Initial considerations[]
First, I will determine the escape velocity of the Kurohitsugi.
For this, let's start from the point that, the Kurohitsugi's gravitational force created a fissure in the barrier that covers Seireitei, he literally 'absorbed' the Shakonmaku.
According to the first databook, Shakonmaku is a radiation emitted by the Sekki-seki , ore from which the walls around the Seireitei are composed.
With this, we have that the Shakonmaku is a radiation emitted in waves, an electromagnetic radiation. That travels in a visible frequency, that is, visible light.
In addition to presenting other characteristics of light, such as not interacting with other light sources, that is, sunlight. That simply passes through the Shakonmaku and reaches the Seireitei.
In conclusion, the escape velocity of the Kurohitsugi is greater than the speed of light.
Calc[]
Muken's chair is about the same height as the Kyoraku, 1.92m.
- Pixel: https://imgur.com/a/QI8hMc2
- Chair Height (Red line) = 44px | 1.92m
- Width of the Kurohitsugi (Green line) = 1668px | 72.785m
Associating visually, the height of the Kurohitsugi is approximately double the width .
- H = 72.785 * 2
- H = 145.57m
Volume of the Kurohitsugi.
- V = 145.57 * 72.785 * 72.785
- V = 771179.816 m³
I need the lightning to calculate the mass of the Kurohitsugi, so I will assume that this volume is from a sphere and uses it to find the ray.
- V = 4/3 * Pi * R³
- R = 56.888 m
Using the escape velocity of a spherical body to find the mass.
- 299792458² = 2 * 6.67408e-11 * M / 56.888
- M = 3.8303694e+28 kg
Gravitational bonding energy is used for the creation and destruction of stars and planets, so I think this is applicable here.
- U = 3 * 6.67408e-11 * M² / 5*56.888
- U = 1.0327692802e+45 J
Results[]
GBE of Kurohitsugi = 10.32 Foe (Large Star, High 4-C)