Calculate Galactic Postition

 Calculate Galactic Postition


G - L 

T Total Distance

Q Quantum Position

V Visable Value

G Gravitational Wave

G Graviton

O Observed

M Mass


G  -18b° - c2024  Q  V  G°  G·  O^1  M*     Af



                                                                                   

                                                                                            

                                           



Red + 

Blue -

Pink +

Green -

Gold + - z 

Pink -

Green +


                                                               


                                                                             



Q = P × p² × v × O × 10^9





EquationVariables
Light Travel Timet=dct = \frac{d}{c}tt = Light travel time
dd = Distance
cc = Speed of light
Lookback Timetlookback=1H00zdz(1+z)Ωm(1+z)3+ΩΛt_{\text{lookback}} = \frac{1}{H_0} \int_{0}^{z} \frac{dz'}{(1 + z') \sqrt{\Omega_m (1 + z')^3 + \Omega_{\Lambda}}}tlookbackt_{\text{lookback}} = Lookback time
H0H_0 = Hubble constant
zz = Redshift
Ωm\Omega_m = Density parameter for matter
ΩΛ\Omega_{\Lambda} = Density parameter for dark energy
Comoving DistanceDc=cH00zdz(1+z)Ωm(1+z)3+ΩΛD_c = \frac{c}{H_0} \int_{0}^{z} \frac{dz'}{(1 + z') \sqrt{\Omega_m (1 + z')^3 + \Omega_{\Lambda}}}DcD_c = Comoving distance
Other variables as defined above
Angular Diameter DistanceDA=Dc1+zD_A = \frac{D_c}{1 + z}DAD_A = Angular diameter distance
DcD_c = Comoving distance
zz = Redshift
Luminosity DistanceDL=Dc×(1+z)D_L = D_c \times (1 + z)DLD_L = Luminosity distance
DcD_c = Comoving distance
zz = Redshift











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