GUNTERTABLE 1
---------------------------------++---------------------------------
[2] + 0.3010300 [3] + 0.4771213 [4] + 0.6020600 [Pw0]- 0.7441541
[Pi] + 0.4971499 [Eg0]+21.9875484 [Ma] -26.1775275 [q0] -29.0716885
[2Pi]+ 0.7981799 [f0] +15.8182050 [Md] -26.4757878 [Q0] -18.7952896
[4Pi]+ 1.0992099 [FBH]+44.0817422 [Me] -30.0405111 [qD0]-39.3480874
[43P]+ 0.6220887 [Fe] - 7.0841401 [Mm] -27.7250271 [QD0]+12.0339070
[2af]+16.6163849 [Fg] -46.4387750 [mma]- 2.9356722 [QeM]+11.2452215
[a0] -10.2763989 [Fge]-49.7026838 [Mn] -26.7760040 [Rc] + 7.0403543
[A0] -19.4535879 [Fgp]-43.1748662 [Mp] -26.7766023 [Re] -14.5500682
[aa] - 2.1368347 [FPQ]+42.9825322 [Mt] -26.4992464 [Rgc]+ 0.9198347
[aBH]+51.7445641 [g ] + 0.9915207 [Nm] -26.2966413 [RK] + 4.4118352
[ae] +22.9563709 [G ] -10.1744595 [p0] -23.7005250 [Rp] -14.8789624
[amu]-26.7797510 [G0] - 4.1108052 [PA] -68.4826355 [Tc] -28.1770178
[An] +23.7797510 [Gye]+11.2457248 [PC] +24.9912662 [Tp] -23.3557831
[B0] + 5.3711635 [Gyp]+ 8.4273598 [PE] + 9.2908195 [u0] -22.7317025
[BHR]-27.1281008 [h ] -33.1787440 [Pf] +43.2677434 [ue] -23.0322291
[Bk] -22.8599163 [H0] +11.2719536 [phi]+ 0.2089876 [um] -25.3477103
[Bm] -23.0327325 [hB] -33.9769239 [PK] +32.1513055 [un] -26.0149166
[c ] + 8.4768207 [He] -17.3605390 [PL] -34.7909227 [up] -25.8505941
[c^2]+16.9536414 [Hu] -17.6028630 [PM] - 7.6628219 [v0] + 6.3399860
[cQ] - 3.4392630 [i0] - 2.1789047 [Pp] + 0.8139988 [V0] -30.2071080
[Cw] -11.6150537 [Jf] +14.6844844 [PPw]+52.5585629 [vT0]+ 1.4347506
[d ] - 5.9007901 [k ] -11.0528513 [PQ] -18.2764773 [w0] -14.6844844
[E0] +11.7111495 [Ke] + 9.9536414 [PV]-103.7506794 [z0] + 2.5760306
?:
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!++!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
2.7263307 3.1744595 4.4118183 9.7996565 10.1744594 11.4118183
12.6799721 13.4241262 16.2225455 17.6534080 18.2764772 25.5001033
27.1281009 32.4450910 35.6049215 36.5529545 39.3546349 40.3169100
42.4537446 42.6185437 44.5905793 46.6568960 46.8922131 49.9825324
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
Symbol and Label Key
=================================++=================================
Numbers between asterisks below refer to locations found on the
Coherent Map of Fundamental Constants.
=================================++=================================
POWER OF TEN | COMMENTS, NOTES UNITS
=================================++=================================
- 0.0000168 3[k][B0]{[aa]^2}/[2Pi][a0] Fradm2trTsla
(See 4.4118183 , 4.4118352 )
+ 0.0005033 [ue]/[Bm] = [Gye]/([QeM]) = [Electron g-factor]/2
+ 0.0005982 [Mn]/[Mp]
- 0.0006011 1/{(36[Pi])[10^9]}/[k]
- 0.0006577 [2Pi][mma]/[aa]
- 0.0017157 [B0]([aa]^2])/[4Pi] = [hB]([aa]^2])/([Q0][A0]) Tsla
= ([Me]^.5){[Ke]^.5)([aa]^2])/([4Pi]([a0]^1.5))
+ 0.0054486 ([He]/[Q0])/{([V0]([f0]^2)} m3trs2ndVltt
- 0.0058435 [2Pi][Q0][Ke]/([aa][d]) CuulM2trs2nd=CuulfradhnryM2tr
= [hB][c]/{[d][Q0]/[2Pi]} = [c^2][Q0]/2[aa] cuulhnryJuulM2tr
- 0.0079136 ([PM][c])^4/([Mp]/[Me]) K4rmM4trs4nd
+ 0.0158189 [Pp]/[2Pi] = [PM][PL][Pf]/[2Pi] KgrmMetrscnd
+ 0.0253132 [Pp][Ke]/([B0]^2) fradKgrmM2trscndt2la
= [Pp]([a0]^3)/[Me] M4trscnd
+ 0.0484550 [phi]-.5 = .5([5]^[.5]) = [Golden section] - [1/2]
- 0.0511467 [4Pi][aa]/{[Hu][2af]} = [4Pi][a0]/{[Hu][c]} S2nd
= [z0][2Pi]/{[RK][Hu][2af]} = ([Q0]^2)[d]/([PM][PL][Hu][2af])
= [4Pi][hB][aa]/{[He][Hu]} = (({[Q0]/([PC][PT]})^2)/{Hu][2af]}
= [aa]/{[Rc][c][Hu]} = 8{[k]^2}{[h]^3)[aa])/([Me]([Q0]^4)[Hu])
= 2[h]/([Me][c^2][aa][Hu])
+ 0.0587060 ([HU][4Pi]/[2af])/[h] juulscnd
+ 0.0615851 ([4Pi]^2)[aa]
- 0.0763615 [Bm][Fe]/[Me] JuulkgrmNwtntsla
+ 0.0894494 [4Pi][aa^2][Mp]/[Me]
- 0.1104090 ([G]^.5)([Ke]^.5) CuulfradkgrmMetr
+ 0.1249387 [4/3]
+ 0.1539848 [Ke][PM][aa] fradKgrmMetr
- 0.1643225 [un]/[up]
+ 0.1665969 [Me]/[V0] = [Me]/{([4/3][Pi])([a0]^3)} Kgrmm3tr
- 0.1728162 [Bm]/[Bk] Degktsla
- 0.1743924 [Me][Pi]/([w0]^2) Kgrmw2br
- 0.1860796 [10^7][He]/[G]=[10^7][Me]([aa]^2)/([PL]/[PM]) hnryK2rm
+ 0.1923701 [k][QeM] CuulFradkgrmmetr
- 0.2032353 ([Cw][Q0])/[V0] Cuulm2tr
+ 0.2089876 [phi] = ([phi]^2) - 1 = .5 + .5([5]^.5)
Golden section : Sacred cut : Natural proportion constant
- 0.2208180 [G][Ke] fradkgrmM4trs2nd=k2rmM2trV2tt
- 0.2423240 [Hu]/[He] = [Hu]/{[hB][2af]} Hrtzjuul
+ 0.2485749 [Pi]^.5
- 0.2767577 [Mn]/[Mt]
- 0.2773562 [Mp]/[Mt]
+ 0.2881622 [Pi]/[phi]
- 0.3008144 [Mp]/[Md]
+ 0.3010300 2.0
- 0.3015333 2([ue]/[Bm]) = Electron g-factor
- 0.3227575 [Ke][a0] fradM2tr
- 0.3288942 [Rp]/[Re]
- 0.3485218 [ud]/[un]
+ 0.3943428 [B0]/([Ke]^.5) = [hB]/{[Q0]([a0]^2)([Ke]^.5)}
= [AUN magnetic flux density]/([Ke]^.5) cuulF12dKgrmm12rscnd
*21* = ([Me]^.5)([a0]^-1.5) K12mm32r=F12dm12rTsla
+ 0.3990899 [2Pi]^.5
- 0.4134620 [Fg][f0]/[V0] m3trNwtnscnd
+ 0.4179753 ([phi]^2) = [phi] + 1
+ 0.4391959 [E0]/[H0] = [He][a0][d]/[hB] = [v0][d] Ohmm
= [z0][aa] = [aa][c][d] = 2[RK]{[aa]^2} = [aa]/{[c][k]}
+ 0.4391959 [PQ]/{[PM][k]} = [PC][PL][z0]/[PM] CuulfradkgrmMetr
+ 0.4391959 [c][G]/[aa] kgrmM4trs3nd
- 0.4513116 [Hu]/([He][phi]) Hrtzjuul
- 0.4767423 [PL]/{[Me]([aa]^2)} kgrmMetr
+ 0.4771213 3.0
+ 0.4971499 [Pi] = 1/{[Jf][B0]([a0]^2)}
+ 0.5028838 [um]/[up]
- 0.5088371 [hB][v0][PM]/[PL] = {[Pp]^2}[aa] JuulKgrm
- 0.5128443 [ud]/[up]
- 0.5188124 {[4Pi][aa])^.5 = {[z0][2Pi]/[RK]}^.5 = [Q0]/[PQ]
+ 0.5496049 [4Pi]^.5
+ 0.5678676 [G]{[B0]^2} k2rmM2trNwtnT2la
- 0.5990748 [Mp]/[Ma]
+ 0.6003442 [d][Q0][f0]/([2Pi][a0]) CuulHnrym2trscnd=Tsla
+ 0.6020600 4.0
+ 0.6220886 [43P] = [4/3][Pi]
+ 0.6582982 [Q0]/[A0] Cuulm2tr
- 0.6715423 [Me]/([w0]^2) Kgrmw2br
+ 0.6989700 5.0
+ 0.7061375 [Pi][phi]
- 0.7441541 [Pw0] = [4Pi][Rc][hB][c][2af] = [He][2af] Waat
