So, I'm just kind of combining all 3 tournaments into a single collection, because they all just kind of feed into one another. The 23rd does the most loosely, but eh (because Piccolo's size increase... which I've put off doing for now ).
So, how will this be scaled?
So?
Relevant 21st Tenka'ichi Budōkai Feats
Krillin's Physical Might vs Orin Temple Bully
Son Goku's Physical Might vs Giran
Krillin's Physical Might vs Jackie Chun
Nam's Physical Might
Jackie Chun's Physical Might vs Son Goku
Son Goku's Physical Might vs Jackie Chun
Relevant 22nd Tenka'ichi Budōkai Feats
22nd Tenka'ichi Budōkai Yamcha's Kamehameha
22nd Tenka'ichi Budōkai Tien Shinhan's Kikōhō
Relevant 23rd Tenka'ichi Budōkai Feats
Son Goku's Physical Might vs Piccolo Jr (To Be Determined When I Can Bother)
^This trio of scans are the most consistently appearing between the tournament, also making them the most important to capturing the scale of the interior.
In the 21st, you actually can spot Yamcha and possibly a wigless Jackie Chun/Master Roshi on the far right of the panel. In the 22nd, you can find Goku in full view, funky hair and all. 23rd didn't give me enough to work with.
I chose the panel with Goku from the 22nd as the one with Yamcha and likely Roshi from the 21st leads to a hilariously ridiculous size so... eh.
Gotta work around foreground and background shit, so more of that fun abounds.
Foreground
Goku = 20 pixels
Partial Wall Height = 166 pixels
Wall Width = 646 pixels
Partial Wall Height/Goku = 8.3
Wall Width/Goku = 32.3
Goku = 1.23 meters (he should be at least as tall as his son Goten, especially circa the 22nd)
Partial Wall Height = 10.209 meters
Wall Width = 39.729 meters
Background 1
Partial Wall Height = 142 pixels
Wall Thickness = 16 pixels
Partial Wall Height/Wall Thickness = 0.113
Wall Thickness = 1.154 meters
Background 2
Wall Width = 411 pixels
Total Wall Height = 151 pixels
Total Wall Height/Wall Width = 0.367
Total Wall Height = 14.58 meters
More working around foreground and background stuff~
Background 1
Wall Height (green line) = 45 pixels
Road (dark orange line) = 173 pixels
Road/Wall Height = 3.844
Road = 39.243 meters
Background 2
Road (dark orange line) = 280 pixels
Fence (dark blue line) = 1012 pixels
Fence/Road = 3.614
Fence = 141.824 meters
Background 3
Fence (red + dark blue lines) = 1490 pixels
Ring Length (red line) = 670 pixels
Ring Length/Road = 0.45
Ring Length = 63.821 meters
Background 4
Ring Length (red line) = 694 pixels
Partial Wall Length (salmon[?] line) = 313 pixels
Damaged Wall Height (light green line) = 37 pixels
Damaged Wall Length (light orange line) = 112 pixels
Wall Thickness (pink line) = 6 pixels
Pillar Bottom Width (grey blue line) = 28 pixels
Pillar Bottom Destruction Height (vertical grey purple line) = 46 pixels
Pillar Bottom Middle Width (light blue line) = 22 pixels
Pillar Bottom Middle Height (grey line) = 37 pixels
Pillar Top Middle Width (horizontal grey purple) = 17 pixels
Pillar Top Middle Height (brown line) = 28 pixels
Pillar Top Width (light tan line) = 10 pixels
Pillar Top Height (white line) = 30 pixels
Partial Wall Length/Ring Length = 0.451
Damaged Wall Height/Ring Length = 0.053
Damaged Wall Length/Ring Length = 0.161
Wall Thickness/Ring Length = 0.009
Pillar Bottom Width/Ring Length = 0.04
Pillar Bottom Destruction Height/Ring Length = 0.066
Pillar Bottom Middle Width/Ring Length = 0.032
Pillar Bottom Middle Height/Ring Length = 0.059
Pillar Top Middle Width/Ring Length/Ring Length = 0.024
Pillar Top Middle Height/Ring Length = 0.04
Pillar Top Width/Ring Length = 0.014
Pillar Top Height/Ring Length = 0.043
Partial Wall Length = 28.783 meters
Damaged Wall Height = 3.383 meters
Damaged Wall Length = 10.275 meters
Wall Thickness = 0.574 meters
Volume = 0.5(PIr1r2*H)
r1 = Damaged Wall Length/2
r2 = Damaged Wall Height
H = Wall Thickness
Damaged Wall Volume = 15.663 m^3
8 j/cc
21st Tenka'ichi Budōkai Son Goku's Physical Might vs Giran and Jackie Chun = 125,304,000 joules or 29.948 kilograms of tnt
Pillar Bottom Width = 2.553 meters
Pillar Bottom Destruction Height = 4.212 meters
Volume = LWH
L and W = Pillar Bottom Width
H = Pillar Bottom Destruction Height
Pillar Bottom Destruction Volume = 27.453 m^3
Pillar Bottom Middle Width = 2.042 meters
Pillar Bottom Middle Height = 3.765 meters
Volume = LWH
L and W = Pillar Bottom Middle Width
H = Pillar Bottom Middle Height
Pillar Bottom Middle Volume = 15.699 m^3
Pillar Top Middle Width = 1.532 meters
Pillar Top Middle Height = 2.553 meters
Volume = LWH
L and W = Pillar Top Middle Width
H = Pillar Top Middle Height
Pillar Top Middle Volume = 5.992 m^3
Pillar Top Width = 0.893 meters
Pillar Top Height = 2.744 meters
Volume = LWH
L and W = Pillar Top Width
H = Pillar Top Height
Pillar Top Volume = 2.188 m^3
Total Pilar Destruction Volume = 51.332 m^3
8 j/cc
21st Tenka'ichi Budōkai Krillin's Physical Might vs Jackie Chun = 410,656,000 joules or 98.149 kilograms of tnt
and
21st Tenka'ichi Budōkai Master Roshi's Physical Might vs Son Goku = 410,656,000 joules or 98.149 kilograms of tnt
Foreground
Ring Length (light orange line) = 1071 pixels
Ring Height (light green line) = 32 pixels
Ring Height/Ring Length = 0.03
Ring Height = 1.915 meters
Ring Length Tile Number = 23
Ring Width Tile Number = 16
Ring Width Tile Number/Ring Length Tile Number = 0.696
Ring Width = 44.419 meters
Ring Width = 291 pixels
Hole Depth = 122 pixels
Hole Depth/Ring Width = 0.419
Hole Depth = 18.612 meters
Total Destruction Depth (hole depth + ring height) = 20.527 meters
As a "Middle" and "High" end I'll also entertain using the Ring Width and Length added to the Ring Height as a depth as well given we still can't see the bottom of the hole.
