Stocking Anarchy

Marvelous
V.I.P. Member
Here be important scientific documentation of all calcs I did from series in the Trigger-verse, series either made by Trigger, or made by the same people as Trigger before they formed Trigger, all of which are a part of the same shared cosmology. So far, this includes Dead Leaves, Gurren Lagann, Panty & Stocking with Garterbelt, Inferno Cop, Turning Girls, Little Witch Academia (OVA & TV), Kill La Kill, When Supernatural Battles Become Commonplace Ninja Slayer, Kiznaiver, Space Patrol Luluco, Darling in the Franxx, Gridman Universe (Gridman: Boy Creates Hero, SSSS.Gridman, SSSS.Dynazenon, Gridman X Dynazenon), Promare, Brand New Animal, Star Wars: Visions (The Twins & The Elder) and Cyberpunk Edgerunners.

Energy
Michiru throws baseball (Brand New Animal) =
11010.038 joules
Ginrou's blood bubble (Brand New Animal) = >2374842.78 joules
Jasminka throws garbage (Little Witch Academia) = 1.82kg of TNT
Mirei freezes sphere of ice (When Supernatural Battles Become Commonplace) = 2.964kg of TNT
Dark and Dark of the End melts Mirei's ice (When Supernatural Battles Become Commonplace) = 10.553kg of TNT
Alan devastates a stadium (Brand New Animal) = >205kg of TNT
David crushes armoured trucks (Cyberpunk Edgerunners) = 6.064 tons of TNT
Varys freezes Burnish Snake (Promare) = >7.49 tons of TNT
Darkninja blows up boat (Ninja Slayer) = 16 tons of TNT to 141 tons of TNT
Lalaco crashes into Ogikubo Space Patrol (Space Patrol Luluco) = 19.28 tons of TNT to 1.252 kilotons, mid-end of 465.3 tons of TNT
Lio escapes ice (Promare) = 35.499 tons of TNT
Muganns dash downwards (Gurren Lagann) = 37.099 tons of TNT to 194.154 kilotons, mid end of 64.306 kilotons
UFO kinetic energy (SSSS.Gridman) = 39.864 tons of TNT
Muganns dash upwards (Gurren Lagann) = 51.743 tons of TNT Muganns to 270.79 kilotons, mid end of 89.688 kilotons
Satsuki & Berserker Ryuko clash (Kill La Kill) = 55.954 tons of TNT
David crushes basilisk & armoured trucks (Cyberpunk Edgerunners) = 67.467 tons of TNT
Laomato's explosion (Ninja Slayer) = 78 tons of TNT to 1.52 kilotons
Vulcan freezes Lio (Promare) = 80.064 tons of TNT
Inferno Cop races across America (Inferno Cop) = 134.932 tons of TNT to 264.466 tons of TNT
Ryuko deflects Nui's slice attack (Kill La Kill) = 435.834 tons of TNT
Gridman sends Anti flying (SSSS.Gridman) = 912.207 tons of TNT
Energy of Karre slicing Star Destroyer per second (Star Wars Visions: The Twins) = >1.676 kilotons to >4.320 kilotons
Super Lightning Kick (SSSS.Gridman) = 2.478 kilotons
Kinetic energy of Gridman flying (SSSS.Gridman) = 5.104 kilotons
Hatoko brings up magma (When Supernatural Battles Become Commonplace) = 11.0199 kilotons to 448.332 megatons
Akko's kinetic energy on the Shooting Star (Little Witch Academia) = 14.584 kilotons to 753.654 kilotons, mid end of 516.177 kilotons
Total energy of Karre slicing through Star Destroyer (Star Wars Visions: The Twins) = >17.321 kilotons to >44.645 kilotons
Stocking runs into space (Panty & Stockings with Garterbelt) = 17.427 kilotons
Go'yovac charges (SSSS.Gridman) = 42.999 kilotons
Alpha Omega Nova flies Luluco into space (Space Patrol Luluco) = 84.5 kilotons
Grand Cultural and Sport Festival Stadium explodes (Kill La Kill) = 98 kilotons to 448.1 kilotons
Dyna Dragon carries Shalbandes into the sky (SSSS.Dynazenon) = 119.349 kilotons
Strelizia rips up worm klaxosaur (Darling in the Franxx) =
142.869 kilotons
Karre's kinetic energy (Star Wars Visions: The Twins) = 294.993 kilotons
Dyna Dragon parts clouds (SSSS.Dynazenon) = 542.673 kilotons to 1.183 megatons
Lio melts the frozen lake (Promare) =
882.031 kilotons
Gridman throws Go'yavac across the city (SSSS.Gridman) = 895.701 kilotons
Gutenburg-class Klaxosaur rams Strelitzia (Darling in the Franxx) = 1.291 megatons
Karre splits the Gemini Star Destroyer in half (Star Wars Visions: The Twins) = >1.596 megatons to >4.151 megatons
Garnix moves at high speeds (SSSS.Dynazenon) =
1.644 megatons
Vajarois' exhales (Little Witch Academia) = 2.013 megatons to 1.683 gigatons
Chlorophytum blasts opens a path (Darling in the Franxx) = 2.41 megatons
Enki slams Gurren Lagann into the ground (Gurren Lagann) = 6.975 megatons
Volcanic Ray (Little Witch Academia) = 17.600 megatons
Luluco blows up asteroid (Space Patrol Luluco) = 46.461 megatons
Karre's X-wing crashes into Tatooine (Star Wars Visions: The Twins) = 47.575 megatons
Ryuko gets purged (Kill La Kill) = 55.131 megatons
Lio's volcanic eruption (Promare) = >317.0198 megatons
Dynazenon flies into space (SSSS.Dynazenon) = 336.078 megatons
Sayrune creates a giant tidal wave (Gurren Lagann) =
395.432 megatons
The 9s fragment the seal (individual energy) (Darling in the Franxx) = 748.340 megatons
Absolute Zero Heat Death Canon (Promare) = >4.819 gigatons to >9.479 gigatons
3rd Destroy Finale (Inferno Cop) = 12.728 gigatons
Muganns destruction blast (Gurren Lagann) = 19.441 gigatons to 101.743 teratons, mid end of 33.698 teratons
Alternate Gurren Lagann & Enki clash (Gurren Lagann: Parallel Works) = 319.4 gigatons
Giga Drill Maximum (Gurren Lagann) = 894.302 gigatons to 4.680 petatons, mid end of 1.550 petatons
Dai-Gunkai explodes (Gurren Lagann) = 1.275 teratons
Giant Caterpillar bursts out of the ground (Dead Leaves) = 2.090 teratons
Gurren Lagann blasts Giant Mugann (Gurren Lagann) = 2.266 teratons to 6.841 teratons
Giant Caterpillar destroys Dead Leaves (Dead Leaves) = 8.91 teratons to 76.846 teratons
Individual power of Burnish cultists (Promare) = 97.111 teratons to 2.691 exatons
Strelizia XX breaks through the Grand Crevasse (Darling in the Franxx) = 648.302 teratons to 840.309 teratons
Giga Drill Break (Gurren Lagann) = >704.933 teratons to >1.23 petatons
Gurren Lagann drags Giant Mugann (Gurren Lagann) = 1.321 petatons to 3.989 petatons
Burnish volcano eruption (Promare) = 1.845 petatons to 51.132 exatons
Final Mugann's kinetic energy (Gurren Lagann) = 2.367 petatons to 7.147 petatons
Lalaco Godspeed shoplifts Ogikubo (Space Patrol Luluco) = 19.286 petatons
VIRM ships attack Strelitzia Apus (Darling in the Franxx) = 391.063 petatons to 21.094 exotons, mid end of 6.641 exotons
Arc Gurren Lagann's Giga Drill kinetic energy (Gurren Lagann) = 451.353 petatons 6.299 exatons, mid ends of
787.360 petatons to 3.611 exatons
Hypothetical durability of the Original Lifefiber (Kill La Kill) = 1.897 exotons
The stars embue Shiny Chariot with power (Little Witch Academia) = 43.025 exatons to 9.555 yottatons
Ryuko parts cocoon (Kill La Kill) = 118.302 exatons
Pandy & Retro's Son destroys the Giant Caterpillar (Dead Leaves) = 146.791 exatons
Darry shoots missile (Gurren Lagann) = 734.606 exotons
Timeloop causes stars to increase in luminousity (per second) (Little Witch Academia) = 1.240 zettatons
Strelizia True Apus rams the VIRM planet (Darling in the Franxx) = 10.418 zettatons
Meteor hits Garterbelt (Panty & Stocking with Garterbelt) = 19.623 zettatons
Arc Gurren Lagann's Giga Drill mass energy (Gurren Lagann) = 36.971 zettatons to 515.957 zettatons, mid ends of 64.495 zettatons to 295.772 zettatons
Super Galaxy Dai-Gurren's missile opens up Death Spiral Machine's field (Gurren Lagann) =
>74.929 zettatons to >1.427 yottatons
Yoko shoots missile (Gurren Lagann) = 191.253 zettatons
Final Muganns mass energy (Gurren Lagann) = 242.473 zettatons to 732.082 zettatons
Super Galaxy Dai-Gurren tows the Moon (Gurren Lagann) = 1.018 yottatons
Stocking gets "sneezed" on (Panty & Stocking with Garterbelt) = 1.528 yottatons to 52.179 yottatons
Chariot scars the Moon (Little Witch Academia) = 3.795 yottatons
Giant Trans-Homer approaches Earth (Panty & Stockings with Garterbelt) = 6.151 yottatons
Hypothetical detonation of the Cocoon Star Navity (Kill La Kill) = 2.358 ninatons
Hypothetical firepower of the Gemini-class Star Destroyer (Star Wars Visions: The Twins) = 16.007 ninatons
Galo de Lion punches the Earth (Promare) = 20.995 ninatons
Violence destroys SVM-Z (Space Patrol Luluco) = 79.435 ninatons
Promare dragon shakes the Solar System (Promare) = 729.6 FOE
Kittan's final sacrifice (Gurren Lagann) = 11.686 MEGAFOE
Klaxosaur Bomb (Darling in the Franxx) = >12.487 GIGAFOE
Super Galaxy Gurren Lagann's engine power (Gurren Lagann) = 5.363 TERAFOE to 1.788 EXOFOE, mid end of 2.681 PETAFOE
Individual Spiral Races ships firepower (Gurren Lagann) = 5.607 PETAFOE to 920.624 PETAFOE, mid ends of 56.071 PETAFOE to 92.062 PETAFOE
Ancient Spiral Races devastate a galaxy (Gurren Lagann) = 1.408 EXAFOE to 23.016 EXAFOE
Ashtanga explodes (Gurren Lagann) = 9.086 EXAFOE
Maelstrom Mega Vortex Cannon (Gurren Lagann) = 76.546 NINAFOE to 21.359 TENAEXAFOE
Simon's energy in the Galactic Spiral Abyss (Gurren Lagann) = 133.735 TENATERAFOE

