Cosmology Evolution of the Multiverse
n for k=0; 1; 2; 3; ...universes |
Scalefactor a=ao=n/[n+1] |
Redshift z0=f(zm) comoving z=zo= √(1+2/ n[n+2]) -1 |
Time t=to=n/Ho =nRH/c M-G-T-P years; s*; My;Gy;Ty;Py |
Temp T0 T=To= ∜(18.2 [n+1]2/n3) K* in conifolded dS |
Ro=aoRHubble REvent=nRH RParticle=T(n)RH Rylem = √kTRe3/Gomc2 m* |
H=Ho/T[n] and H'=Ho/n ||nps- 1|| dH/dt= -2H2([n+1]2-¼) dS -Ho2/n2 AdS (s-1/s-2)* (km/Mpcs)* |
Dec-Par qdS= 1/2n -1 qAdS=2n |
Vo=vrecession Ao=amilgröm (ms-1/ms-2)* |
BM-DM ΩBM=MoYn/MH to BM∩DM ΩDM=ΩBMx [1+1/n]3-1} after saturation |
DE % Pressure Lambda DE Λ0=GoMo/R02 -2cHo/[n+1]3 Λ0/R0=GoMo/R03 -2Ho2/[n][n+1]2 -P0=Λ0c2/4πGoR0 s-2*; (Jm-3)* |
HyperMass MHyper= c2rpsYn/2Go kg* |
nGenesis=Honps Hoλps/RH = Ho2/fps 1.175x10-66 |
- | - | - | 7.545x1037 T= hRH/kλps |
- | - | - | - | E=hF=kT=Mc2 | - | M=hRH/λpsc2 =0.0118346323 (33/20)12mcNAv |
nStoney=HotS 7.019x10-62 Planck Oscillation |
- | - | tS=2πλS/c =2π[e/c3 3.738x10-44 s* |
TS= mSc2/k 7.937x1033 |
lS=lP√alpha =[e/c2] 1.7850x10-36 |
- | - | - | - | - | mS=h/lSc 1.2450x10-6 |
nPlanckI=HotP Ho√(hGo/2πc5) 8.217x10-61 |
- | - | tP=2πlP/c = √(2πhGo/c5) 4.376x10-43 s* |
TP= mPc2/k 1.079x1032 |
lP=√(hGo/2πc3) 2.090x10-35 |
- | - | - | - | - | mP=√(hc/2πGo) =1.692569x10-8 |
nMonopoleIIB=Hotm 2.886x10-58 |
- | - | tm=h/mmc2 = 1.5370x10-40 s* |
Tm= mmc2/k 3.072x1029 |
4.6110x10-32 de Broglie λ=h/mmc |
- | - | - | - | - | mm=[ec] 4.819369x10-11 |
nXLBosonHO32=HotXL 4.134x10-57 |
- | - | tXL=h/mXLc2 = 2.2016x10-39 s* |
TXL= mXLc2/k 2.145x1028 |
6.6048x10-31 de Broglie λ=h/mXLc |
- | - | - | - | - | mXL= alpha.mps/ec] 3.36455x10-12 |
nCosmicRayIIA=HotCR 1.243x10-51 |
- | - | tCR=h/mCRc2 = 6.6182x10-34 s* |
TCR= mCRc2/k 7.135x1022 |
1.9855x10-25 de Broglie λ=h/mCRc |
- | - | - | - | - | mCR=hA/2ec2 =1/{B(0)c2} 1.1192x10-17 |
n(tGenesis)= nFalseVacuum= ∛{{Ho3Mo/1100π2σ}{npsk/h}4} = 8.252x10-51 De Broglie Matter |
8.252x10-51 | - | tGenesis=nGenesis/Ho = 4.395x10-33 s* | T(nGenesis) =∜{{Ho3Mo/1100π2σ}.{(nGenesis+1)2/nGenesis3}} = 7.5448x1037 K* in the Higgs false vacuum and {npsk/h}|mod. | RH=1.5977x1026 | - | - | vdB=RHfps 4.7930x1056 adB=RHfps2 1.4379x1087 |
E=hF=kT=Mc2 | - | M=hRH/λpsc2 =0.0118346323 (33/20)12mcNAv |
n(tdBmin) = 8.772x10-51
|
8.772x10-51 | - | tdBmin= qotps = ndBmin/Ho = nps{GoMo/c3}= 4.672x10-33 s* |
T(ndBmin)=∜{{Ho3Mo/1100π2σ}.{(ndBmin+1)2/ndBmin3}} = 7.206x1037 K* in the Higgs false vacuum from the DE gradient instanton bounce for deceleration parameter qo=Λo/AdB |
RH=1.5977x1026 | - | - | vdB=RHfps 4.7930x1056 adB=RHfps2 1.4379x1087 |
E=hF=kT=Mc2 | - | M=hRH/λpsc2 =0.0118346323 (33/20)12mcNAv |
n(tdBmin) = 1.754x10-50
|
1.754x10-50 | - | 2tdBmin= Ωotps = 2ndBmin/Ho = nps{2GoMo/c3}= 9.343x10-33 s* | T(ndBmin)=∜{{Ho3Mo/1100π2σ}.{(ndBmin+1)2/ndBmin3}} = 4.285x1037 K* in the Higgs false vacuum from the DE gradient instanton bounce for Ωo=Mo/MH | RH=1.5977x1026 | - | - | vdB=RHfps 4.7930x1056 adB=RHfps2 1.4379x1087 |
E=hF=kT=Mc2 | - | M=hRH/λpsc2 =0.0118346323 (33/20)12mcNAv |
n(tHPFV) = 2.435x10-50
|
2.435x10-50 | - | tHPFV={T(nps)/TEMPERATURE}tps =nHPFV/Ho = 1.297x10-32 s* | T(nHPFV) =∜{{Ho3Mo/1100π2σ}.{(nHPFV+1)2/nHPFV3}} = 3.351x1037 K* in the Higgs false vacuum | RH=1.5977x1026 | - | - | vdB=RHfps 4.7930x1056 adB=RHfps2 1.4379x1087 |
E=hF=kT=Mc2 | - | M=hRH/λpsc2 =0.0118346323 (33/20)12mcNAv |
n(tdBmax) =nFalseVacuum
|
5.347x10-50 | - | tdBmax=[√α]tps 2.847x10-32 s* 1/F=nps |
T(ndBmax) =∜{{Ho3Mo/1100π2σ}.{(ndBmax+1)2/ndBmax3}} =1.857x1037 K* in the Higgs false vacuum from the Planck-Stoney inflaton time bounce | RH=1.5977x1026 | - | - | vdB=RHfps 4.7930x1056 adB=RHfps2 1.4379x1087 |
E=hF=kT=Mc2 | - | M=hRH/λpsc2 =0.0118346323 (33/20)12mcNAv |
k=0 initiated n=nps 1st Instanton from 1st Inflaton RE=noRH=RH nps=λps/RH=Ho/fps Instanton HE64 Quantum Big Bang Max DE Quantum Tunnel 1 String Era to k=0 ↪ |
6.26x10-49 | 1.26x1024 | tps= 3.333x10-31 s* |
Tps= 2.935x1036 |
λps=2πrps=10-22 1.0001x10-22 1.0001x10-22 |
H|dS=Ho/Tn=c/λps=fps H'=Ho/n= c/nRH=3x1030 dH/dt|dS= -2Ho2([n+1]2-¼)/ ([n][n+1])2 =-(1.5/nps2) Ho2 =-3.8289x1096 Ho2 dH/dt|AdS= -Ho2/n2 =-Ho2/{nps2}=-fps2 =-9x1060 |
qdS= 1/2n -1 =1/2nps- 1 qAdS=2n =2nps 7.988x1047 1.252x10-48 |
c=3x108 -2cHo=-2Ho2/RH -1.12664x10-9 |
0.02803 0.97197 1 |
0 Λo= GoMo/λps2-2cHo =2.01522x1085 Λo/Ro= GoMo/λps3 -2Ho2RH/λps =GoMo/λps3 -2Hofps =2.01522x10107 -P=Λoc2/4πGoRo =1.2990x10133 n≥nps |
mH=6445.7752 mps=2.222x10-20 Yn=2πRH/λps =MH/mH |
n=3.562x10-27 Bosonic Unification |
3.562x10-27 | 1.68x1013 | 1.897x10-9 s* |
hfps/k= 1.417x1020 |
0.569092 | H=Ho/Tn=5.27x108 H'=c/nRH=5.27x108 -1.1822x1053 Ho2 -7.8813x1052 Ho2 |
1.4037x1026 7.124x10-27 |
c -1.12664x10-9 |
0.02803 0.97197 1 |
0 6.2224x1041 1.0934x1042 7.0478x1067 |
6,445.775 |
n=5.145x10-21 Electro-Weakon Separation 298.785 GeV* Higgs/XL Expectation |
5.145x10-21 | 1.39x1010 | 0.00274 s* |
3.400x1015 | 822,004.02 | H=Ho/Tn=364.96 H'=c/nRH=364.96 -5.6666x1040 Ho2 -3.7778x1040 Ho2 |
9.718x1019 1.029x10-20 |
c -1.12664x10-9 |
0.02803 0.97197 1 |
0 2.9825x1029 3.6283x1023 2.3387x1049 |
6,445.775 |
nG=2.1228x10-15 Ylem-G Protostar RG=λps∛{G}/2π =3.391558x1011 m* |
2.1228x10-15 | 2.170x107 | 1130.515 s* Meson VPE Inner Primordial Neutron Decay |
2.089x1011 | 3.39156x1011 - - Rylem=24,029.3 |
H=Ho/Tn=8.85x10-4 H'=c/nRH=8.85x10-4 -3.3287x1029 Ho2 -2.2191x1029 Ho2 |
2.3554x1014 4.2456x10-15 |
c -1.12664x10-9 |
0.02803 0.97197 1 |
0 1.7520x1018 5.1657x106 3.3297x1032 |
6,445.775 |
nF=2.1601x10-15 Ylem=F-Protostar RF=λps∛{F}/2π =3.4510775x1011m* |
2.1601x10-15 | 2.152x107 | 1150.380 s* Meson VPE Outer Primordial Neutron Decay |
2.061x1011 | 3.45108x1011 - - Rylem=23,872.9 |
H=Ho/Tn=8.69x10-4 H'=c/nRH=8.69x10-4 -3.2147x1029 Ho2 -2.1431x1029 Ho2 |
2.3147x1014 4.3202x10-15 |