Thus?
Total Destruction Depth ("Middle" End; ring width + ring height) = 46.334 meters
Total Destruction Depth ("High" End; ring length + ring height) = 65.736 meters
Volume = LWH
L = Ring Length
W = Ring Width
H = Total Destruction Depth
Destruction Volume (Low End) = 58,191.274 m^3
Destruction Volume ("Middle" End) = 131,350.635 m^3
Destruction Volume ("High" End) = 186,352.686 m^3
200 j/cc
22nd Tenka'ichi Budōkai Tien Shinhan's Ki Ko Ho Yield (Low End) = 11,638,254,800,000 joules or 2.782 kilotons
22nd Tenka'ichi Budōkai Tien Shinhan's Ki Ko Ho Yield ("Middle" End) = 26,270,127,000,000 joules or 6.279 kilotons
22nd Tenka'ichi Budōkai Tien Shinhan's Ki Ko Ho Yield ("High" End) = 37,270,537,200,000 joules or 8.908 kilotons
Wall Width = 782 pixels
Hole Diameter = 68 pixels
Hole Diameter/Wall Width = 0.087
Wall Width = 39.729 meters (derived above)
Hole Diameter = 3.456 meters
Wall Thickness = 1.154 meters (derived above)
Volume = PIr^2*H
r = Hole Diameter/2
H = Wall Thickness
Destruction Volume = 10.82 m^3
8 j/cc
21st Tenka'ichi Budōkai Krillin's Physical Might vs Orin Temple Bully = 86,560,000 joules or 20.688 kilograms of tnt
I think I could get a KE for this, but I can't really derive that without being able to figure out the size of the larger chunks of debris being ejected from the wall to get how far it was thrown compared to the bully being tossed through it
Panel Height = 1036 pixels
Ring Length = 20 pixels
2*atan(Object_Size/(Panel_Height/tan(FoV/2))) = object degree size
2*atan(20/(1036/tan(70/2 deg)))
Ring Length = 1.549 Degrees
Ring Length = 63.821 meters (derived above)
Nam Jump Height = 2,360.5 meters
Initial Velocity = sqrt(2gd)
g = 9.8 m/s^2
d = Nam Jump Height
Nam's Jump Speed = 215.095 m/s
Nam's Mass = 68 Kilograms (official mass)
KE = 0.5mv^2
m = Nam's Mass
v = Nam's Jump Speed
Nam's Physical Might = 1,573,039 joules or 375.965 grams of tnt
Partial Wall Length = 577 pixels
Hole Length = 158 pixels
Broken Wall Length = 170 pixels
Broken Wall Thickness = 16 pixels
Broken Wall Height = 86 pixels
Hole Length/Partial Wall Length = 0.274
Broken Wall Length/Partial Wall Length = 0.295
Broken Wall Thickness/Partial Wall Length = 0.028
Broken Wall Height/Partial Wall Length = 0.149
Partial Wall Length = 28.783 meters
Hole Length = 7.887 meters
The building should be similar in size to those around it, ergo?
Total Wall Height = 14.58 meters
Wall Thickness = 1.154 meters
Volume = LWH
L = Hole Length
W = Total Wall Height
H = Wall Thickness
Building Wall Hole Volume = 132.701 m^3
Broken Wall Length = 8.491 meters
Broken Wall Thickness = 0.806 meters
Broken Wall Height = 4.289 meters
Volume = LWH
L = Broken Wall Length
W = Broken Wall Height
H = Broken Wall Thickness
Broken Wall Volume = 29.353 m^3
Total Destruction Volume = 162.054 m^3
8 j/cc
22nd Tenka'ichi Budōkai Yamcha's Kamehameha Yield = 1,296,432,000 joules or 0.31 tons
All that work for a number of feats that get powerscaled to much better anyway~
So, how will this be scaled?
So?
Relevant 21st Tenka'ichi Budōkai Feats
Krillin's Physical Might vs Orin Temple Bully
Son Goku's Physical Might vs Giran
Krillin's Physical Might vs Jackie Chun
Nam's Physical Might
Jackie Chun's Physical Might vs Son Goku
Son Goku's Physical Might vs Jackie Chun
Relevant 22nd Tenka'ichi Budōkai Feats
22nd Tenka'ichi Budōkai Yamcha's Kamehameha
22nd Tenka'ichi Budōkai Tien Shinhan's Kikōhō
Relevant 23rd Tenka'ichi Budōkai Feats
Son Goku's Physical Might vs Piccolo Jr (To Be Determined When I Can Bother)
^This trio of scans are the most consistently appearing between the tournament, also making them the most important to capturing the scale of the interior.
In the 21st, you actually can spot Yamcha and possibly a wigless Jackie Chun/Master Roshi on the far right of the panel. In the 22nd, you can find Goku in full view, funky hair and all. 23rd didn't give me enough to work with.
I chose the panel with Goku from the 22nd as the one with Yamcha and likely Roshi from the 21st leads to a hilariously ridiculous size so... eh.
Gotta work around foreground and background shit, so more of that fun abounds.
