Intro[]

Recalculates Meteor Fujitora but with a new distance

The Method[]

Using the same calculations as KT and use the same timeframe

Distance[]

because the rock that Fujitora drew was quite large from 14m - 100m and others. So it will be categorized as asteroid Fujitora is able to pull an asteroid from outer space but the exact location is unknown if Fujitora takes a rock from the asteroid belt it will be a massive High Ball then I will use the asteroid distance which is considered PHA because it is approaching Earth orbit (7.479.893,534 km)

Meteor 1[]

Dimension[]

Thousand Sunny Height: 56 m

Thousand Sunny Height: 117 px

Meteor Diameter: 222.3 px

Meteor Diameter: 106.4 m

Meteor Radius = 106.4/2 = 53.2

Meteor Volume = 630700.981 m^3

Kinetic Energy 1[]

Timeframe[]

https://www.watchframebyframe.com/watch/yt/jks-0yagKtY

First see meteor at 0500

Meteor hits target at 1811

So 1311 frames

1311/25 = 52.44 seconds

Speed[]

V = S/T

7.479.893.534/52.44 = 142637176.5 m/s

Kinetic Energy[]

Meteors have a density of 3700 kg/m^3

m = 630700.981 * 3700 = 2333593630

v = 142637176.5

Using Kinetic Energy Calculator = 2.3738906055105E+25 J (Multi-Continent level)

Meteor 2[]

Marine Battleship Lined Portion Size (For Meteor 2 Dimensions)[]

Thousand Sunny Height: 56 m

Thousand Sunny Height: 115.7 px

Marine Battleship Lined Portion: 120.8 px

Marine Battleship Lined Portion: 58.468452895419 m

Meteor 2 Dimensions[]

I'm calcing the meteor's diameter via the tail of the alabated meteor

And we know that it'd be thinner than the actual meteor, so it's just a lowball for now.

Chapter 717 is where the feat is, but you can check the colored version if you want to see how the meteor's alabated end looks.

Marine Battleship Lined Portion: 58.468452895419 m

Marine Battleship Lined Portion: 11 px

Meteor Tail Diameter: 110.5 px

Meteor Tail Diameter: 587.34218590398 m

Meteor Tail Radius: 587.34218590398/2 = 293.671092952 m

Volume = 106089452 m^3

Kinetic Energy 2[]

Timeframe[]

https://www.watchframebyframe.com/watch/yt/q3Of5jqVr4M

Gravity is finished being sent up at 0258

Meteor hits at 0474

0474 - 0258 = 216

216/25 = 8.64 seconds

Speed[]

V = S/T

7.479.893.534/8.64 = 865728418.3 m/s

Kinetic Energy[]

Meteors have a density of 3700 kg/m^3

M = 106089452 * 3700 = 392530972000

V = 865728418.3

Using Kinetic Energy Calculator = 1.4709817403246E+29 J (Moon)

Meteor 3[]

Dimensions[]

Trafalgar Law: 1.91 m

Trafalgar Law: 18 px

Meteor Diameter: 141 px

Meteor Diameter: 14.961666666667 m

Meteor Volume = 1753.63234 m^3

Meteor 3 Kinetic Energy[]

Timeframe[]

https://www.watchframebyframe.com/watch/yt/1mTgzFGPAdA

Sound of gravity stops at 190 and meteor gets close to the ground at Law's sword at 1278

1278-190 = 1088

1088/25 = 43.52 seconds

Speed[]

V = S/T

7.479.893.534/43.52 = 171872553.6 m/s

Kinetic Energy[]

Meteors have a density of 3700 kg/m^3

M = 1753.63234 * 3700 = 392530972000

V = 171872553.6

Using Kinetic Energy Calculator = 9.5834820452175E+22 J (Country level)

Result[]

Meteor 1 = 2.3738906055105E+25 J (Multi-Continent level)

Meteor 2 = 1.4709817403246E+29 J (Moon level)

Meteor 3 = 9.5834820452175E+22 J (Country level)

Thanks for KingTempest because I use your timeframe and pixelling