The Excelio Variable Gravity Well tows the colossal Excelio blackhole behind it.
Diebuster! DVD booklet said:
1 pixel = 30,000km/432 = 69.4444444km
69.4444444km X 309 = 21458.3333km
21458.3333km/2 = 10729.1666km
Entering that distance into the schwarzsnchild radius calculator, and the mass of the blackhole is 0.7231088206168746 X 10^34kg (or 7.23108821e33kg). The animation is a bit strange, in that the blackhole moves over but then drifts back, so we'll calc the furthest distance it travelled.
1 pixel = 21458.3333km/940 = 22.8280141km
22.8280141km X 129 = 2944.81382km
22.8280141km X 249 = 5684.17551km
5684.17551km - 2944.81382km = 2739.36169km
T = 2739.36169km/3s
= 913120.563m/s
Finally, we can get that juicy kinetic energy.
KE = (0.5)mv^2
= (0.5) X 7.23108821e33 X 913120.563^2
= 3.01460149e45/10^44
= 30.1460149 FOE
Final Results
Excelio Variable Gravity Well's kinetic energy = 30.146 FOE
Nono and Buster Machine No. 19 kick the Excelio Variable Gravity Well and kill it into the blackhole.
