 G
Watts = 0.183 joules/second
Tyical Vibration Efficiency = 7.7 G/W
Typical Vibration Amplitude = 1.3 G
Typical Norm. Amplitude = 1.3 G
Watts = 0.169 joules/second
Tyical Vibration Efficiency = 7.7 G/W
Typical Vibration Amplitude = 1.3 G
Typical Norm. Amplitude = 1.3 G
Watts = 0.169 joules/second
Tyical Vibration Efficiency = 7.7 G/W
Typical Vibration Amplitude = 1.3 G
Typical Norm. Amplitude = 1.3 G
Watts = 0.169 joules/second
Tyical Vibration Efficiency = 7.8 G/W
Typical Vibration Amplitude = 1.34 G
Typical Norm. Amplitude = 1.34 G
Watts = 0.172 joules/second
Tyical Vibration Efficiency = 7.8 G/W
Typical Vibration Amplitude = 1.34 G
Typical Norm. Amplitude = 1.34 G
Watts = 0.172 joules/second
Tyical Vibration Efficiency = 7.8 G/W
Typical Vibration Amplitude = 1.34 G
Typical Norm. Amplitude = 1.34 G
Watts = 0.172 joules/second
Ergo?
Acceleration Efficiency = g/Watts
Watts = g/(Acceleration Efficiency)
Tyical Vibration Efficiency = 5.71 G/W
Typical Vibration Amplitude = 1.13 G
Typical Norm. Amplitude = 1.13 G
Watts = 0.198 joules/second
Tyical Vibration Efficiency = 4.1 G/W
Typical Vibration Amplitude = 0.75 G
Typical Norm. Amplitude = 0.75 G
Watts = 0.183 joules/second
Tyical Vibration Efficiency = 7.7 G/W
Typical Vibration Amplitude = 1.3 G
Typical Norm. Amplitude = 1.3 G
Watts = 0.169 joules/second
Tyical Vibration Efficiency = 7.7 G/W
Typical Vibration Amplitude = 1.3 G
Typical Norm. Amplitude = 1.3 G
Watts = 0.169 joules/second
Tyical Vibration Efficiency = 7.7 G/W
Typical Vibration Amplitude = 1.3 G
Typical Norm. Amplitude = 1.3 G
Watts = 0.169 joules/second
Tyical Vibration Efficiency = 7.8 G/W
Typical Vibration Amplitude = 1.34 G
Typical Norm. Amplitude = 1.34 G
Watts = 0.172 joules/second
Tyical Vibration Efficiency = 7.8 G/W
Typical Vibration Amplitude = 1.34 G
Typical Norm. Amplitude = 1.34 G
Watts = 0.172 joules/second
Tyical Vibration Efficiency = 7.8 G/W
Typical Vibration Amplitude = 1.34 G
Typical Norm. Amplitude = 1.34 G
Watts = 0.172 joules/second
So, how about a low end?
For a cell phone's surface area?
This motor that this article linked about Apple products? It's contemporary to the iPhone 11, so I'll use the 11's dimensions.
Because why not.
The relevant cross-section being discussed would be 0.0757 meters by 0.151 meters and the surface area would be 0.0114 m^2
Ratios would be therefore...
Super Saiyan 3 Goku's Power Wave/Motor (Low End; Low End) = 4.942 * 10^55
Super Saiyan 3 Goku's Power Wave/Motor (Low End; Low End) = 9.193 * 10^55
I'll be using the lowest number I derived under the above spoiler tag in 0.169 joules/second, or just 0.169 joules for the purpose of this ratio multiplication.
Thus?
Super Saiyan 3 Son Goku Powering Up Yield (Low End; Low End) = 8.352 * 10^54 joules or 83.52 gigafoe
Super Saiyan 3 Son Goku Powering Up Yield (Low End; High End) = 1.554 * 10^55 joules or 155.4 gigafoe
For the high end?
Taking it as just the motor's cross-section? Let's use the 0.01 meter diameter one given they're all about the same ballpark in terms of joules/second.
Surface Area = PIr^2
r = 0.01/2
Motor Cross-Sectional Surface Area = 0.0000785 m^2
Super Saiyan 3 Goku's Power Wave/Motor (High End; Low End) = 6.669 * 10^57
Super Saiyan 3 Goku's Power Wave/Motor (High End; High End) = 1.335 * 10^58
Thus?