Speed
Possessed Armour attaches to Louis (Little Witch Academia) =
89.008m/s
Go'yovac charges (SSSS.Gridman) = 253.480m/s
Michiru throws baseball (Brand New Animal) = 299.636m/s
Ryuko & Satsuki fly after Ragyo (Kill La Kill) = 302.58m/s
Gridman sends Anti flying (SSSS.Gridman) = Mach 1.095
Super Lighting Kick (SSSS.Gridman) = Mach 1.727
Vajarois' exhales (Little Witch Academia) = Mach 1.855
Strelizia destroys worm klaxosaur (Darling in the Franxx) = Mach 2.515
Gridman flies into the sky (SSSS.Gridman) = Mach 2.895
Lio de Galon's kick (Promare) = Mach 4.117
Dyna Dragon carries monster into the sky (SSSS.Dynazenon) = Mach 5.224
Krazor X's punch (Promare) = Mach 5.873
UFO speed (SSSS.Gridman) = Mach 6.415
Sayrune's underwater speed (Gurren Lagann) = Mach 7.055 to Mach 18.503
Strelizia flies away (Darling in the Franxx) = Mach 9.828
Uzu bonks Nui (Kill La Kill) = Mach 10.733 to Mach 26.645
Burnish Dragon swims towards Promepolis (Promare) =
Mach 14.138
Giant Caterpillar bursts out of the ground (Dead Leaves) = Mach 24.424
Garnix moves at high speeds (SSSS.Dynazenon) = Mach 37.386
Hakoto brings up magma (When Supernatural Battles Become Commonplace) = Mach 50.377
Muganns dash downwards (Gurren Lagann) = Mach 54.426
Muganns dash upwards (Gurren Lagann) = Mach 64.276
Volcanic Ray (Little Witch Academia) = Mach 102.661
Gurren Lagann slams into Arc Gurren (Gurren Lagann) = Mach 109.218
Strelizia XX breaks through the Grand Crevasse (Darling in the Franxx) = Mach 113.5
Inferno Cop races across America (Inferno Cop) = Mach 114.79 to Mach 160.705
Final Mugann flight speed (Gurren Lagann) = Mach 123.102
Space King Kittan throws missile (Gurren Lagann) = Mach 172.864
Dynazenon flies into space (SSSS.Dynazenon) = Mach 279
Oscar H. Genius flies towards the Moon (Panty & Stockings with Garterbelt) = Mach 309.050
Ryuko flies into space (Kill La Kill) = Mach 478.635
Senketsu sends down the scissor blades from space (Kill La Kill) = Mach 611.393
Shooting Star speed (Little Witch Academia) = Mach 682.606 to Mach 4906.967, mid end of Mach 4060.938
Space King Kittan's final flight (Gurren Lagann) = Mach 3161.410
Yoko shoots missile (Gurren Lagann) = Mach 3539.18716
Arc Gurren Lagann rushes the Ashtanga (Gurren Lagann) = Mach 4353.227
Gridman's Fixer Beam (SSSS.Gridman) = Mach 4720.062
Stocking runs into space (Panty & Stockings with Garterbelt) = Mach 4810.008
Boosted Oscar H. Genius flies towards the Moon (Panty & Stockings with Garterbelt) = Mach 5245.804
3rd Destroy Finale (Inferno Cop) = Mach 6463.149
Promare fires climb into space (Promare) = Mach 8061.457
Giant Trans-Homer approaches Earth (Panty & Stockings with Garterbelt) = Mach 8659.928
Pandy & Retro return to Earth (Dead Leaves) = Mach 9187.609 to mach 70858.767
Strelizia True Apus rams the VIRM planet (Darling in the Franxx) = Mach 9229.529
Alpha Omega Nova flies Luluco into space (Space Patrol Luluco) = Mach 9442.094
Karre's X-wing crashes into Tatooine (Star Wars Visions: The Twins) = Mach 18541.7427
Ryuko cuts up tennis balls (low end) (Kill La Kill) = Mach 30289.646 to 13.642% C
Giant Caterpillars laser beam (Dead Leaves) = Mach 42664.339
Pandy & Retro are flown to the Moon (Dead Leaves) = Mach 52180.768 to 45.345% C
Strelizia True Apus' beam spam (Darling in the Franxx) = Mach 72818.484
Shiny Chariot's arrow speed (Little Witch Academia) = 42.741% C
VIRM explosions (Darling in the Franxx) = 45.531 C to 1337.592 C, mid end of 187.63 C
Giant Promare Dragon flies into the Sun (Promare) = 77.727 C
Ryuko & Ragyo fight across space (Kill La Kill) = 630.322 C to 225132429000000 C, mid end of 225132429000000 C
Ryuko cuts up tennis balls (high end) (Kill La Kill) = 17672.647 C to 70121.669 C
Promare dragons shakes the Solar System (Promare) = 31776.715 C
Magic of the Stars (Little Witch Academia) = 27562407.8 C to 2713877480 C
Shiny Rod becomes the Big Dipper (Little Witch Academia) = 434745203 C
Ancient Spiral Races beam attack speed (Gurren Lagann) = 74183138400 C to 497961009000 C, mid ends of 106329848000 C to 347424577000 C
Alcor flies in from beyond the galaxy (Little Witch Academia) = 75442929600 C
Stocking flies down from Heaven (Panty & Stockings with Garterbelt) = 34938025000000000 C
Luluco sucks up her love aura (Space Patrol Luluco) = 72167068700000000 C
Luluco and Alpha Omega Nova unleash their Love Aura (Space Patrol Luluco) = 138651691000000000 C
Love aura explosion (Space Patrol Luluco) =
298453639000000000 C
Stocking throws her sword (Panty & Stockings with Garterbelt) = 489132352000000000 C

Size
Nui Harime's height (Kill La Kill) =
140.567cm
Cyberskeletons height (Cyberpunk Edgerunners) = 3.095m
Gurren Lagann height (Gurren Lagann) = 19.249m
Mugann diameter (Gurren Lagann) = 26.512m
Vajarois' height (Little Witch Academia) = 30.608m
Deus Ex Machina/Lio de Galon height (Promare) = 50.048m
Strelizia's height (Darling in the Franxx) = 54.969m
Sayrune's total length (Gurren Lagann) = 66.478m
Krazor X height (Promare) = 148.871m
Dai-Gurren length (Gurren Lagann) = 293.076m
Space King Kittan height (Gurren Lagann) = 2.275km
Honnouji Academy height (Kill La Kill) = 3.033km
Worm Klaxosaur length (Darling in the Franxx) = >4.279km
Arc Gurren's length = 5km
Gemini-class Star Destroyer length (Star Wars Visions: The Twins) = 5.004km
Giant Caterpillar length (Dead Leaves) = >19.739km
Giant Blue Mugann height (Gurren Lagann) = 37.426km
Giant Purple Mugann height (Gurren Lagann) = 31.881km
Final Mugann's length (Gurren Lagann) = 55.106km
Parnassus's length (Promare) = 62.732km
Dead Leaves facility size (Dead Leaves) = 102.808km
Strelizia Apus' size (Darling in the Franxx) = 331.892km
Anti-Spiral missile size (Gurren Lagann) = 1404.88917km
Galo de Lion's height (Promare) = 2964.932km
Super Galaxy Gurren Lagann total height (Gurren Lagann) = 6406.043km
Super Galaxy Dai-Gurren length (Gurren Lagann) = 6467.357km
Giant Trans-Homer size (Panty & Stocking with Garterbelt) = 22452.986km
Ashtanga total length (Gurren Lagann) = 76067.011km
Astral Burnish Dragons' length (Promare) = >3317900km
 
Last edited:
  • Like
Reactions: Ral
Little Witch Academia - Chariot scars the Moon

Stocking Anarchy

Marvelous
V.I.P. Member


Shiny Chariot blows the Gainax/Trigger star onto the Moon. The Moon is 3474.8km in diameter.
Screen_Shot_2018-09-07_at_4.17.09_PM.png
717 pixels = 3474.8km
1 pixel = 3474.8km/717 = 4.84630404km
4.84630404km X 221 = 1071.03319km
4.84630404km X 70 = 339.241283km

A = 1071.03319 X 339.241283/2
= 178546.302km^2
= 181669337000 X 4
= 726677348000m^2

Next the volume of the square middle part as a square.

V = lh
= 339.241283 X 339.241283
= 115084.648km^2
= 115084648000m^2

V = 726677348000 + 115084648000
= 841761996000m^3

Now for the depth of our mark. We can clearly see it's at least as deep as the nearby lunar basins, so we'll scale using the depths of lunar basins (from here).
Let's find the average

D = 1.63 + 1.84 + 2.13 + 2.14 + 2.24 + 2.44 + 2.9 + 2.98 + 3.0 + 3.2 + 3.2 + 3.25 + 4 + 4.0 + 4.13 + 4.45 + 4.57 + 4.8 + 4.8 + 4.9 + 4.95 + 4.8 + 5 + 5.0 + 5.4 + 5.605 + 6.04 + 10.25
=113.645/28
= 4.05875km
= 4058.75m

Now for the volume of the point. There are four of them, so we'll times it by four.

V = 841761996000 X 4058.75
= 3.4165015e15m^3

Next we find the energy, using pulverization (you see dust everywhere surrounding the Moon afterwards, as shown below).

E = 3.4165015e15 X 200000000
= 6.833003e23 joules

We'll hold onto that for now. We can see the debris surrounding the Moon afterwards too, so we can find KE.
Screen_Shot_2018-09-07_at_4.10.37_PM.png
Screen_Shot_2018-09-07_at_4.32.26_PM.png
Timeframe is 4 seconds. Also note beforehand, we see no debris.
Screen_Shot_2018-09-07_at_4.32.01_PM.png
Now onto scaling.
Screen_Shot_2018-09-07_at_4.17.17_PM_2.png
Screen_Shot_2018-09-07_at_4.17.17_PM_2.png
161 pixels = 3474.8km
1 pixel = 3474.8km/161 = 21.5826087km
21.5826087km X 309 = 6669.02609km

T = 6669.02609km/4s
= 1667256.52m/s

Average mass of the Moon is 3344kg per m^3.

M = 3.4165015e15 X 3344
= 1.1424781e19kg

Now for the kinetic energy.

