User blog:ThePerpetual/Request 15: Assorted OmniRealms Warriors Feats

It's about time these got onto a blog, so here we goooooo

Feat 1
In the Contra Arc, the main setting is a "giant flying fortress", up in the stratosphere

Wayne & Scott clash aganist Joey Contra, blowing up said fortress quite violently

We have no direct statements regarding how big this fortress was, specifically, but we do know the following:


 * ORW is more of a modern/futuristic setting, so we're likelier looking at steel than stone
 * WoG has gone on record to compare it to the Neo Bowser Castle from Dream Team

The Neo Bowser Castle, on the one hand, looks really small comparatively in that shot, but on the other hand looks sprawling and massive in basically every other I see of it with Mario actually inside of it, as though it were bigger on the inside than on the outside (or else, this shot is simply a placeholder to support the mechanical limitations of the native platform)

So, I'm mostly left with assuming that this is a relatively normal castle/fortress/what-have-you, save it's made of steel. Since the Neo Bowser Castle seems to have some kind of steel flooring, I'll also assume there's a good 20 feet (~6.10 meters)

Now, we have the Château de Langeais's 1200 m^3 wall volume to go on, but that's for walls that stretch a total of ~250 meters: or, according to Google Maps,

30 meters / 75 px = 0.40 m/px,

X 80 px = 32.0 meters

X 180 px = 72.0 meters

~7238.23 square meters of castle.

This seems a reasonable enough estimate, so: on top of the 1200 cubic meters of actual walling and such: I can add a considerably heftier (7238.23 * 6.1 =) 44153.203 cubic meters to. This totals (44153.203 + 1200.0 =) 45353.203 m^3, or 4.53532e+10 cubic centimeters.

This sounds like violent fragmentation, at least, if not pulverization, since from what I understand no notable-sized pieces ever made it back down to earth. Violent Fragmentation of steel is 568.5 J/cc, and Pulverization is apparently (on average) 655 J/cc, so with that in mind:


 * Low-End: 4.53532e+10 * 568.5 = 2.5783294e+13 Joules
 * High-End: 4.53532e+10 * 655 = 2.9706346e+13 Joules

Problem is, this was generated my multiple character's clashing together: Wayne and Scott, combined, were only an even-ish match for the antagonist Joey Contra, since that's how being the underdog works and all that.

So, I need to divide by two for each half of the blast, then by two again for each of Wayne and Scott's individual contributions.

Low-End
 * Wayne/Scott: 2.5783294e+13 / 4 = 6.4321e+12 Joules, or 1.537 Kilotons of TNT: Small Town level.
 * Joey: 2.5783294e+13 / 2 = 1.28642e+13 Joules, or 3.075 Kilotons of TNT. Small Town level.

High-End
 * Wayne/Scott: 2.9706346e+13 / 4 = 7.4266e+12 Joules, or 1.775 Kilotons of TNT: Small Town level.
 * Joey: 2.9706346e+13 / 2 = 1.48532e+13 Joules, or 3.55 Kilotons of TNT: Small Town level+.

So, that's that

Feat 2
Towards the beginning of the game (OmniRealms Warriors), there was a feat consisting of a gigantic land mass, comparable to Australia, just sort of suspended in the sky for whatever reason

Said land mass, eventually, was broken into pieces, probably to the world's great regret (since you know, that would puncture the crust, screw with the oceans horribly, and just in general make life on Earth uninhabitable, but w/e)


 * Surface Area of Australia: 7692024 km^2, or 7.69202e+12 m^2
 * Radius, if Landmass assumed to be Circular: 1564751.1 meters

Of course, this was more a rough chunk sorta thing, so even if it was pulled deep out of the earth, in all likelihood a lot of it's not exactly the depth of the earth's crust (assuming a lowish-end for these purposes of 35000 meters).

With all this in mind,

Volume of a "cone" with a radius of 1564751.1 m and a height of 35000 m = 8.97402e+16 m^3

With a lot of this being continental crust, the great majority of it is likely stone, relative to say, just general earth (about five/sixths soil, as I've noted in prior calcs.) In other words, I can apply a uniform density of 2750 kg/m^3, and get a mass of 2.467855e+20 Joules.

