i actually have been taking looks at this verse for a while
always quantifying feats and let them build
so lets do this
The allmighty hand
The size of Oubu and his physical might
just a warming up
it is worthy nothing that reoko tanks being there
Too hot for ya ?
kay...i must be missing something about suface area
anyway first result is pretty legit
always quantifying feats and let them build
so lets do this
The allmighty hand
kogane chan basically makes a big dust explosion with a punch
the floor is 60.63px (average floor is 3.5 meters)
explosion diameteris 404 px(given we can't see the whole explosion on the scree should be fair to apply it crossboard)
which means 23.324 meters
inplugging on an sphere calculator i get
6637.5 m^3
density of air is 1.225 kg/m3
Mass=6637.5 x 1.225
M=8130.9375 kg
timeframe is 1.28 seconds
now i will get the ke of the feat
Ke= mx V^2 x 0.5
S= D/T
S=23.324/1.28
S=18.221875 m/s
KE=8130.9375 x 18.221875^2 x 0.5
KE=1349884.9436 joules
the floor is 60.63px (average floor is 3.5 meters)
explosion diameteris 404 px(given we can't see the whole explosion on the scree should be fair to apply it crossboard)
which means 23.324 meters
inplugging on an sphere calculator i get
6637.5 m^3
density of air is 1.225 kg/m3
Mass=6637.5 x 1.225
M=8130.9375 kg
timeframe is 1.28 seconds
now i will get the ke of the feat
Ke= mx V^2 x 0.5
S= D/T
S=23.324/1.28
S=18.221875 m/s
KE=8130.9375 x 18.221875^2 x 0.5
KE=1349884.9436 joules
pathetic feat but we need bos shenanigans
The size of Oubu and his physical might
i'm sure this will be useful latter on so there it is
azuma should still be around 1.6 meters really
he is 17px
now i will be getting oubu volume and size
oubu height is 394 px (37.08 m)
oubu width is 97 px(9.129 m)
i will apply his arm width for his thickness (51px) or 4.8 m
now i will get oubu arm lenght for another calc 242px (22.7764 meters)
i'll shape oubu as a rectangular prism because i'm excluding his arms anyway
4.8 x 9.129 x 37.08= 1624.81594 m^3
now let's get to the stamp
that's a pretty 5 stories building right there
27.65 meters (73px)
explosion diameter is 376 px (142.416 m)
explosion height is 311 px (117.796 m)
i'll shaping this like a ellipsoid
1250969.5340036643 m^3
air density is 1.225 kg/m^3
m=1250969.5340036643 x 1.225
mass=1532437.67915 kg
now let's get the ke of this shit
timeframe for the explosion main expansion is 1.08 seconds
142.416/1.08=131.866 m/s
KE= 1532437.67915 x 131.866^2 x 0.5
KE=1.33235051 e10 joules
or
azuma should still be around 1.6 meters really
he is 17px
now i will be getting oubu volume and size
oubu height is 394 px (37.08 m)
oubu width is 97 px(9.129 m)
i will apply his arm width for his thickness (51px) or 4.8 m
now i will get oubu arm lenght for another calc 242px (22.7764 meters)
i'll shape oubu as a rectangular prism because i'm excluding his arms anyway
4.8 x 9.129 x 37.08= 1624.81594 m^3
now let's get to the stamp
that's a pretty 5 stories building right there
27.65 meters (73px)
explosion diameter is 376 px (142.416 m)
explosion height is 311 px (117.796 m)
i'll shaping this like a ellipsoid
1250969.5340036643 m^3
air density is 1.225 kg/m^3
m=1250969.5340036643 x 1.225
mass=1532437.67915 kg
now let's get the ke of this shit
timeframe for the explosion main expansion is 1.08 seconds
142.416/1.08=131.866 m/s
KE= 1532437.67915 x 131.866^2 x 0.5
KE=1.33235051 e10 joules
or
ok now we are starting to get better
just a warming up
Reoko disperses a cloud in 0.9 seconds
now let's get the cloud measurements
reoko bubuki has a similar height to oubu 37.08meters
it is 5px
i was planning to angsize but this is dumb given the bubuki is on the cloud surrounds
so i willl just scalle it
diameter is 234px (1698.264 m)
for height it should be at the very least as big as the bubuki
shaping as a cylinder i get
83992404.4128648 m^3
air density is 1.225kg/m^3
Mass=83992404.4128648 x 1.225
Mass=102890695.406 kg
speed covered is radius/0.9
S=1698.264/1.8
S=943.48 m/s
KE=102890695.406 x 0.5 x 943.48^2
KE=4.5794308e+13 joules
now let's get the cloud measurements
reoko bubuki has a similar height to oubu 37.08meters
it is 5px
i was planning to angsize but this is dumb given the bubuki is on the cloud surrounds
so i willl just scalle it
diameter is 234px (1698.264 m)
for height it should be at the very least as big as the bubuki
shaping as a cylinder i get
83992404.4128648 m^3
air density is 1.225kg/m^3
Mass=83992404.4128648 x 1.225
Mass=102890695.406 kg
speed covered is radius/0.9
S=1698.264/1.8
S=943.48 m/s
KE=102890695.406 x 0.5 x 943.48^2
KE=4.5794308e+13 joules
town level bubuki
it is worthy nothing that reoko tanks being there
Too hot for ya ?