E = (0.5) X 1.1424781e19 X 1667256.52^2
= 1.5878985e31 joules

Let's add them together for our total energy.

E = 6.833003e23 + 1.5878985e31
= 1.58789857e31 joules
= 3.79516866634799225 yottatons

We can also get the speed for this. Distance to the Moon from Earth is 384,400km.
Screen_Shot_2018-09-07_at_4.10.28_PM.png
Screen_Shot_2018-09-07_at_4.10.37_PM.png
3 seconds.

T = 384,400km/3s
= 128133333/299792458 X 100
= 42.7406793% C

Final Results
Shining Chariot makes a star on the Moon = 3.795 yottatons
Shining Chariot's Moon arrow speed = 42.741% C
 
  • Like
Reactions: Ral
Little Witch Academia - Horologium Chamber timeloops power

Stocking Anarchy

Marvelous
V.I.P. Member
6IW2fQy.jpg
l1R1hsX.jpg

XavipKX.jpg

d7B1iYp.jpg

cQTM5XD.jpg

b2p0Fby.jpg

T5aknhX.jpg

pM4jJvG.jpg

R4toqly.jpg
The time loop that Akko and her friends get caught in causes multiple stars to glow brighter than usual. If it was just luminosity alone, that'd be easy, but we're talking about an increase in pre-exisiting luminous energy. I'll be looking at Taccocat's Percy Jackson Artemis calc for reference. In order to find the increase in luminosity of the stars, we're going to need to find the bolometric magnitude, for which, we'll first need the apparent magnitude. To find that, we'll be using the below formula;

ffb4e10743790dec8f0d349d415b4ac3.png

M = Absolute magnitude
m = Apparent magnitude
D = Distance in parsecs
To make things much easier for us, all of the stars that increased in luminosity are directly named. Pollux is 34 lightyears (10.4244 parsecs) away, has an apparent magnitude of 1.14, is a spectral type of K0 III and a luminosity of 32.7 L.

M = 1.14 - 5((log(10.4244) - 1)
= 1.04974466

Next we find the bolometric magnitude, given the bolometric correction, using the below chart...
ozVuhL4.png
Pollux has a spectral class of K0 III, so it's bolometric correction is -0.37.
194cc0bab67733158532749530fa98c9.png

Mbol = Bolometric magnitude
Mv = Absolute visual magnitude
BC = Bolometric correction
Mbol = 1.04974466 + -0.37
= 0.67974466

Finally, to figuring out the luminous energy of the star.
636c5272b78404f79a89695188a11000.png

Lstar = Luminousity of the star
L = Luminousity of the Sun
MbolSun = Bolometric magnitude of the Sun
Mbolstar = Bolometric magnitude of the star
The Sun usually has a bolometric magnitude of 4.75 and a luminousity of 3.846 X 10^26 watts, or 3.84600e26 watts (note also that watts are equal to joules, though watts are in joules per second).

Lstar/3.84600e26 = 10^((4.75 - 0.67974466)/2.5)
Lstar/3.84600e26 = 42.4719436
Lstar = 3.84600e26 X 42.4719436
Lstar = 1.63347095e28 W

We're not done quite yet however. The luminousity of Pollux is 32.7 L, which means it's 32.7 times brighter than the Sun.

L = 32.7 X 3.84600e26
= 1.257642e28 W

Finally, we subtract the energy to find the increase in luminousity.

L = 1.63347095e28 - 1.257642e28
= 3.7582895e27 W

With all that finally out of the way? We just have to do it for all the other stars too. We'll refer to the above chart as we go along.

Gienah is 154 lightyears (47.2166 parsecs) away, has an apparent magnitude of 2.585, is a spectral type of B8 III and has a luminosity of 331 L.

M = 2.585 - 5((log(47.2166) - 1)
= -0.785473555

There's nothing for a spectral type of B8 III in the above chart, so I assume that means a BC 0.

Mbol = -0.785473555 + 0
= 0.785473555

Lstar/3.84600e26 = 10^((4.75 - -0.785473555)/2.5)
Lstar/3.84600e26 = 163.753059
Lstar = 3.84600e26 X 163.753059
Lstar = 6.29794265e28 W

L = 3.84600e26 X 331
= 1.273026e29 - 6.29794265e28
= 6.43231735e28 W

L = 6.43231735e28 - 6.29794265e28
= 1.343747e27 L

Ankaa is 85 lightyears (26.0611 parsecs) away, has an apparent magnitude of 2.377, is a spectral type of K0.5 IIIb and has a luminosity of 80 L.

M = 2.377 - 5((log(26.0611) - 1)
= 0.297036287

The closest I can find to K0.5 IIIb is K0 III, which would be a BC of -0.19

Mbol = 0.297036287 + -0.19
= 0.107036287

Lstar/3.84600e26 = 10^((4.75 - 0.107036287)/2.5)
Lstar/3.84600e26 = 71.9756317
Lstar = 3.84600e26 X 71.9756317
Lstar = 2.7681828e28 W

Ankaa is 80 times more luminous than the Sun.

L = 3.84600e26 X 80
= 3.0768e28 W

L = 3.0768e28 - 2.7681828e28
= 3.086172e27 W

Shaula is 570 lightyears (174.763 parsecs) away, has an apparent magnitude of 1.62, is a spectral class of B2IV+DA7 and a luminosity of 36,300 L.

M = 1.62 - 5((log(174.763) - 1)
= -4.59224746

There's no DA or D class on the above chart, so we'll just take it as B2IV. As IV isn't listed in the above chart, we'll go for an average between III and V. And given III is 0, we'll go with V, that being a BV of -2.2.

Mbol = -4.59224746 + -2.2
= -6.79224746

Lstar/3.84600e26 = 10^((4.75 - -6.79224746)/2.5)
Lstar/3.84600e26 = 41390.3391
Lstar = 3.84600e26 X 41390.3391
Lstar = 1.59187244e31 W

L = 3.84600e26 X 36,300
= 1.396098e31 W

L = 1.59187244e31 - 1.396098e31
= 1.9577444e30 W

Algol is 92.8 lightyears (28.45261 parsecs) away, has an apparent magnitude of 2.12, is a spectral class of B8V, K0IV and A7m (it's a trinary star) and a luminosity of 182 L.

M = 2.12 - 5((log(28.45261) - 1)
= -0.150610555

Given we have multiple stars with varying spectral classes, we'll just go with B8V and a BC of -0.55, as it's the only one there I could find in the above chart.

Mbol = -0.150610555 + -0.55
= -0.700610555

Lstar/3.84600e26 = 10^((4.75 - -0.700610555)/2.5)
Lstar/3.84600e26 = 151.441263
Lstar = 3.84600e26 X 151.441263
Lstar = 5.82443097e28 W

L = 3.84600e26 X 182
= 6.99972e28 W

L = 6.99972e28 - 5.82443097e28
= 1.17528903e28 W

Mimosa is 280 lightyears (85.8484 parsecs) away, has an apparent magnitude of 1.25 is a spectral class of B0.5 III and has a luminosity of 34,000 L.

M = 1.25 - 5((log(85.8484) - 1)
= -3.41866103

The BC of a B0 III star (closest to B0.5 III) is -2.95.

Mbol = -3.41866103 + -2.95
= -6.36866103

Lstar/3.84600e26 = 10^((4.75 - -6.36866103)/2.5)
Lstar/3.84600e26 = 28019.7601
Lstar = 3.84600e26 X 28019.7601
Lstar = 1.07763997e31 W

L = 3.84600e26 X 34,000
= 1.30764e31 W

L = 1.30764e31 - 1.07763997e31
= 2.3000003e30 W

Canopus is 310 lightyears (95.0464 parsecs) away, has an apparent magnitude of −0.74, is a spectral class of A9 II and a luminosity of 10,700 L.

M = −0.74 - 5((log(95.0464) - 1)
= -5.62967836

I couldn't find anything for the BC of A9 II spectral class stars (even when searching the wider web), so fo now we'll use the closest thing of an A7 II BC, that being 0.09.

Mbol = -5.62967836 + 0.09
= -5.53967836

Lstar/3.84600e26 = 10^((4.75 - -5.53967836)/2.5)
Lstar/3.84600e26 = 13057.84
Lstar = 3.84600e26 X 13057.84
Lstar = 5.02204526e30 W

L = 3.84600e26 X 10,700
= 4.11522e30 W

L = 5.02204526e30 - 4.11522e30
= 9.0682526e29 W

We're halfway there now! Then there are the seven major stars of the Horologium constellation; Alpha Horologii, R Horologii, Beta Horologii, Mu Horologii, Zeta Horologii, Eta Horologii and Iota Horologii. Alpha Horologii is 117 lightyears (35.8724 parsecs) from the Sun, has an apparent magnitude of 3.853, is a spectral class of K2 III and a luminosity of 37.61 L.

M = 3.853 - 5((log(35.8724) - 1)
= -1.07919783

The BC of a K2 III star is -0.42.

Mbol = 1.07919783 + -0.42
= 0.65919783

Lstar/3.84600e26 = 10^((4.75 - 0.65919783)/2.5)
Lstar/3.84600e26 = 43.2833502
Lstar = 3.84600e26 X 43.2833502
Lstar = 1.66467765e28 W

L = 3.84600e26 X 37.61
= 1.4464806e28 W

L = 1.66467765e28 - 1.4464806e28
= 2.1819705e27 W

Beta Horologii is 295 lightyears (90.4474 parsecs) away from the Earth, has an apparent magnitude of 4.979, is a spectral type of A3/5 III and has a luminosity of 63 L.

M = 4.979 - 5((log(90.4474) - 1)
= 0.197019564

Given A3 III is listed first, we'll use the BC of that, that being -0.03.

Mbol = 0.197019564 + -0.03
= 0.167019564

Lstar/3.84600e26 = 10^((4.75 - 0.167019564)/2.5)
Lstar/3.84600e26 = 68.1070664
Lstar = 3.84600e26 X 68.1070664
Lstar = 2.61939777e28 W

L = 3.84600e26 X 63
= 2.42298e28 W

L = 2.61939777e28 - 2.42298e28
= 1.9641777e27 W

Mu Horologii is 141.6 lightyears (43.414757 parsecs) from the Sun, has an apparent magnitude of 5.11, is a spectral type of F0 III/IV and has a luminosity of 13 L.

M = 5.11 - 5((log(43.414757) - 1)
= 1.92181313

Given there's no F0 III listed in the chart above, we'll use the BC of F0 III, that being 0.

