So, what are we working with?
In the
Viz Scans and the
TCB translation, the storm is called unprecedented. It was originally going to ravage the USA for
the next week as it traveled from Japan via the Jet Stream.
That bits not as important as the whole "unprecedented" shit.
What could it be compared to in size then?
Typhoon Tip says hello apparently.
Typhoon Tip Info said:
From 9- 11 October, the central pressure of the storm dropped 92 mbar and the typhoon’s circulation expanded to a diameter of 2220 km (1,380 mi) with gale-force winds extending 1086 km (675 mi) from its center. This set a world record for the largest tropical cyclone- at its largest, Tip was nearly half as large as the continental United States!
Probably tracks for a storm that was going to wreck the next week across the continental USA.
Cloud Diameter =
2,220,000 meters How about it's height?
With how towering the damn thing continues to look, unprecedented for that sounds apt in description too.
Cloud Top Distance =
21,336 meters (~70,000 feet)
Cloud Bottom Distance =
~2,000 meters (they can start above or below that altitude, but this also isn't really the point here)
Subtract the top from the bottom to get what we'll use for our "unprecedented" cloud height.
Cloud Height =
19,336 meters Now, volume, because that's part of this.
Volume = (4/3)PIr1^2r2
r1 = Cloud Diameter/2
r2 = Cloud Height/2
Cloud Volume =
49,871,333,856,000,000 m^3 What will I use for density, given most of our atmosphere is below the 10 kilometer mark?
So, between 2,000 meters and 21,000 meters? The 11,500 meter mark is our halfway point. Plug that into the above calculator for a density of
0.341 kg/m^3.
Ergo?
Cloud Mass =
17,006,124,844,896,000 kilograms That doesn't help us on our own, need a time frame.
Enter free fall~
Because that's what he'd have been in the middle of after jumping into and finishing his final punch alongside AfO crumbling away and falling away in kind.
Deku = 44 pixels
Height Above Ground (Start) = 284 pixels
Height Above Ground (Start)/Deku = 6.455
Deku =
1.66 meters (official height)
Height Above Ground (Start) =
10.715 meters Deku = 95 pixels
Height Above Ground (End) = 378 pixels
Height Above Ground (End)/Deku = 3.979
Height Above Ground (End) =
6.605 meters Subtract the start from the end.
Total Free Fall =
4.11 meters Time Frame = sqrt(2d/g)
d = Total Free Fall
g = 9.8 m/s^2
Time Frame =
0.916 seconds And next is how fast the cloud was starting to expand and disperse.
Panel Height = 1145 pixels
Cloud Parting Diameter = 916 pixels
2*atan(Object_Size/(Panel_Height/tan(FoV/2))) = object degree size
2*atan(916/(1145/tan(70/2 deg))) Cloud Parting Diameter =
58.512 degrees The top of the cloud would naturally be as we discussed earlier for an "unprecedented" storm
Distance From Cloud Top =
21,336 meters Ergo?
Cloud Parting Diameter =
23,903 meters Divide by 2 for the radius so you can then divide that by the time frame for the speed of the cloud parting.
Cloud Parting Radius =
11,951.5 meters Divide by 0.916 seconds
Cloud Parting Speed =
13,047.489 m/s So KE?
KE = 0.5mv^2
m = Cloud Mass
v = Cloud Parting Speed
Deku's Final Smash Yield =
1,447,535,575,759,502,000,000,000 joules or
345.969 teratons No, I don't feel like doing the movie. This was like 5 minutes of my time and about 30 minutes to type and organize.
Enjoy.
And yes, this was a duo of punches even beyond All Might at his peak.
No, him being fatigued doesn't negate this fact.
