General Blue Survives a Plane Crash Explosion
The Feat
Panel Width = 1369 pixels
Goku Armspan = 106 pixels
Two-Lane Road = 31 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(106/(1369/tan(70/2 deg)))
Goku Armspan = 6.207 Degrees
Goku Armspan = Goku Height = 1.23 meters (Goku was 12, he should be at least as tall as his son Goten)
Distance From Goku = 11.343 meters
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(31/(1369/tan(70/2 deg)))
Two-Lane Road = 1.817 Degrees
Two-Lane Road = 7.8 meters (here)
Distance From Two-Lane Road = 245.94 meters
Subtract Distance From Two-Lane Road from Distance From Goku for...
Height Above Ground = 234.597 meters
Height Above Ground = 159 pixels
Explosion Diameter = 78 pixels
Explosion Diameter/Height Above Ground = 0.491
Explosion Diameter = 115.187 meters
Doesn't go below 1 kiloton (Near-Total Fatalities Radius of 280 meters), so I have to work backwards via Square Cube Law
Playing with it a bit, I found that 0.004512 (4.512 kilotons) has a Near-Total Fatalities Radius of 460 meters, bordering 461 meters. Works for my purposes as you divide that by 2 thrice over to get the explosion Radius of the Plane Explosion. Means I divide that 4.512 kilotons by 512 (8*8*8 for the volume/energy/etc compared to the 2*2*2 for the diameter) and get a yield of?
General Blue's Durability = 8.813 tons
Neat.
Tao Pai Pai's Physical Might and Speed
The Feat
Foreground
Tao Pai Pai = 399 pixels
Pillar Diameter = 94 pixels
Pillar Chunk Height = 549 pixels
Pillar Diameter/Tao Pai Pai = 0.236
Pillar Chunk Height/Tao Pai Pai = 1.376
Tao Pai Pai = 1.78 meters (official height)
Pillar Diameter = 0.42 meters
Pillar Chunk Height = 2.449 meters
Volume = PIr^2*H
r = Pillar Diameter/2
H = Pillar Chunk Height
Pillar Volume = 0.339 m^3
Pillar Density = 2,700 kg/m^3
Pillar Mass = 915.3 kilograms
Background
Pillar Diameter = 18 pixels
Pillar Height = 587 pixels
Pillar Height/Pillar Diameter = 32.611
Pillar Height = 13.697 meters
For later
Any rate?
Initial Velocity = sqrt(RG/sin(2α))
R = Range = 2,300,000 meters (here and here)
G = 9.8 m/s^2
α = 13.5
Tao Pai Pai's Pillar Toss Velocity = 7,046.177 m/s or mach 20.706
KE = 0.5mv^2
m = Pillar Mass
v = Tao Pai Pai's Pillar Toss Velocity
Tao Pai Pai's Physical Might = 22,721,686,511 joules or 5.431 tons
Not really anything new, just scans lost to time because fuck imageshack and I have newer shiny HQ color scans to use.
Staff Officer Black's Battle Jacket Laser
The Feat
Goku = 324 pixels
Window Height = 336 pixels
Window Height/Goku = 1.037
Goku = 1.23 meters (Goku was 12, he should be at least as tall as his son Goten)
Window Height = 1.276 meters
Window Height = 120 pixels
Crater Diameter = 429 pixels
Hole Length = 356 pixels
Hole Height = 269 pixels
Wall Thickness = 31 pixels
Crater Diameter/Window Height = 3.575
Hole Length/Window Height = 2.967
Hole Height/Window Height = 2.242
Wall Thickness/Window Height = 0.258
Crater Diameter = 4.562 meters
Volume = (2/3)PIr1^2r2
r1 = Crater Diameter/2
r2 = Crater Diameter/4
Crater Volume = 12.422 m^3
Hole Length = 3.786 meters
Hole Height = 2.861 meters
Wall Thickness = 0.329 meters
Volume = LWH
L = Hole Length
W = Hole Height
H = Wall Thickness
Hole Volume = 3.564 m^3
Total Destruction Volume = 15.986 m^3
6,147 j/cc (melting, got it using SD.net's calculator)
30342 j/cc (vaporization, got it using SD.net's calculator)
Battle Jacket Laser Yield (Low End) = 98,265,942,000 joules or 23.486 tons
Battle Jacket Laser Yield (High End) = 485,047,212,000 joules or 115.929 tons
Staff Officer Black's Battle Jacket Missile
The Feat
Pillar Height = 45 pixels
Roof Radius = 199 pixels
Roof Radius/Pillar Height = 4.422
Pillar Height = 13.697 meters (derived above)
Roof Radius = 60.568 meters
Roof Diameter = 121.136 meters
Roof Top Diameter = 75 pixels
Red Ribbon Army Base = 919 pixels
Red Ribbon Army Base/Roof Top Diameter = 12.253
Red Ribbon Army Base = 1,516.986 meters
Red Ribbon Army Base = Explosion Diameter as I'm excepting the premise that Staff Officer Black was anticipating the missile engulfing the full thing with its explosion. If that doesn't work for you, I really don't have much to work with. The fucking trees are too far into the foreground.