Mbol = 1.92181313 + 0
= 1.92181313

Lstar/3.84600e26 = 10^((4.75 - 1.92181313)/2.5)
Lstar/3.84600e26 = 13.529282
Lstar = 3.84600e26 X 13.529282
Lstar = 5.20336186e27 W

L = 3.84600e26 X 13
= 4.9998e27 W

L = 5.20336186e27 - 4.9998e27
= 2.0356186e26 W

Zeta Horologii is 160 lightyears (49.0562 parsecs) away from the Sun, has an apparent magnitude of 5.20, is a spectral class of F6 Vluminosity of 16.7 L.

M = 5.20 - 5((log(49.0562) - 1)
= 1.74653048

The above chart doesn't have the BC for F6 V, but given F5 V is -0.02 and F8 V is -0.02, it bears to reason that F6 V shouldn't be that far off, so we'll go with -0.02.

Mbol = 1.74653048 + -0.02
= 1.72653048

Lstar/3.84600e26 = 10^((4.75 - 1.72653048)/2.5)
Lstar/3.84600e26 = 16.1952557
Lstar = 3.84600e26 X 16.1952557
Lstar = 6.22869534e27 W

L = 3.84600e26 X 16.7
= 6.42282e27 W

L = 6.42282e27 - 6.22869534e27
= 1.9412466e26 W

Eta Horologii is 149 lightyears (45.6836 parsecs) away from the Earth, has an apparent magnitude of 5.31, is a spectral class of A6 V + F0 V and has a luminosity of 12.6 L.

M = 5.31 - 5((log(45.6836) - 1)
= 2.0111984

The BC of an A6 V star isn't listed, but given both A5 V and A7 V are 0.02, it stands that A6 V is likewise.

Mbol = 2.0111984 + 0.02
= 2.0311984

Lstar/3.84600e26 = 10^((4.75 - 2.0311984)/2.5)
Lstar/3.84600e26 = 12.2326525
Lstar = 3.84600e26 X 12.2326525
Lstar = 4.70467815e27 W

L = 3.84600e26 X 12.6
= 4.84596e27 W

L = 4.84596e27 - 4.70467815e27
= 1.4128185e26 W

Iota Horologii is 56 lightyears (17.169699999528 parsecs) away from the Solar System, has an apparent magnitude of 5.40, is a spectral type of G0Vp and has a luminosity of 1.64 L.

M = 5.40 - 5((log(17.169699999528) - 1)
= 4.22618647

A spectral type star of G0V would have a BC or -0.05, which is more or less G0Vp.

Mbol = 4.22618647 + -0.05
= 4.17618647

Lstar/3.84600e26 = 10^((4.75 - 4.17618647)/2.5)
Lstar/3.84600e26 = 1.69638886
Lstar = 3.84600e26 X 1.69638886
Lstar = 6.52431156e26 W

L = 3.84600e26 X 1.64
= 6.30744e26 W

L = 6.52431156e26 - 6.30744e26
= 2.1687156e25 W

All that leaves is R Horologii, with a distance of 1000 lightyears (306.601 parsecs) away, has an apparent magnitude of 7.22 and is a spectral class of M5-7e. Unfortunately, it's luminosity isn't listed, and even a search doesn't reveal a direct number, so we'll have to leave it out, for now at least. However, it's finally time to add all of them together!

E = 3.7582895e27 + 1.343747e27 + 3.086172e27 + 1.9577444e30 + 1.17528903e28 + 2.3000003e30 + 9.0682526e29 + 2.1819705e27 + 1.9641777e27 + 2.0356186e26 + 1.9412466e26 + 1.4128185e26 + 2.1687156e25
= 5189217862526000000000000000000 W (5189217862526000000000000000000 joules)
= 1.2402528352117589971 zettatons

Given watts is in joules per second, that is the amount of energy the stars output per second during the timeloop.

Final results
Timeloop causes stars to increase in luminousity (per second) = 1.240 zettatons


The Time Demon broke this time loop, and the party defeated it (although the first time around it resurrected and the second time they needed the Talisman of Time) so at the very least this scales to everyone with Horologium Chamber gear (one of which, the Calamity Wand, is very clearly noted to be able to destroy the world), possibly in base.
 
Little Witch Academia - Speed & kinetic energy of the Shooting Star

Stocking Anarchy

Marvelous
V.I.P. Member






During the broom race, Amanda uses the Shooting Star to try and win, but Akko boards it and it flies around the world, including emerging from the water with enough force to create a colossal pillar of water that reaches far above cloud level. We also see that the broom race around Luna Nova continues that same day, with no waiting around for Akko to return. First let's get a high end. The Earth is 40,075km in circumference, so what's the timeframe?
wjPBU9l.png

nySpeKn.png
29 seconds.

T = 40,075km/29s
= 1381896.55/340.29
= Mach 4060.93788

We can also find the kinetic energy for Akko's durability (Akko ends this covered in scratches, so it would be more than reasonable, as well as the colossal explosion of water). Akko weighs 46kg.
LhChHOT.png
KE = (0.5)mv^2
= (0.5) X 46 X 1381896.55^2
= 4.39216757e13 joules

That's impressive enough by itself, but wait! At one point, Akko flies through the ocean and emerges a few seconds later in a place where the sky is a different colour.


Thing is, this is travelling through water, which is far more viscous that air. The viscosity of water is 8.90e-4 Pa*S (or kg per m^2), while the viscosity of air is while the viscosity of air is 1.81e-5 kg/m^2.

8.90e-4/1.81e-5 = 49.1712707

Ergo, water is 49.1712707 times more viscous than air. Given this is also and it would take 49.1712707 times more energy to move through it.

E = 4.39216757e13 X 49.1712707
= 2.15968461e15 joules
= 516.177010038240951 kilotons

Let's also go with a low end, of the time it took Akko to fly from England to Finland. We can tell it's Finland because it has the same Yeti. Luna Nova is located in England on the St. Michael Alignment, which is based off the Leylines from British folklore.
7C0zNPp.png
Now to lay some lines of our own!
Inhfh87.gif
139 pixels = 500 miles (804.67200km)
1 pixel = 804.67200km/139 = 5.78900719km
5.78900719km X 321 = 1858.27131km

How long did it take?
wjPBU9l.png

9UjgDqF.png
Timeframe is 8 seconds.

T = 1858.27131km/8s
= 232283.914/340.29
= Mach 682.60576

KE = (0.5)mv^2
= (0.5) X 46 X 232283.914^2
= 1.24098378e12 joules

E = 1.24098378e12 X 49.1712707^2
= 6.10207494e13 joules
= 14.58430913001912 kilotons

Now let's also find the one for the underwater part. We see her enter at mid-day, then bursts out at night, so that's around 6 time zones. The circumference of the Earth is 40,075km.

L = 40,075km/24
= 1669.79167km X 6
= 10018.75km

Next for the timeframe (we also see the Sun is at it's zenit).
6Ib6Ttm.png

3w6IDt6.png
6 seconds.

T = 10018.75km/6s
= 1669791.67/340.29

That's the highest result yet! But what about the kinetic energy?

KE = (0.5)mv^2
= (0.5) X 46 X 1669791.67^2
= 6.41286971e13 joules

E = 6.41286971e13 X 49.1712707
= 3.15328952e15 joules
= 753.6542829827916421 kilotons

Final Results
Shooting Star speed (low end) = Mach 682.606
Shooting Star speed (mid end) = Mach 4060.938
Shooting Star speed (high end) = Mach 4906.967
Akko's kinetic energy on the Shooting Star (low end) = 14.584 kilotons
Akko's kinetic energy on the Shooting Star (mid end) = 516.177 kilotons
Akko's kinetic energy on the Shooting Star (high end) = 753.654 kilotons
 
Little Witch Academia - Fountain of Polaris

Stocking Anarchy

Marvelous
V.I.P. Member
From episode 6.
3CynxFV.png
UhKEdgS.png
The Fountain of Polaris bestows the power of the stars to a witch with hidden radiance. When Akko goes there for the first time, she sees how Chariot went there in the past like she did.

16:57, they enter the Fountain of Polaris, and at 19:26, we have our feat.
Powerofthestars1.gif

Powerofthestars2.gif
Powerofthestars3.gif
The stars embue Chariot with their power. Those stars increase in brightness.
Cm7rp65.png
vUCS9tW.png

Clc7LsB.png
You can see this with any of the stars, but highlighting one helps demonstrate this. The stars prior to this (and after) aren't shining as much).
C45sSZs.png
jj5TPxR.png

SW0VX7Y.png
Looking at Ampchu's Touhou luminousity calc and Endless Mikes luminousity revision calcs for help. We'll get our luminousity from the average brightness of a star increase to the brightest star. Given that this is the Fountain of Polaris, I'll be going with the values for Polaris, which has an apparent magnitude of 1.99 and is 430 lightyears (4.068e+18m). Now let's get the luminousity...
fa13db5bce810b9d7667302abaefae0e83742cab

1.99 = -26.73 - 2.5log((L/3.846*10^26)(146000000000/(4.068e+18))^2)

Going through this step by step...

(146000000000/(4.068e+18))^2) = 1.28808292e-15
1.99 - -26.73 = 1.28808292e-15/((L/3.846*10^26)
28.72 = -2.5Log(1.28808292e-15/((L/3.846*10^26))
28.72/-2.5 = (1.28808292e-15/((L/3.846*10^26))
10^(-11.48800) = (1.28808292e-15/((L/3.846*10^26))
3.25087297e-12 = (1.28808292e-15/((L/3.846*10^26))
3.25087297e-12 X (3.864*10e26) = 1.28808292e-15
1.25613732e16/1.28808292e-15 = 9.75199112e30 joules

Polaris is 2500 times brighter than the Sun.

L = 3.84600e26 X 2500
= 9.61500e29 W

L = 9.75199112e30 - 9.61500e29
= 8.79049112e30

But that's not it! There are approximately 4548 visible in a hemsiphere of the Earth.

E = 8.79049112e30 X 4548
= 3.99791536e34 joules
= 9.5552470363288719568 yottatons

Let's also get the speed of which the magic of the stars crosses to Shiny Chariot.
hYJCMOA.png

m9R9ywx.png
5 seconds.

T = 4.068e+18m/5s
= 8.13600e17/299792458
= 2713877480 C

For a low end, we'll go with alpha centuri (4.367 light years away, or 41315009973760352m.