Multiply those ratio by the 0.169 joules for...
Super Saiyan 3 Son Goku Powering Up Yield (High End; Low End) = 1.127 * 10^57 joules or 11.27 terafoe
Super Saiyan 3 Son Goku Powering Up Yield (High End; High End) = 2.256 * 10^57 joules or 22.56 terafoe
Any rate?
Now, time frames?
Let's talk the low end, which would assume that the ki only reaches them long after Goku's stopped using it. What was his window to stay on Earth again after he transformed and fought Buu?
Here, about 30 minutes, or 1,800 seconds. In which time frame he proceeded to go back to the World Beyond and find his Son training shortly after.
So?
Time Frame (Low End) = 1800 seconds
Here and here, the alternative is the fact we know Goku needs about a minute to max his Ki to his own awareness, and he certainly didn't try when fighting Fat Buu, so...
Time Frame (High End) = 60 seconds
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (Low End; Low End) = 56,837,222,222,222,222,222,222 m/s or 189,457,407,407,407.4C
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (Low End; High End) = 3,410,233,333,333,333,333,333,333 m/s or 11,367,444,444,444,444C
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (High End; Low End) = 80,233,333,333,333,333,333,333 m/s or 267,444,444,444,444.4C
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (High End; High End) = 4,814,000,000,000,000,000,000,000 m/s or 16,046,666,666,666,670C
Innocent Majin Buu's Majin Kamehameha
The Feat
Dragon Ball Volume 40 Chapter 475 p08 said:
So, what IS 1/10th Earth's surface area?
Need it's full surface area first~
Earth Diameter = 12,742,000 meters
Thus?
Earth Radius = 6,371,000 meters
Surface Area = 4PIr^2
r = Earth Radius
Earth's Surface Area = 509,805,890,960,000 m^2
A tenth of that?
Surface Area Razed = 50,980,589,096,000 m^2
That'd be the cross-section of the explosion, so I need to work backwards as if it were the surface area of a circle to get the explosion radius.
Surface Area = PIr^2
r = sqrt(Surface Area/PI)
Explosion Radius = 4,029,374 meters
Innocent Majin Buu's Majin Kamehameha (Low End; widespread destruction) = 210.33 teratons
Innocent Majin Buu's Majin Kamehameha (High End; near-total fatalities) = 3.9833 petatons
Innocent Majin Buu's Chōbakuhatsuha
The Feat
Earth = 5575 pixels
Explosion = 865 pixels
Explosion/Earth = 0.155
Earth = 12,742,000 meters
Explosion = 1,975,010 meters
Innocent Majin Buu's Chōbakuhatsuha Yield (Near-total fatalities) = 56.18 teratons
Super Saiyan Gotenks' Speed
The Feat
Earth = 380 pixels
Diameter 1 = 776 pixels
Diameter 2 = 739 pixels
Diameter 3 = 597 pixels
Diameter 4 = 558 pixels
Diameter 5 = 409 pixels
Diameter 1/Earth = 2.042
Diameter 2/Earth = 1.945
Diameter 3/Earth = 1.571
Diameter 4/Earth = 1.468
Diameter 5/Earth = 1.076
Earth = 12,742,000 meters
Diameter 1 = 26,019,164 meters
Diameter 2 = 24,783,190 meters
Diameter 3 = 20,017,682 meters
Diameter 4 = 18,705,256 meters
Diameter 5 = 13,710,392 meters
Ellipse Circumference Calculator
Using the ellipse circumference calculator, you can find the distance around any given ellipse.
www.omnicalculator.com
All 5 Ellipse Circumference will use the Earth's Radius for one of their's in addition to the derived elongated Diameter measured.
Ergo?
Flight Circumference 1 = 62,685,362 meters
Flight Circumference 1 = 60,471,772 meters
Flight Circumference 1 = 52,095,322 meters
Flight Circumference 1 = 49,842,304 meters
Flight Circumference 1 = 41,565,243 meters
Added together to get...
Total Super Saiyan Gotenks Flight Distance = 266,660,003 meters
So, time frame?
Visual acuity, basically the resolution of the naked eye, can perceive upwards of shit as small as 0.02 degrees and perceive it as its own distinct object without them all blurring the fuck together.