c -1.12664x10-9 |
0.02803 0.97197 1 |
0 1.6921x1018 4.9027x106 3.1602x1032 |
6,445.775 |
nE=2.1506x10-12 Ylem-E-Planetesimal RE=λps∛{E}/2π =3.4359711x1014 m* |
2.1506x10-12 | 681,835 | 1,145,320.3 13d6h8m 40.3s* |
1.163x109 | 3.43597x1014 - - Rylem=1,793.13 |
H=Ho/Tn=8.73x10-7 H'=c/nRH=8.73x10-7 -3.2432x1023 Ho2 -2.1621x1023 Ho2 |
2.3249x1011 4.3012x10-12 |
c -1.12664x10-9 |
0.02803 0.97197 1 |
0 1.7070x1018 4.9680x10-3 3.2023x1023 |
6,445.775 |
n=2.3x10-5 Recombination Start |
2.30x10-5 | 293.9 | 388,141.5 y | 2945 | 3.6746x1021 - - |
H=Ho/Tn=8.16x10-14 H'=c/nRH=8.16x10-14 -2.8356x109 Ho2 -1.8904x109 Ho2 |
21,738.13 4.6x10-5 |
0.999954 c -1.12656x10-9 |
0.02803 0.97197 1 |
0 0.01492 4.0617x10-24 261.8076 |
6,445.8 |
n=6.3x10-5 Recombination End |
6.30x10-5 | 177.2 | 1.0632 My | 2935 | λss=1/λps=1022 - - |
H=Ho/Tn=2.98x10-14 H'=c/nRH=2.98x10-14 -3.7794x108 Ho2 -2.5195x108Ho2 |
7935.51 1.26x10-4 |
0.999874 c -1.12642x10-9 |
0.02803 0.97197 1 |
0 2.0152x10-3 1.9766x10-25 12.7409 |
6,446.0 |
n=0.000393425 | 3.93x10-4 | 49.421 | 6.6395 My | 739.53 | 2πx1022 - - |
H=Ho/Tn=4.77x10-15 H'=Ho/n=4.77x10-15 -9.6935x106 Ho2 -6.4606x106 Ho2 |
1269.89 7.8685x10-4 |
0.999214 c -1.1253x10-9 |
0.02804 0.971976 1 |
0 5.1045x10-5 8.1241x10-28 0.05237 |
6,447.0 |
n=0.014015 for adB/ΛBM=Mo/2MH RSarkar =GoMo/c2 |
0.01382 | 7.478 | 236.5186 My | 51.062 | 2.2391x1024 - - |
H=70.37 Ho=4084.04 H'=Ho/n=4141.28 -7706.57 Ho2 -5091.13 Ho2 |
34.6761 0.02803 |
0.97255 c -1.0806x10-9 |
0.02822 0.97178 1 |
0 3.9115x10-8 1.8227x10-32 1.1749x10-6 |
6,489.4 |
n=0.02803 for ΩBMo Supercluster Seeds |
0.02727 | 5.015 | 473.0373 My | 30.571 | 4.3562x1024 - - |
H=34.703 Ho=2014.2 H'=Ho/n=2070.64 -1943.40 Ho2 -1272.78 Ho2 |
16.8380 0.05606 |
0.94621 c -1.0370x10-9 |
0.02841 0.97159 1 |
0 9.5827x10-9 2.1998x10-33 1.4179x10-7 |
6,533.3 |
n=0.056391 Radiation-DM Equilibrium |
0.05338 | 3.272 | 0.9517 Gy | 18.335 | 8.5285x1024 - - |
H=16.787 Ho=974.30 H'=Ho/n=1029.24 -488.04 Ho2 -314.47 Ho2 |
7.8667 0.112782 |
0.89609 c -9.5567x10-10 |
0.02880 0.97120 1 |
0 1.8150x10-9 2.1281x10-34 1.3717x10-8 |
6,623.1 |
n=0.1082331 Λ0=0 from +/- 1st Λ0 Root |
0.09766 | 2.125 | 1.8265 Gy | 11.523 | 1.5603x1025 - - |
H=8.337 Ho=483.89 H'=Ho/n=536.27 -135.98 Ho2 -85.365 Ho2 |
3.6198 0.21646 |
0.8142 c -8.2774x10-10 |
0.02953 0.97047 1 |
0 0 1st Λ0 Root +/- 0 0 |
6,790.4 |
n=0.132711 Critical Redshift Boundary Mirror for apparent cosmic acceleration DE |
0.11716 | 1.840 | 2.2396 Gy | 9.9976 | 1.8712x1025 - - |
H=6.652 Ho=386.10 H'=Ho/n=437.34 -91.43 Ho2 -56.779 Ho2 |
2.7676 0.26542 |
0.7794 c -7.7522x10-10 |
0.02988 0.97012 1 |
0 -1.9967x10-18 -1.0689x10-35 -6.8899x10-10 |
6,870.8 |
n=0.23890175 Λ0 = Minimum DE Peak of Galaxies Λ0 |
0.19283 | 1.177 | 4.0317 Gy | 6.7278 | 3.0803x1025 - - |
H=3.379 Ho=196.10 H'=Ho/n=242.95 -29.3350 Ho2 -17.521 Ho2 |
1.0929 0.4748 |
0.6515 c -5.9248x10-10 |
0.03144 0.96856 1 |
0 -3.8009x10-10 Λo Minimum -1.2340x10-35 -7.9538x10-10 |
7,231.1 |
n=½ k=0 DE Initiation |
0.33333 | 0.612 | 8.4381 Gy | 4.2544 | 5.3256x1025 - - |
H=1.333 Ho=77.39 H'=Ho/n=116.08 -7.1111 Ho2 -4.0000 Ho2 |
0 1 k=0 DE Initiation |
0.4444 c -3.3382x10-10 |
0.0357 0.9282 0.9639 |
0.0361 -2.6276x10-10 -4.9340x10-36 -3.1803x10-10 |
8,199.2 |
n=0.5858 BM∩DM Image |
0.36940 | 0.523 | 9.8860 Gy | 3.8845 | 5.9019x1025 - - |
H=1.076 Ho=62.48 H'=Ho/n=99.08 -5.2488 Ho2 -2.9141 Ho2 |
-0.1465 1.1716 |
0.3977 c -2.8251x10-10 |
0.0372 0.7008 0.7380 |
0.2620 -2.2466x10-10 -3.8065x10-36 -2.4536x10-10 |
8544.8 |
n=X=0.618034 | 0.38197 | 0.495 | 10.4300 Gy | 3.7692 | 6.1026x1025 - - |
H=Ho=58.04 H'=Ho/n=93.91 -4.7361 Ho2 -2.6180 Ho2 |
-0.1910 1.2361 |
0.3820 c -2.6596x10-10 |
0.0377 0.6388 0.6765 |
0.3235 -2.1185x10-10 -3.4715x10-36 -2.2376x10-10 |
8.678.3 |
n=0.86729 = npresent dS apparent cosmic acceleration DE |
0.46446 | 0.3432 | 14.6365 Gy | 3.1405 | 7.4206x1025 - - |
H=0.617 Ho=35.84 H'=Ho/n=66.92 -2.4683 Ho2 -1.3294 Ho2 |
-0.4235 1.7346 |
0.28680 c -1.7304x10-10 |
0.04255 0.38211 0.42466 |
0.5754 -1.3644x10-10 -1.8387x10-36 -1.1852x10-10 |
9,784.3 |
1st Mirror Node n=1 Semi Hubble Cycle 2nd Inflaton imaged in {nps} |
0.50000 | 0.2910 | to=t-tps=1/Ho 16.8761 Gy |
2.9210 | 8.4837x1025 1.5977x1026 3.1954x1026 |
H=½ Ho=29.02 H'=Ho/n=58.04 -1.8750 Ho2 -1.0000 Ho2 |
-½ 2 |
0.25000 c -1.4083x10-10 |
0.04535 0.31745 0.36280 |
0.6372 -1.1283x10-10 -1.3676x10-36 -8.8153x10-11 |
10,429.5 |
k=1 initiated n=nps+1 n1=234.472 2nd Instanton from 2nd Inflaton RE1=n1RH |
Scalefactor {xn1} a1=[n-1] /[n-1+n1] a1<0 for n<[1]+n1/ [n1-1]= 469.944/ 233.472 =2.01285 lim {1+1+=2+} |
Redshift z1 n=1+nps [z+1]2 = 1+2n12/ {n2+2n[n1-1] +1-2n1} =1+n1/nps 1.9356x1025 |
Time t1 t1=t-to =(n-1)/Ho =(n+nps-1)RH/c |
Temp T14 18.2 ([n-1+n1)2 /{n12 (n-1)3} = 2.936x1036 |
R1=n1[n-1]RH/[n-1+n1] =λps=10-22 R1E=[n-1]RH =λps =1.0000x10-22 R1P= [n-1+n1]R1E =n1λps =2.34472x10-20 |
H|dS=n1Ho/ {[n-1][n-1+n1]} =fps H'=Ho/(n-1) =fps=3x1030 ||nps+1 - n1+1|| dH/dt|dS= -2n1Ho2([n-1+n1]2 -¼n12)/([n-1][n-1+n1])2 =-(3n1/2nps2) Ho2 =-8.9776x1098 Ho2 dH/dt|AdS= -Ho2/(n-1)2 =-fps2=-9x1060 |
qdS= n1/2[n-1] -1 =n1/2nps -1 qAdS= 2[n-1]/n1 =2nps/n1 1.873x1050 5.339x10-51 |
V1=cn12/ (n-1+n1)2 A1=-2cHon12/ (n-1+n1)3 =2cHo/n1 =-4.8050x10-12 |
BM-DM ΩBM= MoYN1/MH N1=[n-1]/n1 to BM∩DM ΩDM=ΩBM.{[1+1/N1]3-1} ={1+n1/[n-1]}3-1 after saturation 0.02803 0.97197 1 |
DE % Pressure 0 Λ1=GoMo/R12 -2cHon12/ [n-1+n1]3 =GoMo/λps2 -2cHo/n1 =2.01522x1085 Λ1/R1= GoMo/R13 -2Ho2n1/[n-1] [n-1+n1]2 GoMo/λps3 -2Hofps/n1 =2.01522x10107 -P1=Λ1c2/4πGoR1 =1.2990x10133 n≥1+nps |
HyperMass MHyper= mHY{[n-1]/n1} MH*=n1MH =1.51717x1055 mps=2.22x10-20 Y{[n-1]/n1} =2πn1RH/λps =MH*/mH mH=6445.775 |
n=1.132711↩ = npresent AdS imaged in {0.132711;0.86729} ↪ |
0.53111 5.6568x10-4 (0.13264) |
0.25045 41.039 |