Foreground
Goku = 20 pixels
Partial Wall Height = 166 pixels
Wall Width = 646 pixels
Partial Wall Height/Goku = 8.3
Wall Width/Goku = 32.3
Goku = 1.23 meters (he should be at least as tall as his son Goten, especially circa the 22nd)
Partial Wall Height = 10.209 meters
Wall Width = 39.729 meters
Background 1
Partial Wall Height = 142 pixels
Wall Thickness = 16 pixels
Partial Wall Height/Wall Thickness = 0.113
Wall Thickness = 1.154 meters
Background 2
Wall Width = 411 pixels
Total Wall Height = 151 pixels
Total Wall Height/Wall Width = 0.367
Total Wall Height = 14.58 meters
More working around foreground and background stuff~
Background 1
Wall Height (green line) = 45 pixels
Road (dark orange line) = 173 pixels
Road/Wall Height = 3.844
Road = 39.243 meters
Background 2
Road (dark orange line) = 280 pixels
Fence (dark blue line) = 1012 pixels
Fence/Road = 3.614
Fence = 141.824 meters
Background 3
Fence (red + dark blue lines) = 1490 pixels
Ring Length (red line) = 670 pixels
Ring Length/Road = 0.45
Ring Length = 63.821 meters
Background 4
Ring Length (red line) = 694 pixels
Partial Wall Length (salmon[?] line) = 313 pixels
Damaged Wall Height (light green line) = 37 pixels
Damaged Wall Length (light orange line) = 112 pixels
Wall Thickness (pink line) = 6 pixels
Pillar Bottom Width (grey blue line) = 28 pixels
Pillar Bottom Destruction Height (vertical grey purple line) = 46 pixels
Pillar Bottom Middle Width (light blue line) = 22 pixels
Pillar Bottom Middle Height (grey line) = 37 pixels
Pillar Top Middle Width (horizontal grey purple) = 17 pixels
Pillar Top Middle Height (brown line) = 28 pixels
Pillar Top Width (light tan line) = 10 pixels
Pillar Top Height (white line) = 30 pixels
Partial Wall Length/Ring Length = 0.451
Damaged Wall Height/Ring Length = 0.053
Damaged Wall Length/Ring Length = 0.161
Wall Thickness/Ring Length = 0.009
Pillar Bottom Width/Ring Length = 0.04
Pillar Bottom Destruction Height/Ring Length = 0.066
Pillar Bottom Middle Width/Ring Length = 0.032
Pillar Bottom Middle Height/Ring Length = 0.059
Pillar Top Middle Width/Ring Length/Ring Length = 0.024
Pillar Top Middle Height/Ring Length = 0.04
Pillar Top Width/Ring Length = 0.014
Pillar Top Height/Ring Length = 0.043
Partial Wall Length = 28.783 meters
Damaged Wall Height = 3.383 meters
Damaged Wall Length = 10.275 meters
Wall Thickness = 0.574 meters
Volume = 0.5(PIr1r2*H)
r1 = Damaged Wall Length/2
r2 = Damaged Wall Height
H = Wall Thickness
Damaged Wall Volume = 15.663 m^3
8 j/cc
21st Tenka'ichi Budōkai Son Goku's Physical Might vs Giran and Jackie Chun = 125,304,000 joules or 29.948 kilograms of tnt
Pillar Bottom Width = 2.553 meters
Pillar Bottom Destruction Height = 4.212 meters
Volume = LWH
L and W = Pillar Bottom Width
H = Pillar Bottom Destruction Height
Pillar Bottom Destruction Volume = 27.453 m^3
Pillar Bottom Middle Width = 2.042 meters
Pillar Bottom Middle Height = 3.765 meters
Volume = LWH
L and W = Pillar Bottom Middle Width
H = Pillar Bottom Middle Height
Pillar Bottom Middle Volume = 15.699 m^3
Pillar Top Middle Width = 1.532 meters
Pillar Top Middle Height = 2.553 meters
Volume = LWH
L and W = Pillar Top Middle Width
H = Pillar Top Middle Height
Pillar Top Middle Volume = 5.992 m^3
Pillar Top Width = 0.893 meters
Pillar Top Height = 2.744 meters
Volume = LWH
L and W = Pillar Top Width
H = Pillar Top Height
Pillar Top Volume = 2.188 m^3
Total Pilar Destruction Volume = 51.332 m^3
8 j/cc
21st Tenka'ichi Budōkai Krillin's Physical Might vs Jackie Chun = 410,656,000 joules or 98.149 kilograms of tnt
and
21st Tenka'ichi Budōkai Master Roshi's Physical Might vs Son Goku = 410,656,000 joules or 98.149 kilograms of tnt
Foreground
Ring Length (light orange line) = 1071 pixels
Ring Height (light green line) = 32 pixels
Ring Height/Ring Length = 0.03
Ring Height = 1.915 meters
Ring Length Tile Number = 23
Ring Width Tile Number = 16
Ring Width Tile Number/Ring Length Tile Number = 0.696
Ring Width = 44.419 meters
Ring Width = 291 pixels
Hole Depth = 122 pixels
Hole Depth/Ring Width = 0.419
Hole Depth = 18.612 meters
Total Destruction Depth (hole depth + ring height) = 20.527 meters
As a "Middle" and "High" end I'll also entertain using the Ring Width and Length added to the Ring Height as a depth as well given we still can't see the bottom of the hole.
Thus?
Total Destruction Depth ("Middle" End; ring width + ring height) = 46.334 meters
Total Destruction Depth ("High" End; ring length + ring height) = 65.736 meters
Volume = LWH
L = Ring Length
W = Ring Width
H = Total Destruction Depth
Destruction Volume (Low End) = 58,191.274 m^3
Destruction Volume ("Middle" End) = 131,350.635 m^3
Destruction Volume ("High" End) = 186,352.686 m^3
200 j/cc
22nd Tenka'ichi Budōkai Tien Shinhan's Ki Ko Ho Yield (Low End) = 11,638,254,800,000 joules or 2.782 kilotons
22nd Tenka'ichi Budōkai Tien Shinhan's Ki Ko Ho Yield ("Middle" End) = 26,270,127,000,000 joules or 6.279 kilotons
22nd Tenka'ichi Budōkai Tien Shinhan's Ki Ko Ho Yield ("High" End) = 37,270,537,200,000 joules or 8.908 kilotons
Wall Width = 782 pixels
Hole Diameter = 68 pixels
Hole Diameter/Wall Width = 0.087
Wall Width = 39.729 meters (derived above)
Hole Diameter = 3.456 meters
Wall Thickness = 1.154 meters (derived above)
Volume = PIr^2*H
r = Hole Diameter/2
H = Wall Thickness
Destruction Volume = 10.82 m^3
8 j/cc
21st Tenka'ichi Budōkai Krillin's Physical Might vs Orin Temple Bully = 86,560,000 joules or 20.688 kilograms of tnt
I think I could get a KE for this, but I can't really derive that without being able to figure out the size of the larger chunks of debris being ejected from the wall to get how far it was thrown compared to the bully being tossed through it
Panel Height = 1036 pixels
Ring Length = 20 pixels
2*atan(Object_Size/(Panel_Height/tan(FoV/2))) = object degree size
2*atan(20/(1036/tan(70/2 deg)))
Ring Length = 1.549 Degrees
Ring Length = 63.821 meters (derived above)
Nam Jump Height = 2,360.5 meters
Initial Velocity = sqrt(2gd)
g = 9.8 m/s^2
d = Nam Jump Height
Nam's Jump Speed = 215.095 m/s
Nam's Mass = 68 Kilograms (official mass)
KE = 0.5mv^2
m = Nam's Mass
v = Nam's Jump Speed
Nam's Physical Might = 1,573,039 joules or 375.965 grams of tnt
Partial Wall Length = 577 pixels
Hole Length = 158 pixels
Broken Wall Length = 170 pixels
Broken Wall Thickness = 16 pixels
Broken Wall Height = 86 pixels
Hole Length/Partial Wall Length = 0.274
Broken Wall Length/Partial Wall Length = 0.295
Broken Wall Thickness/Partial Wall Length = 0.028
Broken Wall Height/Partial Wall Length = 0.149
Partial Wall Length = 28.783 meters
Hole Length = 7.887 meters
The building should be similar in size to those around it, ergo?
