Emphasis on a ton.
Introduction[]
Calculations done on behest of:
This is going to take awhile.
Sorry Assaltwaffle I tried but I have no idea how to calc the dragon feat. Theirs not really any way to scale anything. It's at least Building level+ for summoning thunderbolts however.
MLP Manga: Don't Give Up, Rainbow Dash!! feats[]
Don't take these to seriously. It's for a JBW profile but I figured I'd post it here to show my work.
And yes, this is official. Super obscure though.
Calc #1: Discord makes a thunderstorm[]
The thunderstorm stretches into the horizon on a hill, but I can't find any reference on the average size of hills so I'll be scaling off of Discords height.
It's really hard to scale ponies because everything in their world is scaled to them. Lets say Twilight stands at 1 meter and Discord is 3 times bigger then her. So 3 meters for Discord. Seems okay.
Discord is 169 pixels and the screenheight is 602 pixels Half of that is 301 pixels, which is the approximate camera height.
301 / 169 = 1.78
3 * 1.78 = 5.34 meters
Now to Ringbell. We're gonna be using them a lot today, guys.
The horizon at 5.34 meters is 8.3 Kilometers
π * 8.3^2 = 216.424317906 km^2
A hurricane produces 6*10^14 Watts per 665 km^2
216.424317906 / 665 = 0.325
6*10^14 * 0.325 = 1.95e+14 J
46.6 Kilotons
Town level
Calc #2: Dash outpaces Discords Lightning[]
Lets say Dash is 1 meter. She is 220 pixels and the panel size is 361 pixels
2atan(tan(70/2)*(220/361)) = 0.562210511346 Radians
0.562210511346×180°/π = 32.212289498° Degrees
Angsizing yields: 1.7316 m
The lightning behind her is 361 pixels
2atan(tan(70/2)*(361/361)) = 0.884961621024 Radians
0.884961621024×180°/π = 50.704565916° Degrees
361 / 220 = 1.64
1 * 1.64 = 1.64 m
Angsizing yields: 1.7306 m
1.7316 / 1.7306 = 1.000577834277129
So Rainbow Dash is 1.0005 times faster than his lightning.
4.4×10^5 * 1.0005 = 440,220 m/s
Mach 1283
OUAT[]
Calc #3: Mermaid Storm Feat[]
So the size of the ship is 68 pixels.
The U.S. Constellation which appears to be a smaller ship, had a draft size of 13 feet 6 inches. So 4.1148 meters
Im not sure who the actors on the boat were, so I'm gonna assume the man was 1.5 meters.
4.1148 + 1.5 = 5.6148 meters
Back to Ringbell.
So the horizon at 5.6148 meters is 8.5 km
π * 8.5^2 = 226.980 km^2
226.980 / 665 = 0.341
6*10^14 * 0.341 = 2.046e+14 J
48.90 Kilotons
Town level
Calc #4: Mr. Gold makes a thunderstorm[]
The height of the actor who plays Mr. Gold, Robert Carlyle, is 5'8, or 1.7 meters
Horizon at 1.7 meters is 4.7 km
π * 4.7^2 = 69.39 km^2
Average height of storm clouds are 13 km
V = A * H
69.39 * 13 = 902.07 km^3, or 9.0207e+11 m^3
Density of clouds are 1.003 kg/m^3
9.0207e+11 * 1.003 = 904776210000 kg
He starts making the storm at 19:10 and its fully formed at 19:84
So 0.74s
It traveled at least its radius.
4.7 km / 0.74s = 6351 m/s
904776210000 * 0.5 * 6351^2 = 1.8247165e+19 J
4.3 Gigatons
Island level at baseline, exactly.
Calc #5: Yu-Gi-Oh: Thunder Giant[]
Alright, time to scale.
I have no idea what trees they are but they vaguely look like American Sycamore, which grow up to be 60-70 feet, or 18.288 meters
The kids are standing on a ledge with no trees, so I scaled the 11 pixel ledge for that. Seems like the best low end I'll get without intentionally lowering the results.
The trees are 24 pixels, and the ledge is 11 pixels.
24 / 11 = 2.18
18.288 / 2.18 = 8.38 meters
8.38 + 1.69 = 10.07 meters
Which gives us a horizon of 11.3 km
π * 11.3^2 = 401.149 km^2
401.149 * 13 = 5214.937 km^3
Or 5.214937e+12 m^3
5.214937e+12 * 1.003 = 5.2305818e+12 kg
Clip of it on framebyframe. I apologize for the horrid quality.
The storm starts at 3:06 and is fully ormed at around 4:27
4.27 - 3.6 = 0.67s
11.3 km / 0.67s = 16,865 m/s
5.2305818e+12 * 0.5 * 16,865^2 = 7.4386255e+20 J
177 Gigatons
Large Island level
Note[]
This is still work in progress. This too nearly two hours and I'm only around 1/3rd the way done with all the request I have. Please be patient.