T = 41315009973760352m/5s
= 8.26300199e15/299792458
= 27562407.8 C

(146000000000/(8.26300199e15))^2) = 1.28808292e-15
1.99 - -26.73 = 3.12197914e-10/((L/3.846*10^26)
28.72 = -2.5Log(3.12197914e-10/((L/3.846*10^26))
28.72/-2.5 = (3.12197914e-10/((L/3.846*10^26))
10^(-11.48800) = (3.12197914e-10/((L/3.846*10^26))
3.25087297e-12 = (3.12197914e-10/((L/3.846*10^26))
3.25087297e-12 X (3.864*10e26) = 1.28808292e-15
1.25613732e16/3.12197914e-10 = 4.02352887e25 joules

Alpha Centari has a luminousity of 0.0017 L (L being the luminousity of the Sun).

L = 3.84600e26 X 0.0017
= 6.5382e23 W

L = 4.02352887e25 - 6.5382e23
= 3.95814687e25 W

E = 3.95814687e25 X 4548
= 1.8001652e29 joules
= 43.024980879541118384 exatons

Final Result
The stars embue Shiny Chariot with power (low end) = 43.025 exatons
The stars embue Shiny Chariot with power (high end) = 9.555 yottatons
Magic of the Stars (low end) = 27562407.8 C
Magic of the Stars (high end) = 2713877480 C
 
Little Witch Academia - Vajarois sneezes

Stocking Anarchy

Marvelous
V.I.P. Member

Vajarois' breathe sends Akko, Sucy and Lotte fly with such force that it parts the clouds above. Note also the clouds before and after she breathes at them. Before...
Screen_Shot_2018-04-12_at_1.48.47_PM.png

Screen_Shot_2018-04-12_at_2.26.59_PM.png
...and after.
Screen_Shot_2018-04-12_at_1.47.31_PM.png

Screen_Shot_2018-04-12_at_1.47.46_PM.png
The clouds were parted considerably. The clouds seem to resemble stratocumulus clouds, which float around 2000m off the ground and are between 200m to 500m thick (or an average of 350m).
A compi- lation of observed stratocumulus thicknesses from field studies (Fig. 5b) is remarkably consistent with the sat- ellite data, with the majority of cases showing thick- nesses from 200–500 m, a median value of 320 m, and a tendency for thicker clouds (median 420 m) in mid- and high latitudes.
Akko is 162cm tall (1.62m).
Screen_Shot_2018-04-12_at_2.44.05_PM.png
93 pixels = 1.62m
1 pixel = 1.62m/92 = 0.0176086957m
0.0176086957m X 337 = 5.93413045m
Screen_Shot_2018-04-12_at_1.48.27_PM.png
95 pixels = 5.93413045m
1 pixel = 5.93413045m/95 = 0.0624645311m
0.0624645311m X 490 = 30.6076202m

That's how tall Vajarois is, and Akko, Lotte and Sucy are slightly higher than that. Distance to the horizon at 30.6076202m is 19.8km (19800m).

H = 2000m - 30.6076202m
= 1969.39238m

While we're at it, we can also get the speed of her roar.
Screen_Shot_2018-04-12_at_2.21.38_PM.png

Screen_Shot_2018-04-12_at_2.21.42_PM.png

Screen_Shot_2018-04-12_at_2.22.03_PM.png

Screen_Shot_2018-04-12_at_2.22.08_PM.png
3 seconds, 3 frames.

1s/25 = 40ms
40ms X 3 = 0.12s + 3s = 3.12m

T = 1969.39238m/3.12s
= 631.215506/340.29
= Mach 1.85493404
Screen_Shot_2018-04-12_at_2.25.06_PM.png
object degree size = 2*atan(Object_Size/(Panel_Height/tan(70/2)))
= 2*atan(1094/(721/tan(70/2)))
= 1.24664474 rad
= 71.42748215436103 degrees

That's 1369.7m across with the angscaler, or a radius of 684.85m.

Volume as a cylinder.
V = πr^2h
= π X 19800^2 X 350
= 4.31070494e11m^3

Density of a cloud is 1.003kg/m^3.

M = 4.31070494e11 X 1.003
= 432363705482kg

Let's get out timeframe.
Screen_Shot_2018-04-12_at_2.22.03_PM.png

Screen_Shot_2018-04-12_at_2.22.27_PM.png
3 frames.

1s/25 = 40ms
40ms X 3 = 0.12s

T = 684.85m/0.12s
= 5707.08333 m / s

E = (0.5) X 432363705482 X 5707.08333^2
= 7.04121592e18 joules
= 1.68289099426 gigatons

Now for a low end of just the part of the cloud seen moved onscreen.

V = πr^2h
= π X 684.85^2 X 350
= 515713900m^3

M = 515713900 X 1.003
= 517261042kg

E = (0.5) X 517261042 X 5707.08333^2
= 8.42380301e15 joules
= 2.01333723948 megatons

Final Results
Vajarois' height = 30.608m
Vajarois' exhales (energy - low end) = 2.013 megatons
Vajarois' exhales (energy - high end) = 1.683 gigatons
Vajarois' exhales (speed) = Mach 1.855
 
Little Witch Academia - Jasminka throws garbage bag

Stocking Anarchy

Marvelous
V.I.P. Member
(Will replace the gif at a later date)
Jasminka effortlessly lifts and throws a big bag of green gunk bigger than herself. Jasminka is 165cm (1.65m) tall.
N2ZQfzb.png
587 pixels = 1.65m
1 pixel = 1.65m/587 = 0.0028109029m
0.0028109029m X 712 = 2.00136286m
2.00136286m/2 = 1.00068143m
xIhjm61.png
0.0028109029m X 1124 = 3.15945486m
3.15945486m/2 = 1.57972743m

V = 4/3πabc
= 4/3 X π X 1.00068143 X 1.00068143 X 1.57972743
= 6.6261681m^3

I'm going to go with the mass of water for this, which weighs 1000kg/m^3.

M = 6.6261681 X 1000
= 6626.1681kg
= 6.6261681 tons

Next for the timeframe.
UWPor1U.png

tsfpt0l.png
1 frame.

1s/25 = 40ms

How high does she lift it?
1ahT6kJ.png
0.0028109029m X 677 = 1.90298126m

T = 1.90298126m/40ms
= 47.5745315m/s

KE = (0.5) X 6626.1681 X 47.5745315^2
= 7498622.56 joules

Let's also get the GPE.

E = 6626.1681 X 9.807 X 1.90298126
= 123661.109 joules

E = 7498622.56 + 123661.109
= 7622283.67 joules
= 0.001821769519598 tons of TNT

Final Results
Jasminka throws garbage = 1.82kg of TNT
Garbage bag mass = 6.626 tons
 
Little Witch Academia - Possessed armour attaches to Louis

Stocking Anarchy

Marvelous
V.I.P. Member
AP78w9.gif

The armour attaches itself to Louis at rapid speeds, and Amanda can react to this cursed armour. Amanda is 167cm tall.
ne6GhyV.png
682 pixels = 167cm (1.67m)
1 pixel = 1.67m/682 = 0.00244868035m
0.00244868035m X 124 = 0.303636363m
CJOR67B.png
188 pixel = 0.303636363m
1 pixels = 0.303636363m/188 = 0.00161508704m
0.00161508704m X 157 = 0.253568665m
hCDt4aW.png

02JXQn4.png
0.07 seconds.

7 pixels = 0.253568665m
1 pixel = 0.253568665m/7 = 0.036224095m
0.036224095m X 172 = 6.23054434m

T = 6.23054434m/0.07s
= 89.0077763m/s

Final Results
Possessed Armour attaches to Louis = 89.008m/s
 
Little Witch Academia - Volcanic Ray

Stocking Anarchy

Marvelous
V.I.P. Member

YvJNKW.gif
YVU93GP.jpg
The Volcanic Ray spell melts the ground and causes lava to burst up. Continental crust ranges from 30km to 50km, which averages out at 40km (40,000m). First off, let's find the speed.

rpTiui1.png
K3sxjEV.png
2.29 seconds. We'll split that in half for the time for the heat ray to reach below the crust and for the lava to burst up.

T = 2.29s/2
= 40,000m/1.14500s
= 34934.4978/340.29
= Mach 102.660959

Amanda is 167cm tall, or 1.67m.
awOHjdk.png
139 pixels = 1.67m
1 pixel = 1.67m/139 = 0.0120143885m
0.0120143885m X 6 = 0.072086331m
yf6mjjp.png
0.0120143885m X 505 = 6.06726619m
6.06726619m/2 = 3.03363309m
3.03363309m - 0.072086331m = 2.96154676m

Volume as a cylinder.

V = πr^2h
= π X 3.03363309^2 X 40,000
= 1156474.26m^3

V = πr^2h
= π X 2.96154676^2 X 40,000
= 1102166.11m^3

V = 1156474.26 - 1102166.11
= 54308.15m^3

There are various densities of magma, those being basalt, andesite and rhyolite. We'll go with the average rhyolite, as that weighs the least. Rhyolite magma weighs between 2180 and 2250kg per m^3, which averages out at 2215kg per m^3.

M = 54308.15 X 2215
= 120292552kg

At last for our energy.

KE = (0.5) X 120292552 X 34934.4978^2
= 7.34036662e16 joules

Let's also get the energy for the heat ray to melt the rock. Melting rock takes 4350000000 joules per m^3.

E = 54308.15 X 4350000000
= 2.36240452e14

E = 7.34036662e16 + 2.36240452e14
= 7.36399067e16 joules
= 17.6003601099 megatons

Final Results
Volcanic Ray (speed) = Mach 102.661
Volcanic Ray (energy) = 17.600 megatons
 
Little Witch Academia - Alcor flies in from beyond the galaxy

Stocking Anarchy

Marvelous
V.I.P. Member
Chariots familiar Alcor is summoned from beyond the galaxy and spacetime.
6iMdVpm.jpg
Chariot Cart - Alcor (Japanese) said:
その星の獣は、
強く輝く者に付き従う。
シャイニィロッドが認めた者呼ばれれば,
銀河も時空も超えて現れる。
Chariot Card - Alcor (English) said:
The star 's beast will follow the strongly shining one.
If it is called it will appear beyond the galaxy and the spacetime.
Alcor, Chariots familiar, actually does fly in from beyond the galaxy and space-time itself. We even see this at the very start of episode 1.


5mNE5k1.png

12Pyyz0.png

EEhVKOc.png

UvWnJJI.png
It takes 10 seconds for Alcor to reach Earth. The Solar System resides 8 kiloparsecs (2.46854207e20m) from the centre of the Milky Way. The Milky Way has a diameter of 100,000 lightyears, and thus 50,000 lightyears (4.7302642e20m) in radius.