= [B0][E0][4Pi]{[aa]^2}{[a0]^2}/[d] HnryTslaVltt
*28* = [Me]([a0]^2)([2af]^3) = AUN power
+ 0.7470772 Proton g-factor
- 0.7487289 {[d]^2}/[k] FradH2ryMetr
+ 0.7781513 6.0
+ 0.7886856 ([B0]^2)/[Ke] = {([Me][2af]/[Q0])^2}/[Ke] FradmetrT2la
*33* = [Me]([a0]^-3) =([AUN magnetic flux density]^2)/[Ke] Kgrmm3tr
+ 0.7886856 ([PC]/{[PL]^2})/{[FBH]/[Fge]} Amprm2tr
= [PC]{[Me]^2]/({[PM]^2}{[a0]^2})
+ 0.7981799 2[Pi] = [Rp][Mp]/{[PM][PL])
+ 0.8139988 [Pp] = [hB]/[PL] = [PM][PL][Pf] KgrmMetrscnd
+ 0.8450980 7.0
+ 0.8783918 [c^2]{[G]^2}/{[aa]^2} k2rmM8trs6nd
+ 0.8783918 {[E0]/[H0]}^2 = {([He][a0][d])/[hB]}^2 a2prC2ulf2ad
= {[v0][d]}^2 = 4{[aa]^4}{[RK]}^2 = {[z0][aa]}^2 H2rys2nd=O2mm
+ 0.8783919 [G]/[k] = ([PQ]/{[PM][k]})^2 C2ulf2adk2rmM2tr
= [hB][c]/([k]{[PM]^2}) fradk2rmM3trNwtn=fradJuulk2rmM2tr
= {[PL]^3}{[Pf]^2}/{[PM][k]} fradkgrmM4trs2nd
+ 0.9030900 8.0
+ 0.9198347 [Rgc] = Molar gas constant degkJuulmool
- 0.9221724 [An][h][c]=[Molar Planck constant][c] JuulMetrmool
- 0.9484248 [Mm]/[Mp]
+ 0.9490231 [Mn]/[Mm]
+ 0.9542425 9.0
+ 0.9622750 [Fg]([a0]^2)/([hB]^2) kgrmmetr
- 0.9864781 [Hu][2af] s2nd
+ 0.9915207 [g] = Earth acceleration of gravity Metrs2nd
+ 0.9942997 [Pi]^2
- 1.0013983 [2Pi][a0][c] M2trscnd
+ 1.0071675 2[Pi][phi]
- 1.0097606 ([aa]^2)/([Me]/[Mp])
- 1.0376248 [4Pi][aa] = [z0][2Pi]/[RK] = {[Q0]/[PQ]}^2
= ([Q0]^2)[d]/([PM][PL]) = ([PL][PM]/[k])/{[Me][a0][Ke]}
= Planckmap/AUNmap @ z0 over RK/2Pi
= (Planckmap/AUNmap @ c k over v0/Ke)^-1
- 1.0405039 [Hu]/([2Pi][He]) Hrtzjuul
- 1.0684173 [aa]^.5
+ 1.0992099 [4Pi]={[PM]^2}[G]/{[PQ]^2}[Ke]={[Q0]^2}/([aa]{[PQ]^2})
- 1.1270741 [Me]/([Mp][aa])
- 1.2257809 [Mm]/[Mt]
- 1.2288021 {[Hu]^2}/[hB] Hrtzjuul
- 1.3386548 2[Pi][aa]
- 1.3415339 [Hu]/([4Pi][He]) Hrtzjuul
+ 1.3926806 {[He]^2}/{[hB][aa]}=[hB]{[2af]^2}/[aa]=[Pw0]/[aa] Waat
+ 1.4002399 8[Pi]
+ 1.4347506 [vT0] = ([Q0][Ke])/[a0] Vltt=f12dK12mMetrscnd
= [He]/[Q0] = ([Fe]^.5)([Ke]^.5) cuulJuul=f12dM12rN12n
*13* =([Me]^.5)([a0]^.5)[2af]([Ke]^.5) = AUN electric potential
+ 1.4631985 ([Me]^2)[c^3]/([hB][aa]) Nwtn
- 1.5423340 [He][f0] Waat
+ 1.5473387 [Ke]/{([aa]^2)([v0]^2)} fradmetrS2nd=Hnrymetr
= ([c^2][Ke])/([v0]^4) = Hnry/{[10^7]([aa]^4)Metr}
- 1.5872297 ([G][10^7])^.5 = ([G][4Pi]/[d])^.5 h12yk12mM2trscnd
- 1.5947179 [Nm]/([h][c]) metrtsla
+ 1.5963597 4([Pi]^2)
- 1.6271208 1/{([v0]^2)[k]} = [d]/([aa]^2) fradmetrS2nd=Hnrymetr
+ 1.6279976 [Pp]^2 = {[PM]^2}[c^2] = [PE][PM] K2rmM2trs2nd
= [c^3][hB]/[G] = [PM][c^2][d]{[Q0]^2}/{[PL][aa][4Pi]}
= [PM][hB][c]/[PL] = [Ke][c^2]{[Q0]^2}/{[G][aa]} KgrmJuul
+ 1.6319544 ([Mp]/[Me])^.5
- 1.6437641 [Vmi] = Ideal gas molar volume M3trmool
+ 1.6691909 [Bm]/([h][c]) metrtsla
- 1.6976387 [G][c] = {[PL]^4}{[Pf]^3}/[PM] kgrmM4trs3nd
+ 1.7640556 ([Q0]^2)([Fe]/[Fg]) C2ul
- 1.784658 [Hu][f0] H2tz
- 1.7995782 [a0][c] M2trscnd
+ 1.8023612 [4Pi]([aa]^2)([Ke]^.5) M12rf12d
- 1.8358047 2[aa]
- 1.8420072 ([h][c])/[Bk]=second radiation constant MetrDegk
- 1.8561472 [B0][4Pi]([aa]^2)/([d][Ke])
+ 1.8956741 [d][2Pi][i0]/{4Pi][a0]} Tsla
+ 1.9160166 [aa][d][Ke] fradHnry
+ 1.9281508 [v0]/[RK] Metrohmmscnd=FradMetrs2nd
- 1.9739706 2/([RK][aa]) ohmm=Fradscnd
+ 1.9911094 {[H0]^2}{[a0]^2} A2pr
- 2.0528513 [k][10^9] Fradmetr
+ 2.0534524 [36][Pi]
=================================++=================================
- 2.1368347 [aa] =[v0]/[c] =[z0]/(2[RK]) = Fine structure constant
= ([Q0]^2)[Ke]/([hB][c]) = [4Pi][a0][Rc] = [PM][PL]/([Me][a0])
= [G]([PM]^2)/([Me][a0][c^2]) = ([Pi]^2)[Ke][PM][PL]/{[w0]^2}
= {{[Q0]/([PC][PT])}^2}/[4Pi] = [Fe]([Me][Mp])/{[Fg]([PM]^2)}
= (2[Cw][Rc])^.5 = 1/(2[k][c][RK]) = [2Pi][Re][Me]/([Rp][Mp])
= [z0][Q0]/(4[w0]) = [E0]/[B0][c] = {[PM][2af]/([Me][Pf])}^.5
= [z0]([Q0]^2)/(2[h]) = [Jf][z0][Q0]/4 = [v0][c][PL]/([G][PM])
= {([Q0]^2)[d]/([4Pi][Me][a0])}^.5 = ([Q0]^2)[d]/([4Pi][PM][PL])
= [Fe]([a0]^2)/([FBH]([PL]^2)) = [2Pi][Re]/[Cw] = [Cw]/([2Pi][a0])
= [Ke]([Q0]^2)/([G]{[PM]^2}) = [Me][Re]/([PM][PL]) = ([Re]/[a0])^.5
=================================++=================================
+ 2.1646989 [Mp]/{Me][4Pi]
- 2.1789047 [i0] = [Q0][He]/[hB] Ampr
= [PM][2af]([G][aa])^.5)/([Ke]^.5) F12dK12mMetrs2nd
*12* = {([Me]^.5)([a0]^1.5)([2af]^2)/([Ke]^.5) = AUN current
+ 2.1984197 [4Pi]^2
+ 2.2329304 [RK][Q0][2af] = 2[w0][2af] CuulOhmmscnd=scndWebr
= [i0][z0]/{2[aa]} = [vT0][2Pi] Vltt=AmprOhmm
+ 2.3149779 [Bm]/[um]
+ 2.3154812 [ue]/[um]
- 2.3154839 [Me]/[Mm]
- 2.3570328 [Fg][FBH] N2tn
+ 2.4035731 ([a0]^3}([2af]^2) = [a0]([v0]^2) = [Re][c^2] M3trs2nd
= [G]([PM]^2)[aa]/[Me] = {[Q0]^2}[Ke]/[Me] C2ulfradkgrmMetr
= {[PQ]^2}[aa]/[k][Me] = {[PQ]^2}[z0]/2[k][Me][RK]
- 2.4378648 [aa]/2
- 2.5379363 Wien displacement law constant DegkMetr
+ 2.5760306 [z0] = [d][c] = 2[aa][h]/([Q0]^2) Ohmm=Hnryscnd
= [E0]/{[aa][H0]} = [d][E0]/{[aa][B0]} = 4[aa]/[G0] f12dH12y
= 4[w0][aa]/[Q0] = 4[aa]/([Jf][Q0]) cuulWebr=amprVltt
= ([v0]^-1)[4Pi][aa][Ke] = 1/{[c][k]} = 2[RK][aa] fradScnd
= [Pw0][4Pi][aa]/{[i0]^2} = ([d]/[k])^.5 c2ulJuulScnd
*35* = ([a0]^-1)([2af]^-1)[4Pi][aa][Ke] = impedance of vacuum
+ 2.6448328 [B0][d]/{[4Pi]([aa]^2)} HnrymetrTsla
- 2.6456717 {[Pp]^2}{[aa]^2} K2rmM2trs2nd
+ 2.6656223 ([PM]^2)[c^2][aa]/([G][10^7]) HnryK3rmm2tr
- 2.7194945 Tau molar mass Kgrmmool
- 2.7263307 [d]/{[4Pi]([aa]^2)} = [Ke]/{[v0]^2} a2prNwtn
= [Me][a0]/{[Q0]^2} = [PL][PM]/([aa]{[Q0]^2}) KgrmMetrc2ul
= 1/{[10^7]([aa]^2)} = 1/{[c^2]([aa]^2)([4Pi][k])} Hnrymetr
= [PL][PM][Ke]/([G]{[PM]^2}{[aa]^2}) fradmetrS2nd
= [B0][RK]/{[2Pi][a0][Eg0]} = [Fe]/{[i0]^2} MetrOhmmTslavltt
*26* = ([a0]^-2)([2af]^-2)[Ke] = AUN permeability
+ 2.7979159 [i0]([Ke]^.5) Amprf12dM12r
= ([Q0][He]/[hB])([Ke]^.5) K12mM32rs2nd