Total Wall Height = 14.58 meters
Wall Thickness = 1.154 meters
Volume = LWH
L = Hole Length
W = Total Wall Height
H = Wall Thickness
Building Wall Hole Volume = 132.701 m^3
Broken Wall Length = 8.491 meters
Broken Wall Thickness = 0.806 meters
Broken Wall Height = 4.289 meters
Volume = LWH
L = Broken Wall Length
W = Broken Wall Height
H = Broken Wall Thickness
Broken Wall Volume = 29.353 m^3
Total Destruction Volume = 162.054 m^3
8 j/cc
22nd Tenka'ichi Budōkai Yamcha's Kamehameha Yield = 1,296,432,000 joules or 0.31 tons
All that work for a number of feats that get powerscaled to much better anyway~
Beginning of Dragon Ball Son Goku Pushes Boulder
The Feat
Oh, this is about to get very, very, stupid looking
Roshi = 364 pixels
Glasses = 30 pixels
Glasses/Roshi = 0.082
Roshi = 1.65 meters (official height)
Glasses = 0.135 meters
Roshi = 267 pixels
Boulder Diameter = 441 pixels
Boulder Height = 411 pixels
Boulder Diameter/Roshi = 1.652
Boulder Height/Roshi = 1.539
Rohsi = 1.65 meters
Boulder Diameter = 2.726 meters
Boulder Height = 2.539 meters
Volume = (2/3)PIr1^2r2
r1 = Boulder Diameter/2
r2 = Boulder Height
Boulder Volume = 9.874 m^3
Rock Density = 2,700 kg/m^3
Boulder Mass = 26,659.8 kilograms
Leave it to a surprise gag to give me a time frame for Goku pushing the damn thing.
Boulder Diameter = 515 pixels
Panel Width = 1458 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(515/(1458/tan(70/2)))
Boulder Diameter = 27.784 Degrees
Boulder Distance Pushed = 5.51 meters
Now the stupid part.
Glasses = 82 pixels
Glasses Distance = 124 pixels
Glasses Distance/Glasses = 1.512
Glasses Distance = 0.204 meters
Time Frame = sqrt(2d/g)
d = Glasses Distance
g = 9.8 m/s^2
Time Frame = 0.204 seconds
Boulder Push Speed = 27.01 m/s
Beginning of Dragon Ball Son Goku Physical Might via Boulder Push = 9,724,697 joules or 2.324 kilograms of tnt
Son Goku and Krillin Push Large Boulder
The Feat
Roshi = 225 pixels
Boulder Diameter = 1222 pixels
Boulder Height = 1070 pixels
Boulder Diameter/Roshi = 5.431
Boulder Height/Roshi = 4.756
Roshi = 1.65 meters
Boulder Diameter = 8.961 meters
Boulder Height = 7.847 meters
Volume = (2/3)PIr1^2r2
r1 = Boulder Diameter/2
r2 = Boulder Height
Boulder Volume = 329.758 m^3
Rock Density = 2,700 kg/m^3
Boulder Mass = 890,346.6 kilograms
Boulder Diameter = 1066 pixels
Boulder Movement = 177 pixels
Boulder Movement/Boulder Diameter = 0.166
Boulder Movement = 1.488 meters
More of the stupid part with the glasses, because shattering the glasses with his eyes leaves the pieces subject to projectile motion free fall.
Glasses = 96 pixels
Glasses Shard Fall Distance = 16 pixels
Glasses Shard Distance/Glasses = 0.167
Glasses Shard Distance = 0.023 meters
Time Frame = 0.069 seconds
Time Frame = sqrt(2d/g)
d = Glasses Shard Distance
g = 9.8 m/s^2
Boulder Movement Speed = 21.565 m/s
21st Tenka'ichi Budōkai Son Goku's Physical Might via Large Boulder Push = 207,027,498 joules or 49.481 kilograms of tnt
Master Roshi's Maximum Power Kamehameha
The Feat
Going to be using a couple things here.
Let's establish Goku's kicking up debris at least as high as his Oozaru form is tall.
To maximize that height, going to be scaling his size off Pilaf's Castle.
The overall idea being? As Goku's kicking up debris one final time, from the very bottom of his height, Roshi fires the attack. By the time the attack is completed and the moon is gone, Krillin is being pelleted in the head by debris in free fall.
That'll be our high end time frame, though that's also the time frame I'd argue for in general treating the feat as congruent with the franchise or not.
The second will be a low end time frame applicable to Piccolo's own feat later on for his own low end interpretation.
Namely?
The moon itself is approximately ~0.5 degrees across and covers about that much distance over the course of an hour. The given what we know about the limits of human visual acuity?
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. It's hard to sell the idea that at this range, Roshi's attack was fired and risked being moved that far off center, there was no real notable deviation in it's placement in the sky, Roshi did not need to alter the beam's trajectory.
So, a full time frame of 144 seconds for the beams travel and then the expansion. Half the time for the beam to reach (72 seconds), half the time for the mass to expand (72 seconds). Same with the high end, where the first half is the beam traveling and the debris reaches its apex (tbd), the second half is the mass expanding and the debris having completed its free fall (tbd).
Any rate?
On with the actual calc.
Dome Diameter = 161 pixels
Oozaru Goku Height = 265 pixels
Oozaru Goku Armspan = 521 pixels
Oozaru Goku Height/Dome Diameter = 1.646
Oozaru Goku Armspan/Dome Diameter = 3.236
Dome Diameter = 34.41 meters (derived here)
Oozaru Goku Height = 56.638 meters
Now I can get a time frame.
Time Frame = sqrt(2d/g)
d = Oozaru Goku Height
g = 9.8 m/s^2
Time Frame Kamehameha Travel = 3.4 seconds
Distance To Moon = 384,400,000 meters
21st Tenka'ichi Budōkai Master Roshi's Kamehameha Speed (Debris Time Frame) = 113,058,824 m/s or 0.377C
And because it'll also be free falling back the way it all came?
