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bro yall gotta see Deku's hair now
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Yeah it should have been affecting North AmericaBigger question—Wasn’t the weather in America still the Todoroki Storm/Typhoon? Doesn’t that mean Deku straightforwardly scales above it entirely, now?
So is this the end of the series soon? Or is this actually leading to Part 2 of MHA?
So is this the end of the series soon? Or is this actually leading to Part 2 of MHA?
Similar to what Shimura said above, I think we probably have 2 - 5 chapters left. There’s probably like, 2 chapters worth of wrap-up at most for any characters that were unaccounted for, then the rest might be a short timeskip that may or may not lead into a sequel Year 2 or Year 3 series.I do wonder how long Horikoshi intends the epilogue to be since he specifically mentioned it.
I don't think so. Shonen jump would have given us several warning before mha end given its also a big series. Theirs also the fact that horikoshi has also recently comment about this series ending.Similar to what Shimura said above, I think we probably have 2 - 5 chapters left. There’s probably like, 2 chapters worth of wrap-up at most for any characters that were unaccounted for, then the rest might be a short timeskip that may or may not lead into a sequel Year 2 or Year 3 series.
I like that. Gradually settle in the new life.Horikoshi's comment in this week's Jump:
Writing conventions say that the conclusion of a story should be short, but this is not the type of manga that can immediately end after the fighting is done, so I'll keep going for a little while. We're going back to the title.
Damn
6A Deku?
Yeah, I just saw the post from Rukasu right after saying that lol. But hey, even better, I wouldn’t know what to do if a series I’ve been with for so long just ended so suddenlyQuote here.
MHA part 2, introducing androids and possibly aliens. This is where we also discover Deku is actually half alien and his father is no where to be found because he's in space somewhere.So is this the end of the series soon? Or is this actually leading to Part 2 of MHA?
So is this the end of the series soon? Or is this actually leading to Part 2 of MHA?
Didn't they say that if Quirks didn't happen, humans would be taking Vacations on Mars ? Lets go to space.MHA part 2, introducing androids and possibly aliens. This is where we also discover Deku is actually half alien and his father is no where to be found because he's in space somewhere.
So Mash vs Deku and Asta vs Deku is a possibility now.Even just a shockwave from japan to california in Radius is High 6-A I believe (Like 14.5 Petatons)
Depends on how everything is calcedSo Mash vs Deku and Asta vs Deku is a possibility now.
This looks a bit more than 9-C to me.Could Dabi be 9-C in his first key for destroying a door with his quirk?
Maybe but I definitely think it's something that could get him out of "Unknown with Blueflame"This looks a bit more than 9-C to me.
I couldn't get him to 8-A this is sadly the best I can dodoor level MHA it's over
So Mash vs Deku and Asta vs Deku is a possibility now.
Isn’t “few” typically used for 3-4? Not 2?Time to make a crazy unpolished high-balled calc, I will just be focusing on the winds that reached America.
I don't know what I cooked but it got burned some way through.So as stated on the chapter, the power of Deku's final punch caused winds so strong that they could reach all the way to America even days after the event.
The shortest distance between Japan and Washington, where the reporter is located, is 10,906 kilometers, that will be our radius.
The bulk of the atmosphere is located close to Earth’s surface—up to a distance of around 8 to 15 kilometers, so we will be using 11.5 kilometers for our height.
Having these two values, we can use this calculator to find the mass of air Deku's punch had to push to reach all they way to America. The average elevation of Japan is 438 meters above sea level, the air pushed has a thickness of at least 11,500 meters, and an area of 373663656589428.40 square meters (pi*10906000^2).
Mass = 2.92*10^18 Kilograms of Air
Now we just need to find the speed of the winds, which were stated to be "strong". The wind reached America a few days after the battle, let's say 2 days, or 172800 seconds:
Speed = 9723620/172800 = 56.27 m/s
Strong stuff indeed, probably too strong, but let's continue.
Finally we can the kinetic energy of this feat.
Energy = 1/12*2920000000000000000*56.27^2 = 770469472333333333333.33 Joules
Giving us a grand total of... 184.14 Gigatons.
you did your best manTime to make a crazy unpolished high-balled calc, I will just be focusing on the winds.
I don't know what I cooked but it got burned some way through.So as stated on the chapter, the power of Deku's final punch caused winds so strong that they could reach all the way to America even days after the event.
The shortest distance between Japan and Washington, where the reporter is located, is 10,906 kilometers, that will be our radius.
The bulk of the atmosphere is located close to Earth’s surface—up to a distance of around 8 to 15 kilometers, so we will be using 11.5 kilometers for our height.
Having these two values, we can use this calculator to find the mass of air Deku's punch had to push to reach all they way to America. The average elevation of Japan is 438 meters above sea level, the air pushed has a thickness of at least 11,500 meters, and an area of 373663656589428.40 square meters (pi*10906000^2).
Mass = 2.92*10^18 Kilograms of Air
Now we just need to find the speed of the winds, which were stated to be "strong". The wind reached America a few days after the battle, let's say 2 days, or 172800 seconds:
Speed = 9723620/172800 = 56.27 m/s
Strong stuff indeed, probably too strong, but let's continue.
Finally we can the kinetic energy of this feat.
Energy = 1/12*2920000000000000000*56.27^2 = 770469472333333333333.33 Joules
Giving us a grand total of... 184.14 Gigatons.
Now what if it went across the whole earthIt's being high-balled on purpose, but the calc isn't finished, I forgot to apply the Inverse Square Law.
I will be using TheRustyOne's formula shown here, which I don't even fully understand.
Air Radius = 10906000 m
Air Area = (pi*10906000^2) = 373663656589428.40 m^2
Shockwave Radius = 10906000 m (Should at least be the same as the air dispersion itself)
I'm assuming the clap produced a shockwave omni-directionally.
