It's time for Mob to stop being baseline and lowballed.
The Calcs[]
Feat #1: Mob Drops the Ball[]
The Feat: Here, here, and here.
There will be a couple of different energy values I'm going to get here. Fragmentation, the potential energy of it being lifted, and the kinetic energy of it being dropped on top of mob.
Measurements:
A single storey is typically 14 feet tall, or 4.2672 meters.
771 * 4.2672 / 18 = 182.7784 m (Diameter of the ball)
Volume of the ball 3.2×10^6 meters cubed
Despite it being crushed together I'm going to assume 80% hollowness to account for the irregular shape before Mob makes it into a smaller, more compact ball.
EDIT: I was told to use 90% hollowness instead.
(3.2×10^6) * .1 = 320000 cubic meters/6.4e+11 cubic cm
320000 * 2400 (Density of Concrete in kg/cubic meter) = 768000000 kg (Class M)
182.7784 * 212 / 31 = 1249.96 m (Distance ball travels before hitting the ground)
182.7784 * 132 / 31 = 778.28 m (Distance the ball is over the ground)
Energy
Fragmentation
It's blown into pieces when it hits mob and mob also crushes the ball into a more compact form.
3.2e+11 * 6 = 1.94e+12 j, 463.67 Tons (Multi-City Block level)
Potential Energy
1.4 kilotons (Small Town level) Probably not applicable, though, since the skyscrapers where individually pulled up at Suzuki one at a time before being crushed on him.
Kinetic Energy
11 words are said by the time it falls, which translates to .1 minutes or 6 seconds. I'm going to multiply this by two to account for action/cinematic time although the ball is portrayed as moving relatively fast. I will also make a lowball using terminal velocity, or 53 m/s.
1249.96/12 = 104.16 m/s
Kinetic Energy (Low-End): 1078656000000 J,257.8049713193117 tons (Multi-City block level)
Kinetic Energy (High-End): 8332266700800 J, 992.6730401529637 tons (Multi-City Block level+)
Feat(s) #2: Teruki Gets Exploded[]
Teruki stands in the epicenter of an explosion multiple times.
Average head height is 23.9 cm.
260 * 23.9 / 91 = 68.28 cm (Rung to rail distance)
68.28 * 63 / 42 = 102.42 cm (Explosion radius)
Y = ((0.0010242/0.28)^3)/1000 = 4.8941832e-11 megatons, or 204772.625088 joules/204 kilojoules.
Not nuclear, so this is 102 kJ, or Wall level.
Average head height is 23.9 cm.
23.9 * 8.9 / 43 = 4.946 cm (Whip width)
4.946 * 565 / 10 = 279.449 (Explosion diameter)
Y = ((0.001397245/0.28)^3)/1000 = 1.242635e-10 megatons, 519918.484 joules, or 519 kilojoules.
Not nuclear, 259.5 kilojoules, Wall level
Feat #3: Mob Chucks Someone Through a Bunch of Walls[]
The Feat: https://imgur.com/a/MYnx8aP
Measurements:
Average head height is 23.9 cm.
23.9 * 415 / 58 = 171 cm (Hole diameter)
23.9 * 29.3 / 58 = 12.07 cm (Wall thickness)
V of hole = 2.77×10e5 cm cubed.
She's punched through 4 double-layered walls, so the total volume destroyed is 22160000 cm cubed.
Energy:
22160000 * 8 = 177280000 J, 0.0423 Tons, Small Building level
Feat #4: Mob is Chucked Through a Bunch of Walls[]
The Feat: https://imgur.com/a/vgiBtgK
Measurements:
Shigeo is 157.7 cm tall.
157.7 * 349 / 200.4 = 274.63 cm (Hole diameter)
274.63 * 74.5 / 638 = 32.06 cm (Hole thickness)
V = 1.9×10e6 cm cubed. Mob is sent through three walls making holes this big.
1.9×10e6 * 3 = 57000000 cm cubed
Energy:
57000000 * 8 = 456000000 joules, .108 tons, Small Building level
Feat #5: Mob Survives an Explosion[]
The Feat: https://imgur.com/a/IpEu6Et
Measurements:
A single storey is typically 14 feet tall, or 4.2672 meters.
4.2672 * 43 / 23 = 7.977 m (Explosion diameter)
Y = ((0.0039885/0.28)^3)/1000 = 2.89037835e-9 megatons, or 0.00289 tons
Not nuclear, so this is 0.00144 tons, Wall level
Feat #6: Gas Mask Dude Punches[]
The Feat: https://imgur.com/a/8qYzwjm
Energy:
Average punches can go at 25 mph or 11.176 m/s
The old dude repeatedly punches while he increased the weight of his fists to 500 kg.
Kinetic energy is 31225.74 joules, 31 kilojoules or Wall level.
Looking at the 2000 kg tackle, going off of this 8.02 m/s is a good lowball for the speed of a tackle.
Kinetic energy is 64 kilojoules or Wall level
Feat #6: Flame War[]
The Feat: Here, Here, and Here
Measurements:
It seems like the guy fills the entire room with fire twice, so I'll find the area of the hallway first.
Teruki is 161.4 cm tall.
161.4 * 155 / 183 = 136.7 cm (Tile length)
The room's floor is two tiles wide, eleven tiles long, and two tiles high.
(136.7 * 2) * (136.7 * 2) * (136.7 * 11) = 112397905.97 cc or 112.39790597 cubic m.
Density of Fire is 0.3 kg/m^3; amount of fire produced in the room is (112.39790597 * 0.3) 33.71 kg.
(EDIT): Told here I used the wrong temp for fire.
Average temp of clear orange fire is 1200 degrees C, average room temp is 16 C.
Plugging this into a specific heat calculator gives 40391592 joules, or 0.010 Tons, Small Building level.