*12* =([Me]^.5)([a0]^1.5)([2af]^2) = [AUN current]([Ke]^.5)
- 2.7996566 ([Q0]^2)/[PL] C2ulmetr
- 2.8104708 [Me][c^2]/[a0] Nwtn
- 2.8178616 [up]/[Bm]
+ 2.8183649 [ue]/[up]
+ 2.8183761 [ue]/[shielded proton magnetic moment]
- 2.9333327 Muon magnetic moment anomaly
+ 2.9350145 [2Pi]/[aa] = ([Rp][Mp])/([Me][Re])
- 2.9356722 [mma] = ([ue]/[Bm]) - 1 = {[ue]-[Bm]}/[Bm]
- 2.9503951 [d]^.5 amprN12n=H12ym12r
+ 2.9536414 ([Ke]^2)/[c^2] = ([Ke]^2)([aa]^2)/([v0]^2) fradHnry
= [Ke][d]/[4Pi] = [d]/([4Pi]^2}[k]) f2adS2nd
+ 2.9826875 [ue]/[un]
- 3.0991099 [PM][PL]/{[Fg]/[Fe]} KgrmMetr
- 3.1382330 2[cQ] = [h]/[Me] M2trscnd
- 3.1744594 [G][10^7] = [G][4Pi]/[d] hnrykgrmM4trs2nd
- 3.1744594 [4Pi]([aa]^2) =[d]([v0]^2)/[Ke]=([Q0]^2)[d]/([a0][Me])
= {[i0]^2}[d]/[Fe] = {[Q0]^2]{[2af]^2}[d]/[Fe]
= {[a0]^2}{[2af]^2}[d]/[Ke] = {[a0]^2}{[2af]^2}[d][k][4Pi]
= Planckmap/AUNmap @ d over Ke/v0^2
- 3.1922587 ([a0]^3)/{([Q0]^2)[Ke]} c2ulFradM2tr
= 1/{[Me]([2af]^2)} kgrmS2nd
+ 3.2343288 [Ke][Q0]/{[c]([a0]^2)} =[B0][aa] Cuulfradm2trScnd=Tsla
- 3.2360445 [aa]/[4Pi]
+ 3.2559952 [Pp]^4 = ([PM][PL][Pf])^4 K4rmM4trs4nd
- 3.2639088 [Me]/[Mp] = [Nm]/[Bm]
+ 3.2644121 [ue]/[Nm]
- 3.2645070 [Me]/[Mn]
- 3.3201846 {[i0]^2]/{[4Pi][aa]} A2pr
- 3.3312093 [ud]/[ue]
+ 3.3895910 [aa]/{[k]^.5} f12dM12r
+ 3.3895910 [PC][PL]/([PM]{[k]^.5}) Cuulf12dkgrmM32r
= {[c^4][PL]/[PM]}^.5 k12mM52rs2nd
- 3.3900294 [k]/[PM] Fradkgrmmetr
- 3.3952775 {[aa]^2}{[E0]^2}/{[H0]^2} a2prC2ulf2ad=H2rys2nd=O2mm
- 3.3952776 [c^2]{[G]^2} k2rmM8trs6nd
+ 3.4305057 [Mp]/[V0] Kgrmm3tr
- 3.4367250 [Nm]/[Bk] Degktsla
- 3.4392630 [cQ] = [h]/(2[Me])= [A0][2af]/4 M2trscnd
*27* = ([a0]^2)[2af][Pi] = Quantum of circulation
+ 3.5295152 [He][2af]/([aa]^2) = [Pw0]/([aa]^2) Waat
- 3.5412646 [Me]/[Mt]
- 3.5420701 [vT0]/([Ke]^.5)=([Fe]^.5) cuulF12dJuulm12r=F12dm12rVltt
= [He]/{[Q0]([Ke]^.5)} = [Q0]([Ke]^.5)/[a0] N12n=K12mM12rscnd
*13* = ([Me]^.5)([a0]^.5)[2af] = [AUN electric potential]/([Ke]^.5)
- 3.5647232 [Me]/[deuteron mass]
+ 3.5928030 ([Re]/[Me])/([Rp]/[Mp])
+ 3.6000332 ([Me]^2)[c^3]/{[hB]([aa]^2)} Nwtn
= [Me][c^2]/([Re][aa]) = [G]/([Gresky's mu sub b]^2)
+ 3.6136553 [RK]/[2Pi] = [Pw0]/{[i0]^2} Ohmm=fradScnd=a2prWaat
= [E0]/([H0][4Pi]{[aa]^2}) amprVltt=MetrnwtnTslaVltt
*35* = ([a0]^-1)([2af]^-1)[Ke] = [von Klitzing constant]/[2Pi]
- 3.6353828 [h]/([Pi][Me]) = [4Pi]([a0]^2)[f0] M2trscnd
+ 3.7648322 ([PM]^2)[c^2][aa][4Pi]/([G][10^7]) HnryK3rmm2tr
- 3.8202314 [Fe]/([Me]/[Mp]) Nwtn
- 3.8314110 [PM5] = [PM]^[.5] K12m
- 3.8629836 [Me]/[Ma]
- 3.9364128 [cQ]/[Pi] = ([a0]^2)[2af] = [a0][v0] M2trscnd
= [A0][2af]/[4Pi] =[aa]{([A0]/[d])^.5}([Ke]^.5)
*27* = ([a0]^2)([2Pi][f0]) = [Quantum of circulation]/[Pi]
- 3.9452762 Muon molar mass Kgrmmool
- 4.0528513 1/([Ke][d]) = [4Pi][k]/[d] Fradhnry
- 4.1108052 [G0] = Conductance quantum = 2([Q0]^2)/[h] Smns
= 4[aa]/([d][c]) = 2/[RK] = [Jf][Q0] = [Q0]/[w0] = 4[aa]/[z0]
*5* = [a0][2af]/{[Pi][Ke]} = [AUN velocity]/([Pi][Ke])
- 4.2469372 [p0]/[A0] Kgrmmetrscnd
- 4.2611053 [d]/([aa][Pi]) a2prNwtn=Hnrymetr
- 4.2736694 [aa]^2 = ([v0]^2)[d][k] = [PL][He]/([G][Me][PM])
= [He][Pi]/([a0][H0][4Pi][w0]) = ([Q0]^2)[d]/{[a0][4Pi][Me]}
= [v0][E0]/{[Ke][H0][4Pi]} = [k][v0][E0]/[H0] = 2[Cw][Rc]
= ([Q0]^2)[d][2af]([v0]^2)[2Pi]/{[a0][4Pi]([i0]^2)[RK]}
= [He][d]/{{[B0]^2}([a0]^3)[4Pi]} = [PM][2af]/{[Me][Pf]}
= {[E0]^2}/{[c^2][B0]^2} = {[E0]^2}[k]/({[H0]^2}[d])
- 4.2736694 [d][PC]{[aa]^3}/[c^2] amprm2trNwtnS2nd
- 4.2736694 [G]/[d] = [c^4][PL][k]/[PM] Fradk2rmM3trNwtns2nd
= {[PC]^2}{[PL]^2}/{[PM]^2} hnrykgrmM4trs2nd=A2prk2rmM2tr
+ 4.3352544 ([4Pi]^2)/[aa]
- 4.3578094 {[i0]^2} = [4Pi][Fe]([aa]^2)/[d] A2pr
= {[H0]^2}{[a0]^2}{[4Pi]^2}{[aa]^4}
- 4.3631187 [Me]/[4Pi][Mp]
+ 4.4118183 [Q0]{[4Pi]/3}{[a0]^3}[10^7] Cuulm3tr
*15*? = [Q0]/([V0][10^7]) = [AUN charge density]{3/([4Pi][10^7])}
+ 4.4118183 [Q0][d]/([V0][4Pi]) CuulHnrym4tr
= [Q0][Ke]/{[c^2][V0]} Cuulfradm4trS2nd
= 3[Q0]{[B0]^2}/{[4Pi][c^2][Me]} Cuulkgrmm2trS2ndT2la
= 3[k][RK][B0]{[aa]^2}/[2Pi][a0] Fradm2trOhmmTsla
- 0.0000168 = 3[k][B0]{[aa]^2}/[2Pi][a0]
+ 4.4118352 [RK] = [h]/([Q0]^2) = [z0]/(2[aa]) = 2/[G0] Ohmm
= Hall resistance = ([v0]^-1)[2Pi][Ke] fradScnd
= ([d]/[k])^.5)/(2[aa]) = [d][c]/(2[aa]) f12dH12y=Hnryscnd
= 2[w0]/[Q0] = 2/([Jf][Q0]) cuulWebr=amprVltt
= [E0]/(2{[aa]^2}[H0]) = [d][E0]/(2{[aa]^2}[B0]) c2ulJuulScnd
*35* = ([a0]^-1)([2af]^-1)[2Pi][Ke] = von Klitzing constant
+ 4.4384684 [PC]{[a0]^2} AmprM2tr
- 4.6025636 [Rp]/[a0]
- 4.7128653 [Q0]/(4[w0]) = [v0][k] Fradscnd=Cuulwebr
- 4.7708192 ([aa]^2)/[Pi]
+ 4.7816675 [B0][d]/{[4Pi]([aa]^3)} HnrymetrTsla
- 4.8631653 [d]/([4Pi][aa]) a2prNwtn=Hnrymetr
= [PL][PM]/{[Q0]^2} KgrmMetrc2ul
- 4.9052354 [hB]/([Q0][a0]) = [B0][a0] metrWebr=MetrTsla
= [Me][Jf][Pi][Ke] = [Fe]/[i0] fradHrtzKgrmMetrvltt
- 4.9473055 [Fe]/[aa] = [G]([PM]^2)/([a0]^2) Nwtn
- 4.9763173 ([ue]/[Bm])/([Ke]^.5) F12dm12r
+ 4.9768207 [Ke]^.5 = [c]{[d]/[4Pi]}^.5 f12dM12r=H12yM32rscnd
+ 4.9844613 [An][Q0] = Faraday constant Cuulmool
+ 5.0057166 Standard atmosphere Pscl=m2trNwtn
+ 5.0718492 [2Pi]/{[aa]^2}
- 5.0872297 [G]^.5 k12mM32rscnd
- 5.1381994 [a05] = [a0]^.5 M12r
+ 5.1520611 [z0]^2 = [d^2][c^2] = [d]/[k] ?5D? O2mm=fradHnry
- 5.2483355 [Fe]/(2[aa]) Nwtn
+ 5.3711635 [B0] = [hB]/{[Q0]([a0]^2)} = AUN magnetic flux density
*21* = ([Me]^.5)([a0]^-1.5){[Ke]^.5) f12dK12mmetr=cuulKgrmscnd=Tsla
- 5.3728792 ([aa]^2)/[4Pi]
- 5.4007435 [Me][aa]/[Mp]
+ 5.4739706 [Pi]([Ke]^.5) f12dM12r
- 5.5259872 [PM]/[aa] Kgrm
- 5.5259873 ({[PM]^3}/{[c^4][PL][k]})^.5 f12dK32mm2trS2nd
+ 5.6799721 [Ke]([aa]^2) fradMetr
- 5.7884154 [4Pi]([aa]^3)/3
+ 5.8706868 ([2Pi]/[aa])/[mma]