19.1158 Gy 2.23964 Gy |
2.7472 9.3964 |
8.4855x1025 1.8097x1026 3.8596x1026 2.1191x1025 2.1203x1025 4.9743x1027 |
H=0.414 Ho=24.03 H'=Ho/[2-n] =66.92 -1.4731 Ho2 -0.7794 Ho2 H=7.5309 Ho H'=Ho/(n-1)=437.34 -20,743.89 Ho2 -56.7788 Ho2 |
-0.5586 2.2654 882.393 1.132x10-3 |
0.21985 c -1.1614x10-10 0.99886 c -4.7969x10-12 |
0.04834 0.27432 0.32266 0.02804 0.97196 1 |
0.677234 -8.81537x10-11 -1.0389x10-36 -6.69636x10-11 0 4.4397x10-10 2.0951x10-35 1.35047x10-9 |
11,117.26 6,447.6 |
n=1.41421=√2↩ BM∩DM Intersect ΩBM=constant k=0 imaged in {0.41421;0.58579} ↪ |
0.58579 1.7635x10-3 (0.41348) |
0.1892 22.803 |
23.8664 Gy 6.99025 Gy |
2.4747 4.004 |
9.3592x1025 2.2594x1026 5.4548x1026 6.6061x1025 6.6177x1025 1.5544x1028 |
H=0.293 Ho=17.00 H'=Ho/[2-n]=99.08 -0.9571 Ho2 -0.5000 Ho2 H=2.4104 Ho H'=140.12 -20,129.25 Ho2 -5.8285 Ho2 |
-0.6464 2.8284 282.035 3.533x10-3 |
0.1716 c -8.0068x10-11 0.99648 c -4.7796x10-12 |
0.05536 0.22005 0.27541 BM-DM Saturation BM∩DM Intersect ΩBM=constant k=0 0.02805 0.97195 1 |
0.72459 -5.7062x10-11 -6.0969x10-37 -3.9300x10-11 0 4.1400x10-11 6.2641x10-37 4.0377x10-11 |
12,730.0 6,451.3 |
n=Y=1.618034↩ imaged in {X;1-X} ↪ |
0.61803 2.6289x10-3 (0.61641) |
0.1583 18.491 |
27.3061 Gy 10.4300 Gy |
2.3295 2.9671 |
9.8736x1025 2.5851x1026 6.7679x1026 9.8482x1025 9.8741x1025 2.32130x1028 |
H=0.236 Ho=13.70 H'=Ho/[2-n]=151.95 -0.7361 Ho2 -0.3820 Ho2 H=1.6138 Ho H'=93.91 -922.40 Ho2 -2.6180 Ho2 |
-0.6910 3.2361 188.692 5.272x10-3 |
0.1459 c -6.2785x10-11 0.99475 c -4.7672x10-12 |
0.05536 0.17915 0.23451 0.02807 0.97193 1 |
0.76549 -4.2114x10-11 -4.2653x10-37 -2.7493x10-11 0 1.6011x10-11 1.6258x10-37 1.0480x10-11 |
14,041.8 6,454.0 |
n=2 Full Hubble Cycle imaged in {nps;1} ↪ |
0.66666 4.2468x10-3 (0.99575) |
0.1180 14.329 |
33.7522 Gy 16.8761 Gy |
2.1272 2.0699 |
1.0650x1026 3.1954x1026 9.5861x1026 1.5909x1026 1.5977x1026 3.7621x1028 R1E=RH |
H=0.167 Ho=9.69 H'=Ho/[n-2]=fps -0.4861 Ho2 -0.2500 Ho2 H=0.9958 Ho H'=58.04 -352.70 Ho2 -1.0000 Ho2 |
-0.7500 4.0000 116.236 8.530x10-3 |
0.1111 c -4.1727x10-11 0.99152 c -4.7440x10-12 |
0.05536 0.13148 0.18684 0.02809 0.97191 1 |
0.81316 -2.3960x10-11 -2.2499x10-37 -1.4502x10-11 0 3.2183x10-12 2.0229x10-38 1.3039x10-12 |
16,875.3 6,459.1 |
n=2.29966↪ imaged in {0.29966;0.70034} Λ1=0 from +/- 1st Λ1 Root ↪ |
0.69694 5.5124x10-3 (1.29250) |
0.0965 12.450 |
38.8093 Gy 21.9332 Gy |
2.0091 1.7016 |
1.1135x1026 3.6741x1026 1.2123x1027 2.0650x1026 2.0764x1026 4.8956x1028 |
H=0.132 Ho=7.65 H'=Ho/[n-2]=193.67 -0.3695Ho2 -0.1891Ho2 H=0.7652 Ho H'=44.66 -208.98 Ho2 -0.5920 Ho2 |
-0.7826 4.5993 89.2051 0.01109 |
0.0918 c -3.1360x10-11 0.98901 c -4.7260x10-12 |
0.05536 0.10818 0.16354 0.02810 0.97190 1 |
0.83646 -1.5107x10-11 -1.3566x10-37 -8.7447x10-12 0 0 1st Λ1 Root +/- 0 0 |
19,492.9 6,463.0 |
n=2.4148↪ imaged in {0.4148;0.5858} ↪ |
0.70716 5.9978x10-3 (1.40631) |
0.0898 11.893 |
40.7524 Gy 23.8763 Gy |
1.9703 1.5970 |
1.1299x1026 3.8581x1026 1.3175x1027 2.2468x1026 2.2604x1026 5.332x1028 |
H=0.121 Ho=7.04 H'=Ho/[n-2]=139.92 -0.3356 Ho2 -0.1715 Ho2 H=0.7025 Ho H'=41.02 -176.43 Ho2 -0.5000 Ho2 |
-0.7929 4.8296 81.8640 0.01207 |
0.0858 c -2.8294x10-11 0.98804 c -4.7191x10-12 |
0.05536 0.10119 0.15655 0.02811 0.97189 1 |
0.84345 -1.2509x10-11 -1.1069x10-37 -7.1349x10-12 0 -7.8752x10-13 -3.2356x10-39 -2.0856x10-13 |
20,603.4 6,464.5 |
n=3.40055↩ imaged in {0.40055;0.59945} Λ0=0 from -/+ 2nd Λ0 Root ↪ |
0.77276 0.010134 (2.37622) |
0.0530 8.9084 |
57.3880 Gy 40.5119 Gy |
1.7303 1.0765 |
1.2346x1026 5.4330x1026 2.3908x1027 3.7964x1026 3.8353x1026 9.0847x1028 |
H=0.067 Ho=3.88 H'=Ho/[4-n]=96.86 -0.1707 Ho2 -0.0865 Ho2 H=0.4127 Ho H'=24.18 -61.44 Ho2 -0.1735 Ho2 |
-0.8530 6.8011 47.8371 0.02049 |
0.0516 c -1.3221x10-11 0.97983 c -4.6604x10-12 |
0.05536 0.06461 0.11997 0.02817 0.97183 1 |
0.88003 0 2nd Λ0 Root -/+ 0 0 0 -3.2621x10-12 -8.5926x10-39 -5.5386x10-13 |
33,109.2 6,477.6 |
n=6.541188↪ DM Saturation BM k=0 ↪ |
0.86739 0.023087 (5.41326) |
0.0177 5.5437 |
110.3898 Gy 93.5137 Gy |
1.3867 0.5786 |
1.3858x1026 1.0451x1027 7.8811x1027 8.6486x1026 8.8530x1026 2.1248x1029 |
H=0.020 Ho=1.176 H'=Ho/[n-6] =107.25 -0.0465 Ho2 -0.0234 Ho2 H=0.1763 Ho H'=10.474 -11.629 Ho2 -0.0326 Ho2 |
-0.9236 13.0823 20.1546 0.04727 |
0.0176 c -2.6270x10-12 0.9544 c -4.4798x10-12 |
0.05536 0.02947 0.08483 0.02835 0.97165 1 |
0.91517 7.8666x10-12 5.6766x10-38 3.6590x10-12 0 -4.2104x10-12 -4.8683x10-39 -3.1380x10-13 |
150,073.0 6,519.5 |
n=7.42808↩ Xn=ΩBMo projected MoYn=MH imaged in {0.42808; 0.57192} ↪ |
0.88135 0.026684 (6.25656) |
0.0142 5.0814 |
125.3571 Gy 108.4810 Gy |
1.3327 0.5186 |
1.4081x1026 1.1868x1027 1.0002x1028 9.9959x1026 1.0270x1027 2.4740x1029 |
H=0.016 Ho=0.927 H'=Ho/[8-n]=101.48 -0.03612 Ho2 -0.018124 Ho2 H=0.1514 Ho H'=9.029 -8.54 Ho2 -0.0242 Ho2 |
-0.9327 14.8562 17.2381 0.05483 |
0.0141 c -1.8819x10-12 0.94734 c -4.4305x10-12 |
0.05536 0.02550 0.08086 0.02840 0.97160 1 |
0.91914 8.2820x10-12 5.8816x10-38 3.7911x10-12 0 -4.2288x10-12 -4.2305x10-39 -2.7268x10-13 |
229,959.9 6,531.4 |
n=7.66028↩ imaged in {0.66028; 0.33972} Λ1= Minimum DE Peak of Galaxies Λ1 ↪ |
0.88453 0.027621 (6.47632) |
0.0134 4.9759 |
129.2757 Gy 112.4000 Gy |
1.3201 0.5052 |
1.4132x1026 1.2239x1027 1.0728x1028 1.0347x1027 1.0641x1027 2.5659x1029 |
H=0.015 Ho=0.875 H'=Ho/[8-n]=170.85 -0.02004 Ho2 -0.01704 Ho2 H=0.1460 Ho H'=8.7143 -8.07 Ho2 -0.0225 Ho2 |
-0.9348 15.3206 16.6023 0.05681 |
0.01704 c -1.7346x10-12 0.9455 c -4.4177x10-12 |
0.05536 0.02463 0.07999 0.02842 0.97158 1 |
0.92001 8.3561x10-12 5.9129x10-38 3.8113x10-12 0 -4.2295x10-12 Λ1 Minimum -4.0877x10-39 -2.6348x10-13 |
257,145.6 6534.5 |
n=11.97186↩ imaged in {0,9719;0.0281} Λ0 = Maximum DE Asymptote: Λ0 ⇒ GoMo/RH2 =7.89494x10-12 ↪ |
0.92291 0.044702 (10.4814) |
