- 2,716
- 169
This is a calc I found on FB about Kaido's minimum durability. This is a low end calculatio
vF2 = vI2 + 2gh where vF is final velocity, vI is initial velocity, g is gravitational acceleration and h is height
vF2 = 0 m/s + 2 x 9.8 m/s2 x 10000 m
vF2 = 196000 m2/s2
vF = 443 m/s
Kinetic Energy= › mv2
Kido's mass= 5000 kg (same as an average t rex)
KE= › x 5000 kg x (443 m/s)2
= 490,622,500 J or 4.9 x 108 J released upon impact after collision with ground. This puts him at mountain level in durability at the minimum
Note: Kaido's was completely unharmed after the fall, and his mass is likely much greater than Trex which has hollow bones.
Edit: You can ignore this calc, I messed up tnt equivalent and energy.
vF2 = vI2 + 2gh where vF is final velocity, vI is initial velocity, g is gravitational acceleration and h is height
vF2 = 0 m/s + 2 x 9.8 m/s2 x 10000 m
vF2 = 196000 m2/s2
vF = 443 m/s
Kinetic Energy= › mv2
Kido's mass= 5000 kg (same as an average t rex)
KE= › x 5000 kg x (443 m/s)2
= 490,622,500 J or 4.9 x 108 J released upon impact after collision with ground. This puts him at mountain level in durability at the minimum
Note: Kaido's was completely unharmed after the fall, and his mass is likely much greater than Trex which has hollow bones.
Edit: You can ignore this calc, I messed up tnt equivalent and energy.