Time Frame Moon Expansion = 3.4 seconds
Oozaru Goku Armspan = 111.351 meters (for later in a different arc~)
Moon Diameter = 156 pixels
Moon Expansion Distance = 520 pixels
Moon Expansion Distance/Moon Diameter = 3.333
Moon Diameter = 3,474,800 meters
Moon Expansion Distance = 11,581,508.4 meters
Time Frame Moon Expansion = 3.4 seconds
Moon Expansion Speed = 3,406,326 m/s
Moon Mass = 7.34767309 × 10^22 kilograms
KE = 0.5mv^2
m = Moon Mass
v = Moon Expansion Speed
21st Tenka'ichi Budōkai Master Roshi's Kamehameha Yield (Debris Time Frame) = 426,277,341,726,937,900,000,000,000,000,000,000 joules or 101.883 yottatons
Let's look at that low end minimum visual acuity degrees of noticeable movement time frame I mentioned too though.
Total Time Frame = 144 seconds
Time Frame Kamehameha Travel = 72 seconds
Distance To Moon = 384,400,000 meters
21st Tenka'ichi Budōkai Master Roshi's Kamehameha Speed (Minimum Visual Acuity Time Frame) = 5,338,889 m/s or 0.018C
Time Frame Moon Expansion = 72 seconds
Moon Expansion Distance = 11,581,508.4 meters
Moon Expansion Speed = 160,854.283 m/s
Moon Mass = 7.34767309 × 10^22 kilograms
KE = 0.5mv^2
m = Moon Mass
v = Moon Expansion Speed
21st Tenka'ichi Budōkai Master Roshi's Max Power Kamehameha Yield (Minimum Visual Acuity Time Frame) = 950,572,154,695,233,300,000,000,000,000,000 joules or 227.192 zettatons
Neat
The Feat
Oh, this is about to get very, very, stupid looking
Roshi = 364 pixels
Glasses = 30 pixels
Glasses/Roshi = 0.082
Roshi = 1.65 meters (official height)
Glasses = 0.135 meters
Roshi = 267 pixels
Boulder Diameter = 441 pixels
Boulder Height = 411 pixels
Boulder Diameter/Roshi = 1.652
Boulder Height/Roshi = 1.539
Rohsi = 1.65 meters
Boulder Diameter = 2.726 meters
Boulder Height = 2.539 meters
Volume = (2/3)PIr1^2r2
r1 = Boulder Diameter/2
r2 = Boulder Height
Boulder Volume = 9.874 m^3
Rock Density = 2,700 kg/m^3
Boulder Mass = 26,659.8 kilograms
Leave it to a surprise gag to give me a time frame for Goku pushing the damn thing.
Boulder Diameter = 515 pixels
Panel Width = 1458 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(515/(1458/tan(70/2)))
Boulder Diameter = 27.784 Degrees
Boulder Distance Pushed = 5.51 meters
Now the stupid part.
Glasses = 82 pixels
Glasses Distance = 124 pixels
Glasses Distance/Glasses = 1.512
Glasses Distance = 0.204 meters
Time Frame = sqrt(2d/g)
d = Glasses Distance
g = 9.8 m/s^2
Time Frame = 0.204 seconds
Boulder Push Speed = 27.01 m/s
Beginning of Dragon Ball Son Goku Physical Might via Boulder Push = 9,724,697 joules or 2.324 kilograms of tnt
Son Goku and Krillin Push Large Boulder
The Feat
Roshi = 225 pixels
Boulder Diameter = 1222 pixels
Boulder Height = 1070 pixels
Boulder Diameter/Roshi = 5.431
Boulder Height/Roshi = 4.756
Roshi = 1.65 meters
Boulder Diameter = 8.961 meters
Boulder Height = 7.847 meters
Volume = (2/3)PIr1^2r2
r1 = Boulder Diameter/2
r2 = Boulder Height
Boulder Volume = 329.758 m^3
Rock Density = 2,700 kg/m^3
Boulder Mass = 890,346.6 kilograms
Boulder Diameter = 1066 pixels
Boulder Movement = 177 pixels
Boulder Movement/Boulder Diameter = 0.166
Boulder Movement = 1.488 meters
More of the stupid part with the glasses, because shattering the glasses with his eyes leaves the pieces subject to projectile motion free fall.
Glasses = 96 pixels
Glasses Shard Fall Distance = 16 pixels
Glasses Shard Distance/Glasses = 0.167
Glasses Shard Distance = 0.023 meters
Time Frame = 0.069 seconds
Time Frame = sqrt(2d/g)
d = Glasses Shard Distance
g = 9.8 m/s^2
Boulder Movement Speed = 21.565 m/s
21st Tenka'ichi Budōkai Son Goku's Physical Might via Large Boulder Push = 207,027,498 joules or 49.481 kilograms of tnt
Master Roshi's Maximum Power Kamehameha
The Feat
Going to be using a couple things here.
Let's establish Goku's kicking up debris at least as high as his Oozaru form is tall.
To maximize that height, going to be scaling his size off Pilaf's Castle.
Dragon Ball Feats - Emperor Pilaf Collection
Goku = 337 pixels Boulder = 474 pixels Boulder/Goku = 1.407 Goku = 1.23 meters (Goku was 12, he should be at least as tall as his son Goten) Boulder = 1.729 meters Volume = (4/3)PIr^3 r = Boulder/2 Boulder Volume = 2.705 m^3 Rock Density =...
onelastforum.com
The overall idea being? As Goku's kicking up debris one final time, from the very bottom of his height, Roshi fires the attack. By the time the attack is completed and the moon is gone, Krillin is being pelleted in the head by debris in free fall.
That'll be our high end time frame, though that's also the time frame I'd argue for in general treating the feat as congruent with the franchise or not.
The second will be a low end time frame applicable to Piccolo's own feat later on for his own low end interpretation.
Namely?
The moon itself is approximately ~0.5 degrees across and covers about that much distance over the course of an hour. The given what we know about the limits of human visual acuity?
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. It's hard to sell the idea that at this range, Roshi's attack was fired and risked being moved that far off center, there was no real notable deviation in it's placement in the sky, Roshi did not need to alter the beam's trajectory.
So, a full time frame of 144 seconds for the beams travel and then the expansion. Half the time for the beam to reach (72 seconds), half the time for the mass to expand (72 seconds). Same with the high end, where the first half is the beam traveling and the debris reaches its apex (tbd), the second half is the mass expanding and the debris having completed its free fall (tbd).
Any rate?
On with the actual calc.
Dome Diameter = 161 pixels
Oozaru Goku Height = 265 pixels
Oozaru Goku Armspan = 521 pixels
Oozaru Goku Height/Dome Diameter = 1.646
Oozaru Goku Armspan/Dome Diameter = 3.236
Dome Diameter = 34.41 meters (derived here)
Oozaru Goku Height = 56.638 meters
Now I can get a time frame.