Explosion Diameter = 354 pixels
Mountain Top Height = 129 pixels
Mountain Top Diameter = 458 pixels
Mountain Top Height/Explosion Diameter = 0.364
Mountain Top Diameter/Explosion Diameter = 1.294
Mountain Top Height = 552.183 meters
Mountain Top Diameter = 1,962.98 meters
Volume = (PIr^2*H)/3
r = Mountain Top Diameter/2
H = Mountain Top Height
Mountain Top Volume = 556,753,791.804 m^3
200 j/cc
Red Ribbon Army Battle Jacket Missile Yield = 111,350,758,360,800,000 joules or 26.613 megatons
It'd of been cool if I could have gotten a KE for this, but we don't see when Goku lands back on the rooftop shrugs
Now, the Red Ribbon Army Battle Jacket should scale its tech to The Pilaf Machine given the Pilaf Machine actually proved just about as physically strong and definitely more durable (Goku tore through the Battle Jacket like tissue paper) only suffering damage from Goku's "light" Kamehameha and their own missile.
Only other notable feats in the arc I'm not doing right now are Roshi catching some bullets, and a variety of times Goku dodged or deflected some bullets. The best showing being Goku's assault on Muscle Tower as you can clearly see the bullets still on panel without having lost momentum as he moves his staff about 4 times to block them. Eighter punching General White over that mountain range is really not worth looking at without knowing how far White flew. You have the Pirate Cavern Cave-In, but we it doesn't appear Goku tanked the exploding mech, but rather jumped away as it was exploding? Also Goku just kind of catches a Dragon Ball as its flying away, but I don't really know where to begin with that, I'm sure Super has an easier example to get a speed with though.
Neat.
The Feat
Panel Width = 1369 pixels
Goku Armspan = 106 pixels
Two-Lane Road = 31 pixels
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(106/(1369/tan(70/2 deg)))
Goku Armspan = 6.207 Degrees
Goku Armspan = Goku Height = 1.23 meters (Goku was 12, he should be at least as tall as his son Goten)
Distance From Goku = 11.343 meters
2*atan(Object_Size/(Panel_Width/tan(FoV/2))) = object degree size
2*atan(31/(1369/tan(70/2 deg)))
Two-Lane Road = 1.817 Degrees
Two-Lane Road = 7.8 meters (here)
Distance From Two-Lane Road = 245.94 meters
Subtract Distance From Two-Lane Road from Distance From Goku for...
Height Above Ground = 234.597 meters
Height Above Ground = 159 pixels
Explosion Diameter = 78 pixels
Explosion Diameter/Height Above Ground = 0.491
Explosion Diameter = 115.187 meters
Doesn't go below 1 kiloton (Near-Total Fatalities Radius of 280 meters), so I have to work backwards via Square Cube Law
Playing with it a bit, I found that 0.004512 (4.512 kilotons) has a Near-Total Fatalities Radius of 460 meters, bordering 461 meters. Works for my purposes as you divide that by 2 thrice over to get the explosion Radius of the Plane Explosion. Means I divide that 4.512 kilotons by 512 (8*8*8 for the volume/energy/etc compared to the 2*2*2 for the diameter) and get a yield of?
General Blue's Durability = 8.813 tons
Neat.
Tao Pai Pai's Physical Might and Speed
The Feat
Foreground
Tao Pai Pai = 399 pixels
Pillar Diameter = 94 pixels
Pillar Chunk Height = 549 pixels
Pillar Diameter/Tao Pai Pai = 0.236
Pillar Chunk Height/Tao Pai Pai = 1.376
Tao Pai Pai = 1.78 meters (official height)
Pillar Diameter = 0.42 meters
Pillar Chunk Height = 2.449 meters
Volume = PIr^2*H
r = Pillar Diameter/2
H = Pillar Chunk Height
Pillar Volume = 0.339 m^3
Pillar Density = 2,700 kg/m^3
Pillar Mass = 915.3 kilograms
Background
Pillar Diameter = 18 pixels
Pillar Height = 587 pixels
Pillar Height/Pillar Diameter = 32.611
Pillar Height = 13.697 meters
For later
Any rate?
