Continuing with my watch of GaoGaiGar, we're starting to get into some huge stuff already. But first, some smaller things of note.
1. Galeon flies off
In the prologue of episode 1, Galeon flies away at great speeds. Galeon is 9.8m tall.
Timeframe is 12 seconds and 19 frames.
T = 1s/24
= 41.6666667ms X 19
= 0.791666667s + 2s
= 2.79166667s
9 pixels = 9.8m
1 pixel = 9.8m/9 = 1.08888889m
386 + 519 = 905 pixels
491 - 234 = 257 pixels
We have width and height, so enter that through this calculator and we have a diagonal of 940.8 pixels, which we'll round up to 941 pixels.
L = 1.08888889m X 941
= 1024.64445m
Finally, for the speed.
T = 1024.64445m/2.79166667s
= 367.036817/340.29
= >Mach 1.07860007
Keep in mind too Galeon is taller than it is wide, so that would ultimately be a low end.
2. Water goes boom
GaoGaiGar finishes Uppo with a Heaven & Hell attack, creating a colossal water explosion. We can scale to the size of the explosion and the distance Uppo is from the shore with GaoGaiGar's Broken Magnum. GaoGaiGar is 31.5m tall.
1224 pixels = 31.5m
1 pixel = 31.5m/1224 = 0.0257352941m
0.0257352941m X 100 = 2.57352941m
= 0.0189520215 rad
= 1.085870845193889211 degrees
Enter those values into the angscaler and the Broken Magnum is 135.79m away. Next to scale the size of the explosion.
= 0.507884571 rad
= 29.0996423981845851 degrees
The water column is 261.59m tall.
900 pixels = 261.59m
1 pixel = 261.59m/900 = 0.290655556m
0.290655556m X 1645 = 478.12839m
478.12839m/2 = 239.064195m
Volume as a cylinder.
V = πr^2h
= π X 239.064195^2 X 261.59
= 46967785.4m^3
Weight of water is 1000kg/m^3.
M = 46967785.4 X 1000kg
= 46967785400kg
At last the speed, from which we can derive the kinetic energy.
Timeframe is 1 second and 23 frames.
T = 1s/24
= 41.6666667ms X 23
= 0.958333334s + 1s
= 1.95833333s
T = 261.59m/1.95833333s
= 133.577873m/s
KE = (0.5)mv^2
= (0.5) X 46967785400 X 133.577873^2
= 4.19024228e14 joules
= 100.14919407265775 kilotons
3. We just did this
EI-15 causes a massive water explosion when it breaks the surface, of which Volfogg withstands part of. Volfogg is 10.7m tall.
1072 pixel = 10.7m
1 pixel = 10.7m/1072 = 0.00998134328m
0.00998134328m X 141 = 1.4073694m
23 pixels = 1.4073694m
1 pixel = 1.4073694m/23 = 0.0611899739m
First of all, to subtract the volume of the bulge of water.
0.0611899739m X 337 = 20.6210212m
0.0611899739m X 1049 = 64.1882826m
64.1882826m/2 = 32.0941413m
Volume as a spherical cap.
V = (πh^2(3r - h))/(3)
= (π X 20.6210212^2(3 X 32.0941413 - 20.6210212))/(3)
= 33691.7325m^3
Next onto the column of water.
0.0611899739m X 1074 = 65.718032m
0.0611899739m X 1067 = 65.2897022m
65.2897022m/2 = 32.6448511m
Volume as a cylinder.
V = πr^2h
= π X 32.6448511^2 X 65.718032
= 220020.834m^3
Now we remove the bulge from the column.
V = 220020.834 - 33691.7325
= 186329.101m^3
M = 186329.101 X 1000kg
= 186329101kg
Let's get our timeframe.
Timeframe is 2 frames.
T = 1s/24
= 41.6666667ms X 2
= 83.3333334ms
T = 65.718032m/83.3333334ms
= 788.616383m/s
KE = (0.5)mv^2
= (0.5) X 186329101 X 788.616383^2
= 5.79405059e13 joules
= 13.848113264818355 kilotons
4. More non-calcs
Thank you based GaoGaiGar, for doing the calcs for me. non
GaiGar's estimated maximum flying speed is mach 1, while it's barrier-system's maximum energy impact load is estimated to be 4.496 X 10^13 joules, or 10.745697896749522 kilotons.
GaoGaiGar's estimated maximum flight speed is mach 3. However, as will be explained in a calc to come, it's reaction speed is much higher.