Time Frame = sqrt(2d/g)
d = Oozaru Goku Height
g = 9.8 m/s^2
Time Frame Kamehameha Travel = 3.4 seconds
Distance To Moon = 384,400,000 meters
21st Tenka'ichi Budōkai Master Roshi's Kamehameha Speed (Debris Time Frame) = 113,058,824 m/s or 0.377C
And because it'll also be free falling back the way it all came?
Time Frame Moon Expansion = 3.4 seconds
Oozaru Goku Armspan = 111.351 meters (for later in a different arc~)
Moon Diameter = 156 pixels
Moon Expansion Distance = 520 pixels
Moon Expansion Distance/Moon Diameter = 3.333
Moon Diameter = 3,474,800 meters
Moon Expansion Distance = 11,581,508.4 meters
Time Frame Moon Expansion = 3.4 seconds
Moon Expansion Speed = 3,406,326 m/s
Moon Mass = 7.34767309 × 10^22 kilograms
KE = 0.5mv^2
m = Moon Mass
v = Moon Expansion Speed
21st Tenka'ichi Budōkai Master Roshi's Kamehameha Yield (Debris Time Frame) = 426,277,341,726,937,900,000,000,000,000,000,000 joules or 101.883 yottatons
Let's look at that low end minimum visual acuity degrees of noticeable movement time frame I mentioned too though.
Total Time Frame = 144 seconds
Time Frame Kamehameha Travel = 72 seconds
Distance To Moon = 384,400,000 meters
21st Tenka'ichi Budōkai Master Roshi's Kamehameha Speed (Minimum Visual Acuity Time Frame) = 5,338,889 m/s or 0.018C
Time Frame Moon Expansion = 72 seconds
Moon Expansion Distance = 11,581,508.4 meters
Moon Expansion Speed = 160,854.283 m/s
Moon Mass = 7.34767309 × 10^22 kilograms
KE = 0.5mv^2
m = Moon Mass
v = Moon Expansion Speed
21st Tenka'ichi Budōkai Master Roshi's Max Power Kamehameha Yield (Minimum Visual Acuity Time Frame) = 950,572,154,695,233,300,000,000,000,000,000 joules or 227.192 zettatons
Neat
22nd Tenka'ichi Budōkai Son Goku vs Tien Shinhan's Taiyōken
The Feat
Hell, here this is one of the few times it looks like Toriyama thought ahead and set up an interaction in a fight.
Not really much to discuss. Not much to measure. Goku's literally standing right in front of Tien right until he flares up. At worst, he keeps pace with it and puts on the glasses just in time for the flash not to blind him. There's no real way to argue anything lower than high end relativistic, actual lightspeed, or possibly faster than light for this showing without Tien being utterly brain dead and somehow missing Goku getting nearly an entire ring head start.
Ergo?
22nd Tenka'ichi Budōkai Son Goku's Speed = ~1C
Much like with Roshi's feat with the moon, argue it yourselves about its legitimacy or not. I'm just covering everything notable.
The Feat
Hell, here this is one of the few times it looks like Toriyama thought ahead and set up an interaction in a fight.
Not really much to discuss. Not much to measure. Goku's literally standing right in front of Tien right until he flares up. At worst, he keeps pace with it and puts on the glasses just in time for the flash not to blind him. There's no real way to argue anything lower than high end relativistic, actual lightspeed, or possibly faster than light for this showing without Tien being utterly brain dead and somehow missing Goku getting nearly an entire ring head start.
Ergo?
22nd Tenka'ichi Budōkai Son Goku's Speed = ~1C
Much like with Roshi's feat with the moon, argue it yourselves about its legitimacy or not. I'm just covering everything notable.
23rd Tenka'ichi Budōkai Piccolo Jr's Chōbakuretsumaha
The Feat
So, official material from Super like Super Hero has been making the Daizenshuu map of the world more and more of an integrated part of the story than before.
I'm not going to scale off it, too many weird listed distances to choose from, but I will scale Papaya Island off that "Small Continent" statement on this basis as it gets around the issue of scaling from the map entirely given we already know what DOESN'T qualify as a "Small Continent" IRL.
Namely Greenland.
At a length of 2,670 kilometers at its largest, it still fails to hit the mark, ergo this'll be my diameter. If you don't like it, if you wanna point out Papaya Island is obviously never drawn to this scale?
No shit, this is the same man that will tell us Recoome has warped the curvature of Namek and have an island near the crater with a visible tree on it. Same with Vegeta's Final Flash on Namek, our view is clearly from space, outside the green tinted atmosphere like with Recoome, but we can still see fucking trees. Toriyama is basically ONE if ONE could draw aesthetically pleasing art in more than just kinetics. I'm well aware of this issue, that's not really relevant here. Got an issue with it? Take it up with other franchises like Bleach too where you can see Nnoitra and company visibly on Las Noches and the all of Wahrwelt's cityscapes. I didn't care much there either though, so... shrugs
Going to first work out a low end value for a ship distance with the ship and wave panel, so let's look at that too along with getting the wave size.
Panel Width = 1350 pixels
Ship = 137 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(137/(1350/tan(70/2 deg)))
Ship = 8.129 Degrees
Ship = 142.5 meters (closest I think I could find to what it looked like was the New Orange 1983 [here, here, here, here]; test your luck here for ships pre-circa 1989 if you're unsure yourself)
Distance Wave Traveled (Low End) = 1,002.7 meters
Any rate?
Ship = 137 pixels
Wave Height = 415 pixels
Wave Height/Ship = 3.029
Ship = 142.5 meters
Wave Height = 431.633 meters
Now, the time frame for the wave? Would basically be the span of time it takes the shock wave to push the water to the height we see it reach here. Ergo, we'll treat the height we view here as its apex before its about to fall. Its a surface wave, so it should behave the same way a someone splashing water to create a much smaller wave would? I think, someone is more than free to correct me on that one.
Time Frame = sqrt(2d/g)
d = Wave Height
g = 9.8 m/s^2
Time Frame = 9.386 seconds
We can also get a mass for the omnidirectional wave now.
Need the volume first.
Volume = ((Circumference)WH)/2
Circumference = Papaya Island * PI = 2,670,000 * PI = 8,383,800 meters
W and H = Wave Height
Omnidirectional Wave Volume = 780,980,509,015.619 m^3
Water Density = 1,000 kg/m^3
Omnidirectional Wave Mass = 780,980,509,015,619 kilograms
We also need the surface area of the omnidirectional wave caused by the shock wave, so?