0.00596 3.6778 |
202.0391 Gy 185.1630 Gy |
1.1558 0.3505 |
1.4745x1026 1.9127x1027 2.4812x1028 1.6746x1027 1.7530x1027 4.3025x1029 |
H=0.0064 Ho=0.374 H'=Ho/[12-n] =2065.48 -0.0139 Ho2 -6.9771x10-3 Ho2 0.08706 Ho H'=5.289 -3.01 Ho2 -8.3068x10-3 Ho2 |
-0.9582 23.9438 9.6851 0.0936 |
5.9428x10-3 c -5.1615x10-13 0.9126 c -4.1890x10-12 |
0.05536 0.01506 0.07042 0.02867 0,97133 1 |
0.92958 8.7529x10-12 Λo Maximum 5.9362x10-38 3.8263x10-12 0 -4.1171x10-12 -2.4586x10-39 -1.5847x10-13 |
2,047,643.4 6,592.6 |
n=118.236=½n1+1↪ imaged in {0.236;0.764} ↪ k=1 DE Initiation |
0.99161 0.333333 (78.1573) |
7.034x10-5 0.60909 |
1.9954 Ty 1.9785 Ty |
0.62901 0.07100 |
1.5843x1026 1.8890x1028 2.2524x1030 1.2487x1028 1.8731x1028 6.5877x1030 |
H=7.2142x10-5 Ho H'=Ho/[n-118] =245.93 -1.4306x10-4 Ho2 -7.1532x10-5 Ho2 H=5.6865x10-3 Ho H'=0.4951 -0.0303 Ho2 -7.2758x10-5 Ho2 |
-0.9958 236.472 0 1 k=1 DE Initiation |
7.0337x10-5 c -6.6460x10-16 0.44444 c -1.4237x10-12 |
0.05536 0.00142 0.05678 0.03565 0.92235 0.95800 |
0.94322 8.0281x10-12 5.0673x10-38 3.2663x10-12 0.04200 -1.4224x10-12 -1.1391x10-40 -7.3425x10-15 |
2.5980x1028 8,190.7 |
n=234.472=n1↪ imaged in {0.472;0.528} Quantum Tunnel n1 k=0 to k=1 ↪ |
0.995753 0.498931 (116.985) |
1.804x10-5 0.29247 |
3.9569744 Ty 3.9401098 Ty |
0.528956 0.04885 |
1.5909x1026 3.7461x1028 8.8210x1030 1.8690x1028 3.7301x1028 8.7460x1030 |
H=1.8112x10-5 Ho H'=Ho/[n-234] =122.97 Ho*=Ho/n1 =8.008325x10-21 -3.6379x10-5 Ho2 -1.8189x10-5 Ho2 H=2.1462x10-3 Ho H'=0.2486 -8.0630x10-3 Ho2 -1.8346x10-5 Ho2 |
-0.9979 468.944 -0.4989 1.99574 |
1.804x10-5 c -8.6291x10-17 0.25107 c -6.0448x10-13 |
0.05536 0.00071 0.05607 0.04526 0.31915 0.36441 |
0.94393 7.962x10-12 5.0050x10-38 3.2261x10-12 0.63559 -6.0391x10-13 -3.2311x10-41 -2.0827x10-15 |
MH= 6.4706x1052 10,408.1 |
k=2 initiated n=nps+1+n1 n2=245.813 3rd Instanton from 3rd Inflaton RE2=n1n2RH |
Scalefactor {xn1n2} a2=[n-1-n1] /[n-1-n1+n1n2] a2<0 for n<[1+n1] +n1n2/ (n1n2-1)= 235.472+ 57,636.037/ 57,635.037 lim {1+n1+1+ =236.472+} |
Redshift z2 n=1+n1+nps [z+1]2 = 1+2(n1n2)2 /{n2+ 2n(n1n2-1-n1)+(1+n1)(1+n1-2n1n2)} =1+n1n2/nps 3.0345x1026 |
Time t2 t2=t-(1+n1)/ Ho =(n-1-n1)/Ho tps= 3.33x10-31 |
Temp T24 18.2 [(n-1-n1+ n1n2)2 /{[n1n2]2 (n-1-n1)3} =2.935x1036 |
R2= n1n2RH(n-1-n1)/ [n-1-n1+n1n2] =λps=10-22 R2E=[n-1-n1]RH =λps R2P= [n-1-n1+n1n2]R2E =[n1n2]λps =5.7636x10-18 |
H|dS= n1n2Ho/ {[n-1-n1][n-1-n1+n1n2]} =fps H'=Ho/(n-1-n1)=fps ||nps+1+n1 - n1n2+ n1+1|| dH/dt|dS= -2n1n2Ho2( [n-1-n1+n1n2]2 -¼n12n22)/([n-1-n1] [n-1-n1+n1n2])2 =-(3n1n2/2nps2) Ho2 =-2.2068x10101 Ho2 dH/dt|AdS= -Ho2/(n-1-n1)2 =-fps2=-9x1060 |
qdS=n1n2/ 2[n-1-n1]-1 =n1n2/2nps-1 qAdS=2[n-1-n1]/n1n2 =2nps/n1n2 4.604x1052 2.172x10-53 |
V1=cn12n22/ (n-1-n1+n1n2)2 A1=-2cHon12n22/ (n-1-n1+n1n2)3 c -2cHo/n1n2 =-1.9547x10-14 |
BM-DM ΩBM=MoYN2/MH N2=[n-1-n1]/n1n2 to BM∩DM ΩDM=ΩBM.{[1+1/N2}3-1} ={1+n1n2/[n-1-n1]}3-1 after saturation 0.02803 0.97197 1 |
DE % Pressure 0 Λ2= GoMo/R22 -2cHon12n22/ [n-1-n1+n1n2]3 =GoMo/λps2 -2cHo/n1n2 =2.01522x1085 Λ2/R2=GoMo/R23 -2Ho2n1n2/ [n-1-n1] [n-1-n1+n1n2]2 =GoMo/λps3 -2Hofps/n1n2 =2.01522x10107 -P2=Λ2c2/4πGoR2 =1.2990x10133 n≥1+nps+n1 =235.472 |
HyperMass MHyper= mHY{[n-1-n1]/ n1n2} MH**=n1n2MH =3.7294x1057 mps=2.22x10-20 Y{[n-1-n1]/n1n2} =2πn1n2RH/λps =MH*/mH mH=6445.775 |
2nd Mirror Node n=235.472=1+n1 =[1]+n1 =[1+n1]+nps 3rd Inflaton double imaged in {nps} and {1} |
0.995771 0.500000 (117.236) 1.0860x10-53 (nps) |
1.7883x10-5 0.29099 3.0345x1026 |
3.974 Ty 3.957 Ty tps= 3.33x10-31 s* |
0.52839 0.04875 2.935x1036 |
1.59092x1026 3.7621x1028 8.89626x1030 R1(n)=[n-1]n1RH/ [n-1+n1] =½n1RH= 1.873x1028 R1E=[n-1]RH =n1RH =3.7461x1028 R1P= [n-1+n1]R1E =2n1R1E=2n12RH =1.7567x1031 λps=10-22 1.0000x10-22 5.7636x10-18 |
H=1.796x10-5 Ho H'= - -3.6074x10-5 Ho2 -1.8035x10-5 Ho2 H=2.1325x10-3 Ho H'=Ho/n1=0.2475 -7.9967x10-3 Ho2 -1.8189x10-5 Ho2 H=fps H'=fps =-2.2068x10101 Ho2 =-9x1060 |
-0.9979 470.944 -½ 2 4.6042x1052 2.1719x10-53 |
1.78830x10-5 c -8.5201x10-17 0.2500 c -6.00624x10-13 c -1.9547x10-14 |
0.05536 0.00071 0.05607 0.04535 0.31978 0.36513 0.02803 0.97197 1 |
0.94393 7.9620x10-12 5.0047x10-38 3.2259x10-12 0.63487 -6.0005x10-13 -3.2037x10-41 -2.0650x10-15 0 2.01522x1085 2.01522x10107 1.2990x10133 |
- 10,429.5 6,445.775 |
n=255.5865 =[1]+n1+20.1145↩ =[1+n1]+20.1145↪ Λ2=0 from +/- 1st Λ2 Root |
0.996103 0.520565 (122.058) 3.5355x10-4 (20.3773) |
1.5189x10-5 0.2636 52.5342 |
4.313 Ty 4.296 Ty 0.339 Ty |
0.51758 0.04680 0.2175 |
1.5914x1026 4.0834x1028 1.0478x1031 1.9501x1028 4.0675x1028 1.9892x1031 3.2125x1027 3.2136x1027 1.8529x1032 |
H=1.5249x10-5 Ho H'= - -3.0616x10-5 Ho2 - 1.5308x10-5 Ho2 H=1.8832x10-3 Ho H'=0.2708 Ho/(n1-20.1145) -6.8194x10-3 Ho2 -1.5429x10-5 Ho2 H=0.0497 Ho H'=2.8855 Ho/[20.1145] -284.909 Ho2 -2.4716x10-3 Ho2 |
-0.9980 511.173 -0.5395 2.1716 1431.704 6.9798x10-4 |
1.5169x10-5 c -6.6693x10-17 0.2299 c -5.2952x10-13 0.9993 c -1.9527x10-14 |
0.0553575 0.0006523 0.0560098 0.0472649 0.2210760 0.2764335 0.028034 0.971976 1 |
0.9439902 7.9573x10-12 5.0002x10-38 3.2230x10-12 0.7235665 -5.2899x10-13 -2.7126x10-41 -1.7485x10-15 0 0 1st Λ2 Root +/- 0 0 |
- 10,869.04 6446.86 |
n=332.593=n1√2+1 =[1]+n1+97.121↩ BM∩DM Intersect ΩBM=constant k=1 =[1+n1]+97.121↪ |
0.997002 0.585786 (137.350) 1.6822x10-3 (96.9576) |
8.9860x10-6 0.1900 23.3711 |
5.613 Ty 5.596 Ty 1.639 Ty |
0.48439 0.04130 0.06682 |
1.5929x1026 5.3138x1028 1.7726x1031 2.1917x1028 5.2818x1028 2.9846x1031 1.5491x1028 1.5517x1028 8.9584x1032 |
H=9.0130x10-6 Ho H'= - -1.8080x10-5 Ho2 -9.0411x10-6 Ho2 H=1.2492x10-3 Ho H'=0.4226 Ho/([n1-97.121] -4.0820x10-3 Ho2 -9.0947x10-6 Ho2 H=0.010279 Ho H'=0.5976 Ho/[97.121] -9.1759 Ho2 -1.0602x10-4 Ho2 |
-0.9985 665.186 -0.6464 2.82842 296.724 0.00336 |
8.9860x10-6 c -3.0348x10-17 0.1716 c -3.4148x10-13 0.9966 c -1.9449x10-14 |