Initial Velocity = sqrt(RG/sin(2α))
R = Range = 2,300,000 meters (here and here)
G = 9.8 m/s^2
α = 13.5
Tao Pai Pai's Pillar Toss Velocity = 7,046.177 m/s or mach 20.706
KE = 0.5mv^2
m = Pillar Mass
v = Tao Pai Pai's Pillar Toss Velocity
Tao Pai Pai's Physical Might = 22,721,686,511 joules or 5.431 tons
Not really anything new, just scans lost to time because fuck imageshack and I have newer shiny HQ color scans to use.
Staff Officer Black's Battle Jacket Laser
The Feat
Goku = 324 pixels
Window Height = 336 pixels
Window Height/Goku = 1.037
Goku = 1.23 meters (Goku was 12, he should be at least as tall as his son Goten)
Window Height = 1.276 meters
Window Height = 120 pixels
Crater Diameter = 429 pixels
Hole Length = 356 pixels
Hole Height = 269 pixels
Wall Thickness = 31 pixels
Crater Diameter/Window Height = 3.575
Hole Length/Window Height = 2.967
Hole Height/Window Height = 2.242
Wall Thickness/Window Height = 0.258
Crater Diameter = 4.562 meters
Volume = (2/3)PIr1^2r2
r1 = Crater Diameter/2
r2 = Crater Diameter/4
Crater Volume = 12.422 m^3
Hole Length = 3.786 meters
Hole Height = 2.861 meters
Wall Thickness = 0.329 meters
Volume = LWH
L = Hole Length
W = Hole Height
H = Wall Thickness
Hole Volume = 3.564 m^3
Total Destruction Volume = 15.986 m^3
6,147 j/cc (melting, got it using SD.net's calculator)
30342 j/cc (vaporization, got it using SD.net's calculator)
Battle Jacket Laser Yield (Low End) = 98,265,942,000 joules or 23.486 tons
Battle Jacket Laser Yield (High End) = 485,047,212,000 joules or 115.929 tons
Staff Officer Black's Battle Jacket Missile
The Feat
Pillar Height = 45 pixels
Roof Radius = 199 pixels
Roof Radius/Pillar Height = 4.422
Pillar Height = 13.697 meters (derived above)
Roof Radius = 60.568 meters
Roof Diameter = 121.136 meters
Roof Top Diameter = 75 pixels
Red Ribbon Army Base = 919 pixels
Red Ribbon Army Base/Roof Top Diameter = 12.253
Red Ribbon Army Base = 1,516.986 meters
Red Ribbon Army Base = Explosion Diameter as I'm excepting the premise that Staff Officer Black was anticipating the missile engulfing the full thing with its explosion. If that doesn't work for you, I really don't have much to work with. The fucking trees are too far into the foreground.
Explosion Diameter = 354 pixels
Mountain Top Height = 129 pixels
Mountain Top Diameter = 458 pixels
Mountain Top Height/Explosion Diameter = 0.364
Mountain Top Diameter/Explosion Diameter = 1.294
Mountain Top Height = 552.183 meters
Mountain Top Diameter = 1,962.98 meters
Volume = (PIr^2*H)/3
r = Mountain Top Diameter/2
H = Mountain Top Height
Mountain Top Volume = 556,753,791.804 m^3
200 j/cc
Red Ribbon Army Battle Jacket Missile Yield = 111,350,758,360,800,000 joules or 26.613 megatons
It'd of been cool if I could have gotten a KE for this, but we don't see when Goku lands back on the rooftop shrugs
Now, the Red Ribbon Army Battle Jacket should scale its tech to The Pilaf Machine given the Pilaf Machine actually proved just about as physically strong and definitely more durable (Goku tore through the Battle Jacket like tissue paper) only suffering damage from Goku's "light" Kamehameha and their own missile.
Only other notable feats in the arc I'm not doing right now are Roshi catching some bullets, and a variety of times Goku dodged or deflected some bullets. The best showing being Goku's assault on Muscle Tower as you can clearly see the bullets still on panel without having lost momentum as he moves his staff about 4 times to block them. Eighter punching General White over that mountain range is really not worth looking at without knowing how far White flew. You have the Pirate Cavern Cave-In, but we it doesn't appear Goku tanked the exploding mech, but rather jumped away as it was exploding? Also Goku just kind of catches a Dragon Ball as its flying away, but I don't really know where to begin with that, I'm sure Super has an easier example to get a speed with though.
Neat.
Final Tally
General Blue's Durability = 8.813 tons
Tao Pai Pai's Physical Might = 5.431 tons
Tao Pai Pai's Speed = 7,046.177 m/s
Red Ribbon Army Battle Jacket Laser Yield (Low End) = 23.486 tons
Red Ribbon Army Battle Jacket Laser Yield (High End) = 115.929 tons
Red Ribbon Army Battle Jacket Missile Yield = 26.613 megatons