0:01
Once again using this formula for help.
Let's get the distance moved and the timeframe. Circumference of the Moon is 10,921km, half of which is 5460.5km.
1 pixel = 5460.5km/205 = 26.6365854km
26.6365854km X 116 = 3089.84391km
Because we can, let's get the timeframe.
T = 3089.84391km/0.97s
= 3185406.09/340.29
= Mach 9360.85718
Now for the radians turned.
theta = s/r
theta = 116/(205/2)
theta = 1.13170732 rads
The timeframe is 0.97 seconds, which is also 97 hundreths of a second.
w = theta/t
= 1.13170732/97
= 0.0116670858 X 100
= 1.16670858 rads
The angular momentum of the Moon on its axis is 2.37 X 10^29kg⋅m2/s (2.37e29kg⋅m2/s)
E = 1/2Iw^2
= 1/2 X 2.37e29 X 1.16670858^2
= 1.61303256e29 joules
= 38.552403441682603443 exatons
Final Results
The Moon spins around (energy) = 38.552 exatons
The Moon spins around (speed) = Mach 9360.857