0.0553575 0.0005008 0.0558583 0.0553575 0.2200396 0.2753971 BM∩DM Saturation BM∩DM Intersect ΩBM=constant k=1 0.02805 0.97195 1 |
0.9441417 7.9423x10-12 4.9860x10-38 3.2139x10-12 0.7246029 -3.4106x10-13 -1.5562x10-41 -1.0031x10-15 0 -1.8609x10-14 -1.2013x10-42 -7.7433x10-17 |
- 12,730.0 6,451.0 |
n=486.7205 =[1]+2n1 +16.7765↪ n=[1+n1] +251.2485↪ Λ2 = Minimum DE |
0.997950 0.674431 (158.135) 4.3403x10-3 (250.158) |
4.2041x10-6 0.1123 14.1625 |
8.214 Ty 8.197 Ty 4.240 Ty |
0.44019 0.03499 0.03280 |
1.5944x1026 7.7762x1028 3.7926x1031 2.5265x1028 7.7602x1028 3.7693x1031 3.9967x1028 4.0141x1028 2.3237x1033 |
H=4.2126x10-6 Ho H'= - -8.4425x10-6 Ho2 -4.2212x10-6 Ho2 H=6.7028x10-4 Ho H'=3.4596 Ho/[16.7765] -1.9350x10-3 Ho2 -4.2386x10-6 Ho2 H=3.9628x10-3 Ho H'=0.2310 Ho/[251.2485] -1.3737 Ho2 -1.5841x10-5 Ho2 |
-0.9990 973.441 -0.7586 4.14310 113.700 0.00872 |
4.2040x10-6 c -9.7112x10-18 0.1060 c -1.6581x10-13 0.9913 c -1.9294x10-14 |
0.0553575 0.0003420 0.0556995 0.0553575 0.1250950 0.1804525 0.028088 0.971912 1 |
0.9443005 7.9274x10-12 4.9720x10-38 3.2049x10-12 0.8195475 -1.6549x10-13 -6.5503x10-42 -4.2222x10-16 0 -1.9168x10-14 Λ2 Minimum -4.7959x10-43 -3.0913x10-17 |
- 17,466.4 6,459.3 |
n=1534.725 =[1]+6n1+126.893↪ DM Saturation BM k=1 =[1+n1]+1,299.253↪ |
0.999349 0.867395 (203.380) 0.022045 (1,270.61) |
4.24x10-7 0.0177 5.6983 |
25.900 Ty 25.883 Ty 21.926 Ty |
0.33010 0.02314 0.00965 |
1.5966x1026 2.4520x1029 3.7656x1032 3.2493x1028 2.4504x1029 4.3328x1032 2.0300x1029 2.0758x1029 1.2234x1034 |
H=4.2428x10-7 Ho H'= - -8.4912x10-7 Ho2 -4.2456x10-7 Ho2 H=8.6460x10-5 Ho H'=0.4574 Ho/[126.893] -1.9848x10-4 Ho2 -4.2511x10-7 Ho2 H=7.5271x10-4 Ho H'=0.04467 Ho/[1299.253] -0.05196 Ho2 -5.9240x10-7 Ho2 |
-0.99967 3,069.45 -0.92356 13.0824 21.1848 0.04508 |
4.2456x10-7 c -3.1106x10-19 0.0176 c -1.1204x10-14 0.956395 c -1.8283x10-14 |
0.0553575 0.0001083 0.0554658 0.0553575 0.0294680 0.0848255 0.028336 0.971664 1 |
0.9445342 7.9056x10-12 4.9515x10-38 3.1916x10-12 0.9151745 -1.1013x10-14 -3.3894x10-43 -2.1847x10-17 0 -1.8278x10-14 -9.0040x10-44 -5.8038x10-18 |
- 150,072.9 6,516.1 |
n=7,161.518 =[1]+30n1 +126.352↪ Λ1=0 from -/+ 2nd Λ1 Root =[1+n1] +6,925.758↪ |
0.999860 0.968293 (227.038) 0.107277 (6,183.04) |
1.949x10-8 0.0010058 1.9749 |
120.858 Ty 120.842 Ty 116.884 Ty |
0.22454 0.01490 0.00288 |
1.5975x1026 1.1442x1030 8.1952x1033 3.6273x1028 1.1440x1030 8.4600x1033 9.8785x1029 1.1066x1030 7.1674x1034 |
H=1.9495x10-8 Ho H'= - -3.8996x10-8 Ho2 -1.9498x10-8 Ho2 H=4.4280x10-6 Ho H'=0.4594 Ho/[126.352] -9.1438x10-6 Ho2 -1.9503x10-8 Ho2 H=1.2889x10-4 Ho H'=8.3803x10-3 Ho/[6,925.758] -1.9242x10-3 Ho2 -2.0846x10-8 Ho2 |
-0.99993 14,323.0 -0.98363 61.0778 3.16083 0.24034 |
1.9493x10-8 c -3.0661x10-21 0.0010 c -1.5316x10-16 0.7970 c -1.3907x10-14 |
0.0553575 0.0000232 0.0553807 0.0553575 0.0056181 0.0609756 0.0553575 0.02970 0.97030 1 |
0.9446193 7.8967x10-12 4.9431x10-38 3.1863x10-12 0.9390244 0 2nd Λ1 Root -/+ 0 0 0 -1.3907x10-14 -1.4078x10-44 -9.0744x10-19 |
- 1.5543x1010 6,829.5 |
n=29,053.485 =[1]+n1+½n1n2 =1+123n1 +212.476↩ =[1+n1] +28,818.0↪ k=2 DE Initiation |
0.999966 0.991994 (232.595) 0.333332 (19,212.0) |
1.18x10-9 6.4098x10-5 0.61245 |
490.310 Ty 490.293 Ty 486.336 Ty |
0.15821 0.01037 0.00114 |
1.59762x1026 4.64180x1030 1.34865x1035 3.71611x1028 4.64164x1030 1.35940x1035 3.06946x1030 4.60418x1030 3.98051x1035 |
1.1145x10-9 Ho H'= - -2.3694x10-9 Ho2 -1.1847x10-9 Ho2 H=2.7557x10-7 Ho H'=2.6387 Ho/[n1-212.476] -5.5558x10-7 Ho2 -1.1848x10-9 Ho2 2.3134x10-5 Ho H'=0.002014 Ho/[28,818.0] -1.2338x10-4 Ho2 -1.2041x10-9 Ho2 |
-0.999983 58,104.97 -0.99596 247.812 0 1 k=2 DE Initiation |
1.1846x10-9 c -4.5935x10-23 6.4096x10-5 c -2.4657x10-18 0.4444 c -5.7918x10-15 |
0.0553575 0.0000057 0.0553632 0.0553575 0.0013512 0.0567087 0.0356547 0.9270302 0.9626849 |
0.9446368 7.8957x10-12 4.9422x10-38 3.1856x10-12 0.9432913 1.4340x10-16 3.8578x10-45 2.4867x10-19 0.0373151 -5.7918x10-15 -1.8488x10-45 -1.1917x10-19 |
- 5.0594x1029 8,199.1 |
n=51,941.9 =[1]+221n1 +122.588↩ Λ1= Maximum DE Asymptote: Λ1⇒ GoMo/n12RH2 =1.436041x10-16 =[1+n1] +51,706.428↪ |
0.999981 0.995506 (233.418) 0.472884 (27,255.3) |
3.7x10-10 2.01955x10-5 0.33023 |
876.577 Ty 876.560 Ty 872.603 Ty |
0.13682 0.00896 0.00085 |
1.59764x1026 8.30342x1030 4.31304x1035 3.72927x1028 8.29847x1030 4.32976x1035 4.35451x1030 8.26101x1030 9.03281x1035 |
H=3.7064x-10 Ho H'= - -7.4130x10-10 Ho2 -3.7065x10-10 Ho2 H=2.7557x10-7 Ho H'=0.5188 Ho/[n1-122.588] -1.7382x10-7 Ho2 -3.7066x10-10 Ho2 H=1.0194x10-5 Ho H'=0.001122 Ho/[51,706.428] -6.6466x10-6 Ho2 -3.7403x10-10 Ho2 |
-0.999990 103,883.81 -0.99774 443.046 -0.44265 1.79420 |
3.7064x10-10 c -8.0391x10-24 2.0195x10-5 c -4.3608x10-19 0.2779 c -2.8264x10-15 |
0.0553575 0.0000032 0.0553607 0.0553575 0.0007531 0.0561106 0.0431628 0.3650112 0.4081740 |
0.9446393 7.8953x10-12 4.9418x10-38 3.1854x10-12 0.9438894 1.4447x10-16 Λ1= Maximum DE 3.8739x10-45 2.4970x10-19 0.591826 -2.8264x10-15 -6.4907x10-46 -4.1838x10-20 |
- 1.2729x1050 9,925.7 |
n=57,636.03=n1n2 =234.472x245.813 =[1]+245n1 +189.491↩↪ =[1+n1] +57,400.565↪ Quantum Tunnel n1n2 k=1 to k=2 |
0.999983 0.995948 (233.522) 0.498976 (28,759.1) |
~3.0x10-10 1.642x10-5 0.29241 |
972.68 Ty 972.66 Ty 968.70 Ty |
0.133305 0.008723 0.000787 |
1.59765x1026 9.20837x1030 5.30743x1035 3.73092x1028 9.20837x1030 5.32884x1035 4.59477x1030 9.17075x1030 1.05497x1036 |
H=3.0103x10-10 Ho H'= - -6.0206x10-10 Ho2 -3.0103x10-10 Ho2 H=7.0300x10-8 Ho H'=1.2903 Ho/[n1-189.491] =1.262 Ho**=Ho/n1n2 =0.001007 -1.4117x10-7 Ho2 -3.0104x10-10 Ho2 H=8.7286x10-6 Ho H'=0.001011 Ho/[57,400.565] -3.2790x10-5 Ho2 -3.0351x10-10 Ho2 |
-0.999991 115,272.1 -0.99797 491.616 -0.49794 1.99182 |