Now, there's a couple ways to treat that. A Geostationary Orbit seems to be the most simplified means of accounting for this.
^Taken from reddit here, that's about 20 frames, the fixed spots in the sky are geostationary orbital satelites. Apparently each frame is about 4 minutes. Overall, what you see of the various stars in the sky? At 15 Degrees of movement an hour (24 hours, 360 degrees, you do the math), you're talking 20 Degrees of movement total.
I'm just talking about being able to notice movement of the background as both our vantage of the planet and the planet itself continue to orbit. Something that should be fairly simple to observe, even if you'd need to strain to be able to parse it out.
For our planet's day? If 360 degrees is equal to 86,400 seconds (24 hours), that would make 0.02 degrees about 4.8 seconds.
I'm using geostationary because honestly? It's the low end as far as I can tell. A satelite with a higher respective relative orbit compared to Earth's would reduce the speed we should be observing some change in the sky, be it the stars as we go around the planet or the rotation of the planet itself, over a much shorter interval.
Any rate?
Time Frame = 4.8 seconds
Super Saiyan Gotenks Flight Speed = 55,554,167 m/s or 0.185C
Evil Majin Buu's Guilty Flash
The Feat
I'm just using Super Buu's height for Evil Buu's height. I'm sure you could scale Evil Buu off Innocent Buu and Innocent Buu off someone else, but I'm also sure the size difference won't be retained by official sizes
Ergo, single step comparison and Super Buu should be about the same height anyway.
Gohan = 100 pixels
Buu = 135 pixels
Buu/Gohan = 1.35
Gohan = 1.76 meters (official height)
Buu = 2.376 meters
Panel Width = 1368 pixels
Trench Width = 909 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(909/(1368/tan(70/2 deg)))
Trench Width = 49.902 Degrees
Height of Eye = 2.376 meters
Distance to Horizon = 5.5 kilometers or 5,500 meters
Trench Width = 5,117.9 meters
Next?
Trench Width = 909 pixels
Trench Depth = 115 pixels
Trench Depth/Trench Width = 0.127
Trench Depth = 649.973 meters
Volume = (1/3)PIr1r2r3
r1 = Trench Depth
r2 = Distance to Horizon
r3 = Trench Width/2
Trench Volume = 9,574,766,670.735 m^3
200 j/cc
6,147 j/cc (melting, got it using SD.net's calculator)
30342 j/cc (vaporization, got it using SD.net's calculator)
Evil Majin Buu's Guilty Flash Yield (Low End) = 1,914,955,334,147,000,000 joules or 457.685 megatons
Evil Majin Buu's Guilty Flash Yield (Middle End) = 58,856,152,195,008,050,000 joules or 14.067 gigatons
Evil Majin Buu's Guilty Flash Yield (High End) = 290,517,570,323,441,400,000 joules or 69.435 gigatons
Super Saiyan 3 Gotenks Physical Might
The Feat
There are like no good scalable shots of the trees near Korin's Tower, so that's... neat.
That was the best of nothing, so that's the something I'm using.
Goku = 160 pixels
Tree = 1163 pixels
Tree/Goku = 7.269
Goku = 1.23 meters (Goku was 12, he should be at least as tall as his son Goten)
Tree = 8.941 meters
It's more like patches of forest, but I can't distinguish a single tree from the collection so... low ends all around I guess.
Tree = 8 pixels
Crater Diameter = 1365 pixels
Crater Diameter/Tree = 170.625
Crater Diameter = 1,525.558 meters
Volume = (2/3)PIr1^2r2
r1 = Crater Diameter/2
r2 = Crater Diameter/4
Crater Volume = 464,520,171.174 m^3
200 j/cc
Super Saiyan 3 Gotenks' Physical Might = 92,904,034,234,800,000 joules or 22.205 megatons
Gotenks Absorbed Super Buu's Physical Might
The Feat
Earth = 1355 pixels
Trench Exit Hole Diameter = 29 pixels
Trench Length = 996 pixels
Ki Blast Travel = 1639 pixels
Trench Exit Hole Diameter/Earth = 0.021
Trench Length/Earth = 0.735
Ki Blast Travel/Earth = 1.21
Earth = 12,742,000 meters
Trench Exit Hole Diameter = 267,582 meters
Trench Length = 9,365,370 meters
Ki Blast Travel = 15,417,820 meters
Buu = 269 pixels
Debris Height = 1270 pixels
Debris Height/Buu = 4.721
Buu = 2.376 meters (derived above)
Debris Height = 11.217 meters
Time Frame = 1.513 seconds
I'll treat the overall time frame as though the debris is reaching that height and just about falling to where it was before it began to be ejected per the scans where there's still debris sitting well above the dust/smoke.