Final Results
Galeon flies away = >Mach 1.079
GaoGaiGar's underwater Heaven & Hell = 100.149 kilotons
EI-15 surfaces = 13.848 kilotons
GaiGar's maximum flight speed = Mach 1
GaiGar's barrier-system's maximum energy impact load = 10.746 kilotons
GaoGaiGar's maximum flight speed = Mach 3
1. Galeon flies off
In the prologue of episode 1, Galeon flies away at great speeds. Galeon is 9.8m tall.
T = 1s/24
= 41.6666667ms X 19
= 0.791666667s + 2s
= 2.79166667s
9 pixels = 9.8m
1 pixel = 9.8m/9 = 1.08888889m
386 + 519 = 905 pixels
491 - 234 = 257 pixels
We have width and height, so enter that through this calculator and we have a diagonal of 940.8 pixels, which we'll round up to 941 pixels.
L = 1.08888889m X 941
= 1024.64445m
Finally, for the speed.
T = 1024.64445m/2.79166667s
= 367.036817/340.29
= >Mach 1.07860007
Keep in mind too Galeon is taller than it is wide, so that would ultimately be a low end.
2. Water goes boom
GaoGaiGar finishes Uppo with a Heaven & Hell attack, creating a colossal water explosion. We can scale to the size of the explosion and the distance Uppo is from the shore with GaoGaiGar's Broken Magnum. GaoGaiGar is 31.5m tall.
1 pixel = 31.5m/1224 = 0.0257352941m
0.0257352941m X 100 = 2.57352941m
= 2*atan(32/(1600/tan(70/2)))
= 0.0189520215 rad
= 1.085870845193889211 degrees
Enter those values into the angscaler and the Broken Magnum is 135.79m away. Next to scale the size of the explosion.
= 2*atan(900/(1643/tan(70/2)))
= 0.507884571 rad
= 29.0996423981845851 degrees
The water column is 261.59m tall.
900 pixels = 261.59m
1 pixel = 261.59m/900 = 0.290655556m
0.290655556m X 1645 = 478.12839m
478.12839m/2 = 239.064195m
Volume as a cylinder.
V = πr^2h
= π X 239.064195^2 X 261.59
= 46967785.4m^3
Weight of water is 1000kg/m^3.
M = 46967785.4 X 1000kg
= 46967785400kg
At last the speed, from which we can derive the kinetic energy.
T = 1s/24
= 41.6666667ms X 23
= 0.958333334s + 1s
= 1.95833333s
T = 261.59m/1.95833333s
= 133.577873m/s
KE = (0.5)mv^2
= (0.5) X 46967785400 X 133.577873^2
= 4.19024228e14 joules
= 100.14919407265775 kilotons
3. We just did this
EI-15 causes a massive water explosion when it breaks the surface, of which Volfogg withstands part of. Volfogg is 10.7m tall.
1 pixel = 10.7m/1072 = 0.00998134328m
0.00998134328m X 141 = 1.4073694m
1 pixel = 1.4073694m/23 = 0.0611899739m
First of all, to subtract the volume of the bulge of water.
0.0611899739m X 1049 = 64.1882826m
64.1882826m/2 = 32.0941413m
Volume as a spherical cap.
V = (πh^2(3r - h))/(3)
= (π X 20.6210212^2(3 X 32.0941413 - 20.6210212))/(3)
= 33691.7325m^3
Next onto the column of water.
0.0611899739m X 1067 = 65.2897022m
65.2897022m/2 = 32.6448511m
Volume as a cylinder.
V = πr^2h
= π X 32.6448511^2 X 65.718032
= 220020.834m^3
Now we remove the bulge from the column.
V = 220020.834 - 33691.7325
= 186329.101m^3
M = 186329.101 X 1000kg
= 186329101kg
Let's get our timeframe.
T = 1s/24
= 41.6666667ms X 2
= 83.3333334ms
T = 65.718032m/83.3333334ms
= 788.616383m/s
KE = (0.5)mv^2
= (0.5) X 186329101 X 788.616383^2
= 5.79405059e13 joules
= 13.848113264818355 kilotons
4. More non-calcs
Thank you based GaoGaiGar, for doing the calcs for me. non
Final Results
Galeon flies away = >Mach 1.079
GaoGaiGar's underwater Heaven & Hell = 100.149 kilotons
EI-15 surfaces = 13.848 kilotons
GaiGar's maximum flight speed = Mach 1
GaiGar's barrier-system's maximum energy impact load = 10.746 kilotons
GaoGaiGar's maximum flight speed = Mach 3