3.0102x10-10 c -5.8841x10-24 1.6417x10-5 c -3.1961x10-19 0.2510 c -2.4585x10-15 |
0.0553575 0.0000029 0.0553604 0.0553575 0.0006784 0.0560359 0.0452643 0.3190851 0.3647094 |
0.9446396 7.8962x10-12 4.9418x10-38 3.1854x10-12 0.9439641 1.4446x10-16 3.8719x10-45 2.4957x10-19 0.6352906 -2.4585x10-15 -5.3506x10-46 -3.4489x10-20 |
- 1.5138x1055 10,409.0 |
n=57,637.03 =[1]+n1n2 MH*=n1MH =1.5172x1055 =[1+n1] +57,401.565↪ |
0.999983 0.995948 (233.522) 0.498980 (28,759.3) |
~3.0x10-10 1.642x10-5 0.29240 |
972.69 Ty 972.67 Ty 968.71 Ty |
0.133305 0.008723 0.000787 |
1.59765x1026 9.20853x1030 5.30761x1035 3.73092x1028 9.20837x1030 5.32893x1035 4.59481x1030 9.17091x1030 1.05501x1036 |
H=3.0102x10-10 Ho H'= - -6.0204x10-10 Ho2 -3.0102x10-10 Ho2 H=7.0297x10-8 Ho H'= - -1.4117x10-7 Ho2 -3.0103x10-10 Ho2 H=8.7283x10-6 Ho H'=0.001011 Ho/[57,401.565] -3.2789x10-5 Ho2 -3.0350x10-10 Ho2 |
-0.999991 115,274.1 -0.99797 491.624 -0.49796 1.99186 |
3.0101x10-10 c -5.8838x10-24 1.6416x10-5 c -3.1959x10-19 0.2510 c -2.4584x10-15 |
0.0553575 0.0000029 0.0553604 0.0553575 0.0006784 0.0560359 0.0452647 0.3190784 0.3643431 |
0.9446396 7.8952x10-12 4.9418x10-38 3.1854x10-12 0.9439641 1.4446x10-16 3.8718x10-45 2.4957x10-19 0.6356569 -2.4584x10-15 -5.3504x10-46 -3.4487x10-20 |
- MH*=n1MH =1.5172x1055 10,409.1 |
k=3 initiated n=nps+1+n1+n1n2 n3=257.252 4th Instanton from 4th Inflaton RE3=n1n2n3RH |
Scalefactor {n1n2n3} a3= [n-1-n1-n1n2] /[n-1-n1-n1n2+ n1n2n3] a3<0 for n< [1+n1+n1n2]+ n1n2n3/ (n1n2n3-1)= 57,871.509+ 14,827,044.63/ 14,827,043.63 lim {1+n1+n1n2+1+ =57,872.509+} |
Redshift z3 n=1+n1+ n1n2+nps [z+1]2 = 1+ 2(n1n2n3)2 /{n2+2n[n1n2n3 -1-n1-n1n2]+[1+n1+n1n2][1+n1+n1n2 -2n1n2n3]} =1+n1n2n3/nps 4.8671x10x1027 |
Time t3 t3=t- (1+n1+n1n2) /Ho=(n-1-n1- n1n2)/Ho |
Temp T34 18.2 [n-1-n1- n1n2+ n1n2n3]2/ {[n1n2n3]2 (n-1-n1-n1n2)3} =2.935x1036 |
R3= n1n2n3RH( [n-1-n1-n1n2)/ [n-1-n1-n1n2+ n1n2n3] =λps=10-22 R3E=[n-1-n1 -n1n2]RH =λps R3P=[n-1-n1- n1n2+ n1n2n3]R3E =[n1n2n3]λps =1.4827x10-15 |
H|dS= n1n2n3Ho/{[n-1-n1-n1n2] [n-1-n1-n1n2+n1n2n3]}=fps H'=Ho/(n-1-n1-n1n2)'=fps ||nps+1+n1+n1n2 - n1n2n3+n1n2+n1+1|| dH/dt|dS= -2n1n2n3Ho2([n-1-n1-n1n2+n1n2n3]2 -¼n12n22n32)/( [n-1-n1-n1n2][n-1 -n1-n1n2+n1n2n3])2 =-(3n1n2n3/2nps2) Ho2 =-5.6771x10103 Ho2 dH/dt|AdS= -Ho2/(n-1-n1-n1n2)2 =-fps2=-9x1060 |
qdS=n1n2n3/ 2[n-1-n1-n1n2]-1 =n1n2n3/ 2nps -1 qAdS=2[n- -n1-n1n2] /n1n2n3 =2nps/ n1n2n3 1.184x1055 8.443x10-56 |
V1=cn12n22n32/ (n-1-n1 -n1n2+n1n2n3)2 A1= -2cHon12n22n32 /(n-1-n1-n1n2+n1n2n3)3 =-2cHo/n1n2n3 =-7.5985x10-17 |
BM-DM ΩBM= MoYN3/MH N3=[n-1-n1-n1n2]/ n1n2n3 to BM∩DM ΩDM=ΩBM.{[1+1/N3]3-1} {1+n1n2n3/ [n-1-n1-n1n2]}3-1 after saturation 0.02803 0.97197 1 |
DE % Pressure 0 Λ3=GoMo/R32 -2cHon12n22n32/ [n-1-n1-n1n2+n1n2n3]3 =GoMo/λps3-2cHo/n1n2n3 =2.01522x1085 Λ3/R3=GoMo/R33 -2Ho2n1n2n3/ [n-1-n1-n1n2] [n-1-n1-n1n2+n1n2n3]2 =GoMo/λps3 -2Hofps/n1n2n3 =2.01522x10107 -P3=Λ3c2/4πGoR3 =1.2990x10133 n≥1+nps+n1+n1n2 =57,871.738 |
HyperMass MHyper=mH Y{[n-1-n1-n1n2]/ n1n2n3} MH***= n1n2n3MH =9.5940x1059 mps= 2.22x10-20 Y{[n-1-n1-n1n2]/ (n1n2n3}= 2πn1n2n3RH/λps =MH*/mH mH=6445.775 |
3rd Mirror Node n=1+n1+n1n2 =57,871.509 =[1+n1]+n1n2 =[1+n1+n1n2]+nps .... 4th Inflaton triple imaged in {nps};{1};{1+n1} |
0.99998272 0.99596468 (233.52583) 0.50000000 (28,818.08) 4.2214x10-56 (nps) |
~3.0x10-10 1.628x10-5 0.29099 4.8671x1027 |
976.65 Ty 976.63 Ty 972.68 Ty tps= 3.33x10-31 s* |
0.133170 0.008714 0.000785 2.935x1036 |
1.59765x1026 9.24599x1030 5.35089x1035 3.73098x1028 9.24583x1030 5.37229x1035 R2=n1n2RH(n-1-n1)/[n-1-n1+n1n2] =½n1n2RH =4.60419x1030 R2E=[n-1-n1]RH =[n1n2]RH =9.20837x1030 R2P=[n-1-n1+n1n2]R1E =2n1n2R2E =2[n1n2]2RH =1.06147x1036 10-22 1.00000x10-22 1.48270x10-15 |
H=2.9858x10-10 Ho H'= - -5.9725x10-10 Ho2 -2.9859x10-10 Ho2 H=6.9732x10-8 Ho H'= - -1.4002x10-7 Ho2 -2.9860x10-10 Ho2 H=8.6751x10-6 Ho H'=Ho/n1n2 =1.0070x10-3 -3.2532x10-5 Ho2 -3.0103x10-10 Ho2 H=fps H'=fps -5.6771x10103 Ho2 -9x1060 |
-0.999991 115,743.0 -0.99797 493.624 -½ 2 1.184x1055 8.443x10-56 |
2.9858x10-10 c -5.8126x10-24 1.6284x10-5 c -3.1574x10-19 0.2500 c -2.4434x10-15 c -7.5985x10-17 |
0.0553575 0.0000029 0.0553604 0.0553575 0.0006756 0.0560331 0.0453534 0.3174760 0.3628294 0.0280300 0.9719700 1 |
0.9446396 7.8952x10-12 4.9418x10-38 3.1854x10-12 0.9439669 1.4445x10-16 3.8718x10-45 2.4957x10-19 0.6371706 -2.4434x10-15 -5.3069x10-46 -3.4207x10-20 0 2.01522x1085 2.01522x10107 1.2990x10133 |
- - 10,429.5 6,445.77 |
n=58,194.1 n=[1+n1]+n1n2 +322.362↩ n=[1+n1+n1n2] +322.362↪ Λ3=0 from +/- 1st Λ3 Root |
0.99998282 0.99598696 (233.53105) 0.50139436 (28,898.50) 2.1741x10-5 (322.35526) |
2.9x10-10 1.610x10-5 0.28908 213.466 |
982.09 Ty 982.07 Ty 978.12 Ty 5.4402 Ty |
0.132984 0.008702 0.000783 0.027150 |
1.59765x1026 9.29737x1030 5.41061x1035 3.73107x1028 9.29737x1030 5.43223x1035 4.61704x1030 9.25991x1030 1.07040x1036 5.15019x1028 5.15033x1028 7.63659x1035 |
H=2.9528x10-10 Ho H'= - -5.9057x10-10 Ho2 -2.9529x10-10 Ho2 H=6.8961x10-8 Ho H'= - -1.3848x10-7 Ho2 -2.9529x10-10 Ho2 H=8.6028x10-6 Ho H'=0.001013 Ho/[n1n2-322.362] -3.2183x10-5 Ho2 -2.9769x10-10 Ho2 H=0.00310203 Ho H'=0.180046 Ho/[322.362] -214.0246 Ho2 -9.6230x10-6 Ho2 |
-0.999991 116,388.2 -0.99799 496.376 -0.50278 2.01119 22,996.488 4.348x10-5 |
2.9528x10-10 c -5.7164x10-24 1.6104x10-5 c -3.1054x10-19 0.2486 c -2.4230x10-15 0.99996 c -7.5980x10-17 |
0.0553575 0.0000029 0.0553604 0.0553575 0.0006718 0.0560293 0.0454757 0.3153031 0.3607788 0.0280303 0.9719697 1 |
0.9446396 7.8952x10-12 4.9418x10-38 3.1854x10-12 0.9439707 1.4445x10-16 3.8716x10-45 2.4956x10-19 0.6392212 -2.4230x10-15 -5.2479x10-46 -3.3827x10-20 0 1st Λ3 Root +/- 0 0 0 |
- - 10,457.6 6,445.84 |
n=67,972.497 n=[1+n1]+n1n2 +10,100.759↩ n=[1+n1+n1n2] +10,100.759↪ Λ3 = Minimum DE |
0.99998529 0.99656230 (233.66595) 0.54028274 (31,139.88) 6.8078x10-4 (10,093.88) |
