Another feat I noticed during my Diebuster! rewatch. Quatre-Vingt-Dix's initial attack is -10^12 degrees, which is below absolute zero and therefore can't be calced (both the show and the DVD booklets even say that said attack was because physics was broken), but the part afterwards can be;
Quatre-Vingt-Dix shatters the giant ice structure containing the frozen space monsters into fine dust, which falls on the Jupiter station as snow. This will take some scaling, which we can do by paying careful to the surrounding stars and gas in the Red Milky Way. The Jupiter Station is around 70km long.
70km = 228 pixels
1 pixel = 70km/228 = 0.307017544km
0.307017544km X 1968 = 604.210527km
0.307017544km X 191 = 58.6403509km
58.6403509km/2 = 29.3201755km
0.307017544km X 989 = 303.640351km
0.307017544km X 1020 = 313.157895km
0.307017544km X 859 = 263.72807km
0.307017544km X 2256 = 692.631579km
0.307017544km X 865 = 265.570176km
604.210527km + 303.640351km + 313.157895km + 263.72807km + 692.631579km + 265.570176km = 2442.9386km
Volume is roughly a cylinder (really it's more curvy, but given we see most of it after it's destroyed it's hard to scale).
V = πr^2h
= π X 29.3201755^2 X 2442.9386
= 6597745.44km^3
= 6.59774544e+15m^3
= 6.59774544e+21cm^3
Pulverization of ice is 4.3919 joules/cm^3.
E = 6.59774544e+21 X 4.3919
= 2.89766382e22 joules
= 6.9255827437858510365 teratons
Come to think of it, you could also get the KE for this too. Ice weighs 919kg/m^3.
M = 6.59774544e+15 X 919
= 6.06332806e18kg
First for the expansion of the ice particles, and the distance they travelled from the ice formation...
0.307017544km X 298 = 91.4912281km
Then for the timeframe...
The timeframe is 3 seconds and 17 frames.
T = 1s/24
= 41.6666667ms X 17
= 0.708333334s + 3s
= 91.4912281km/3.70833333s
= 24671.7919m/s
Finally for the kinetic energy.
KE = (0.5)mv^2
= (0.5) X 6.06332806e18 X 24671.7919^2
= 1.84536576e27 joules
Then we add on the above shattering for our final results.
E = 1.84536576e27 + 2.89766382e22
= 1.84539474e27 joules
= 441.05992829827920332 petatons
Final Results
Quatre-Vingt-Dix shatters giant ice formation (low end) = 6.926 teratons
Quatre-Vingt-Dix shatters giant ice formation (high end) = 441.0599 petatons
Quatre-Vingt-Dix shatters the giant ice structure containing the frozen space monsters into fine dust, which falls on the Jupiter station as snow. This will take some scaling, which we can do by paying careful to the surrounding stars and gas in the Red Milky Way. The Jupiter Station is around 70km long.
1 pixel = 70km/228 = 0.307017544km
0.307017544km X 1968 = 604.210527km
0.307017544km X 191 = 58.6403509km
58.6403509km/2 = 29.3201755km
604.210527km + 303.640351km + 313.157895km + 263.72807km + 692.631579km + 265.570176km = 2442.9386km
Volume is roughly a cylinder (really it's more curvy, but given we see most of it after it's destroyed it's hard to scale).
V = πr^2h
= π X 29.3201755^2 X 2442.9386
= 6597745.44km^3
= 6.59774544e+15m^3
= 6.59774544e+21cm^3
Pulverization of ice is 4.3919 joules/cm^3.
E = 6.59774544e+21 X 4.3919
= 2.89766382e22 joules
= 6.9255827437858510365 teratons
Come to think of it, you could also get the KE for this too. Ice weighs 919kg/m^3.
M = 6.59774544e+15 X 919
= 6.06332806e18kg
First for the expansion of the ice particles, and the distance they travelled from the ice formation...
Then for the timeframe...
T = 1s/24
= 41.6666667ms X 17
= 0.708333334s + 3s
= 91.4912281km/3.70833333s
= 24671.7919m/s
Finally for the kinetic energy.
KE = (0.5)mv^2
= (0.5) X 6.06332806e18 X 24671.7919^2
= 1.84536576e27 joules
Then we add on the above shattering for our final results.
E = 1.84536576e27 + 2.89766382e22
= 1.84539474e27 joules
= 441.05992829827920332 petatons
Final Results
Quatre-Vingt-Dix shatters giant ice formation (low end) = 6.926 teratons
Quatre-Vingt-Dix shatters giant ice formation (high end) = 441.0599 petatons