Surface Area = (Circumference)*H
Cross-sectional Surface Area of Omnidirectional Wave = 3,618,724,745.4 m^2
Papaya Island = 1361 pixels
Distance To Mountains = 545 pixels
Distance Shock Wave Travels Offshore to Possible Cluster of Boats = 9 pixels
Distance To Mountains/Papaya Island = 0.4
Distance Shock Wave Travels Offshore to Possible Cluster of Boats/Papaya Island = 0.007
Papaya Island = 2,670,000 meters (Greenland longest dimension, not a Small Continent)
Surface Area = 4PIr^2
r = Papaya Island/2
Explosion Surface Area = 22,384,746,000,000 m^2
Explosion/Omnidirectional Wave = 6,185.811
Distance To Mountains = 1,068,000 meters
Distance Shock Wave Travels Offshore to Possible Cluster of Boats = 18,690 meters
With that, I can get a speed for both the low end and high end shock wave travel distances to produce a full heighted wave.
Ergo, the horizontal speed of the wave's omnidirectional mass is?
Horizontal Speed of Omnidirectional Wave (Low End) = Distance Wave Traveled (Low End)/Time Frame = 106.829 m/s
Horizontal Speed of Omnidirectional Wave (High End) = Distance Shock Wave Travels Offshore to Possible Cluster of Boats/Time Frame = 1,991.264 m/s
KE = 0.5mv^2
m = Omnidirectional Wave Mass
v = Horizontal Speed of Omnidirectional Wave
Omnidirectional Wave Kinetic Energy (Low End) = 4,456,444,741,811,984,000 joules
Omnidirectional Wave Kinetic Energy (High End) = 1,548,345,527,894,252,000,000 joules
Now multiply that by the derived above ratio between explosion and wave...
23rd Tenka'ichi Budōkai Piccolo Jr's Chōbakuretsumaha Yield (Low End) = 27,566,724,904,792,730,000,000 joules or 6.589 teratons
23rd Tenka'ichi Budōkai Piccolo Jr's Chōbakuretsumaha Yield (High End) = 9,577,772,798,249,068,000,000,000 joules or 2.289 petatons
And as a middle end, let's look at the nuke calculator for near-total fatalities at a radius of 1,335 kilometers.
23rd Tenka'ichi Budōkai Piccolo Jr's Chōbakuretsumaha Yield (Middle End) = 140.1 teratons
If you don't like the high end, I'd probably go with the middle end even though the low end took more work.
23rd Tenka'ichi Budōkai Piccolo Jr's Makōsen Speed
The Feat
Goku Armspan = 198 pixels
Goku Drop Distance = 348 pixels
Goku Drop Distance/Goku Armspan = 1.758
Goku Armspan = Goku Height = 1.75 meters (official height)
Goku Drop Distance = 3.077 meters
Time Frame = sqrt(2D/G)
D = Goku Drop Distance
G = 9.8 m/s^2
Time Frame = 0.792 seconds
Distance To Mountains = 1,068,000 meters
Divide "Distance to Mountains" by "Time Fame" to get...
23rd Tenka'ichi Budōkai Piccolo Jr's Makōsen Speed = 1,348,485 m/s or mach 3,962.752
Neat
I didn't do the casual blast against Shen/Kami because it's not too friendly to angular size and was far too out of scale. Imagine that tells me what I could see was either too zoomed in or the location the blast occurred was further off panel, but either way can't measure it with what I have to work with.
Kami or Shenron Repair the Moon
The Feat
We know it happened, given Piccolo nuked it later on.
Just a matter of who?
Does it matter who?
The power of the Dragon Balls are limited by the power of those that created them and all.
Any rate, just going with the GBE of the moon.
Kami or Shenron Repair the Moon Yield = 1.24 * 10^29 joules or 29.637 exatons
Neat
The Feat
So, official material from Super like Super Hero has been making the Daizenshuu map of the world more and more of an integrated part of the story than before.
Daizenshuu 4 p088 said:
I'm not going to scale off it, too many weird listed distances to choose from, but I will scale Papaya Island off that "Small Continent" statement on this basis as it gets around the issue of scaling from the map entirely given we already know what DOESN'T qualify as a "Small Continent" IRL.
Namely Greenland.
At a length of 2,670 kilometers at its largest, it still fails to hit the mark, ergo this'll be my diameter. If you don't like it, if you wanna point out Papaya Island is obviously never drawn to this scale?
No shit, this is the same man that will tell us Recoome has warped the curvature of Namek and have an island near the crater with a visible tree on it. Same with Vegeta's Final Flash on Namek, our view is clearly from space, outside the green tinted atmosphere like with Recoome, but we can still see fucking trees. Toriyama is basically ONE if ONE could draw aesthetically pleasing art in more than just kinetics. I'm well aware of this issue, that's not really relevant here. Got an issue with it? Take it up with other franchises like Bleach too where you can see Nnoitra and company visibly on Las Noches and the all of Wahrwelt's cityscapes. I didn't care much there either though, so... shrugs
Going to first work out a low end value for a ship distance with the ship and wave panel, so let's look at that too along with getting the wave size.
Panel Width = 1350 pixels
Ship = 137 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(137/(1350/tan(70/2 deg)))
Ship = 8.129 Degrees
Ship = 142.5 meters (closest I think I could find to what it looked like was the New Orange 1983 [here, here, here, here]; test your luck here for ships pre-circa 1989 if you're unsure yourself)
Distance Wave Traveled (Low End) = 1,002.7 meters
Any rate?
Ship = 137 pixels
Wave Height = 415 pixels
Wave Height/Ship = 3.029
Ship = 142.5 meters
Wave Height = 431.633 meters
Now, the time frame for the wave? Would basically be the span of time it takes the shock wave to push the water to the height we see it reach here. Ergo, we'll treat the height we view here as its apex before its about to fall. Its a surface wave, so it should behave the same way a someone splashing water to create a much smaller wave would? I think, someone is more than free to correct me on that one.
Time Frame = sqrt(2d/g)
d = Wave Height
g = 9.8 m/s^2
Time Frame = 9.386 seconds
We can also get a mass for the omnidirectional wave now.
Need the volume first.
Volume = ((Circumference)WH)/2
Circumference = Papaya Island * PI = 2,670,000 * PI = 8,383,800 meters
W and H = Wave Height
Omnidirectional Wave Volume = 780,980,509,015.619 m^3
Water Density = 1,000 kg/m^3
Omnidirectional Wave Mass = 780,980,509,015,619 kilograms
We also need the surface area of the omnidirectional wave caused by the shock wave, so?
