Because I'm feeling nostalgic for this edgy show. Also be warned of graphic violence content (although I made an effort to avoid any while calcing).
1. Splendont drops the Moon
2:23
Spendont drops the Moon on Splendid, who survives this. The distance from the Moon to the Earth is 384,400km, and has a mass of 7.35e22kg.
Timeframe is 14.2 seconds.
T = 384400km/14.2s
= 27070422.5/299792458 X 100
= 9.02972099% C
Enter that into the relativistic kinetic calculator and we get an energy yield of 27096498983856952777823571950794 megajoules, or 6.476218686390286166 ninatons.
2. Splendid turns back time
2:15
Splendid parodies the first Superman movie and turns back time by flying around the planet. Let's find the speed first. I will be looking at Taccocats Power Rangers Superzedd calc for help. The diameter of the Earth is 12,742km.
432 pixels = 12,742km
1 pixel = 12,742km/432 = 29.4953704km
29.4953704km X 641 = 18906.5324km
18906.5324km/2 = 9453.2662km
Now to find the distance flown as a circumference.
C = 2πr
= 2 X π X 9453.2662
= 59396.6233km
Splendid makes that loop 4 times in the timeframe.
Timeframe is 1 frame.
T = 1s/24
= 41.6666667ms
L = 59396.6233km X 4
= 237586.493km
T = 237586.493km/41.6666667ms
= 5.70207583e9/299792458
= 19.0200776 C
Let's also get the energy to reverse the planets rotation (which is still as non-sensical as the version it's parodying, but let's do it anyway).
168 - 140 = 28
432/2 = 216
We'll get our energy with rotational KE, using the following formula.
theta = s/r
theta = 28/(216)
theta = 0.03 rads
The moment of inertia for the Earth is 8.04e37 kg*m2.
E = 1/2Iw^2
= 1/2 X 8.04e37 X 0.12962963^2
= 6.75514407e35 joules
= 161.45181811663479721 yottatons
Final Results
Splendont pushes the Moon (speed) = 9.03% C
Splendont pushes the Moon (energy) = 6.476 ninatons
Splendid flies around the Earth = 19.020 C
Splendid reverses the rotation of the Earth = 161.452 yottatons
1. Splendont drops the Moon
2:23
Timeframe is 14.2 seconds.
T = 384400km/14.2s
= 27070422.5/299792458 X 100
= 9.02972099% C
Enter that into the relativistic kinetic calculator and we get an energy yield of 27096498983856952777823571950794 megajoules, or 6.476218686390286166 ninatons.
2. Splendid turns back time
2:15
432 pixels = 12,742km
1 pixel = 12,742km/432 = 29.4953704km
29.4953704km X 641 = 18906.5324km
18906.5324km/2 = 9453.2662km
Now to find the distance flown as a circumference.
C = 2πr
= 2 X π X 9453.2662
= 59396.6233km
Splendid makes that loop 4 times in the timeframe.
T = 1s/24
= 41.6666667ms
L = 59396.6233km X 4
= 237586.493km
T = 237586.493km/41.6666667ms
= 5.70207583e9/299792458
= 19.0200776 C
Let's also get the energy to reverse the planets rotation (which is still as non-sensical as the version it's parodying, but let's do it anyway).
432/2 = 216
We'll get our energy with rotational KE, using the following formula.
Circumference of the Earth is 40075km.
theta = s/r
theta = 28/(216)
theta = 0.03 rads
The moment of inertia for the Earth is 8.04e37 kg*m2.
E = 1/2Iw^2
= 1/2 X 8.04e37 X 0.12962963^2
= 6.75514407e35 joules
= 161.45181811663479721 yottatons
Final Results
Splendont pushes the Moon (speed) = 9.03% C
Splendont pushes the Moon (energy) = 6.476 ninatons
Splendid flies around the Earth = 19.020 C
Splendid reverses the rotation of the Earth = 161.452 yottatons