Calculations[]
The new chapter has given us a number of incredibly large-scale panels. And also literally repeated my thought how Garou would kill Sage. But that's not what we're talking about. Thanks to the panels with the curvature of the earth, we can measure the distance between the crater and the ocean, as well as the size of the SC.
Let's start with the Centipede.
1)6666 Legs Grand Drill[]
I tried all the scaling methods and even tried scaling from neighboring planets and now I know this formula by heart, but none of this gave better results than my last calculation.
Length of Sage = 1846.482 km;
Weight = ((1160/0.008)^2 * (1846482/0.1)) * 0.003 = 1,1646685 × 10^15 kg;
Sage has performed at least 18 revolutions on this panel. Given that we have an afterimage on the same frame. I'll go with a timeframe of 1 second. However, Therefir noted that air lines are not the most reliable determinant and advised using the speed of literal drills. After all, Sage himself calls his attack a drill, so why not. The average rotation speed of the drill reaches 1500 revolutions per minute, and the high speed reaches 4000 revolutions per minute (25 and 66.6 revolutions per second, respectively).

The cross-sectional area of the Millipede is an ellipse.
Axis 1 = 1160 meters = 89 pixels;
Axis 2 = 40 pixels = 521 meters;
I = 0.25(a^2+b^2)m, where a and b are half the axes;
I = 0.25(((1160/2)^2+(521/2)^2) * 1,1646685 × 10^15 = 1,1770729 × 10^20;
Each rotation = 2 * 3.14 radians;
1. Low end:[]
Angular velocity (w) = 18 * 2 * 3,14 = 113.04 R/S;

E = (1,1770729 × 10^20 * 113,04^2)/2 = 7,5203432 × 10^23 Joules = 179 Teratons = High 6-B;
2. Mid end:[]
Angular velocity (w) = 25 * 2 * 3,14 = 157 R/S;
E = (1,1770729 × 10^20 * 157^2)/2 = 1,4506835 × 10^24 Joules = 346 Teratons = High 6-B;
3. High end:[]
Angular velocity (w) = 66,6 * 2 * 3,14 = 418,248 R/S;
E = (1,1770729 × 10^20 * 418,248^2)/2 = 1,029535 × 10^25 Joules = 2.46 Petatons of TNT = 6-A;
I believe that neither end is an outlier, since we literally have a continent-sized Centipede that surpasses even the radius of the Moon. Personally, I go with a high end, considering that the Centipede moves at huge speeds that we even cease to distinguish its body, which merges into a silhouette similar to a drill. However, this is decided by a member of the calc group.
But even if the middle or low ends are selected, I believe Garou should scale to High 6-B+, since he completely suppressed Sage's KE and cut it along the entire length.
Now let's move on to the Evil Natural Water.
2)Evil Natural Ocean PE:[]
At the moment we have several ENO size calculations.
Scaling from an aircraft carrier;
In fact, all 3 options work, but I have problems with each of the 3. The first option relies on an aircraft carrier, although ENO seems to continue to grow in size and at the moment when Saitama is surfing and catching a wave and relax, we see that ENO's eye is already much larger than an aircraft carrier, even though it is many kilometers behind. The second method was made by me and is in principle ok, but it depends on statistics. The third method gives colossal dimensions and completely rethinks the size of the city Z.
So I'm here with method 4 and will find ENO dimensions through distance. Despite the fact that a couple of chapters have passed since Saitama's serious blow, it seems to me that One and Murata simply forgot about the tidal wave and added it at the very last moment. That is, the A-class heroes literally managed to help the duo, Bad is back in the fight and managed to quarrel with Garou again, then unite with him and lie down to sleep. There was no wave. But when Garowe throws the Sage core into orbit, and Sage catches up with him, she suddenly appears and rolls fast enough. I guess we just have to turn a blind eye to the tide.

The width of the hole in which Sage is located = = 2531,25 meters = 4 pixel;
Distance to the ocean = 165 pixels = 104 414 meters;
ENO's eye = 46 pixels = x meters;
Panel height = 1566 pixels;
Distance = 104 414 = x * 1566/(46*2tan(70/2)
1566x = 176 320 * (46 * 2tan(70/2 deg));
x = 4295 meters;
Eye = 46 pixels = 4295 meters;
Height = 608 pixels = 93262 meters;
Width = 1630 pixels = 250030 meters;
ENO is a segment of the sphere
However, its shape is not perfect and I will use 30% of the void.
Salt water density = 1020 kg/m^3;
Weight = 1,8325299 × 10^18 kg (Class E);
PE = 1,8325299 × 10^18* 9,81 * 93262 = 1,676582 × 10^24 Joules = 400 Teratons of TNT = High 6-B;
Well, let's move on to the most delicious.
3) Saitama hits seriously, but not impressively:[]

We will use the same data from my previous calculation, but with new values.
Eye diameter = 4295 meters = 28 pixels;
I only now realized that I had determined the size of the smaller eye, and I was determining the size of the blow from the larger one.
Eye diameter = 4295 meters = 25 pixels;
The width of the shock wave = 220 pixels = 37796 meters;
Wave height = 607 pixels = 104282 meters;
Width at a distance = 8 pixels;
The diameter of the Moon = 35 pixels;
The moon is always at an angle of 0.5 degrees;

Distance = 37796 * 35/(8*2tan(0.5/2)) = 18948453 meters;
Average ocean depth = 3682 meters;
Volume = 37796 * 3682* 18948453 = 2,636959 × 10^15 meters;
Salt water density = 1020 kg/m^3;
Weight = 2,6896982 × 10^18 kg;
Add to this a lot of destroyed Evil Natural Water.
Weight = 2,6896982 × 10^18 + 1,8325299 × 10^18 = 4,5222281 × 10^18 kg;
Wave height = 104282 meters;
- y = v0t-1/2gt^2
- 104282 = v0*2-0.5*9.81*2^2
- v0 = 52150 m/s
T = 3682/52150= 0,070 sec;
Speed = width/2/time = 37796/2/0,070 = 269971 m/sec;
KE = 4,7840181 × 10^18 * 269971 * 269971/2 = 1,7434 × 10^29 Joules = 41,66 Exatons of TNT = 5-C;
4)Sage's PE:[]
M = ((1160/0.008)^2 * (1846482/0.1)) * 0.003 = 1,1646685 × 10^15 kg;
Height = 1846482 meters;
PE = 1,9354854790953 * 10^22 Joules = 4,625 Teratons of TNT = Low 6-B;
Results:[]
1)6666 Legs Grand Drill:
Low end - 179 Teratons = High 6-B;
Mid end - 346 Teratons = High 6-B;
High end - 2.46 Petatons of TNT = 6-A (Accepted);
2)Evil Natural Ocean PE - 400 Teratons of TNT = High 6-B (Accepted);
3) Saitama hits seriously and hard - 41,66 Exatons of TNT = 5-C (Accepted);
4) Sage's PE = 4,625 Teratons of TNT = Low 6-B (Accepted);