= 2*atan(215/(1616/tan(70/2)))
= 0.12591033 rad
= 7.2141305061173293 degrees
Put that into the angscaler, and we get ourselves a distance of 101180km.
T = 1s/24
= 41.6666667ms X 15
= 0.625000001s + 8s
= 8.625s
T = 101180km/8.625s
= 11731014.5/299792458 X 100
= 3.91304524% C
While this is insanely impressive by itself, keep in mind it only gets more impressive when you consider just how colossal the arm is, and therefore heavy, and thus what a terrifying amount of kinetic energy it would produce. The Earth has a radius of 6378.1km
R = (h/2) + c^2/(8h)
= (60/2) + 2131^2/(8 X 60)
= 9490.75208 pixels
6378.1km = 9490.75208 pixels
1 pixel = 6378.1km/9490.75208 = 0.672033148km
0.672033148km X 191 = 128.358331km
128.358331km/2 = 64.1791655km
Volume as a cylinder.
V = πr^2h
= π X 64.1791655^2 X 101180
= 1.30928044e9km^3 (1.30928044e+18m^3)
Once again for the kinetic energy of a machine, I'll be using the mass of the light ship container vessel 2700TEU (that being 102.56kg/m^3).
M = 1.30928044e+18 X 102.56kg
= 1.34279802e20kg
It's the moment you've all been waiting for! We enter the speed and mass into the relativistic kinetic energy calculator and get a yield of a staggering 2210849885891618635 megatons, or 2.2108498858916187935 yottatons!
Final Results
Devil Gundam's tendril approaches the Earth (speed) = 3.913% C
Devil Gundam's tendril approaches the Earth (kinetic energy) = 2.211 yottatons