(2*6.67408e-11*1)/c^2=1.4851831e-27, rs
0.42441318157*1.4851831e-27^3=1.3903651e-81
m/v=1/1.3903651e-81=7.1923554e+80
[3110^3/[9677406.27/[m/
[(2Gm)/c^2]
*1.49241796e-10]]]
[[(10e-9/c^2)/
[
(2Gm)/c^2]]
/2242.58697665^3]/c^4
[3110^3/[9677406.27/[m/
[(2Gm)/c^2]
*1.49241796e-10]]]/[[(10e-9/c^2)/
[
(2Gm)/c^2]]
/2242.58697665^3]/c^4=f2
[3110^3/[9677406.27/[m/
[(2Gm)/c^2]
*1.49241796e-10]]]/[[(10e-9/c^2)/
[
(2Gm)/c^2]]
/2242.58697665^3]*m/c^2=ED, chemical potential
[3110^3/[13413183.7/[m/
[(2Gm)/c^2]
*1.076756663056355872e-10]]]
[[(10e-9/c^2)/
[
(2Gm)/c^2]]
/2242.58697665^3]/c^4
[3110^3/[13413183.7/[m/
[(2Gm)/c^2]
*1.076756663056355872e-10]]]/[[(10e-9/c^2)/
[
(2Gm)/c^2]]
/2242.58697665^3]/c^4=f2
[3110^3/[13413183.7/[m/
[(2Gm)/c^2]
*1.076756663056355872e-10]]]/[[(10e-9/c^2)/
[
(2Gm)/c^2]]
/2242.58697665^3]*m/c^2=ED, chemical potential
[m/c^2*hz-(m/c^2*hz)*f1 or f2]/(m/c^2*hz)
3110^3/(13413183.7/[7.1923554e+80*1.076756663056355872e-10])/[[(10e-9/c^2)/1.3903651e-81]/2242.58697665^3]/c^4
=
3110^3/(13413183.7/1.076756663056355872e-10)/[(10e-9/c^2)/2242.58697665^3]/c^4,
3.0302143e-6
3110^3/(9677406.27/[7.1923554e+80*1.49241796e-10])/[[(10e-9/c^2)/1.3903651e-81]/2242.58697665^3]/c^4
=
3110^3/(9677406.27/1.49241796e-10)/[(10e-9/c^2)/2242.58697665^3]/c^4,
5.82128875e-6
Explanation:
10e-9 is the estimation for the energy of the vacuum, 10e-9/c^2 is the mass of the energy of the vacuum. 1 into the schwarzschild radius, represents 1kg/m3. So for the two equations to be equal using vacuum energy to be a coincidence, is impossible.
I can only conclude that this constant is showing two opposite sides to a black hole. I'm unwilling to speculate right now.
This is a large object approaching its schwarzschild radius
The Sun: [2.21317223e13-(2.21317223e13*4.19930705e78)]/(2.21317223e13)=-4.1993071e+78
4.19930705e78/-4.1993071e+78=-0.99999998809
This is the Planck mass
[3110^3/[9677406.27/[1.2519875e+97]*1.49241796e-10]]]/[[(10e-9/c^2)/[1.738396e-105]]/2242.58697665^3]/c^4=5688357.92
[(2.17645e-8/c^2*hz)-(2.17645e-8/c^2*hz*5688357.92)]/(2.17645e-8/c^2*hz)=-5 688 356.92
5688357.92/-5688356.92=-1.0000001758, which was my predicted value for an extra dimensional object, providing not contradiction for quantum mechanics, but supporting it.
I wanna see if I can theorize particles outside of the universe.