- 5.9007901 [PQ]/([k][c][PM][aa]) CuulfradkgrmScnd
- 5.9007901 [d] = 1/([c^2][k]) = {[z0]^2}[k] a2prNwtn=Hnrymetr
= [4Pi]([aa]^2)[Ke]/([v0]^2) FradmetrO2mm=fradmetrS2nd
*26* = ([a0]^-2)([2af]^-2)[4Pi]([aa]^2)[Ke] = Magnetic constant
- 5.9007902 [G]/{[aa]^2} kgrmM3trs2nd
- 6.0732475 [hB][aa]/[Me] = [c][Re] JuulkgrmScnd=M2trscnd
+ 6.0760306 [4Pi]([Ke]^.5) f12dM12r
+ 6.1959366 [PC][Q0] C2ul
- 6.2476399 2[aa]/[RK] = [aa][G0] Smns
- 6.2607601 [An][Me] (molecules)(Kgrmmool)
+ 6.3037596 [2af][d]/[RK] metr
- 6.3399860 1/[v0] = [RK]/([2Pi][Ke]) metrScnd=FradmetrOhmm
= [z0]/([4Pi][aa][Ke]) = 1/([Pi][G0][Ke]) cuulFradmetrWebr
= {([d]/[k])^.5}/([4Pi][aa][Ke]) = [d][c]/([4Pi][aa][Ke])
= [w0]/([Pi][Q0][Ke]) = 1/([Pi][Jf][Q0][Ke]) amprFradmetrVltt
= [hB]/{([Q0]^2)[Ke]} c2ulFradJuulmetrScnd=F12dH12ymetr
*35* = ([a0]^-1)([2af]^-1) = [von Klitzing constant]/([2Pi][Ke])
+ 6.3399860 [v0] = [a0][He]/[hB] = ([Q0]^2)[Ke]/[hB] Metrscnd
= [Ke][2Pi]/[RK] = [G0][Ke][Pi] CuulfradMetrwebr
= [2af]/[Jf][Pi][a0][B0] metrtslaVltt=fradMetrSmns
*5* = [a0][2af] = [a0](2[Pi][f0]) = [Jf][Q0][Ke][Pi] = AUN velocity
- 6.3489188 (([4Pi]([aa]^2))^2)
- 6.4105040 [aa]^3 = [2af][Re]/[c] = [Fe][Mp][2af]/([Fg][PM][Pf])
= [Fe]{[PM]^2)/([FBH]{[Me]^2})
= ([PL]^2)[Mp][Fe]/{([a0]^2)[Me][Fg]} B076
+ 6.5065829 [p0]/[V0] Kgrmm2trscnd
+ 6.5278176 ([Mp]/[Me])^2
- 6.7001949 ([Mp][h][c][aa]/{[Me][G]})^.5 Kgrm
= Baggiolini's pondus B272
+ 6.7343288 [He]/{([Q0][a0])([Ke]^.5)} F12dm32rVltt=K12mm12rscnd
*14* = ([Me]^.5)([a0]^-.5)[2af] = [AUN electric field]/([Ke]^.5)
+ 6.7791819 [4Pi][Ke]([aa]^2) =([aa]^2)/[k] =([v0]^2)[d] fradMetr
+ 6.7791820 [G][c^2] = [c^4][PL]/[PM] k2rmM4trNwtns2nd
= {[PC]^2}{[PL]^2}/([k]{[PM]^2}) kgrmM5trs4nd=C2ulfradkgrmM3tr
+ 6.8821028 [Nm]/[h] scndtsla
- 6.8872463 {[G][hB]([aa]^2)/{([Me]^2)[c^3]}}^.5 kgrmMetr
= {[G][Re][aa]/([Me][c^2])}^.5 = [Gresky's mu sub b] B138
- 6.9105506 [G]/([Me]/[Mp]) kgrmM3trs2nd
+ 7.0000000 [4Pi]/[d]=[c^2]/[Ke]=[c^2]([4Pi][k]) hnryMetr
- 7.0058435 [hB][c]/(2[Q0]) = {[Q0]/{[8Pi][k][aa]} CuulfradMetr
=[B0]{[a0]^3][2af]/{2[aa]} =[v0][w0]/{[2Pi][aa]} MetrscndWebr
= Dirac's magnetic charge B193
+ 7.0403543 [Rc] = [Me][c]([aa]^2)/(2[h]) = [aa]/([4Pi][a0]) metr
= Rydberg constant = [Me]([Q0]^4)/(8{[k]^2}{[h]^3}[c]) B028
- 7.0841401 [Fe] = [He]/[a0] = [B0][i0][a0] AmprMetrTsla=Nwtn
= ([H0][4Pi]([aa]^2])([w0]/[Pi]) fradhnryKgrmMetr=C2ulfradmetr
*8* = [Me][a0]([2af]^2) = {([Q0]/[a0])^2}[Ke] = AUN force
- 7.2463863 ([Pi]^2)([Bk]^4)/{(60([hB]^3)[c]} d4gKm2trWaat
= Stefan Boltzmann constant
- 7.3639886 {[PL]/[PM]}/{[Me]/[a0]}
- 7.3834713 ([Q0]^2)/[V0] C2ulm3tr
+ 7.4988066 = 31536000 seconds in one year [Second]/[Year]
+ 7.5110019 [Shielded helion gyromagnetic ratio]/[2Pi] Hrtztsla
- 7.5375781 ([aa]^2)/({Mp]/[Me])
- 7.5500682 ([Q0]^2)/[Me] C2ulkgrm
- 7.6628219 [PM] = Planck Mass = {([Q0]^2)[Ke]/([G][aa])}^.5 Kgrm
= ([hB][c]/[G])^.5 = [Me][a0][aa]/[PL] = {[aa]^2}[Me][Pf]/[2af]
= [z0]{[PC]^2}/({[PL]^2}{[Pf]^3}) = [z0]{[PQ]^2}/{[c][PL]}
= ([Q0]^2)[d]/{[4Pi][aa][PL]}
- 7.6628219 [PC][PL]/[aa] = [PQ][c]/[aa] CuulMetrscnd
- 7.6628219 [c^4][PL][k]/{[aa]^2} FradM4tr
+ 7.6786408 [c]/(2[Pi]) Metrscnd
- 7.7424384 [Q0]/[k] CuulfradMetr
+ 7.8168067 [Ke][aa] fradMetr
+ 7.9813126 [Q0]/[Mp] Cuulkgrm
- 8.0376248 [d][aa] Hnrymetr
- 8.0376248 ([PL]/{[PM][k]})^.5 f12dk12mMetr
- 8.0376248 [aa]/[G] K2rmm2trnwtn
+ 8.0974942 [H0][4Pi]([aa]^2) = [B0]([aa]^2)/([d][k][Ke] Amprmetr
= [4Pi]([aa]^2)([B0]/[d]) FradMetrTslas2nd=hnryMetrTsla
= [B0]([v0]^2)/[Ke] =[AUN magnetic field strength][4Pi]([aa]^2)
*29* = ([Me]^.5)([a0]^.5)([2af]^2)/([Ke]^.5) F12dK12ms2nd
+ 8.0992099 [4Pi][10^7] or [4Pi][4Pi]/[d] in hnryMetr
- 8.1395642 [a0]/[aa] Metr
+ 8.2630373 [Gyn] = Neutron gyromagnetic ratio scndtsla
- 8.2852895 {[H0]^2}{[a0]^3} A2prMetr
+ 8.3091817 Shielded helion gyromagnetic ratio scndtsla
+ 8.3095492 [QeM][mma] Cuulkgrm
+ 8.4273487 Shielded gyromagnetic ratio of proton scndtsla
+ 8.4273598 [Gyp] = (2[up]/[hB]) scndtsla
+ 8.4515075 [Me]/{[PM]([a0]^3)} m3tr
+ 8.4768207 [c] = [v0]/[aa] = [PL][Pf] = [z0]/[d] Metrscnd
= [hB]/{[PM][PL]} = 1/{[c][d][k]} = [Rp]/[Tp] fradhnryMetrScnd
= [f0]/(2[Rc]) = [E0]/{[aa][d][H0]} = speed of light in vacuum
*5* = [a0][2af]/[aa] = [aa][H0]/{[k][E0]} = [AUN velocity]/[aa]
+ 8.4768207 [PM][aa]/[PQ] cuulKgrm
+ 8.4768207 {[aa]^2}/{[G][c][k]} fradKgrmm3trS3nd
= [PM]{[aa]^2}/({[PL]^4}{[Pf^3}[k])
- 8.5188908 [Q0]/[a0] Cuulmetr
- 8.5473387 [aa]^4
- 8.7312393 [PM]([aa]^.5) Kgrm
- 8.8416482 [Q0][Ke] = [Q0]/([4Pi][k]) CuulfradMetr
+ 8.9160166 [Ke][4Pi][aa] = [aa]/[k] fradMetr
+ 8.9160166 [c^2]([PL]/{[PM][k]})^.5 f12dk12mM3trs2nd
- 8.9199448 2[Fe][aa] Nwtn
+ 8.9535630 [PM][2af] = [Me][Pf]{[aa]^2} Kgrmmetr
- 9.0143988 [Rp]/[RK] Metrohmm
- 9.0752495 [PL][4Pi]/{[k][d][PM]} = [G][4Pi] M3trkgrms2nd
- 9.0752495 [d][4Pi]([aa]^2) Hnrymetr
- 9.1368347 [aa][d]/[4Pi] = [aa]/[10^7] Hnrymetr
- 9.2209748 [Fe][aa] Nwtn
+ 9.2750006 [2Pi][c] Metrscnd
+ 9.2908195 [PE] = [PM][c^2] = Planck energy Juul
+ 9.3075763 [RK][B0]/[2Pi][a0]{[Ke]} Fradm2trOhmmTsla
= [Q0][Ke]/{[v0]^2}{[a0]^3} Cuulfradm4trS2nd
- 9.3989931 [An][h] = Molar planck constant JuulmoolScnd
+ 9.4160633 [He]/[Mp] Juulkgrm
- 9.4782190 [2Pi][a0] Metr
+ 9.4877133 {[a0]^2}/[Me] kgrmM2tr
- 9.5220048 [Fe][aa]/2 Nwtn
- 9.5221465 [Md][c^2] Juul
- 9.5455897 [Mt][c^2] Juul
- 9.7792490 [a0][Pi] Metr
- 9.7996565 [c^4][PL][k]/[aa] FradM4trs4nd
- 9.7996565 [PC][PL] = [PQ][c] AmprMetr
- 9.7996566 [PM][aa] = [Me][a0]{[aa]^2}/[PL] Kgrm
= ([Q0]^2)[d]/{[4Pi][PL]} C2ulHnrym2tr
- 9.8104708 [B0]/{[Jf][Pi]} = [Me][Ke]/[a0] fradKgrm
- 9.8223627 [Mn][c^2] Juul
- 9.8229609 [Mp][c^2] Juul
+ 9.8449816 [Bm]/(2[h]) scndtsla
