User blog:DreamcrosserSquad/Calc: Planetary storm dispersion

Gonna calc dispersing a planetary storm on Virgo via KE.

Virgo radius: 5989 km

Cumulonimbus height: 13 km

The elevation of the base of a cumulonimbus is 200 meters - 4 km, so I'll go for a mean of 2.1 km.

Volume = 5876373581.5105 km^3 or 5.8763735815105e+18 m^3

Cloud density: 1.003 kg/m^3

5.8763735815105e+18 * 1.003 = 5.8940027022550315e+18 kg

Now I gotta find the circumference of Virgo to do speed.

2 * 5989 * pi ≈ 37610.92 km

I'll do 3 ends for time.

Low end = 10 seconds

Mid end = 5 seconds

High end = 3 seconds

Low speed = 3761092 m/s

Mid speed = 7522184 m/s

High speed = 12536973.333333333333333333333333 m/s

Low KE = 4.1687730119468628817058421308e+31 joules, Small Planet level

Mid KE = 1.66750920477874515268233685232e+32 joules, Small Planet level+

High KE = 4.631970013274292090784269034222e+32 joules, Planet level

Hot diggity damn that is overpowered, lmao.

FINAL TALLY
Low end = 4.1687730119468628817058421308e+31 joules or 10 zettatons, Small Planet level

Mid end = 1.66750920477874515268233685232e+32 joules or 40 zettatons, Small Planet level+

High end = 4.631970013274292090784269034222e+32 joules or 111 zettatons, Planet level