what value is this

[Sus]

destroying a spherical object that has the radius of a 1.92*10^47 milky ways.

 

[Sus]

bump

 

[Sus]

le hdksjkjd

 

[Urshani]

3-B, possibly 1-A

 

[Sus]

3-B, possibly 1-A

u think u funny or sum

 

[Urshani]

u think u funny or sum

yeah you're right

2-B, possibly 0

but fr 3-A

 

[Sus]

yeah you're right

2-B, possibly 0

but fr 3-A

lmfao i know it's 3A
i want the value

 

[EmilioRory10]

what is the object made of?

 

[FinePoint]

It depends on what it's made of and what the method of destruction is.
For example: vaporization will yield higher results than simply fragmenting it.

 

[Sus]

what is the object made of?

ehh something that large should be a star? idk

 

[Sus]

It depends on what it's made of and what the method of destruction is.
For example: vaporization will yield higher results than simply fragmenting it.

it's a game, all methods are possible, use the highest one

but for the object itself it can literally be anything, even a pigeon, but use a star for this

 

[Sus]

btw the 1.92*10^47 is the largest size i could render before the PC exploded so it's a bare minimum value

 

[EmilioRory10]

ehh something that large should be a star? idk

Gravitational Binding Energy:
1.251e+325 joules
which equals 4.42831e+232 times baseline universal

Is it Universe Sandbox 2 btw?

 

[Urshani]

btw the 1.92*10^47 is the largest size i could render before the PC exploded so it's a bare minimum value

what game this? universe sandbox?

 

[Sus]

Gravitational Binding Energy:
1.251e+325 joules
which equals 4.42831e+232 times baseline universal

Is it Universe Sandbox 2 btw?

u guessed it lol
the player is probably high 3A tho.

 

[EmilioRory10]

I used normal star density which is around 0.0004 kg / cubic meter according to google, though by that point such a density would turn it into a black hole

 

[Sus]

I used normal star density which is around 0.0004 kg / cubic meter according to google, though by that point such a density would turn it into a black hole

in that game a pigeon can be pretty much fine with this size so **** physics

what game this? universe sandbox?

yes

 

[FinePoint]

You can't use the normal GBE formula for stars, you also need to include a variable which accounts for the type of star.

 

[Urshani]

in that game a pigeon can be pretty much fine with this size so **** physics

yes

hm going to try this out with an iron ball

 

[EmilioRory10]

You can't use the normal GBE formula for stars, you also need to include a variable which accounts for the type of star.

oh

 

[Sus]

You can't use the normal GBE formula for stars, you also need to include a variable which accounts for the type of star.

a pigeon star

 

[FinePoint]

The formula is (3GM²)/[r(5-n)]
G = Constant
M = Mass
r = Radius
and N is a number from 0-3 depending on the type of star.

For a "pigeon star", or in other words: not a star, then n = 0.

 

[Sus]

a "pigeon star", or in other words: not a star, then n = 0.

did u just-

 

[FinePoint]

Regular solid object: n = 0
Neutron star: n = 1
Gas giant, red giant, brown dwarf, white dwarf: n = 1.5
Massive white dwarf, or stars like our sun: n = 3

Note: using an n of 3 will lead to the highest result.

 

[Sus]

Regular solid object: n = 0
Neutron star: n = 1
Gas giant, red giant, brown dwarf, white dwarf: n = 1.5
Massive white dwarf, or stars like our sun: n = 3

cool, what's the value then

 

[FinePoint]

cool, what's the value then

(3*(6.67430*10^-11)(4.1803380974*10^208)^2)/((1.92*10^68)(5-3))
This is the formula I plugged into a full precision calculator, using the density and n-value of our own sun.
The result was: 9.11*10^338 joules, Universe Level (3-A). 3.22*10^248x above baseline.

 

[Sus]

thanks