D = 4.7302642e20m - 2.46854207e20m
= 2.26172213e20m/10s
= 2.26172213e19/299792458
= 75442929600 C

Final Results
Alcor flies in from beyond the galaxy = 75442929600 C
 
Little Witch Academia - Shiny Rod becomes the Big Dipper

Stocking Anarchy

Marvelous
V.I.P. Member


It's job done and magic returned to the world, the Shiny Rod disintegrates and returns to the skies and becomes the Big Dipper once again. The furtherest star in the Big Dipper, Dubhe, is 124 lightyears from the Earth (or 1.173e+15km).
7HN6oio.png

nsuUuJf.png
Timeframe is 9 seconds.

T = 1.173e+15km/9s
= 1.30333333e17/299792458
= 434745203 C

Final Results
Shiny Rod becomes the Big Dipper = 434745203 C
 
Gurren Lagann - Mega-Maelstrom Vortex Cannon

Stocking Anarchy

Marvelous
V.I.P. Member
Always listen to technobabble, you never know when it could pay off big. On a rewatch, I noticed a few interesting pieces of technobabble that I, and everyone else, had overlooked. The first was absorbing the mass energy of the Spiral Death Fields compressed space-time, and the other is this...

The Ashtanga vanishes through the portal, and LordGemone gives this explanation of where they went.


By manipulating multidimensional space, the Ashtanga can manipulate probability and move up and down the time axis. The Schrödinger Warp backs this up, as their actions are unknown until they take them, allowing them to exist in multiple different places at the same time.
f2Mpbum.png

1fiypii.png

cMWLqlM.png

X9J2448.png
Super Galaxy Gurren Lagann responds by sending a barage into all nearby points of space-time.
R6qaznm.png

L3AP6zd.png

oXM8Uzq.png

QXCnc3O.png

5NcunBl.jpg
Note also the number of times the single Ashtanga appears on the charts.
xk1e1P5.png
Tetukan comments on a planck time coefficient, and Leeron says not to worry about it, and that all of their shots will be hits thanks to the probability manipulation There's another translation where he says "we can fire randomly and still hit them!").
mv3vPmo.png

LxCgbLI.png

CCz5y4H.png
Simon then finishes off with this;
IvDjU9k.jpg
They fire the beams into the past, present and future and blast the dreadnaught out of it's hiding place in the probability space.


Leeron then points out the ship has built up immense energy, like a galaxy is about to be born.
kunXlkv.png
So to sum up what happened; Super Galaxy Gurren Lagann fired attacks into every planck instant and hit with every one of them. If you need further confirmation of this, the Glossary in Final Drill confirms that the Mega Maelstrom Vortex Cannon fired missiles into every point in space and time in every dimension.
jTQSz28.jpg
(The relevant part)
Xi9UrzF.jpg
Final Drill said:
[Possible space-time simultaneous firing][Deathlete/Episode 26] A Super Galaxy Gurren Lagann's "Mega-Vortex Cannon" or "Maelstrom Cannon" is an all-gun attack that fires as a random variable bullets. Artor in enormous number of enemies in every time-space and dimensions from the near past to the near future.
The kanji being used for every is "あらゆる" which means that indeed yes, the missiles are being fired into every possible point in time alone the time axis. Needless to say, this is going to be incredible. Even if we go with one joule for each attach, it will be more than comparable to a supernova. We can't get the explosions themselves as each was in space, and the shots were all energy beams and FTL anyway (from Tacocats calcs), but thankfully, we can get the energy of the attacks by looking at the damaged Ashtanga. It's covered in smoldering pockmarks that weren't there before.
We'll need the width of the Ashtanga. I previously calc'd their dimensions here, but to repost said information below briefly...
The diameter of the Moon is 3474.2km.
BHsVt50.png
932 pixels = 3474.2km
1 pixel = 3474.2km/932 = 3.7276824km
o5JBRqA.png
3.7276824km X 432 = 1610.3588km
DohOFlJ.png
364 pixels = 1610.3588km
1 pixel = 1610.3588km/364 = 4.42406264km
4.42406264km X 878 = 3884.327km
744 + 704 = 1448 pixels
4.42406264km X 1448 = 6406.0427km

Now onto the Ashtanga.
gjIoj8v.jpg
105 pixels = 1610.3588km
1 pixel = 1610.3588km/105 = 15.3367505km
15.3367505km X 1072 = 16440.9965km
pUSF51b.jpg
300 pixels = 16440.9965km
1 pixel = 16440.9965km/300 = 54.8033217km
54.8033217km X 1388 = 76067.0105km
54.8033217km X 584 = 32005.1399km
Now let's scale the height of the Ashtanga to one of the craters.
IzcDj2M.png
1712 pixels = 32005.1399km
1 pixel = 32005.1399km/1712 = 18.6945911km
18.6945911km X 116 = 2168.57257km (2168572.57m)
2168572.57m/2 = 1084286.28m

Volume as a demi-sphere.
V = 4/3πr^3
= 4/3 X π X 1084286.28^3
= 5.33974474e18/2
= 2.66987237e18m^3

Given there's no chunks of rock floating around the craters and from the way the missiles exploded, I think it's fair enough to say the craters were violently fragmented. The violent fragmentation of rock per m^3 is 8000000.

E = 2.66987237e18 X 8000000
= 2.1358979e25 joules

We're aren't done yet though! As stated above, the missiles aim for near past -10, near future +8. As the Ashtanga Dreadnaught hasn't instantly blinked back into existence, they would be refering to a few seconds here (the innumerable number of times it pops up on the radar backs this up). There are 10^43 planck instances in a single second. Now let's work some magic!

E = 8 + 10
= 18 X 10^43
= 1.8e44 X 2.1358979e25
= 3.84461622e69 joules

That's pretty impressive, but we're not only talking every point in time, but every point in space too. We can count a minimum amount of points in space through the portals opened by Super Galaxy Gurren Lagann. This is simultaneously the easiest and hardest part...
yiwtbtZ.jpg
There are at least 181 portals.

E = 3.84461622e69 X 181
= 6.95875536e71 joules

And that's not the end of it. Not only did it target every point in space and time on a planck scale, but also every dimension, of which there are at least 11.
tpoV2Pe.png

2awkLf4.png

ljzKe9a.png

E = 6.95875536e71 X 11
= 7.6546309e72/10^44
= 76.546309 NINAFOE

As another value, the manga says that prior to the Ashtanga appearing in realspace to battle Super Galaxy Dai-Gurren (before the Galactic Spiral Abyss), the Spiral Radar picks up 10^68 enemies.
XMPGcwz.jpg
Dayakka: Cybela! What happened?
Cybella: The enemies... Their number...
Dayakka: How many!?
Cybela: 10 to the power of...68.
So let's also use the value of 10^68 for the total number of times attacked.

E = 2.1358979e25 X 10^68
= 2.1358979e93/10^44
= 21.358979 TENAEXAFOE

Final Results
Maelstrom Mega Vortex Cannon (low end) = 76.546 NINAFOE
Maelstrom Mega Vortex Cannon (high end) = 21.359 TENAEXAFOE
 
Gurren Lagann - Super Galaxy Gurren Lagann's engine power

Stocking Anarchy

Marvelous
V.I.P. Member
Something that's been around for a while now, but I feel gets somewhat overlooked. Super Galaxy Gurren Lagann is stated to generate energy comparable to a microcosmos.
BeNy2mr.jpg
Later, Leeron comments that it's as if a galaxy is about to be born inside Super Galaxy Gurren Lagann.
kunXlkv.png
Super Galaxy Gurren Lagann has power comparable to a galaxy being born. If the above isn't enough evidence, Final Drill outright confirms it;
IEOT6Jn.jpg
(The relevant part)
tnQsUAW.jpg
Final Drill said:
[Super Galaxy Gurren Lagann] [Mecha/Episode 26] Super Spiral class gunman. The appearence of the transformation of Super Galaxy Dai-Gurren with enough energy to create a galaxy, as the spiral force was transmitted from Ark Gurren Lagann through the transcendental spiral engine from Gurren Lagann. Equipped with a Mega Vortex Cannon, it is protected by a spiral field that is intact even if hit by a planet.
Super Galaxy Gurren Lagann can generate power enough to create a galaxy. Given that a lot of transformations are done through mass-energy (giga drills, regeneration, the Death Spiral Abyss), this should be likewise too. We'll use a low end of the Lesser Magellanic Cloud, a mid end of the Milky Way and a high end of IC 1101. The Lesser Magellanic Cloud has a mass of approximately 3,000,000,000 solar masses, the Milky Way has a mass of roughly 1,500,000,000,000 solar masses and IC 1101 has a mass of more than 100,000,000,000,000 solar masses. One solar mass is 1.989 X 10^30kg (or 1.98900e30kg).

(Low end)
M = 3,000,000,000 X 1.98900e30kg
= 5.96700e39kg

E = mc^2
= 5.96700e39 X 299792458^2
= 5.36287215e56/10^44
= 5.36287215 TERAFOE

(Mid end)
M = 1,500,000,000,000 X 1.98900e30
= 2.9835e42kg

E = mc^2
= 2.9835e42 X 299792458^2
= 2.68143608e59 /10^44
= 2.68143608 PETAFOE

(High end)

M = 100,000,000,000,000 X 1.98900e30kg
= 1.98900e44kg

E = mc^2
= 1.98900e44 X 299792458^2
= 1.78762405e61/10^44
= 1.78762405 EXOFOE

Final Results
Super Galaxy Gurren Lagann's engine power (low end) = 5.363 TERAFOE
Super Galaxy Gurren Lagann's engine power (mid end) = 2.681 PETAFOE
Super Galaxy Gurren Lagann's engine power (high end) = 1.788 EXOFOE
 
Guren Lagann - Ashtanga explodes

Stocking Anarchy

Marvelous
V.I.P. Member
XgGXys7.png
(Releveant text)
1MyciNT.png
"Super Spiral Field developed. prepare for the shockwave, a huge one will come."
At the same time Dayakka finished talking, a big explosion occurred.
It's a battleship collapse like a satellite.
After the big shockwave that shakes the isolated universe hit the Super Galaxy Dai-Gurren and the violent wave passed away, the enemy fleet was also wiped out.
(I asked a friend who can read Japanese to have a look at this, and they confirmed this is more or less accurate)

An Ashtanga exploding shakes the entire Anti-Spiral pocket universe, which Super Galaxy Dai-Gurren withstands with it's Spiral Shields. Looking back at my old Captain Harlock Noo artefact calc for help here, calculating the energy to shake the planet then applying inverse-square law. The minimum magnitude for an earthquake to be felt for the average person is magnitude 3 (though some extra sensetive people can feel magnitude 2.5 earthquakes).
9399199_orig.png
As such, we'll once again mess around with the impact calculator until we have a magnitude 2.5 impact for a distance of 20,000km (the highest the calculator will take, which is a bit under the. Sure enough, said impact would result 3.72 X 10^12 joules (3720000000000 joules). Now we need to divide that energy by 10,000.