+ 9.8820561 ([a0]/[Me])^.5 k12mM12r
+ 9.9536414 [Ke] = 1/([4Pi][k]) = [c^2][d]/[4Pi] fradMetr
= [v0][RK]/[2Pi] = [a0][B0]/([Me][Jf][Pi])
= [d]{[v0]^2}/([4Pi]{[aa]^2}) = [z0]{[v0]^2}/([c][4Pi]{[aa]^2})
*0* = Base unit of permittivity B120 = 1/[AUN permittivity]
- 10.0340748 ([Q0]^2)[Ke]/[Hu] C2ulfradMetrScnd=KgrmM3trscnd
- 10.0640504 ([G]^.5)/([Ke]^.5) F12dk12mMetrscnd=Cuulkgrm
+ 10.1460116 [Bm]/[h] scndtsla
- 10.1744595 [G] = [hB][c]/([PM]^2) = [c^2][PL]/[PM] k2rmM2trNwtn
= ([PL]^3)([Pf]^2)/[PM] hnryk2rmMetrW2br
= ([PQ]^2}/({[k][PM]}^2) h2rykgrmM2trOhmmScnd
= ([Q0]^2)[Ke]/{([aa]([PM]^2)} Fradk2rmMetrOhmmWaat
= {[PC]^2}/({[PM]^2}{[Pf]^2}[k]) A2prfradk2rmMetrS2nd
= ([QeM]^2)[Ke]([Fg]/[Fe])([Me]/[Mp]) C2ulk3rmmetrS2ndV2tt
= ([Ke]/[aa]){([2af][Me]/[B0][PM])^2} fradMetrs2ndt2la
= [Ke]([i0]^2)/{([PM]^2)([2af]^2)[aa]} A2prk2rmnwtnW2br
= ([Q0]^2)/(({[Jf][Pi][PM]}^2)[aa][Me][a0]) C2ulfradk2rmMetr
= 4[Ke]{([Bm]/[hB])^2}([Fg]/[Fe])([Me]/[Mp]) Fradk2rmMetrV2tt
= [Ke]{([2af]/[B0])^2}([Fg]/[Fe])([Me]/[Mp]) hnrykgrmM2tr
= [Ke]{([Eg0]^2)/([B0])^4}([Fg]/[Fe])([Me]/[Mp]) Juulk2rmMetr
= ([Gye]^2)[Ke]([Fg]/[Fe])([Me]/[Mp]){([Bm]/[ue])^2}
= [Ke][Me]{([Eg0]^2)/([B0])^4}([2af])/{[PM][Pf]([aa]^3)}
*31* = ([Me]^-1)([a0]^3)([2af^2)([Fg]/[Fe])([Me]/[Mp]) kgrmM3trs2nd
- 10.1744595 [d]([aa]^2) = [4Pi]([aa]^2)/[10^7] Hnrymetr
= [k]{[v0][d]}^2 = [k]{[He][a0][d]/[hB]}^2 FradmetrO2mm
= 4[k]{[aa]^4}{[RK]}^2 = [k]{[z0][aa]}^2 a2prNwtn=metrOhmmScnd
= [k]{[E0]/[H0]}^2 = ([aa]^2}/{[k][c^2]} FradmetrH2rys2nd
= [z0]{[aa]^2}/[c] = 4([aa]^2}/({[Jf]^2}[c^2][Me][a0][Pi])
= [k]{[d]^2}{[E0]^2}/{[B0]^2} = [d]{[E0]^2}/{[c^2][B0]^2}
- 10.1744595 ({[aa]^2}[PL]/[k][PM])^.5 f12dk12mMetr=kgrmWebr
= [aa][PQ]/{[c][k][PM]} CuulfradkgrmScnd
- 10.2585995 {[i0]^2}[d] Nwtn
- 10.2763989 Bohr radius = [aa]/([4Pi][Rc])= [Cw]/([2Pi][aa]) Metr
= ([Pi][Jf][B0])^-.5 = [PM][PL]/([Me][aa]) = [Re]/([aa]^2)
*2* = [a0] = ([hB]^2)/{[Ke][Me]([Q0]^2)} = AUN length
+ 10.2941983 {[i0]^2}[d]/{[a0]^2} Nwtnm2tr
- 10.3188278 [Bk]/[h] degkscnd
- 10.3480490 [Fe]/([Mp]/[Me]) Nwtn
+ 10.3783384 [G]/([a0]^2) kgrmMetrs2nd
- 10.4624785 ([Q0]^2)[PM]/[PL] C2ulKgrmmetr
+ 10.6136554 [PM]/[PQ] cuulKgrm
+ 10.6136554 [c]/[aa] = [4Pi][RK]/[2Pi][d] Metrscnd
= [4Pi][Pw0]/({[i0]^2}[d]) = [E0]/([H0][d]{[aa]^2})
+ 10.7155948 [2af][d] Hnrymetrscnd
+ 10.7423269 [B0]^2 = {[hB]/{[Q0]([a0]^2)}}^2 T2la
= ([Me][2af]/[Q0])^2 c2ulK2rms2nd=fradKgrmm2tr
*33* = {[Me]([a0]^-3)}[Ke] = [AUN magnetic flux density]^2
+ 10.7518213 [2Pi][Ke] fradMetr
- 10.7713858 [Mm][c^2] Juul
- 10.8168738 [Cw][2Pi] Metr
+ 10.9479412 ([Pi]^2)[Ke] fradMetr
- 10.9880198 [d]([G]^.5) k12mM12rOhmm
- 11.0528513 [k]= 1/([d][c^2]) = Electric constant Fradmetr
= ([aa]^2)/{[d]([v0]^2)} = [10^7][Metr]/([4Pi][c^2][Hnry])
= 1/(2[v0][RK]) = 1/(2[aa][c][RK]) hnrymetrS2nd=metrohmmScnd
= [Q0]/(4[w0][v0]) = [Jf^2][Me][a0][Pi]/4 CuulmetrScndwebr
*0* = ([a0]^-2)([2af]^-2)([aa]^2)/[d] = [AUN permittivity]/[4Pi]
- 11.0534524 1/{(36[Pi])[10^9]}
- 11.1324677 [Q0]/[PM] = ([Ke]/{[G][aa]})^.5 Cuulkgrm
+ 11.2452214 [QeM] = [Q0]/[Me] = [Gye]/([ue]/[Bm]) Cuulkgrm
= (2[Bm]/[hB]) = [2af]/[B0] = [Eg0]/([B0]^2) Hrtztsla
= ({[G]([Fe]/[Fg])([Mp]/[Me])}^.5)/([Ke]^.5)
= [Electron gyromagnetic ratio]/([ue]/[Bm]) m2trt2laVltt
*24* = ([Me]^-.5)([a0]^1.5)[2af]/([Ke]^.5) F12dk12mMetrscnd
+ 11.2457248 [Gye] = [QeM]([ue]/[Bm]) Cuulkgrm=Hrtztsla
= 2[ue]/[hB] = [2af]/[B0]([ue]/[Bm]) F12dk12mMetrscnd
= ({[G]([Fe]/[Fg])([Mp]/[Me])}^.5)([ue]/[Bm])/([Ke]^.5)
= [Eg0]/([B0]^2)([ue]/[Bm]) = Electron gyromagnetic ratio
*24* = ([Me]^-.5)([a0]^1.5)[2af]([ue]/[Bm])/([Ke]^.5) m2trt2laVltt
+ 11.2719536 [H0] = [B0]/[d] hnryMetrTsla=FradMetrs2ndTsla
= [B0]([v0]^2)/{[4Pi][Ke]([aa]^2)} cuulhnryKgrmMetrscnd
= [Fe]/([B0]{[a0]^2}) Amprmetr=m2trNwtntsla
= [B0]([v0]^2)[k]}/([aa]^2) = AUN magnetic field strength
*29* ={([Me][a0])^.5}([2af]^2)/{[4Pi]([aa]^2)([Ke]^.5)} F12dK12ms2nd
- 11.2736693 ([aa]^2)[d]/[4Pi] Hnrymetr
- 11.2872915 [Me][c]/[a0] = [Me]{2af]/[aa] Kgrmscnd
- 11.3578095 [Fe]([aa]^2) = {[i0]^2}[d]/[4Pi] Nwtn
+ 11.4118183 [Q0]/[V0] = [Q0]/{[4/3][Pi]([a0^3)} Cuulm3tr
+ 11.4118353 [RK][4Pi]/[d] = [2Pi][c]/[aa] Metrscnd
- 11.4351396 [PL]/[Tp] Metrscnd
- 11.4942329 [PM]^1.5 K32m
- 11.6150537 [Cw] = [h]/([Me][c]) = [2Pi][aa][a0] = 2[cQ]/[c] Metr
= [2Pi][PL][PM]/[Me] = [2Pi]([aa]^2)/([4Pi][Rc]) B076
+ 11.6376579 ([Me]^2)[c^3]/([G][hB][aa]) K2rmm2tr
= ([PM]/[PL])/([Re]/[Me]) = [PM][Me]/{[PL][Re]}
= (1/[BHR])/[Gresky's mech equivalent of permeability]
+ 11.7111495 [E0] = ([Q0][Ke])/([a0]^2) f12dK12mscnd=metrVltt
*14*=([Me]^.5)([a0]^-.5)[2af]([Ke]^.5) =AUN electric field cuulNwtn
- 11.7952897 [Q0][10^7] = [Q0][4Pi]/[d] CuulhnryMetr
- 11.9364912 [c^4][PL][k] M5trs4nd
- 11.9364912 [PM]{[aa]^2} Kgrm
- 11.8015802 [G][d]/{[aa]^2} HnrykgrmMetrNwtn
+ 11.8976398 [Rp]/[Mp]
+ 12.0339070 [QD0] = [Q0]/([a0]^3) F12dK12mm2trscnd=Cuulm3tr
= [B0][2af]/[Ke] = [Eg0]/[Ke] FradmetrscndTsla
*15* = ([Me]^.5)([a0]^-1.5)[2af]/([Ke]^.5) = AUN charge density
+ 12.0339239 ([4Pi]/3)([2Pi][c])/[aa] Metrscnd
+ 12.0904761 [Ke]/[aa] fradMetr
- 12.3112941 [G][aa] kgrmM3trs2nd
+ 12.3694477 [Fe]/[A0] Pscl
+ 12.3711635 [H0][4Pi] Amprmetr
- 12.4132335 [Cw]/([2Pi]) = ([aa]^2)/([4Pi][Rc]) Metr
= [cQ]/([Pi][c]) = [hB]/([Me][c]) = [PL]([PM]/[Me])
- 12.4535879 [A0][4Pi]/[d] hnryM3tr
- 12.4553036 [i0][a0] AmprMetr
+ 12.5055797 [i0][Jf] hnry=AmprHrtzvltt
- 12.6799721 ([v0]^-2) = [d]/{[4Pi]([aa]^2)[Ke]} FradHnrym2tr
*26* = ([a0]^-2)([2af]^-2) = [AUN velocity]^-2 m2trS2nd
+ 12.6799721 [v0]^2 =[c^2]([aa]^2) =([aa]^2)/[d][k] M2trs2nd
= [G][PM]([aa]^2)/[PL] Juulkgrm=A2prfradMetrnwtn
= ([Q0]^2)[Ke][aa]/([PM][PL]) C2ulfradkgrm