reoko makes a huge heat wave that completely vaps a hole in the concrete ground and burn the surrounds to crisps
kay let's start with this shit
oubu arm is 22.7764 + his body width of 9.129 =31.9 (77px)
crater diameter is 459px (190.157 m)
crater diameter is 132.23 px
crater deepth is 46px (66.15 m)
shaping it like a cylinder
which gives us a crater volume of 1878643.45670232 m^3
rock vaporization is 27050 J/cm^3
E= V x RV
E=1878643456702.32 x 27050
E=5.0817306e+16 joules
however this is likely far from it
reoko also created a omnidirectional shockwave that went through a radius of 572.123px (822.757m)
let's see how it compares
surface area of the cylinder is 96317.23425893782m^2
now we need the
shockwave surface area(hemisphere) 2pir^2
2 x pi x 822.757^2
SAS=4.2532709e+12 m^2
Ratio is 4.2532709e+12/96317.23425893782
or about
44158980.8171 times
5.0817306e+16 x 44158980.8171= 2.2440404e+24 joules
that's like crazy as fuck
so i'll just take the energy needed to bring this much of concrete to nearing its melt point and add to the first value
volume of concrete is pi x 822.757^2 x 66.15=140676933.564m^3
anyway i will be using this
71.6 % of cao
and 25.2% of sio2
volume of CAO=140676933.564 x 0.716
VCAO=100724684.432 m^3
volume of sio2=140676933.564 x 0.252
VSIO2=35450587.2581 m^3
density of alite is 3030 kg/m^3
MCAO=100724684.432 x 3030
MCAO=305195793829 kg
MSIO2=35450587.2581 x 3030
MSIO2=107415279392 kg
CaO melts at 2707?C
Quartz melts at 1470?C
given not everything was melting but there was shit melting and quartz only vapes at 2230 degrees i will assume the temperature was around 2000 degrees
Heat capacity 74.62 J/mol-k
(305195793829000 g of CaO) / (56 g/mol) =5.4499249e+12 moles of CaO
Q = mcΔt = (5.4499249e+12)*(74.62)*(2273-20)
Q=9.1623516e+17 joules
now let's go to SIO2
Q = mcΔt = (1.7877429e+12 moles)*(16.5 cal/mol-k)*(1723.15 k) = 5.0829061e+16 cal * 4.184 J/cal = 2.12668791 e+17 joules
now i will get the melting of the quartz
Q = mL = (1.7877429e+12 moles)(3400 cal/mole) = 2.54317154 ? 10^16 joules
Total energy is then 2.54317154 ? 10^16 + 2.12668791 e+17 + 9.1623516e+17 + 5.0817306e+16 joules=9.9248418e+17 joules
kay let's start with this shit
oubu arm is 22.7764 + his body width of 9.129 =31.9 (77px)
crater diameter is 459px (190.157 m)
crater diameter is 132.23 px
crater deepth is 46px (66.15 m)
shaping it like a cylinder
which gives us a crater volume of 1878643.45670232 m^3
rock vaporization is 27050 J/cm^3
E= V x RV
E=1878643456702.32 x 27050
E=5.0817306e+16 joules
however this is likely far from it
reoko also created a omnidirectional shockwave that went through a radius of 572.123px (822.757m)
let's see how it compares
surface area of the cylinder is 96317.23425893782m^2
now we need the
shockwave surface area(hemisphere) 2pir^2
2 x pi x 822.757^2
SAS=4.2532709e+12 m^2
Ratio is 4.2532709e+12/96317.23425893782
or about
44158980.8171 times
5.0817306e+16 x 44158980.8171= 2.2440404e+24 joules
that's like crazy as fuck
so i'll just take the energy needed to bring this much of concrete to nearing its melt point and add to the first value
volume of concrete is pi x 822.757^2 x 66.15=140676933.564m^3
anyway i will be using this
71.6 % of cao
and 25.2% of sio2
volume of CAO=140676933.564 x 0.716
VCAO=100724684.432 m^3
volume of sio2=140676933.564 x 0.252
VSIO2=35450587.2581 m^3
density of alite is 3030 kg/m^3
MCAO=100724684.432 x 3030
MCAO=305195793829 kg
MSIO2=35450587.2581 x 3030
MSIO2=107415279392 kg
CaO melts at 2707?C
Quartz melts at 1470?C
given not everything was melting but there was shit melting and quartz only vapes at 2230 degrees i will assume the temperature was around 2000 degrees
Heat capacity 74.62 J/mol-k
(305195793829000 g of CaO) / (56 g/mol) =5.4499249e+12 moles of CaO
Q = mcΔt = (5.4499249e+12)*(74.62)*(2273-20)
Q=9.1623516e+17 joules
now let's go to SIO2
(107415279392000g) / (60.0843) = 1.7877429e+12 moles of SiO2
Q = mcΔt = (1.7877429e+12 moles)*(16.5 cal/mol-k)*(1723.15 k) = 5.0829061e+16 cal * 4.184 J/cal = 2.12668791 e+17 joules
now i will get the melting of the quartz
Q = mL = (1.7877429e+12 moles)(3400 cal/mole) = 2.54317154 ? 10^16 joules
Total energy is then 2.54317154 ? 10^16 + 2.12668791 e+17 + 9.1623516e+17 + 5.0817306e+16 joules=9.9248418e+17 joules
:psyduck
kay...i must be missing something about suface area
anyway first result is pretty legit