E = 3720000000000/10,000
= 372000000 joules

Now for the surface area of the area affected, that being the observable Universe (46,600,000,000 lightyears, or 4.40870040022e+26m).

A = 4πr^2
= 4 X π X 46,600,000,000^2
= 2.72886278e22LY^2
= 2.44248012179300965e+54m^3

Finally for our energy, which we'll find using inverse-square law.

I = S/4pa
372000000 = S/(4 X π X 4.40870040022e+26^2)
= 372000000 X (4 X π X 4.40870040022e+26^2)
= 9.08602604e62/10^44
= 9.08602604 EXAFOE

Final Results
Ashtanga explodes = 9.086 EXAFOE
 
Gurren Lagann - Super Galaxy Gurren Lagann & the Ashtanga sizes

Stocking Anarchy

Marvelous
V.I.P. Member
As there are a few calcs I mean to make and look over involving them, and the images in the old calcs of their sizes where lost in the great PostImage crash, it's time to recalc the sizes of Super Galaxy Gurren Lagann and the Ashtanga. The second movie has the perfect shot from which to scale directly.
BNpv3Q.gif
The diameter of the Moon is 3474.2km.
BHsVt50.png
932 pixels = 3474.2km
1 pixel = 3474.2km/932 = 3.7276824km
o5JBRqA.png
3.7276824km X 432 = 1610.3588km
DohOFlJ.png
364 pixels = 1610.3588km
1 pixel = 1610.3588km/364 = 4.42406264km
4.42406264km X 878 = 3884.327km
744 + 704 = 1448 pixels
4.42406264km X 1448 = 6406.0427km

Now onto the Ashtanga.
gjIoj8v.jpg
105 pixels = 1610.3588km
1 pixel = 1610.3588km/105 = 15.3367505km
15.3367505km X 1072 = 16440.9965km
pUSF51b.jpg
300 pixels = 16440.9965km
1 pixel = 16440.9965km/300 = 54.8033217km
54.8033217km X 1388 = 76067.0105km
54.8033217km X 584 = 32005.1399km

Final Results
Super Galaxy Gurren Lagann main body height = 3884.327km
Super Galaxy Gurren Lagann total height = 6406.043km
Ashtanga total length = 76067.011km
 
Gurren Lagann - Various space calcs

Stocking Anarchy

Marvelous
V.I.P. Member
There's a couple of space calcs I've been meaning to recalc, so now's as good a time as any to go over them once more.

1. Arc Gurren Lagann's Giga Drill Break
2xrXLz.gif
r85pLp.gif
Arc Gurren Lagann attacks an Ashtanga with a Giga Drill, to absolutely no effect at all. Arc Gurren Lagann is officially stated to be between 5km to 10km tall.
TnmT8Vn.png
612 + 936 = 1548 pixels
1548 pixels = 5km
1 pixel = 5km/1548 = 0.00322997416km
0.00322997416km X 280 = 0.904392765km (904.392765m)
1548 = 10km
1 pixel = 10km/1548 = 0.00645994832km
0.00645994832km X 280 = 1.80878553km (1808.78553m)

While we're on it, we'll find the volume and mass of the giga drill.
mhCB1vZ.png
44 pixels = 904.392765m
1 pixel = 904.392765m/44 = 20.554381m
20.554381m X 376 = 7728.44726m
7728.44726m/2 = 3864.22363m
20.554381m X 1190 = 24459.7134m
44 pixels = 1808.78553m
1 pixel = 1808.78553m/44 = 41.108762m
41.108762m X 376 = 15456.8945m
15456.8945m/2 = 7728.44725m
41.108762m X 1190 = 48919.4268m

Volume as a cone.

(Low end)
V = πr^2h/3
= π X 3864.22363^2 X 24459.7134/3
= 3.82476262e11m^3

(High end)
V = πr^2h/3
= π X 7728.44725^2 X 48919.4268/3
= 3.05981008e12m^3

For our mass, we'll go with a low end of titanium and a high end of steel, which respectively weigh 4500kg/m^3 and 7850kg/m^3.

(Low low end)
M = 3.82476262e11 X 4500kg
= 1.72114318e15kg

(Low high end)
M = 3.82476262e11 X 7850kg
= 3.00243866e15kg

(High low end)
M = 3.05981008e12 X 4500kg
= 1.37691454e16kg

(High high end)
M = 3.05981008e12 X 7850kg
= 2.40195091e16kg

Next, to scale the distance from the Ashtanga. A single Ashtanga is 76067.0105km long.
IfPG6IC.jpg
1388 pixels = 76067.0105km
1 pixel = 76067.0105km/1388 = 54.8033217km
54.8033217km X 85 = 4658.28234km
57Z6vZA.png
object degree size = 2*atan(Object_Size/(Panel_Height/tan(70/2)))
= 2*atan(509/(1617/tan(70/2)))
= 0.296112429 rad
= 16.9659924431093323 degrees

Enter those values into the angscaler, and we can determine that the Ashtanga is 15616km away. Let's get our timeframe.
06qQaPD.png

ZYpr6Oo.png
Timeframe is 10 seconds and 13 frames.

T = 1s/24
= 41.6666667ms X 13
= 0.541666667s + 10s
= 15616km/10.5416667s
= 1481359.68/340.29
= Mach 4353.22719

At last, we come to our kinetic energy

(Low low end)
KE = (0.5)mv^2
= (0.5) X 1.72114318e15 X 1481359.68^2
= 1.8884611e27 joules
= 451.35303537284897857 petatons

(Low high end)
KE = (0.5)mv^2
= (0.5) X 3.00243866e15 X 1481359.68^2
= 3.29431548e27 joules
= 787.36029636711282365 petatons

(High low end)
KE = (0.5)mv^2
= (0.5) X 1.37691454e16 X 1481359.68^2
= 1.51076888e28 joules
= 3.6108242829827918285 exotons

(High high end)
KE = (0.5)mv^2
= (0.5) X 2.40195091e16 X 1481359.68^2
= 2.63545237e28 joules
= 6.2988823374760995648 exotons

Now the hard parts out of the way, time for the easy bit; getting the mass energy to form said giga drill.

(Low low end)
E = mc^2
= 1.72114318e15 X 299792458^2
= 1.54688635e32 joules
= 36.971471080305931878 zettatons

(Low high end)
E = mc^2
= 3.00243866e15 X 299792458^2
= 2.69845729e32 joules
= 64.494677103250481309 zettatons

(High low end)
E = mc^2
= 1.37691454e16 X 299792458^2
= 1.23750907e33 joules
= 295.7717662523900799 zettatons

(High high end)
E = mc^2
= 2.40195091e16 X 299792458^2
= 2.15876582e33 joules
= 515.9574139579350458 zettatons

2. King Kittan's final flight
q75ln0.gif
Space King Kittan flies fast. Might not look fast, but remember Super Galaxy Dai-Gurren is the size of the Moon. The diameter of the Moon is 3474.2km.
5cJ7Mzp.png
260 pixels = 3474.2km
1 pixel = 3474.2km/260 = 13.3623077km
13.3623077km X 153 = 2044.43308km
13.3623077km X 484 = 6467.35693km
13.3623077km X 51 = 681.477693km
DvbL1Sd.png
973 pixels = 681.477693km
1 pixel = 681.477693km/973 = 0.700388174km
0.700388174km X 1216 = 851.67202km

All we need next is the timeframe.
8z6PM0Q.png

jlhpQ6P.png
Timeframe is 19 frames.

T = 1s/24
= 41.6666667ms X 19
= 0.791666667s
= 851.67202km/0.791666667s
= 1075796.24/340.29
= Mach 3161.41009

3. Super Galaxy Dai-Gurren drags the Moon
Super Galaxy Dai-Gurren drags the Moon back into realspace. Straightforward enough. The Moon weighs 7.353 X 10^22kg (or 7.35300e22kg) and as said above, has a diameter of 3474.2km. From when the Moon is first dragged out to when the shining around the Moon stops.
9KxQYwz.png

gwZsOHs.png
Timeframe is 10 seconds and 5 frames.

T = 1s/24
= 41.6666667ms X 5
= 0.208333333s + 10s
= 10.2083333s
= 3474.2km/10.2083333s
= 340329.797m/s

KE = (0.5)mv^2
= (0.5) X 7.35300e22 X 340329.797^2
= 4.25828299e33 joules
= 1.0177540607074568868 yottatons

Final Results
Arc Gurren Lagann rushes the Ashtanga = Mach 4353.227
Arc Gurren Lagann's Giga Drill kinetic energy (low low end) = 451.353 petatons
Arc Gurren Lagann's Giga Drill kinetic energy (low high end) = 787.360 petatons
Arc Gurren Lagann's Giga Drill kinetic energy (high low end) = 3.611 exotons
Arc Gurren Lagann's Giga Drill kinetic energy (high high end) = 6.299 exotons
Arc Gurren Lagann's Giga Drill mass energy (low low end) = 36.971 zettatons
Arc Gurren Lagann's Giga Drill mass energy (low high end) = 64.495 zettatons
Arc Gurren Lagann's Giga Drill mass energy (high low end) = 295.772 zettatons
Arc Gurren Lagann's Giga Drill mass energy (high high end) = 515.957 zettatons
Super Galaxy Dai-Gurren length = 6467.357km
Space King Kittan's final flight = Mach 3161.410
Super Galaxy Dai-Gurren tows the Moon = 1.018 yottatons
 
Last edited:
Gurren Lagann - Yoko & Darry vs Giant Missiles

Stocking Anarchy

Marvelous
V.I.P. Member
(Episode 24)


Yoko and Darry shoot some giant missiles, and knock them off their paths before they explode. I calced the dimensions of Super Galaxy Dai-Gurren previously in my Spiral Abyss calc, though unfortunately the images are gone after the PostImage crash of '18. Thankfully though it won't be hard to rescale. The Moon is 3472.8km in radius.
6iaTYX6.png
207 pixels = 3472.8km
1 pixel = 3472.8km/207 = 16.7768116km
16.7768116km X 56 = 939.50145km
Nz9bvsP.png
323 pixels = 939.50145km
1 pixel = 939.50145km/323 = 2.90867322km
2.90867322km X 180 = 523.56118km
2.90867322km X 483 = 1404.88917km (1404889.17m)

Looking up different warheads, the one I found that was closest in shape to the Anti-Spiral missile was the V-2, which weighed 12500kg and was 14m long.