Shockwave Area = 4*pi*10906000^2 = 1494654626357713.63 m^2
Air Dispersion Energy = 770469472333333333333.33 Joules
Inverse Square Law = area of the explosion/area of the object*the initial value
Final Punch Energy = 1494654626357713.63/373663656589428.40*770469472333333333333.33 = 3081877889333333395191.31 Joules or 736.58 Gigatons of TNT (Large Island level+)
I expected more to be honest.
Damn… still consistently in the large island ranges…Time to make a crazy unpolished high-balled calc, I will just be focusing on the winds.
I don't know what I cooked but it got burned some way through.So as stated on the chapter, the power of Deku's final punch caused winds so strong that they could reach all the way to America even days after the event.
The shortest distance between Japan and Washington, where the reporter is located, is 10,906 kilometers, that will be our radius.
The bulk of the atmosphere is located close to Earth’s surface—up to a distance of around 8 to 15 kilometers, so we will be using 11.5 kilometers for our height.
Having these two values, we can use this calculator to find the mass of air Deku's punch had to push to reach all they way to America. The average elevation of Japan is 438 meters above sea level, the air pushed has a thickness of at least 11,500 meters, and an area of 373663656589428.40 square meters (pi*10906000^2).
Mass = 2.92*10^18 Kilograms of Air
Now we just need to find the speed of the winds, which were stated to be "strong". The wind reached America a few days after the battle, let's say 2 days, or 172800 seconds:
Speed = 9723620/172800 = 56.27 m/s
Strong stuff indeed, probably too strong, but let's continue.
Finally we can the kinetic energy of this feat.
Energy = 1/12*2920000000000000000*56.27^2 = 770469472333333333333.33 Joules
Giving us a grand total of... 184.14 Gigatons.
Time to make a crazy unpolished high-balled calc, I will just be focusing on the winds.
I don't know what I cooked but it got burned some way through.So as stated on the chapter, the power of Deku's final punch caused winds so strong that they could reach all the way to America even days after the event.
The shortest distance between Japan and Washington, where the reporter is located, is 10,906 kilometers, that will be our radius.
The bulk of the atmosphere is located close to Earth’s surface—up to a distance of around 8 to 15 kilometers, so we will be using 11.5 kilometers for our height.
Having these two values, we can use this calculator to find the mass of air Deku's punch had to push to reach all they way to America. The average elevation of Japan is 438 meters above sea level, the air pushed has a thickness of at least 11,500 meters, and an area of 373663656589428.40 square meters (pi*10906000^2).
Mass = 2.92*10^18 Kilograms of Air
Now we just need to find the speed of the winds, which were stated to be "strong". The wind reached America a few days after the battle, let's say 2 days, or 172800 seconds:
Speed = 9723620/172800 = 56.27 m/s
Strong stuff indeed, probably too strong, but let's continue.
Finally we can the kinetic energy of this feat.
Energy = 1/12*2920000000000000000*56.27^2 = 770469472333333333333.33 Joules
Giving us a grand total of... 184.14 Gigatons.
I'll wait until translations come out. I'm sure we can get it higherTime to make a crazy unpolished high-balled calc, I will just be focusing on the winds.
I don't know what I cooked but it got burned some way through.So as stated on the chapter, the power of Deku's final punch caused winds so strong that they could reach all the way to America even days after the event.
The shortest distance between Japan and Washington, where the reporter is located, is 10,906 kilometers, that will be our radius.
The bulk of the atmosphere is located close to Earth’s surface—up to a distance of around 8 to 15 kilometers, so we will be using 11.5 kilometers for our height.
Having these two values, we can use this calculator to find the mass of air Deku's punch had to push to reach all they way to America. The average elevation of Japan is 438 meters above sea level, the air pushed has a thickness of at least 11,500 meters, and an area of 373663656589428.40 square meters (pi*10906000^2).
Mass = 2.92*10^18 Kilograms of Air
Now we just need to find the speed of the winds, which were stated to be "strong". The wind reached America a few days after the battle, let's say 2 days, or 172800 seconds:
Speed = 9723620/172800 = 56.27 m/s
Strong stuff indeed, probably too strong, but let's continue.
Finally we can the kinetic energy of this feat.
Energy = 1/12*2920000000000000000*56.27^2 = 770469472333333333333.33 Joules
Giving us a grand total of... 184.14 Gigatons.
Would it need an actual calculation or would it just be a flat 9-B rating?This looks a bit more than 9-C to me.
Time to make a crazy unpolished high-balled calc, I will just be focusing on the winds.
I don't know what I cooked but it got burned some way through.So as stated on the chapter, the power of Deku's final punch caused winds so strong that they could reach all the way to America even days after the event.
The shortest distance between Japan and Washington, where the reporter is located, is 10,906 kilometers, that will be our radius.
The bulk of the atmosphere is located close to Earth’s surface—up to a distance of around 8 to 15 kilometers, so we will be using 11.5 kilometers for our height.
Having these two values, we can use this calculator to find the mass of air Deku's punch had to push to reach all they way to America. The average elevation of Japan is 438 meters above sea level, the air pushed has a thickness of at least 11,500 meters, and an area of 373663656589428.40 square meters (pi*10906000^2).
Mass = 2.92*10^18 Kilograms of Air
Now we just need to find the speed of the winds, which were stated to be "strong". The wind reached America a few days after the battle, let's say 2 days, or 172800 seconds:
Speed = 9723620/172800 = 56.27 m/s
Strong stuff indeed, probably too strong, but let's continue.
Finally we can the kinetic energy of this feat.
Energy = 1/12*2920000000000000000*56.27^2 = 770469472333333333333.33 Joules
Giving us a grand total of... 184.14 Gigatons.