Total Time Frame = 3.026 seconds
Now to get the blasts speed through the planet, and thus the speed of the mass being dispersed for it to travel on through.
Ki Blast Speed = 5,095,115.664 m/s
Panel Height = 676 pixels
Buu Half Armspan = 286 pixels
2*atan(Object_Size/(Panel_Height/tan(FoV/2))) = object degree size
2*atan(286/(676/tan(70/2 deg)))
Buu Half Armspan = 33.003 Degrees
Buu Armspan = Buu = 2.376 meters (derived above)
Buu Half Armspan = 1.188 meters
Height Above Buu = 2.005 meters
Debris Height = 11.217 meters
Total Height = 13.222 meters
Next?
Panel Height = 676 pixels
Trench Entrance Hole Diameter = 495 pixels
2*atan(495/(676/tan(70/2 deg)))
Trench Entrance Hole Diameter = 54.291 Degrees
Trench Entrance Hole Diameter = 12.894 meters
Conical Frustum Calculator
Calculator online for a conical frustum. Calculate the unknown defining surface areas, heights, slant heights, circumferences, volumes and radii of a conical frustum with any 3 known variables. Online calculators and formulas for a conical frustum and other geometry problems.
www.calculatorsoup.com
Trench Volume = 1.75561 * 10^17 m^3
Earth Average Density = 5,515 kg/m^3
Trench Mass = 9.68218915 * 10^20 kilograms
KE = 0.5mv^2
m = Trench Mass
v = Ki Blast Speed
Gotenks Absorbed Super Buu's Physical Might = 12,567,580,095,685,250,000,000,000,000,000,000 joules or 3.004 yottatons
Kid Buu's Chikyū Hōkai no Ichigeki
The Feat
And from Dragon Ball Super's opening moments here.
Earth = 305 pixels
Expanded = 635 pixels
Expanded/Earth = 2.082
Earth = 12,742,000 meters
Expanded = 26,528,844 meters
Expanded = 90 pixels
Mass Expansion Distance = 923 pixels
Mass Expansion Distance/Expanded = 10.256
Mass Expansion Distance = 272,079,824 meters
Time Frame = 0.91 seconds (here and here)
Mass Expansion Speed = 298,988,818 m/s
Earth Mass = 5.972 * 10^24 kilograms
Kid Buu's Chikyū Hōkai no Ichigeki Yield (High End) = 6.014 * 10^42 joules or 0.06 Foe
Gonna just throw it out there that it's probably safer to stick with the Earth's mass energy (about 5.375 * 10^41 joules or ~0.0054 Foe) on account that I'm not even fucking sure how this worked out the way it did, but it somehow barely still remained sub-SoL. Rounding error could push it beyond or a bit below what I have I figure. Hell, using a larger average diameter for Earth would have pushed it FTL alone probably.
Actually, Mass Energy for FTL explosions might be a good solution for the issue of not being able to use KE to measure them shrugs
Son Goku's Super Genki-dama
The Feat
I already did the leg work for this above with SSJ3 Goku's Ki Expansion Feat into the Kaioshin Realm.
Just this time it's only the high end alone for the time frame as that's pretty much the most you can ask for a Base Vegeta to squeeze out of distracting Kid Buu when his SSJ2 form struggled to accomplish the same.
Also worth noting Goku hoovered ki from all over the universe apparently per Super's opening narration in both the anime and manga?
That said, I'm not going to use that on account that it's the population of Earth that are being the stubborn hold outs, not the rest of the universe to my knowledge.
Ergo?
Kaioshin Realm's Diameter (Low End) = 4.0832 * 10^26 meters
Kaioshin Realm's Diameter (High End) = 5.7768 * 10^26 meters
Thus?
Kaioshin Realm Radius (Low End) = 2.0416 * 10^26 meters
Kaioshin Realm Radius (High End) = 2.8884 * 10^26 meters
Time Frame = 60 Seconds
Now?