= [He]/[Me] = [PE][2af]/([Me][Pf]) kgrmWaatScnd
= ([aa]^2)[10^7]Metr/([k][4Pi]Hnry) fradhnryM2tr
*36* = ([a0]^2)([2af]^2) = ([aa]^2)[4Pi][Ke]/[d] = [AUN velocity]^2
- 12.7500517 {[Ke]([Q0]^2)/[aa]}^.5 = [PQ]/{[k]^.5} Cuulf12dM12r
= {[G]([PM]^2)}^.5 = ([PM]^.5)([PL]^1.5)[Pf] K12mM32rscnd
+ 12.8465690 [He]/[V0] Juulm3tr
+ 12.8886559 [Ke][2Pi]/[aa] = 1/(2[aa][k]) fradMetr
- 12.9007901 [G][d]/([4Pi]{[aa]^2}) HnrykgrmMetrNwtn
= [G][Ke]/{[v0]^2} = [PL][Ke]/([PM]{[aa]^2})
+ 13.0027295 ([Q0]^2)/{([a0]^2)[Me])} C2uulkgrmm2tr
+ 13.0743148 [H0][4Pi]([aa]^2)([Ke]^.5) Amprf12dm12r
= [B0]([v0]^2)/([Ke]^.5) FradMetrs2ndTsla
= [AUN magnetic field strength][4Pi]([aa]^2)([Ke]^.5)
*29* = ([Me]^.5)([a0]^.5)([2af]^2) K12mM12rs2nd
+ 13.0793843 [a0]/[Tp] Metrscnd
- 13.0868697 [Me][c^2] = [He]/{[aa]^2} NwtnMetr=Juul
= [Fe][a0]/{[aa]^2} = [hB][c]/{[a0][aa]} C2ulfrad=FradV2tt
= [FBH]([PL]^2)/([aa][a0]) = [PE][PL]/([aa][a0]) hnryM4trT2la
= {[PM]^2}[G]/{[aa][a0]} = [PM]{[PL]^3}{[Pf]^2}/([aa][a0])
= {[B0]^2}{[a0]^3}[4Pi]/[d] = ([Q0]^2)[Ke]/({[aa]^2}[a0])
= {[H0]^2}{[a0]^3][4Pi][d] = {[PQ]^2}/{[a0][k][aa]}
= {[E0]^2}{[a0]^3][4Pi][k]/{[aa]^2} = Natural unit of energy
- 13.0868697 {[PM]^1.5]{[PL]^.5}/([a0]{[k]^.5}) KgrmMetrTsla
- 13.0868697 {[PM]^2}[aa]/({[Pf]^2}{[PL]^2}[a0][k]) fradK2rmm2trS2nd
- 13.1584550 [4Pi]{([Me][a0])^.5}/[d] K12mhnryM32r
- 13.1896860 [k][aa] Fradmetr
+ 13.2863699 ([Ke]^.5)[QeM][mma] k12mM32rscnd
- 13.3536082 [Me]/{[Re][aa]} Kgrmmetr
+ 13.3803403 [Rc][c][aa] Hrtz
- 13.3883012 [Mp]^.5 K12m
- 13.4241262 [Me][2af] = [Q0][B0] Kgrmscnd=CuulTsla
= [He][Pi]/[cQ] = [hB]/{[a0]^2} Juulm2trScnd
- 13.4383682 [G]/([Mp]/[Me]) kgrmM3trs2nd
+ 13.4686576 [He]/([a0]^3) =([E0]^2)/[Ke] =[Fe]/{[a0]^2} Juulm3tr
= ([He]^2)/([Ke]{([Q0][a0])^2}) = ([AUN electric field]^2)/[Ke]
= ({[AUN magnetic field strength][4Pi]([aa]^2)}^2)[Ke]/([v0]^2)}
*30* = [Me]([a0]^-1)([2af]^2) = [Ke]{{[H0][4Pi]([aa]^2)}^2/([v0]^2)}
- 13.5527978 ([a0]^2)[4Pi]/[d] hnryM3tr
- 13.5640504 ([G]/[c^2])^.5 k12mM12r
+ 13.6813704 [f0][aa] scnd
+ 13.7744926 ([Me]^2)[c^3]/{[G][hB]([aa]^2)} K2rmm2tr
= [Me][c^2]/([G][Re][aa]) = [Gresky's mu sub b]^-2 B138
+ 13.7791819 [A0]([2af]^2) = [4Pi]([v0]^2) M2trs2nd
- 13.8184690 [Q0]([Ke]^.5) = ([hB][v0])^.5 Cuulf12dM12r
= ([PM]^.5)([PL]^1.5)([Pf]^1)([aa]^.5) K12mM32rscnd
*11* = ([Me]^.5)([a0]^1.5)[2af] = [AUN charge]([Ke]^.5)
- 13.9305376 [h]/[Mm][c] = Muon Compton wavelength Metr
- 14.0885089 {[Tc]^.5} Metr
- 14.0966302 [Mp]([v0]^2) Juul
- 14.2128118 [cQ][a0]/[Pi] = {[a0]^3}[2af] M3trscnd
- 14.2223061 [Me][f0] Kgrmscnd
- 14.2273108 ([aa]^2)/[Ke] Fradmetr
- 14.2381249 [PL]/([a0]^2) metr
+ 14.3633688 [a0][aa]/[Mp] kgrmMetr
+ 14.3834544 [Q0]/[h] = 1/[Photo-electric constant] Amprjuul
- 14.5274639 [2Pi]([PM]^2) = [h][c]/[G] K2rm
- 14.5500682 [Re] = [a0]([aa]^2) = classical electron radius Metr
= [Ke]([Q0]^2)/([Me][c^2]) = [G]([PM]^2)[aa]/([Me][c^2])
= [d]([Q0]^2)/([4Pi][Me]) C2ulfradkgrmmetrS2nd
= [aa][PL][PM]/[Me] = ([aa]^3)/([4Pi][Rc]) C2ulHnrykgrmmetr
+ 14.5900877 [2af]([a0]^1.5)/([Mp]^.5) K12mM32rscnd
- 14.6381139 {[Tc]/[4Pi]}^.5 Metr
+ 14.6665066 [RK]/([2Pi][k]) = [z0][Ke]/[aa] fradOhmmMetr
- 14.6695456 Deuteron rms charge radius Metr
- 14.6844844 [w0] = [h]/(2[Q0]) Webr=TslaM2tr=cuulJuulScnd
= 1/[Jf] f12dK12mMetr=ScndVltt
*25* = ([Me]^.5)([a0]^.5)[Pi]([Ke]^.5) = Magnetic flux quantum
+ 14.6844844 [Jf] = 2[Q0]/[h] = [G0]/[Q0] = 2/([RK][Q0]) Hrtzvltt
= 4[aa]/([z0][Q0]) = [Q0]/[hB][Pi] F12dk12mmetr
*34* = {([Me]^-.5)([a0]^-.5)}/{[Pi]([Ke]^.5)} = Josephson constant
- 14.7287174 [hB]/[Mm][c] = [Muon Compton wavelength]/[2Pi] Metr
+ 14.7602377 = [QD0]{[v0]^2}/[Ke] CuulFradm2trs2nd=C3ulj2ulKgrms4nd
= [QD0][d]/([4Pi]{[aa]^2}) = [QD0][c^2]{[aa]^2}[4Pi][k]
= {AUN 1st hyperpolarizability}[Me]{[2af]^4}/{[a0]^3}
+ 14.8168067 [c^2][aa] M2trs2nd
+ 14.8168068 [k][PC]{[z0]^2}{[aa]^2} AmprO2mm
- 14.8510983 [Re]/2 Metr
- 14.8789624 [Rp] =[2Pi][a0][v0][Me]/{[Mp][c]} =[h]/([Mp][c]) Metr
= [c][Tp] =[c]{[h]/([Mp][c^2]) =Proton Compton wavelength B036
- 14.8795607 [h]/([Mn][c]) = Neutron Compton wavelength Metr
+ 14.8814642 {[PM]^2}/[V0] K2rmm3tr
+ 14.9304621 [Ke]^1.5 f32dM32r
- 15.0202555 [Me]^.5 K12m
- 15.0579919 Proton rms charge radius Metr
- 15.1563188 [h]/([Mt][c]) = Tau Compton wavelength Metr
- 15.1816343 [w0]/[Pi] = [hB]/[Q0] Webr=cuulJuulScnd
= 1/([Jf][Pi]) f12dK12mMetr=ScndVltt
*25* = ([Me]^.5)([a0]^.5)([Ke]^.5) = [Magnetic flux quantum]/[Pi]
+ 15.1816343 [Jf][Pi] = [Q0]/[hB] = [G0][Pi]/[Q0] Hrtzvltt
= [4Pi][aa]/([z0][Q0]) = [2Pi]/([RK][Q0]) F12dk12mmetr
*34* = {([Me]^-.5)([a0]^-.5)}/([Ke]^.5) = [Josephson constant][Pi]
- 15.3256438 [PM]^2 = [hB][c]/[G] K2rm
+ 15.3265206 1/({[aa]^2}[k]) = [4Pi][Ke]/{[aa]^2} fradMetr
- 15.4145983 [a0]^1.5 K32m
- 15.4269228 [2Pi][h][c^2] = First radiation constant M2trWaat
- 15.4660283 [Hu]/[aa] scnd
+ 15.4904428 [Re]/[Me] = [hB][aa]/{([Me]^2)[c]} kgrmMetr
= [PM][PL][aa]/{[Me]^2} = {[aa]^3}{[a0]^2}/{[PM][PL]}
= Gresky's [mu sub g]=[mech equivalent of permeability] B137
+ 15.5171750 [Rc][c] scnd
- 15.6771423 [hB]/([Mp][c]) Metr
- 15.6777406 [hB]/([Mn][c]) Metr
+ 15.8182050 [f0] = 2[Rc][c] = [v0]/([2Pi][a0]) scnd
= [Ke]/([RK][a0]) = 1/([4Pi][k][RK][a0]) fradSmns
- 15.9240726 2[h][c^2] M2trstrrWaat
- 15.9544971 [hB]/([Mt][c]) = [Tau Compton wavelength]/[2Pi] Metr
- 16.0752495 [PL]/{[k][PM]} fradkgrmM2tr
- 16.0752495 {[d]^2}{[aa]^2} H2rym2tr
- 16.0975726 [PQ]/[i0] = ({[PM]^2}[d]/{[Fe][4Pi][c^2]})^.5
+ 16.1396426 [c]/[PM] kgrmMetrscnd
+ 16.1554615 [c^2]/[2Pi] M2trs2nd
- 16.1771890 [a0][d] Hnry
+ 16.2220422 [Gye]([Ke]^.5)/([ue]/[Bm]) f12dM12rscndtsla