Assuming mega hertz relative to density kg/m^3
3110^3/3110/c^2=1.07616626e-10
(1.07616626e-10/amu)/c^2=0.721089008
0.721089008*3110=2242.58681488
3110^3/2242.58681488/c^2=1.49241806e-10
1.07616626e-10*c^2=9672099.99
1.49241806e-10*c^2=13413184.6
[3110^3/[9672099.99/[m/(2*6.67408e-11*m/c^2)]*1.49241806e-10]
[[(10e-9/c^2)/(2*6.67408e-11*m/c^2)]/2242.58681488]/c^4
[3110^3/[9672099.99/[m/(2*6.67408e-11*m/c^2)]*1.49241806e-10]/[[(10e-9/c^2)/(2*6.67408e-11*m/c^2)]/2242.58681488]/c^4=f1
(m/c^2*hz)-(m/c^2*hz*f1)
[(m/c^2*hz)-(m/c^2*hz*f1)]/(m/c^2*hz)=Ratio
I'm excluding Noble Gases
Hydrogen: [(71/c^2*hz)-[(71/c^2*hz)*0.000413311509]]/(71/c^2*hz)=0.999586688
Lithium: [(535/c^2*hz)-(535/c^2*hz*0.0031160976)]/(535/c^2*hz)=0.996883902
Beryllium: [(535/c^2*hz)-(535/c^2*hz*0.010717046)]/(535/c^2*hz)=0.989282954
Boron: [(2460/c^2*hz)-(2460/c^2*hz*0.0143282245)]/(2460/c^2*hz)=0.985671775
Carbon: [(3539/c^2*hz)-(3539/c^2*hz*0.02061284)]/(3539/c^2*hz)=0.97938716
Nitrogen: [(1.165/c^2*hz)-(1.165/c^2*hz*6.78552095e-6)]/(1.165/c^2*hz)=0.999993214
Oxygen: [(1141/c^2*hz)-(1141/c^2*hz*0.00664573337)]/(1141/c^2*hz)=0.993354267
Fluorine: [(1.696/c^2*hz)-(1.696/c^2*hz*9.8783206e-6)]/(1.696/c^2*hz)=0.999990122
Sodium: [(968/c^2*hz)-(968/c^2*hz*0.00563809809)]/(968/c^2*hz)=0.994361902
Magnesium: [(1740/c^2*hz)-(1740/c^2*hz*0.0101345978)]/(1740/c^2*hz)=0.989865402
Aluminium: [(2710/c^2*hz)-(2710/c^2*hz*0.0157843451)]/(2710/c^2*hz)=0.984215655
Silicon: [(2330/c^2*hz)-(2330/c^2*hz*0.0135710419)]/(2330/c^2*hz)=0.986428958
Phosphorus: [(1823/c^2*hz)-(1823/c^2*hz*0.0106180298)]/(1823/c^2*hz)=0.98938197
Sulfur [(1960/c^2*hz)-(1960/c^2*hz*0.0114159837)]/(1960/c^2*hz)=0.988584016
Chlorine: [(573/c^2*hz)-(573/c^2*hz*0.0033374279)]/(573/c^2*hz)=0.996662572
Potassium: [(856/c^2*hz)-(856/c^2*hz*0.00498575623)]/(856/c^2*hz)=0.995014244
To be continued:
Assuming density relative to mhz:
Just a Theory, Pirate c: (3110mhz)^3/[e/(m/v)]=cpu, s^3/ED=p, or
The processing limit to a single core circuit processor (dictated by electromigration and the speed of light) cubed, divided by the available energy density is equal to processing capacity in mhz (cpu speed in mega hertz).
3110^3/3110/c^2=1.07616626e-10
1.07616626e-10/amu=6.48082551e+16amu
Into Unified atomic mass units (including electron masses):
(6.48082551e+16amu)+(3.555250784e+13amu) which is plus electrons.
6.48438076e+16/c^2,
1.07616626e-10*c^2=9677406.27
3110^3/c^2/2242.58697665=1.49241796e-10
1.49241796e-10Kg*c^2=13413183.7J
s^3/13413183.7/ED=2242.58697665mhz, ed=13413183.7/(1/1),
Update* assuming density not relative to mhz (I'm kind betting mhz is relative to density):
(3110000000^3/3110000000)/c^2=(3110000000^2/c^2)=107.616626,
(6.4808252694e+28amu)*9.10938356e-31+6.4843805e+28= which is plus electrons.
6.4843805e+28/c^2=7.21484633e11,
7.21484633e11/3110000000=231.988627974
3110000000^3/c^2/231.988627974=1.44269014e9
1.44269014e9*c^2=1.29662523e26
3110000000^3/[(1.29662523e26/(d*107.616626)]=amu/hz
Iron: 3110000000^3/[(1.29662523e26/(7.874*107.616626)]=196580.973532hz
3110000000^3/[(1.29662523e26/(1.60218e-19/1*107.616626)]