Majin Buu Arc Son Goku's Super Genki-dama Speed (Low End) = 3,410,233,333,333,333,333,333,333 m/s or 11,367,444,444,444,444C
Majin Buu Arc Son Goku's Super Genki-dama Speed (High End) = 4,814,000,000,000,000,000,000,000 m/s or 16,046,666,666,666,670C
I could probably get some kind of yield for the hole it punched in the planet, but that'd require I know the size of Kaioshin Kai and I'm not opening up that can of worms. Would probably use a pressure akin to what you'd find at the center of North Kai's planet for what was needed to punch through that matter on account of Elder Kai talking up the place's durability?
Doesn't matter, bit feat by measurable shit at any rate.
Any way?
Can't really think of anything else super notable to gauge for Majin Buu's Arc. Bullet catching for Super Saiyan Gohan is a neat bit feat, but a bit feat it is. Super Saiyan 2 Son Goku and Majin Super Saiyan 2 Vegeta collapsing mountains/rock formations in the distance with their shock waves is nice, but not really easy to measure. Not really much to work with respective to SSJ3 Goku chucking Buu into that bay either. Super Buu's Jinrui Zetsumetsu Kōgeki lacks a meaningful time frame, though it was likely short given context. Super Buu's Revenge Death Bomber is a generic explosion with little to measure it with. Guess you have these feats for Mr. Satan?
Final Tally
Majin Buu Arc Son Goku vs 40 Tons in 100 Gs Yield = 9.369 kilograms of tnt
Innocent Majin Buu's Zenshinkara no Shōgekiha Yield (Low End) = 9.794 gigatons
Innocent Majin Buu's Zenshinkara no Shōgekiha Yield (Middle End) = 301.014 gigatons
Innocent Majin Buu's Zenshinkara no Shōgekiha Yield (High End) = 1.486 teratons
Majin Super Saiyan 2 Vegeta's Final Explosion Yield (near-total fatalities) = 75.5 gigatons
Innocent Majin Buu's Flame Shower Breath Yield = 29.954 gigatons
Innocent Majin Buu's Finger Ki Blast Yield (Low End) = 82.415 megatons
Innocent Majin Buu's Finger Ki Blast Yield (Middle End) = 2.533 gigatons
Innocent Majin Buu's Finger Ki Blast Yield (High End) = 12.503 gigatons
Super Saiyan 3 Son Goku Powering Up Yield (Low End; Low End) = 83.52 gigafoe
Super Saiyan 3 Son Goku Powering Up Yield (Low End; High End) = 155.4 gigafoe
Super Saiyan 3 Son Goku Powering Up Yield (High End; Low End) = 11.27 terafoe
Super Saiyan 3 Son Goku Powering Up Yield (High End; High End) = 22.56 terafoe
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (Low End; Low End) = 189,457,407,407,407.4C
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (Low End; High End) = 11,367,444,444,444,444C
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (High End; Low End) = 267,444,444,444,444.4C
Super Saiyan 3 Son Goku's Ki/Power Expansion Speed (High End; High End) = 16,046,666,666,666,670C
Innocent Majin Buu's Majin Kamehameha (Low End; widespread destruction) = 210.33 teratons
Innocent Majin Buu's Majin Kamehameha (High End; near-total fatalities) = 3.9833 petatons
Super Saiyan Gotenks Flight Speed = 0.185C
Evil Majin Buu's Guilty Flash Yield (Low End) = 457.685 megatons
Evil Majin Buu's Guilty Flash Yield (Middle End) = 14.067 gigatons
Evil Majin Buu's Guilty Flash Yield (High End) = 69.435 gigatons
Super Saiyan 3 Gotenks' Physical Might = 22.205 megatons
Gotenks Absorbed Super Buu's Physical Might = 3.004 yottatons
Kid Buu's Chikyū Hōkai no Ichigeki Yield (Low End) = 0.0054 Foe
Kid Buu's Chikyū Hōkai no Ichigeki Yield (High End) = 0.06 Foe
Majin Buu Arc Son Goku's Super Genki-dama Speed (Low End) = 11,367,444,444,444,444C
Majin Buu Arc Son Goku's Super Genki-dama Speed (High End) = 16,046,666,666,666,670C