= [QeM]([Ke]^.5) = (2[Bm]/[hB])([Ke]^.5) = [2af]([Ke]^.5)/[B0]
= {[G]([Fe]/[Fg])([Mp]/[Me])}^.5 = [Eg0]/([B0]^2)([Ke]^.5)
= {[Electron gyromagnetic ratio]([Ke]^.5)}/([ue]/[Bm])
*24* = ([Me]^-.5)([a0]^1.5)[2af] k12mM32rscnd=Cuulf12dkgrmM12r
+ 16.2225455 [Gye]([Ke]^.5) = [QeM]([Ke]^.5)([ue]/[Bm])
= (2[ue]/[hB])([Ke]^.5) = [2af]([Ke]^.5)([ue]/[Bm])/[B0]
= {{[G]([Fe]/[Fg])([Mp]/[Me])}^.5}([ue]/[Bm])
= ([Ke]^.5){[Eg0]/([B0]^2)}([ue]/[Bm]) Cuulf12dkgrmM12r
= [Electron gyromagnetic ratio]([Ke]^.5) f12dM12rscndtsla
*24* ([Me]^-.5)([a0]^1.5)[2af]([ue]/[Bm]) k12mM32rscnd
- 16.2316670 [Fg]/[V0] Nwtnm3tr
- 16.3982639 [Fg]/[Me] Nwtnkgrm
+ 16.5002034 [a0]/[Mp] kgrmMetr
- 16.5036531 [HU][4Pi] Hrtz
- 16.6163849 [hB]/[He] = ([2Pi][f0])^-1 Scnd
= ([RK]/[2Pi])[a0]/[Ke] FradOhmm
*4* = [2af]^-1 = ([Ke]^2)([hB]^3)/{[Me]([Q0]^4)} = AUN time
+ 16.6163849 [He]/[hB] = [2Pi][f0] scnd=Hrtz
= [2Pi][Ke]/([RK][a0]) fradohmm
*3* = [2af] = [Me]([Q0]^4)/{([hB]^3)([Ke]^2)} = AUN frequency
- 16.8046831 [HU][2Pi] Hrtz
+ 16.9536414 {[aa]^2}/{[G][k]} fradKgrmm2trS2nd=c2ulK2rm
+ 16.9536414 [k][PC]{[z0]^2}[aa] AmprFradmetrO2mm
= [aa]([PM]/{[PL][k]})^.5 f12dK12m
+ 16.9536414 [c^2] = ([v0]^2)/([aa]^2) M2trs2nd=fradhnryM2tr
= 1/([k][d]) = [G][PM]/[PL] A2prfradMetrnwtn
= ([Q0]^2)[Ke]/([aa][PM][PL]) = [4Pi][Ke]/[d] C2ulfradkgrm
*36* = ([a0]^2)([2af]^2)/([aa]^2) = ([AUN velocity]^2)/([aa]^2)
+ 17.0107277 [He]/{[Q0]([a0]^2)([Ke]^.5)} cuulF12dJuulm52r
= [B0][2af]/([Ke]^.5) F12dm12rscndTsla
= [Eg0]/([Ke]^.5) = [AUN electric field gradient]/([Ke]^.5)
= {[Q0]/([a0]^3)}([Ke]^.5) = [AUN charge density]([Ke]^.5)
*15* = ([Me]^.5)([a0]^-1.5)[2af] F12dm52rVltt=K12mm32rscnd
+ 17.0115785 [Q0]/([2][V0][d]) Cuulhnrym2tr
+ 17.0823130 [B0][E0] = [Me]{[2af]^3}[Ke]/{[v0]^2} metrTslaVltt
= [d][Me]{[2af]^3}/([4Pi]{[aa]^2}) HnryKgrmmetrs3nd
- 17.1744594 [G][d]/[4Pi] Hnryk2rmMetrNwtn
- 17.1911514 {[h]^2}[aa]/(2{[Me]^2}[c]) M3trscnd
- 17.2151926 [PV]([Pf]^2) M3trs2nd
- 17.3605390 [He] = [Ke]([Q0]^2)/[a0] = 2[Rc][h][c] Juul
*9* = [Me]([a0]^2)([2af]^2) = Hartree energy = AUN energy
- 17.3954614 [PL]^.5 M12r
- 17.4624785 ([PM]^2)[aa] = ([Q0]^2)[d][PM]/{[PL][4Pi]} K2rm
+ 17.5852075 [c^2]{[aa]^2}(([a0]/{[Ke][Me]})^.5) F12dk12mM2trs2nd
= [Q0][a0][2af]/[Me] = [QeM][v0] CuulkgrmMetrscnd
+ 17.6164633 [Ke]/[PM] fradkgrmMetr
=================================++=================================
- 17.6028630 [Hu] = Hubble constant B325 Hrtz
= 77 ([Kilometer]/[Second])/(Megaparsec)
= [10]^[-17.6028630] [Meter/Second]/Meter
= [10]^[-27.8792619] [Meter/Second]/[a0]
= [10]^[-32.1529312] [Meter/Second]/[Re]
= [10]^[-52.3937857] [Meter/Second]/[PL]
= [10]^[-37.0564509] {([Meter]^2)/[Second]}/[A0]
= [10]^[-47.8099710] {([Meter]^3)/[Second]}/[V0]
50 (km/s)/Mpc :: T-17.7903837 65 (km/s)/Mpc :: T-17.6764403
71 (km/s)/Mpc :: T-17.6380954 75 (km/s)/Mpc :: T-17.6142924
85 (km/s)/Mpc :: T-17.5599348 100 (km/s)/Mpc :: T-17.4893537
- 17.6534080 B049 ; - 17.4893506 B274 ;
- 17.6150000 B070 ; - 17.1917304 B272
=================================++=================================
- 17.6540097 [4Pi][aa]/[2af] = [4Pi][a0]/[c] = [aa]/{[Rc][c]} Scnd
= 2[aa]/[f0] = [z0][2Pi]/{[RK][2af]} = [4Pi][hB][aa]/[He] Scnd
= (({[Q0]/([PC][PT]})^2)/[2af] = ([Q0]^2)[d]/([PM][PL][2af])
- 17.6615690 [Rc][h][c] = [aa][h][c]/([4Pi][a0]) Juul
= {[hB]^2}/(2[Me]{[a0]^2}) = [He]/[2]
= [h][v0]/([4Pi][a0]) = (13.605804 electron volts)
- 17.7268723 ([PC]{[4Pi]^.5}){[1/[Pf]} Cuul
- 17.7548818 [u0]([Ke]^.5) = {[Q0][hB]/[Me]}([Ke]^.5) K12mM72rs2nd
= [2][Bm]([Ke]^.5) = [AUN magnetic dipole moment]([Ke]^.5)
*22* =([Me]^.5)([a0]^3.5)([2af]^2) CuulF12dM32rscnd=f12dJuulM12rtsla
+ 17.7676402 [G]([PM]^2)[Pf] MetrWaat
+ 17.8320333 [c^4][PL]/{[PM][k]} fradkgrmM6trs4nd
- 17.8372813 ([Q0]^2)[Ke]/([aa][PM]) = [G][PM] M3trs2nd
= [PL][c^2] = {[PL]^3}{[Pf]^2} = {[Pf]^2}[PV]/{[4Pi]/3}
- 17.8372813 [PM][d]{[aa]^2} HnryKgrmmetr
+ 17.9550397 [f0]/[aa] = [c]/{[2Pi][a0]} Hrtz
- 17.9912662 [aa][d]/[Ke] m2trS2nd
+ 18.0528513 [4Pi][c^2] M2trs2nd
+ 18.1273241 {[PQ]^2}[aa]/{[Me][Mp]} C2ulk2rm
- 18.1321578 {[Me][Mp]/([a0]^2)}^.5 = ([Fg]/[G])^.5 Kgrmmetr
- 18.1369914 ([Q0]^2)/[A0] C2ulm2tr
- 18.1492245 ([Q0]^2)([a0]^2)[Ke]/[Me] C2ulfradkgrmM3tr
= [He][Ke]/([B0]^2) = ([v0]^2)([a0]^3) fradJuulMetrt2la
= ([a0]^3)[4Pi]([aa]^2)[Ke]/[d] fradhnryM5tr
*23* = ([a0]^5)([2af]^2) = [AUN magnetizability][Ke] M5trs2nd
- 18.1745378 [PL][2af] Metrscnd
- 18.2764773 [PQ] = [PC]/[Pf] = ({[hB][c][k]}^.5) Cuul
= Planck charge = [Q0]/{([4Pi][aa])^.5} B078 B079 B091
- 18.4010429 [Hu]/[2Pi] Hrtz
+ 18.4118183 [4Pi][Q0]/([V0][d]) Cuulhnrym2tr
+ 18.4159631 [v0]/{[c]([a0]^2)} = [aa]/([a0]^2) m2tr
- 18.4942597 2[Q0] = [h]/[w0] Cuul
+ 18.5408711 {[Ke][PM]/[PL]}^.5 f12dK12m
- 18.6286758 [h]/[Re] KgrmMetrscnd
- 18.6512801 [hB]/([PM]^2) ={[PL]^2}[Pf]/[PM] =[G]/[c] kgrmM2trscnd
- 18.7020729 [Hu]/[4Pi] Hrtz
- 18.7532196 [hB][aa]/[He] = [a0]/[c] = [aa]/[2af] Scnd
- 18.7875111 ([hB]^2)[aa]/{2([Me]^2)[c]} M3trscnd
- 18.7952897 [Q0] = (4[w0])[v0][k] Cuul=F12dK12mMetrscnd
= ([PM]^.5)([PL]^1.5)([Pf]^1)([aa]^.5)/([Ke]^.5) FradscndWebr
*11* = ([Me]^.5)([a0]^1.5)[2af]/([Ke]^.5) = AUN charge
- 18.9727177 [PL][f0] Metrscnd
+ 19.0339070 [QD0][10^7] Cuulm3tr
+ 19.0339070 [QD0][4Pi]/[d] Cuulhnrym2tr
+ 19.0904761 [c^2]/[aa] M2trs2nd
+ 19.0904761 ([PM]/{[PL][k]})^.5 f12dK12m
+ 19.0904760 [aa]/{[G][k]} fradKgrmm2trS2nd=c2ulK2rm
+ 19.0963196 [RK][Jf] HrtzOhmmvltt
+ 19.1137804 [PM]/[Mp]
- 19.1180471 [Ke][a0][Q0] CuulfradM2tr
+ 19.2265340 {[Q0]^2}/{[Me][Mp]} C2ulk2rm
= {[PQ]^2}[4Pi][aa]/{[Me][Mp]}
+ 19.2612177 [B0][RK]/{[2Pi][a0]} =[Eg0][Ke]/([v0]^2) OhmmmetrTsla
- 19.4268557 [hB]/[Re] KgrmMetrscnd