...that I can't do anything with! I need a height for potential energy, so that's straight out the window.

Uhhh...

Well, anywho, this got broken into pieces, that's probably strong, etc.

8.97402e+16 m^3 is also 8.97402e+22 cm^3, * 8 J/cc for fragmentation equals

7.17922e+23 Joules, or 171.587 Teratons of TNT. Large Country level, about 1.72 times baseline.

...uhhhh

That sounded a lot more impressive than it was? And it probably is higher, since PE tends to be pretty strong, I just don't have a height to work with for now

I guess I'll edit that in later

Feat 3
Finally

Apparently, there exists a character called Cozic, capable of weaponizing cosmic phenomena, who can just kinda pick up a quasar and turn it into a not-Kamehameha if given the chance

Clearly, that's fairly impressive, but the actual scope of this isn't truly evident until one considers that some of the brightest, most powerful quasars out there: example, 3C 273: possess an apparent Magnitude of 12.9 at ~2.443 billion light years away. Based on this calculator, that makes the wattage of the thing alone 1.57115e+39 Watts (or, Joules/second): in other words, 375.514 Ninatons of TNT. Dwarf Star level... no, we can do better than that, right?

I guess the simpler method is just taking the amount of Solar Masses this guy's capable of condensing into a tiny ball. Quasars range from "millions to billions" of Solar masses, from what I can see, which strictly speaking can be anything from 2 million to 2 billion. The 3C 273, on a bad day, is (886 - 187) = 699 million Solar Masses.

Now.

This may sound relatively unimpressive, but taking all of that mass from elsewhere? Condensing it all down into a tiny ball...? Well, uh, just the GBE of something that dense alone would be utterly stupid

Why don't I demonstrate?

Mass
 * Low-End: 1.989e+30 kg * 2000000 = 3.978e+36 kg
 * Mid-End: 1.989e+30 kg * 699000000 = 1.390311e+39 kg
 * High-End: 1.989e+30 kg * 2000000000 = 3.978e+39 kg

The size of a basketball seems like a decently low-end for making the radius somewhat large, for a handheld object, so let's use that I suppose (12 cm, or 0.12 meters, is generally agreed upon)

U = 3*G*M^2 / 5*R

Or, in other words,

Power
 * Low-End: 3 * (6.674e-11) * (3.978e+36)^2 / 5 * (0.12) = 5.28063e+63 Joules, or 52.806 ExaFoe. Multi-Solar System level, about 2629.8 times baseline.
 * Mid-End: 3 * (6.674e-11) * (1.390311e+39)^2 / 5 * (0.12) = 6.45030e+68 Joules, or 6.45 YottaFoe. Galaxy level+, about 75.1% of baseline Multi-Galaxy level.
 * High-End: 3 * (6.674e-11) * (3.978e+39)^2 / 5 * (0.12) = 5.28063e+69 Joules, or 52.806 YottaFoe. Multi-Galaxy level, about 6.15 times baseline.

WELP.

Hope that's not an outlier, Smashtwig, lmao. Turns out, Quasars in their native habitats are big as shit, and taking all of that mass and putting it in your hand's kinda hard to do. I'll probably start transferring existing Calculations for the verse to Blogs like these at another time, but for now I must schleep

Final Results
(For now, anyways)

Destroying A Fortress

Potency
 * Low-End
 * For Wayne and Scott: 1.537 Kilotons of TNT
 * For Joey: 3.075 Kilotons of TNT
 * High-End
 * For Wayne and Scott: 1.775 Kilotons of TNT
 * For Joey: 3.55 Kilotons of TNT

Cracking a Large Landmass into Several, Still Pretty Large tbh Landmasses

Potency: 171.587 Teratons of TNT

Quasar Bullforkery

Potency
 * Low-End: 52.806 ExaFoe
 * Mid-End: 6.45 YottaFoe
 * High-End: 52.806 YottaFoe