2.1x10-10 1.182x10-5 0.23933 37.320 |
1,147.11 Ty 1,147.09 Ty 1,143.14 Ty 170.461 Ty |
0.127920 0.008368 0.000725 0.002051 |
1.59765x1026 1.08598x1031 7.38179x1035 3.73322x1028 1.08596x1031 7.40692x1035 4.97514x1030 1.08222x1031 1.35681x1036 1.61267x1030 1.61377x1030 2.39438x1037 |
H=2.1643x10-10 Ho H'= - -4.3288x10-10 Ho2 -2.1644x10-10 Ho2 H=5.0576x10-8 Ho H'= - -1.0150x10-7 Ho2 -2.1644x10-10 Ho2 H=6.7868x10-6 Ho H'=0.001221 Ho/[n1n2-10,100.759] -2.3796x10-5 Ho2 -2.1795x10-10 Ho2 H=9.8935x10-5 Ho H'=0.005746 Ho/[10,100.759] -0.218090 Ho2 -9.8015x10-9 Ho2 |
-0.999993 135,945.00 -0.99828 579.784 -0.5746 2.35050 732.957 1.362x10-3 |
2.1643x10-10 c -3.5873x10-24 1.1818x10-5 c -1.9521x10-19 0.2113 c -1.8992x10-15 0.99864 c -7.5830x10-17 |
0.0553575 0.0000024 0.0553599 0.0553575 0.0005749 0.0559324 0.0493442 0.2635322 0.3128764 0.0280392 0.9719608 1 |
0.9446401 7.8952x10-12 4.9418x10-38 3.1854x10-12 0.9440676 1.4440x10-16 3.8680x10-45 2.4932x10-19 0.6871236 -1.8992x10-15 -3.8174x10-46 -2.4606x10-20 0 -7.5753x10-17 -4.6973x10-47 -3.0278x10-21 |
- - 11,347.2 6,447.89 |
n=81,745.461 =n1n2√2+1+n1 =[1+n1] +√2.n1n2 =[1+n1]+n1n2 +23,873.72↩ BM∩DM Intersect ΩBM=constant k=2 n=[1+n1+n1n2] +23,873.722↪ |
0.99998777 0.99713985 (233.80138) 0.58578644 (33,762.54) 1.6076x10-3 (23,835.34) |
~1.5x10-10 8.180x10-6 0.18921 23.931 |
1,379.55 Ty 1,379.53 Ty 1,375.57 Ty 402.894 Ty |
0.122153 0.007966 0.000665 0.001076 |
1.59766x1026 1.30603x1031 1.06763x1036 3.73539x1028 1.30601x1031 1.07065x1036 5.39416x1030 1.30227x1031 1.81205x1036 3.80811x1030 3.81425x1030 5.66451x1037 |
H=1.4965x10-10 Ho H'= - -2.9930x10-10 Ho2 -1.4965x10-10 Ho2 H=3.4988x10-8 Ho H'= - -7.0178x10-8 Ho2 -1.4965x10-10 Ho2 H=5.0818x10-6 Ho H'=0.001719 Ho/[n1n2-23,873.72] -1.6606x10-5 Ho2 -1.5051x10-10 Ho2 H=4.1820x10-5 Ho H'=0.002431 Ho/[23,873.722] -0.03906 Ho2 -1.7545x10-9 Ho2 |
~-1 163,490.9 -0.99857 697.264 -0.64645 2.82843 309.5306 3.220x10-3 |
1.4964x10-10 c -2.0624x10-24 8.1805x10-6 c -1.1242x10-19 0.1716 c -1.3892x10-15 0.99679 c -7.5619x10-17 |
0.0553575 0.0000020 0.0553595 0.0553575 0.0004777 0.0558352 0.0553575 0.2200391 0.2753966 BM∩DM Intersect BM∩DM Intersect ΩBM=constant k=2 0.0280517 0.9719483 1 |
0.9446405 7.8951x10-12 4.9417x10-38 3.1853x10-12 0.9441648 1.4432x10-16 3.8635x10-45 2.4903x10-19 0.7246034 -1.3892x10-15 -2.5754x10-46 -1.6600x10-20 0 -7.5605x10-17 -1.9854x10-47 -1.2797x10-21 |
- - 12,730.0 6,450.77 |
n=337,244.12 =[1+n1+n1n2] +279,372.61 =[57,871.51] +279,372.61 n=[1+n1] +5n1n2 +48,827.32↩ DM Saturation BM k=2 n=[1+n1+n1n2] +279,372.61↪ |
0.99999703 0.99930522 (234.30909) 0.85395411 (49,218.73) 0.01849362 (274,205.8) |
~0 4.827x10-7 0.02156 6.3197 |
5,691.37 Ty 5,691.35 Ty 5,687.39 Ty 4,714.72 Ty |
0.085710 0.005599 0.000386 0.000172 |
1.59767x1026 5.38807x1031 1.81710x1037 3.74350x1028 5.38805x1031 1.81834x1037 7.86356x1030 5.38430x1031 2.12489x1037 4.38092x1031 4.46346x1031 6.74269x1038 |
H=8.7925x10-12 Ho H'= - -1.7585x10-11 Ho2 -8.7925x10-12 Ho2 H=2.0602x10-9 Ho H'= - -4.1232x10-9 Ho2 -8.7925x10-12 Ho2 H=4.3336x10-7 Ho H'=0.006589 Ho/[n1n2-48,827.32] -1.0095x10-6 Ho2 -8.8048x10-12 Ho2 H=3.5133x10-6 Ho H'=0.000208 Ho/[279,372.61] -0.0002884 Ho2 -1.2812x10-11 Ho2 |
-0.999999 674,488.48 -0.999652 2,876.62 -0.914488 11.69433 25.53635 0.037684 |
8.7924x10-12 c -2.9373x10-26 4.8272x10-7 c -1.6115x10-21 0.02133 c -6.0891x10-17 0.96335 c -7.1847x10-17 |
0.0553575 0.0000005 0.0553580 0.0553575 0.0001155 0.0554730 0.0553575 0.0335366 0.0888941 0.0282853 0.9717147 1 |
0.9446420 7.8950x10-12 4.9416x10-38 3.1852x10-12 0.9445270 1.4380x10-16 3.8414x10-45 2.4761x10-19 0.9111059 -6.0888x10-17 -7.7430x10-48 -4.9910x10-22 0 -7.1847x10-17 -1.6400x10-48 -1.0571x10-22 |
- - 107,463.3 6,504.48 |
n=7,471,394.054 n=[1+n1] +129n1n2 +36,080.302↩ n=[1+n1+n1n2] +7,413,522.54↪ k=3 DE Initiation |
~1 0.99996862 (234.46464) 0.99234456 (57,195.03) 0.33333333 (4,942,348.2) |
~0 9.8x10-10 5.8608x10-5 0.61245 |
126.088 Py 126.088 Py 126.084 Py 125.111 Py |
0.039506 0.002580 0.000165 0.000018 |
1.59768x1026 1.19369x1033 8.91850x1039 3.74598x1028 1.19369x1033 8.91878x1039 9.13791x1030 1.19365x1033 8.98674x1039 7.89627x1032 1.18444x1033 2.63426x1040 |
H=1.7914x10-14 Ho H'= - -3.5828x10-14 Ho2 -1.7914x10-14 Ho2 H=4.2002x10-12 Ho H'= - -8.4007x10-12 Ho2 -1.7914x10-14 Ho2 H=1.0247x10-9 Ho H'=0.002693 Ho/[n1n2-36,080.302] -2.0651x10-9 Ho2 -1.7915x10-14 Ho2 H=8.9926x10-8 Ho H'=7.8289x10-6 Ho/[7,413,522.54] -4.7960x10-7 Ho2 -1.8195x10-14 Ho2 |
~-1 1.4942x106 -0.9999843 63,729.51 -0.996143 259.252 0 1 k=3 DE Initiation |
1.7914x10-14 c -2.7013x10-30 9.8481x10-10 c -1.4850x10-25 5.8606x10-5 c -8.7000x10-21 0.44444 c -2.2514x10-17 |
0.0553575 0.0000000 0.0553575 0.0553575 0.0000052 0.0553627 0.0553575 0.0012911 0.0566486 0.0356547 0.9270222 0.9626769 |
0.9446425 7.8949x10-12 4.9415x10-38 3.1852x10-12 0.9446373 1.4361x10-16 3.8338x10-45 2.4712x10-19 0.9433514 -6.2866x10-21 -6.8797x10-52 -4.4345x10-26 0.0373231 -2.2514x10-17 -2.8512x10-50 -1.8378x10-24 |
- - 7.9343x1030 8,199.15 |
n=11,538,294.3 n=[1+n1] +200n1n2 +10,811.4↪ Λ2=0 from -/+ 2nd Λ2 Root -/+ =[1+n1+n1n2] +11,480,422.79↪ |
~1 0.99997968 (234.46724) 0.99502951 (57,349.79) 0.43639407 (6,470,434.3) |
~0 4.1x10-10 2.4706x10-5 0.38962 |
194.721 Py 194.721 Py 194.718 Py 193.745 Py |
0.035439 0.002314 0.000148 0.000014 |
1.59768x1026 1.84344x1033 2.12702x1040 3.74603x1028 1.84344x1033 2.12706x1040 9.16264x1030 1.84341x1033 2.13756x1040 1.03377x1033 1.83420x1033 4.82532x1040 |
H=7.5113x10-15 Ho H'= - -1.5023x10-14 Ho2 -7.5113x10-15 Ho2 H=1.7612x10-12 Ho H'= - -3.5224x10-12 Ho2 -7.5113x10-15 Ho2 H=4.3079x10-10 Ho H'=0.005368 Ho/[10,811.4] -8.6588x10-10 Ho2 -7.5116x10-15 Ho2 H=4.9093x10-8 Ho H'=5.0556x10-6 Ho/[11,480,422.79] -2.0713x10-7 Ho2 -7.5872x10-15 Ho2 |