Surface Area = (Circumference)*H
Cross-sectional Surface Area of Omnidirectional Wave = 3,618,724,745.4 m^2
Papaya Island = 1361 pixels
Distance To Mountains = 545 pixels
Distance Shock Wave Travels Offshore to Possible Cluster of Boats = 9 pixels
Distance To Mountains/Papaya Island = 0.4
Distance Shock Wave Travels Offshore to Possible Cluster of Boats/Papaya Island = 0.007
Papaya Island = 2,670,000 meters (Greenland longest dimension, not a Small Continent)
Surface Area = 4PIr^2
r = Papaya Island/2
Explosion Surface Area = 22,384,746,000,000 m^2
Explosion/Omnidirectional Wave = 6,185.811
Distance To Mountains = 1,068,000 meters
Distance Shock Wave Travels Offshore to Possible Cluster of Boats = 18,690 meters
With that, I can get a speed for both the low end and high end shock wave travel distances to produce a full heighted wave.
Ergo, the horizontal speed of the wave's omnidirectional mass is?
Horizontal Speed of Omnidirectional Wave (Low End) = Distance Wave Traveled (Low End)/Time Frame = 106.829 m/s
Horizontal Speed of Omnidirectional Wave (High End) = Distance Shock Wave Travels Offshore to Possible Cluster of Boats/Time Frame = 1,991.264 m/s
KE = 0.5mv^2
m = Omnidirectional Wave Mass
v = Horizontal Speed of Omnidirectional Wave
Omnidirectional Wave Kinetic Energy (Low End) = 4,456,444,741,811,984,000 joules
Omnidirectional Wave Kinetic Energy (High End) = 1,548,345,527,894,252,000,000 joules
Now multiply that by the derived above ratio between explosion and wave...
23rd Tenka'ichi Budōkai Piccolo Jr's Chōbakuretsumaha Yield (Low End) = 27,566,724,904,792,730,000,000 joules or 6.589 teratons
23rd Tenka'ichi Budōkai Piccolo Jr's Chōbakuretsumaha Yield (High End) = 9,577,772,798,249,068,000,000,000 joules or 2.289 petatons
And as a middle end, let's look at the nuke calculator for near-total fatalities at a radius of 1,335 kilometers.
23rd Tenka'ichi Budōkai Piccolo Jr's Chōbakuretsumaha Yield (Middle End) = 140.1 teratons
If you don't like the high end, I'd probably go with the middle end even though the low end took more work.
23rd Tenka'ichi Budōkai Piccolo Jr's Makōsen Speed
The Feat
Goku Armspan = 198 pixels
Goku Drop Distance = 348 pixels
Goku Drop Distance/Goku Armspan = 1.758
Goku Armspan = Goku Height = 1.75 meters (official height)
Goku Drop Distance = 3.077 meters
Time Frame = sqrt(2D/G)
D = Goku Drop Distance
G = 9.8 m/s^2
Time Frame = 0.792 seconds
Distance To Mountains = 1,068,000 meters
Divide "Distance to Mountains" by "Time Fame" to get...
23rd Tenka'ichi Budōkai Piccolo Jr's Makōsen Speed = 1,348,485 m/s or mach 3,962.752
Neat
I didn't do the casual blast against Shen/Kami because it's not too friendly to angular size and was far too out of scale. Imagine that tells me what I could see was either too zoomed in or the location the blast occurred was further off panel, but either way can't measure it with what I have to work with.
Kami or Shenron Repair the Moon
The Feat
We know it happened, given Piccolo nuked it later on.
Just a matter of who?
Does it matter who?
The power of the Dragon Balls are limited by the power of those that created them and all.
Any rate, just going with the GBE of the moon.
Kami or Shenron Repair the Moon Yield = 1.24 * 10^29 joules or 29.637 exatons
Neat
Final Tally
21st Tenka'ichi Budōkai
Beginning of Dragon Ball Son Goku Physical Might via Boulder Push = 2.324 kilograms of tnt
21st Tenka'ichi Budōkai Son Goku's Physical Might via Large Boulder Push = 49.481 kilograms of tnt
21st Tenka'ichi Budōkai Krillin's Physical Might vs Orin Temple Bully = 20.688 kilograms of tnt
21st Tenka'ichi Budōkai Son Goku's Physical Might vs Giran and Jackie Chun = 29.948 kilograms of tnt
21st Tenka'ichi Budōkai Krillin's Physical Might vs Jackie Chun = 98.149 kilograms of tnt
Nam's Jump Speed = 215.095 m/s
Nam's Physical Might = 375.965 grams of tnt
21st Tenka'ichi Budōkai Master Roshi's Physical Might vs Son Goku = 98.149 kilograms of tnt
21st Tenka'ichi Budōkai Master Roshi's Kamehameha Speed (Minimum Visual Acuity Time Frame) = 0.018C
21st Tenka'ichi Budōkai Master Roshi's Kamehameha Speed (Debris Time Frame) = 0.377C
21st Tenka'ichi Budōkai Master Roshi's Max Power Kamehameha Yield (Minimum Visual Acuity Time Frame) = 227.192 zettatons
21st Tenka'ichi Budōkai Master Roshi's Kamehameha Yield (Debris Time Frame) = 101.883 yottatons
22nd Tenka'ichi Budōkai
22nd Tenka'ichi Budōkai Yamcha's Kamehameha Yield = 0.31 tons
22nd Tenka'ichi Budōkai Son Goku's Speed = ~1C
22nd Tenka'ichi Budōkai Tien Shinhan's Ki Ko Ho Yield (Low End) = 2.782 kilotons
22nd Tenka'ichi Budōkai Tien Shinhan's Ki Ko Ho Yield ("Middle" End) = 6.279 kilotons
22nd Tenka'ichi Budōkai Tien Shinhan's Ki Ko Ho Yield ("High" End) = 8.908 kilotons
23rd Tenka'ichi Budōkai
Kami or Shenron Repair the Moon Yield = 29.637 exatons
23rd Tenka'ichi Budōkai Piccolo Jr's Makōsen Speed = 1,348,485 m/s
23rd Tenka'ichi Budōkai Piccolo Jr's Chōbakuretsumaha Yield (Low End) = 6.589 teratons
23rd Tenka'ichi Budōkai Piccolo Jr's Chōbakuretsumaha Yield (Middle End) = 140.1 teratons
23rd Tenka'ichi Budōkai Piccolo Jr's Chōbakuretsumaha Yield (High End) = 2.289 petatons