some kiddo and hmt stuff now
done by hmt
http://www.mangareader.net/93-28-11/naruto/chapter-23.html
http://www.mangareader.net/93-28-12/naruto/chapter-23.html
Inspired by Brohan.
Anyway, so apparently if I can prove these two guys didn't react in anyway at all to Naruto's movement then I can use FPS.
How will I prove that?
In the middle panels on the second page, we can see that they don't even see Naruto until he speaks.
They also do not notice the log until after it has hit the floor.
Seems about the right level of non-reaction for this.
Which means I can use a timeframe of 0.0099 seconds for everything that happens in that blitz.
First I need to find the distance.
Which we will do using the first scan.
I'm going to guess that Inari is 1m tall even though I'm pretty sure that's lower than my height at that age.
Inari is 43px tall making the scale 0.02325m/px.
The road Naruto has to come along is 305px making it 7.09125m long.
Now that I have that I can simply use the equation of D/T = S
7.09125/0.0099 = 716.29m/s or Mach 2.1
Supersonic Wave arc.
Yet another imperceptible movement calc. :33
http://www.mangareader.net/93-20-1/naruto/chapter-15.html
http://www.mangareader.net/93-20-3/naruto/chapter-15.html
That means he dropped millimetres.
Time for an overhaul.
First we need to know how far away Naruto is, which I will get via angle sizing. With Flutters new method we can find the exact degree of vision, which will enable us to get the right result.
The panel is 459px tall.
Naruto's waist is 13px tall.
2*atan(13/(459/tan(70/2))) = 2.27223451087261
It should be 50cm long give or take
Using http://www.1728.org/angsize.htm
Naruto is 12.606m away.
with our timeframe of 0.0188886s
We get a speed of 667.38667767859979m/s or Mach 1.96
done by hmt
[/QUOTE]Tekken:Jack-6 destroys a meteor
now, I thought Jin had the most outlier-ish, impressive, absurd feat in the whole series with my previous blog. guess what?
I was wrong
[YOUTUBE]5Yo3vdMdRj0[/YOUTUBE]
now it's pretty clear where the series is going
I'l get speed, durability, and destructive power from this. or, at least, I'll give it a try :zaru
First thing first, speed:
I'll use the same method I used for Jin.
it's time for some curvature scaling and for some angsize
the best wiev is probably at 0:25
Keeping in mind that Jack left at 0:11, we'l use 14 seconds for the timeframe.
earth: 593 pixel
part of earth on panel: 301 pixel
vision of field: 805 pixel (102.79 degrees)
earth (degrees):
the portion of Earth on screen is
2*atan(301/(805/tan(102.79/2)))=50.188 degrees
according to the angsize calculator, Jack/meteor is 13619 km away from earth
now the speed
13619000/14=972785.71m/s
972785.71/340.29=mach 2858.7
now on to the destruction/durability part.
I'm lucky. we have character statement for this. it's 6 miles (9.6km) in diameter.
so I can use this to find the power needed to destroy it.
and this power is 884.7 megatons
however, the meteor was moving too, hence it had kinetic energy. I'll find the speed of the meteor using angsize, and then use the KE formula (J=.5mv^2)
screen took at 0:07
earth is 12756.2km large (28.76861403488419 degrees)
nevermind the number on the pic, that was before the old angsize values turned out to be wrong.
according to the angsize calculator it's 24869km away from earth.
at 0:30 it's 13619 km away, as I calculated before.
24869-13619=11250km (distance crossed in 30 seconds)
11250/30=375km/s
meteor mass:
according to the meteor calculator, the volume is 463000000000m^3 so the volume is 463000000000*2700=1250100000000000kg
J=0.5*375000^2*1250100000000000=87897656250000000000000000J
that's 21 petatons
continent level. this also counts as durability for jack since he clashed with it head on.
EDIT: first time I didn't notice, but Jack's punch actually halts the meteor before blowing it to pieces. so it's actually 13Mt+29teratons. long story short, the 13 megatons part is absolutely unnecessary
EDIT: used the meteor calculator, guess I forgot a 0 somewhere the first time around
EDIT: new angsize values.
EDIT: new angsize again
recap:
Jack's speed: mach 2858.7
Jack's punch: 21 petatons+884.7Mt
Meteor kinetic energy: 21 petatons
Ryuko is standing around doing her thing and a bunch of Tennis club members launch a bunch of tennis balls at her.
Ryuko responds by cutting each ball to shreds, really, really quickly.
Ryuko is 346+409.01 = 755.01px tall.
Smallest tennis ball I could see after 5 seconds of searching is 17px across.
The screen is 1080px tall.
respectively anglesizing each shows us that Ryuko is 52.16 degrees and a tennis ball is 1.26.
Ryuko doesn't seem that short to me so 1.7m it is, making her 1.73m away.
A tennis ball is normally 6.7cm in diameter making it 3.04m away.
3.04-1.73 = 1.31m
That's the distance the tennis balls go, but how fast do they do it?
Well surprisingly there is a vast amount of sourced literature on the subject. I'm going to be using 125mph which is about the speed Venus Williams could achieve.
125mph = 55.88m/s
1.31/55.88 = 0.023s
This is the time it takes her to absolutely shred the tennis balls.
Unfortunately I have no way of quantifying that so we'll go with the next best thing, which is that Ryuko cut the balls at least 5 times each.
That takes 5 swings, which I already know should be about 2.51m for the average person, so each ball is 5*2.51 = 12.55m
But that's only for one ball, one out of 220. Yes I did actually sit there and count them all out.
so that's 220*12.55 = 2761m moved in total.
So Ryuko is swinging her Blade at 2761/0.023 = 120043.48m/s or Mach 352.8.
fucking wow