~-1 2.3077x107 -0.999990 98,419.38 -0.997502 400.375 -0.354247 1.548579 |
7.5113x10-15 c -7.3341x10-31 4.1293x10-10 c -4.0319x10-26 2.4706x10-5 c -2.4004x10-21 0.31765 c -1.3604x10-17 |
0.0553575 0.0000000 0.0553575 0.0553575 0.0000034 0.0553609 0.0553575 0.0008337 0.0561912 0.0406855 0.4488717 0.4895572 |
0.9446425 7.8949x10-12 4.9415x10-38 3.1852x10-12 0.9446391 1.4361x10-16 3.8336x10-45 2.4711x10-19 0.9438088 0 2nd Λ2 Root -/+ 0 0 0.5104428 -1.3604x10-17 -1.3160x10-50 -8.4824x10-25 |
- - 4.4257x1045 9,356.04 |
n=14,827,044.63 =n1n2n3 =234.472x245.813 x257.252 [1+n1]+257n1n2 +14,288.86↩↪ =[1+n1+n1n2] +14,769,172.9↪ Quantum Tunnel k=2 to k=3 |
~1 0.99998419 (234.46829) 0.99612775 (57,413.08) 0.49902231 (7,399,026.1) |
~0 2.5x10-10 1.4994x10-5 0.29234 |
250.223 Py 250.223 Py 250.219 Py 249.246 Py |
0.033285 0.002174 0.000139 0.000012 |
1.59768x1026 2.36888x1033 3.51235x1040 3.74604x1028 2.36888x1033 3.51240x1040 9.17275x1030 2.36881x1033 3.52584x1040 1.18212x1033 2.35963x1033 6.98363x1040 |
H=4.5487x10-15 Ho H'= - -9.0975x10-15 Ho2 -4.5487x10-15 Ho2 H=1.0665x10-12 Ho H'= - -2.1331x10-12 Ho2 -4.5487x10-15 Ho2 H=2.6117x10-10 Ho H'=0.001339 Ho/[n1n2-14,288.86] -5.2436x10-10 Ho2 -4.5489x10-15 Ho2 H=3.3920x10-8 Ho H'=3.9298x10-6 Ho/[14,769,172.9] -1.2742x10-7 Ho2 -4.5845x10-15 Ho2 |
~-1 2.9654x107 -0.999992 126,471.77 -0.998056 514.496 -0.498041 1.992194 |
4.5487x10-15 c -3.4564x10-31 2.5007x10-10 c -1.9001x10-26 1.4994x10-5 c -1.1350x10-21 0.25098 c -9.5540x10-18 |
0.0553575 0.0000000 0.0553575 0.0553575 0.0000026 0.0553601 0.0553575 0.0006481 0.0560056 0.0452684 0.3190115 0.3642799 |
0.9446425 7.8949x10-12 4.9415x10-38 3.1852x10-12 0.9446399 1.4361x10-16 3.8336x10-45 2.4711x10-19 0.9439944 1.2601x10-21 1.3738x10-52 8.8550x10-27 0.6357201 -9.5540x10-18 -8.0821x10-51 -5.2095x10-25 |
- - 4.4257x1045 10,409.91 |
n=14,827,185.4 =[1+n1]+n1n2n3 MH**=n1n2MH =3.7294x1057 =[1+n1+n1n2] +14,769,313.7↪ |
~1 0.99998419 (234.46829) 0.99612781 (57,413.09) 0.49902469 (7,399,061.4) |
~0 2.5x10-10 1.4994x10-5 0.29234 |
250.225 Py 250.225 Py 250.221 Py 249.249 Py |
0.033285 0.002174 0.000139 0.000012 |
1.59768x1026 2.36890x1033 3.51242x1040 3.74604x1028 2.36890x1033 3.51247x1040 9.17275x1030 2.36886x1033 3.52596x1940 1.18213x1033 2.35966x1033 6.98373x1040 |
H=4.5487x10-15 Ho H'= - -9.0973x10-15 Ho2 -4.5487x10-15 Ho2 H=1.0665x10-12 Ho H'= - -2.1331x10-12 Ho2 -4.5487x10-15 Ho2 H=2.6116x10-10 Ho H'= - -5.2435x10-10 Ho2 -4.5488x10-15 Ho2 H=3.3920x10-8 Ho H'=3.9298x10-6 Ho/[14,769,313.7] -1.2742x10-7 Ho2 -4.5844x10-15 Ho2 |
~-1 2.9655x107 -0.999992 126,472.97 -0.998056 514.501 -0.498046 1.992213 |
4.5486x10-15 c -3.4563x10-31 2.5006x10-10 c -1.9001x10-26 1.4994x10-5 c -1.1349x10-21 0.25098 c -9.5538x10-18 |
0.0553575 0.0000000 0.0553575 0.0553575 0.0000026 0.0553601 0.0553575 0.0006481 0.0560056 0.0452686 0.3168837 0.3621523 |
0.9446425 7.8949x10-12 4.9415x10-38 3.1852x10-12 0.9446399 1.4361x10-16 3.8336x10-45 2.4711x10-19 0.9439944 1.2602x10-21 1.3739x10-52 8.8557x10-27 0.6378477 -9.5538x10-18 -8.0819x10-51 -5.2094x10-25 |
- - - MH**=n1n2MH =3.7294x1057 10,409.96 |
n=2.10264794x107 n=[1+n1+n1n2] +√2.n1n2n3↩ =[1+n1+n1n2] +n1n2n3 +6,141,563.032↩ BM∩DM Intersect ΩBM=constant k=3 |
~1 0.99998885 (234.46939) 0.99726637 (57,478.71) 0.58578644 (8,685,481.7) |
~0 1.2x10-10 7.4730x10-6 0.18921 |
354.845 Py 354.845 Py 354.841 Py 353.868 Py |
0.030502 0.001992 0.000127 0.000010 |
1.59768x1026 3.35935x1033 7.06353x1040 3.74606x1028 3.35935x1033 7.06361x1040 9.18323x1030 3.35931x1033 7.08273x1040 1.38766x1033 3.35010x1033 1.19919x1041 |
H=2.2619x10-15 Ho H'= - -4.5237x10-15 Ho2 -2.2619x10-15 Ho2 H=5.3034x10-13 Ho H'= - -1.0607x10-12 Ho2 -2.2619x10-15 Ho2 H=1.3001x10-10 Ho H'= - -2.6074x10-10 Ho2 -2.2619x10-15 Ho2 H=1.9754x10-8 Ho H'=6.6824x10-6 Ho/[n1n2n3- 6,141,563.032] -6.4551x10-8 Ho2 -2.2744x10-15 Ho2 |
~-1 4.2054x107 -0.999994 179,351.74 -0.998629 729.619 -0.646447 2.828427 |
2.2619x10-15 c -1.2119x10-31 1.2435x10-10 c -6.6627x10-27 7.4729x10-6 c -3.9932x10-22 0.17157 c -5.4001x10-18 |
0.0553575 0.0000000 0.0553575 0.0553575 0.0000019 0.0553594 0.0553575 0.0004565 0.0558140 0.0553575 0.2200391 0.2753966 |
0.9446425 7.8949x10-12 4.9415x10-38 3.1852x10-12 0.9446406 1.4361x10-16 3.8336x10-45 2.4710x10-19 0.9441860 1.9903x10-21 2.1674x10-52 1.3970x10-26 0.7246034 -5.4001x10-18 -3.8915x10-51 -2.5084x10-25 |
- - - 12,730.0 |
n=2.0230105x108 =[1+n1] +3,509n1n2 +36,419.7 Λ2 = Maximum DE Asymptote Λ2∞ = GoMo/ n12n22RH2 = 2.3766059x10-21 (m/s2)* n=[1+n1+n1n2] +13n1n2n3 +9,491,598.0↩ |
~1 0.99999884 (234.47173) 0.99971518 (57,619.85) 0.93169471 (13,814,279.0) |
~0 ~0 8.112x10-8 4.6765x10-3 |
3,414.05 Py 3,414.05 Py 3,414.05 Py 3,413.08 Py |
0.017319 0.001131 0.000072 0.000005 |
1.59768x1026 3.23211x1034 6.53860x1042 3.74610x1028 3.23211x1034 6.53861x1042 9.20578x1030 3.23211x1034 6.54045x1042 2.20707x1033 3.23119x1034 7.01395x1042 |
H=2.4435x10-17 Ho H'= - -4.8869x10-17 Ho2 -2.4435x10-17 Ho2 H=5.7292x10-15 Ho H'= - -1.1458x10-14 Ho2 -2.4435x10-17 Ho2 H=1.4079x10-12 Ho H'= - -2.8166x10-12 Ho2 -2.4435x10-17 Ho2 H=3.3774x10-10 Ho H'=1.0878x10-5 Ho/[n1n2n3- 9,491,598.0] -7.2415x10-10 Ho2 -2.4449x10-17 Ho2 |
~-1 4.0469x108 -0.999999 1.7256x106 -0.999858 7,019.91 -0.963344 27.280 |
2.4435x10-17 c -1.3608x10-34 1.3433x10-12 c -7.4812x10-30 8.1124x10-8 c -4.5166x10-25 4.6656x10-3 c -2.4215x10-20 |
0.0553575 0.0000000 0.0553575 0.0553575 0.0000002 0.0553577 0.0553575 0.0000473 0.0554048 0.0553575 0.0130897 0.0684472 |
0.9446425 7.8949x10-12 4.9415x10-38 3.1852x10-12 0.9446423 1.4360x10-16 3.8334x10-45 2.4709x10-19 0.9445952 2.3775x10-21 2.5826x10-52 1.6647x10-26 0.9315528 -2.4215x10-20 -1.0972x10-53 -7.0720x10-28 |
- - - 4.5698x106 |