M2 = (H2/H1)^3*M1
= (1404889.17/14)^3 X 12500
= 1.26314178e19kg

Now that we have the mass of each missile we can find the speed at which they were knocked. Let's also get the speed for Yoko's bullets. Arc Gurren Lagann is described as being "several tens of kilometers" tall...
jnF6Sos.jpg
(The relevant part)
5XSSxbA.jpg
(Crappy translation)
Work Soul said:
The total length is about tens of kilometers tall.
...and the Space Grapearls aren't that far behind, it would be a fair assumption that Darry's Space Grapearl is at least 30km tall.
J3hciGq.png

dtFOeXk.png
object degree size = 2*atan(Object_Size/(Panel_Height/tan(70/2)))
= 2*atan(47/(596/tan(70/2)))
= 0.0746944197 rad
= 4.279675001999448725 degrees

Enter those values through the angscaler and Yoko & Darry are 401.45km away.
ul033pi.png

xvBVYy6.png
The timeframe between Yoko firing and hitting the missile is 8 frames, and the timeframe for the missile getting knocked to the side is 1 frame. There are 24 frames in a second.

T = 1s/24
= 41.6666667ms X 8
= 401.45km/0.333333334s
= 1204350/340.29
= Mach 3539.18716

172 pixels = 523.56118km
1 pixel = 523.56118km/172 = 3.04396035km
3.04396035km X 154 = 468.769894km

T = 468.769894km/41.6666667ms
= 11250477.4m/s

Now for our energy, for which we enter those values through the reletavistic kinetic energy calculator, which yields a result of 8.002E+32 joules, or 191.25239005736136733 zettatons. Now for Darry shooting the other missile.
XQSnP90.png

UVSOMjS.png

JOrBFQe.png
Timeframe is 14 frames.

T = 1s/24
= 41.6666667ms X 14
= 0.583333334s

211 pixels = 523.56118km
1 pixel = 523.56118km/211 = 2.48133261km
2.48133261km X 164 = 406.938548km

T = 406.938548km/0.583333334s
= 697608.939m/s

KE = (0.5)mv^2
= (0.5) X 1.26314178e19 X 697608.939^2
= 3.07359173e30 joules
= 734.60605401529639494 exotons

Final Results
Anti-Spiral missile size = 1404.88917km
Yoko shoots missile (speed) = Mach 3539.18716
Yoko shoots missile (energy) = 191.253 zettatons
Darry shoots missile = 734.606 exotons
 
Gurren Lagann - Missile vs Death Spiral Machine's protective field

Stocking Anarchy

Marvelous
V.I.P. Member


Space King Kittan uses Super Galaxy Dai-Gurren's missile (created from Simon's Spiral Power) to blow open a hole in the Spiral Death Machine's protective field. This is of note because the Death Spiral Machine is constantly absorbing mass and converting it to energy, but a huge amount of Spiral Power would disrupt that field, creating an opening. Meaning an even greater amount of energy is required to open it.
BioComputer LordGenome: The Death Spiral Machine is surrounded by a region of super-ultra-dense space. Even the Super Galaxy Dai-Gurren will be lucky to survive 300 seconds within it. A Spiral conversion field is in place around the machine. This field protects the machine by converting mass into Spiral Power.

Leeron: It negates the pressure and generates energy at the same time. Two birds with one stone...

BioComputer LordGenome: Still, that has a fatal flaw. A massive dose of Spiral Power will disrupt that process, and cause a localized collapse of the field.
We can scale the size of Space King Kittan off Arc Gurren Lagann. Arc Gurren Lagann has a height of 5km (this figure is also in the novelizations and the script).
2DDKgOY.jpg
367 pixels = 5000m
1 pixel = 5000m/367 = 13.6239782m
13.6239782m X 120 = 1634.87738m
13.6239782m X 167 = 2275.20436m (2.27520436km)

Now we have Space King Kittan's height, we can find the minimum distance between it and the Death Spiral Machine's protective field.
scHuQ89.png
object degree size = 2*atan(Object_Size/(Panel_Height/tan(70/2)))
= 2*atan(132/(1617/tan(70/2)))
= 0.0773189632 rad
= 4.43005026769831467 degrees

Enter that into the angscaling calculator, and we have a distance of 29412m. Now, to scale the width of the hole.
gy1QSzw.png
object degree size = 2*atan(Object_Size/(Panel_Height/tan(70/2)))
= 2*atan(2324/(1616/tan(70/2)))
= 1.19626928 rad
= 68.54118090532377 degrees

The gap is 40083m wide, or a radius of 20041.5m.
h5T6xa6.jpg
432 pixels = 40083m
1 pixel = 40083m/432 = 92.7847222m
92.7847222m X 652 = 60495.6389m
60495.6389m/2 = 30247.8194 meters

Now we have that, let's have the amount of matter turned into energy per second. We can see several trails leading into the Death Spiral Field.
cUFMPTG.png

O9KsHOX.png
Timeframe is 2 frames.

T = 1s/24
= 41.6666667ms X 2
= 83.3333334ms

870 pixels = 40083m
1 pixel = 40083m/870 = 46.0724138m
46.0724138m X 4 = 184.289655m
46.0724138m X 9 = 414.651724m
414.651724m - 184.289655m = 230.362069m

T = 230.362069m/83.3333334ms
= 2764.34483m/s

That's the amount of matter absorbed every second. With that, we can find the area of mass that would have been absorbed. Volume as a cylinder.

V = πr^2h
= π X 20041.5^2 X 2764.34483
= 3.4882093e12m^3

As for our masses, we'll go with a low end of water and a high end of uranium. Water has a mass of 1000kg/m^3, while uranium has a mass of 19,050kg.

(Low end)

M = 3.4882093e12 X 1000
= 3.4882093e15kg

E = mc^2
= 3.4882093e15 X 299792458^2
= 3.13504617e32 joules
= 74.929401768642449611 zettatons

(High end)

M = 3.4882093e12 X 19,050
= 6.64503872e16kg

E = mc^2
= 6.64503872e16 X 299792458^2
= 5.97226296e33 joules
= 1.4274051051625238351 yottatons

Now we have that, let's also find the speed with which Space King Kittan throws the missile.
FS7H9bA.png

MoI2vKK.png
Timeframe is 12 frames.

T = 1s/24
= 41.6666667ms X 12
= 0.5s

T = 29412m/0.5s
= 58824/340.29
= Mach 172.864322

Final Results
Space King Kittan height = 2.275km
Super Galaxy Dai-Gurren's missile opens up Death Spiral Machine's field (low end) = >74.929 zettatons
Super Galaxy Dai-Gurren's missile opens up Death Spiral Machine's field (high end) = >1.427 yottatons
Space King Kittan throws the missile = Mach 172.864
 
Gurren Lagann - Kittan's final sacrifice

Stocking Anarchy

Marvelous
V.I.P. Member
The old calc for this vanished for some reason...thankfully, I had it saved to Gdocs, so I can repost it here.
VAr7Vv.gif

YubD1xB.png
(Relevant text)
oIdnMmJ.jpg
A big explosion occurs. A torrent of light that shakes the galaxy!
(I've checked with a friend and this is an accurate translation.)

King Kittan's sacrifice shakes the entire galaxy. Looking back at my old Noo shake the Universe calc for help. First, the energy to shake one planet noticably enough to be felt, or at least magnitude 2.5, though the highest I could get by playing around with the impact calculator was magnitude 2.3, which results in 3.72 X 10^12 Joules. Next we need the area that get's shook. Divide that by 10,000 and you have 372000000 joules The radius of the Milky Way is 52,850 lightyears, or 3720000000000 joules of seismic energy.

I = S/4pa
372000000 = S/(4 X π X 4.99988926e20^2)
S = 372000000 X (4 X π X 4.99988926e20^2)
= 1.1686207e51/10^44
= 11.686207 MEGAFOE

Final Result
Kittan's final sacrifice = 11.686 MEGAFOE
 
Gurren Lagann - General Adiane sends a tidal wave

Stocking Anarchy

Marvelous
V.I.P. Member


General Adiane (in Sayrune) sends a giant tidal wave crashing into Dai-Gurren. Unfortunately, as all the old calcs with Gurren Lagann's size in them have crashed, we're going to need to rescale. Kamina is 184cm tall.
IGGbM1S.jpg
52 pixels = 184cm (1.84m)
1 pixel = 1.84m/52 = 0.0353846154m
0.0353846154m X 544 = 19.2492308m
0.0353846154m X 298 = 10.5446154m

Now scaling Gurren Lagann to Dai-Gunzan/Dai-Gurren...
x7Tu3gd.png
142 pixels = 19.2492308m
1 pixel = 19.2492308m/142 = 0.135557963m
0.135557963m X 2162 = 293.076316m

At last we can get the height of the wave.
nXr0Hye.png
470 pixels = 293.076316m
1 pixel = 293.076316m/470 = 0.62356663m
0.62356663m X 381 = 237.578886m
0.62356663m X 2076 = 1294.52432m

Next we need the distance it travelled and the width of the area it covered.
8DTyvCo.png
257 pixels = 237.578886m
1 pixel = 237.578886m/257 = 0.924431463m
0.924431463m X 2880 = 2662.36261m
object degree size = 2*atan(Object_Size/(Panel_Height/tan(70/2)))
= 2*atan(257/(1612/tan(70/2)))
= 0.150793492 rad
= 8.63983066966117619 degrees

When we enter this into the angscaler, we get a distance of 1572.5m of the wave to Dai-Gurren. To add the minimum distance it travelled after passing Dai-Gurren...

L = 1572.5m + 1294.52432m
= 2867.02432m

With length, height and width, we can add all of those together for our volume, and from volume, our mass. Volume as a rectangular prism.

V = lhw
= 237.578886 X 2662.36261 X 2867.02432
= 1.8134535e9m^3

Water weighs 1000kg/m^3.

M = 1.8134535e9 X 1000kg
= 1813453500000kg

So that's all the dimensions required for size, all we need now is the speed. How fast did the wave traverse the screen?
Yn5WrlI.png

XA4AUSx.png
Timeframe is 23 frames.

T = 1s/24
= 41.6666667ms X 23
= 0.958333334s

T = 1294.52432m/0.958333334s
= 1350.80799m/s

With everything we need, let's get our kinetic energy!

KE = (0.5)mv^2
= (0.5) X 1813453500000 X 1350.80799^2
= 1.65448818e18 joules
= 395.43216539196941994 megatons

Final Results
Gurren Lagann height = 19.249m
Dai-Gurren length = 293.076m
Sayrune creates a giant tidal wave = 395.432 megatons
 
Last edited:
Back
Top