- 19.4535879 [A0] = [4Pi]([a0]^2) M2tr
- 19.5584980 ([a0][Pi])^2 M2tr
- 19.5993130 {[PC][PL]}^2 = {[PQ]^2}[c^2] A2prM2tr
- 19.5993131 [PC][PL][PM][aa] AmprKgrmMetr
- 19.5993131 {[PM][aa]}^2 = ([Me][a0]{[aa]^2}/[PL])^2 K2rm
= ([Q0]^2)[d][aa][PM]/{[PL][4Pi]}
- 19.6621727 [Fg]/[Mp] kgrmNwtn
+ 19.6924621 [Fe]/[Mp] Metrs2nd
- 19.7220422 [aa][Me]/{[Q0][v0]} cuulKgrmmetrScnd
- 19.7396977 [Hu][aa] scnd
+ 19.7641122 [a0]/[Me] = [PM][PL/{[Me][aa]} kgrmMetr
= [Jf][Pi][2af][Ke]/[Eg0] fradH2tzM3trv2tt
= [Jf][Pi][Ke]/[B0] fradHrtzMetrtslavltt
+ 19.8086437 [E0][H0][4Pi]{[aa]^2} Waatm2tr=AmprcuulmetrNwtn
= [He][2af]/{[a0]^2} = {[B0]^2}{[v0]^3}/[Ke] Fradm2trs3ndT2la
- 19.9007901 [d]/[10^14] Hnrymetr
+ 19.9072828 [Ke]^2 f2adM2tr
- 19.9741160 ([Q0]^2)[Ke]/[PM] C2ulfradkgrmMetr
- 20.0556479 [Pi]([a0]^2) = [A0]/4 M2tr
- 20.0868697 ([B0]^2)([a0]^3) = [Me][Ke] M3trT2la=fradKgrmMetr
*1* = [Me]/{[4Pi][k]} = [Me][c^2][d]/[4Pi] = [AUN mass][Ke]
- 20.0918744 [Me][c^2]/[h] = [f0]/([aa]^2) scnd
- 20.1281008 [G]/[Ke] = [10^7][PL]/[PM] FradkgrmM2trs2nd
= [G][4Pi]/([d][c^2]) = [G][4Pi][k] C2ulk2rm=hnrykgrmM2tr
= [Me][a0][aa][4Pi]/([d]{[PM^2]}) = {[Q0]^2}/({[PM]^2}[aa])
- 20.1584550 [w0]/{[Pi]([Ke]^.5)} F12dm12rWebr
= [hB]/{[Q0]([Ke]^.5)} F12dcuulJuulm12rScnd
= 1/([Jf][Pi][Ke]) K12mM12r=F12dm12rScndVltt
*25* = ([Me]^.5)([a0]^.5) = [Magnetic flux quantum]/{[Pi]([Ke]^.5)}
+ 20.1584550 [Jf][Pi]([Ke]^.5) ={2[Q0]/[h]}[Pi]([Ke]^.5) k12mm12r
*34* = {([Me]^-.5)([a0]^-.5)} = [Josephson constant][Pi]([Ke]^.5)
- 20.2300403 [a0]/[Ke] = [Q0]/[vT0] Cuulvltt=Frad
= [G0][Pi]/[2af] = {[Q0]^2}/[He] ScndSmns=C2uljuul
+ 20.2408545 [aa][PM]/[Me] = [Re]/[PL]
+ 20.2641588 {[PQ]^2}/{[Me][Mp]} C2ulk2rm
- 20.3489188 {[d]^2}{[aa]^4} = {[4Pi]^2}([aa]^4)/[10^14] H2rym2tr
- 20.3489188 [G]^2 k2rmM6trs4nd
- 20.5527977 [a0]^2 = 1/([Pi][Jf][B0]) M2tr
+ 20.7791820 (([4Pi]([aa]^2))^2)[PM]/[PL]} Kgrmmetr
- 20.8900542 [hB]/([Me][c^2]) = Natural unit of time Scnd
*4* = ([2af]^-1)([aa]^2) = [AUN time]([aa]^2)
- 21.2264339 {[PM]^2}[d] = {[PM]^2}/{[k][c^2]} HnryK2rmmetr
- 21.2264339 {[PQ]^2}/([k]{[aa]^2}) = [hB][v0]/{[aa]^3} Juulmetr
= {[PQ]^2}[d][c^2]/{[aa]^2} = [hB][c]/{[aa]^2} C2ulfradMetr
= {[Q0]^2}[Ke]/{[aa]^3} = {[Q0]^2}[d][c^2]/([4Pi]{[aa]^3})
- 21.2273108 [G][k] = {[PQ]^2}/{[PM]^2} C2ulk2rm=Fradk2rmMetrNwtn
= [G][Jf^2][Me][a0][Pi]/4 = [PL]/[PM][d] kgrmM3trNwtnv2tts2nd
- 21.2273108 ([aa]^2)/[c^2] = ([aa]^2)[d][k] FradHnrym2tr=m2trS2nd
- 21.2273108 [aa]({[k][PL]}^.5)/{[PM]^.5} F12dk12m=CuulkgrmmetrScnd
- 21.3092719 [Me]([G]^.5)/[Q0]([Ke]^.5)
- 21.5636904 [Me][c] KgrmMetrscnd
= [Me][a0][2af]/[aa] = Natural unit of momentum
+ 21.6665067 [PM]/{[k][PQ]} cuulfradKgrmMetr
+ 21.6665067 [z0][Ke][4Pi]/{[d][aa]} = [c]/{[k][aa]} fradM2trscnd
- 21.6844844 [w0][d]/[4Pi] AmprMetr
- 21.8588768 [PC]{[PL]^2}/[ue] = {[PQ]/[PM]}/{[Q0]/[Me]}
+ 21.9875484 [Eg0] = AUN electric field gradient m2trVltt
= [He]/([Q0]([a0]^2)) = [B0][2af] cuulJuulm2tr=scndTsla
= [Ke][Q0]/([a0]^3) Cuulfradm2tr
*15* = ([Me]^.5)([a0]^-1.5)[2af]([Ke]^.5) f12dK12mmetrscnd
- 22.1057026 1/{[k]^2} f2adM2tr
- 22.2345526 [Q0][h]/(2[Me]) CuulM2trscnd
- 22.2649355 [aa][PL][4Pi]/{[d][PM]} = [aa][G]/[Ke] hnrykgrmM2tr
- 22.2649355 {[Q0]^2}/{[PM]^2} = [aa][PL][4Pi]/{[d][PM]} C2ulk2rm
= {[PQ]^2}[4Pi][aa]/{[PM]^2} = [c^2][PL][aa][4Pi][k]/[PM]
= {[PL]^3}{[Pf]^2}[aa]/{[PM][Ke]} FradkgrmM2trs2nd
+ 22.3103058 [Q0]/([a0]^4) Cuulm4tr
+ 22.3776892 [Pf]{[aa]^2}/[2af] = [a0][aa]/[PL] = [PM]/[Me]
= [PE]{[aa]^2}/[He] = [Pp][aa]/[p0]
+ 22.4009935 [c^2][a0][k]/[Mp] FradkgrmM2trs2nd
= {[PQ]^2}/{[aa][Me][Mp]} C2ulk2rm
+ 22.4904428 [QeM]^2 = ([Gye]^2)/{([ue]/[Bm])^2} C2ulk2rm
= (2[Bm]/[hB])^2 =([2af]/[B0])^2 ={[Eg0]/([B0]^2)}^2 H2tzt2la
= {[Q0]/[Me]}^2 = [G]([Fe]/[Fg])([Mp]/[Me])/[Ke] m4trt4laV2tt
= [Jf][Pi]{[v0]^2}/[B0] = [H0][4Pi]{[aa]^2}[a0]/{[Me][B0]}
= [4Pi][a0]{[aa]^2}/{[d][Me]} = [4Pi][Re]/{[d][Me]} hnrykgrmM2tr
*31* = ([Me]^-1)([a0]^3)([2af]^2)/[Ke] FradkgrmM2trs2nd
+ 22.4914496 [Gye]^2 = {[QeM]([ue]/[Bm])}^2 C2ulk2rm=H2tzt2la
= (2[ue]/[hB])^2 = {[2af]/[B0]([ue]/[Bm])}^2 FradkgrmM2trs2nd
= {[G]([Fe]/[Fg])([Mp]/[Me])/[Ke]}{([ue]/[Bm])}^2
= {[Eg0]/([B0]^2)^2}{([ue]/[Bm])}^2
= [Electron gyromagnetic ratio]^2
*31* ={([Me]^-1)([a0]^3)([2af]^2)/[Ke]}{([ue]/[Bm])}^2 m4trt4laV2tt
+ 22.5439072 [H0]^2 = ([Fe]/([B0]{[a0]^2}))^2 A2prm2tr
+ 22.5442861 [PM]/[V0] Kgrmm3tr
- 22.7049703 [hB][H0] CuulJuulmetr
- 22.7317025 [u0] = 2[Bm] = [Q0][hB]/[Me] Juultsla=CuulM2trscnd
= [i0]([a0]^2) = AUN magnetic dipole moment AmprM2tr
*22* = ([Me]^.5)([a0]^3.5)([2af]^2)/([Ke]^.5) F12dK12mM3trs2nd
- 22.8544315 [PL]/([PM]{[aa]^2}) = [G]/([c^2]{[aa]^2}) kgrmMetr
+ 22.8544315 [c^4][k] = {[PC]^2}[PL]/[PM] A2prkgrmMetr
= 1/([k]{[d]^2}) FradM3trs4nd
- 22.8599163 [Bk] = Boltzmann constant degkJuul
- 22.9023452 [Fe]/[f0] = [p0](2[Pi]) Nwtnscnd
- 22.9248692 [hB]{[aa]^2}/{[PM]^2} kgrmM2trscnd
+ 22.9563709 [ae] = [Fe]/[Me] Metrs2nd
- 22.9884657 [PM]^3 K3rm
- 23.0268889 [Re]/[c] = ([aa]^3)/[2af] = Nuclear unit of time Scnd
- 23.0322291 [ue] = Electron magnetic moment AmprM2tr=Juultsla
- 23.0327325 [Bm] = [Q0][hB]/(2[Me]) = Bohr magneton Juultsla
+ 23.1229678 [Fe]/[V0] m3trNwtn
+ 23.1663748 [PM]/{[a0]^3} Kgrmm3tr
- 23.1758690 [PL]/[Cw]
- 23.3557832 [Tp]=[h]/([Mp][c^2])=[Rp]/[c] = Proton time B036 Scnd
- 23.3632686 [Me][c^2][a0] = ([Q0]^2)[Ke]/([aa]^2) KgrmM3trs2nd
= [G][([PM]^2)/[aa] = [FBH]([PL]^2)/[aa] C2ulfradMetr=M2trNwtn
+ 23.4222990 [E0]^2 = ([He]^2)/{([Q0][a0])^2} fradJuulm2tr
= ([Fe]/[Q0])^2 = {([Q0][Ke])/([a0]^2)}^2 = {[He]/([a0]^3)}[Ke]
= {[Ke][H0][4Pi]([aa]^2)}^2/([v0]^2) = [Ke][He]/([a0]^3)
= {[AUN magnetic field strength][4Pi]([aa]^2)[Ke]}^2/([v0]^2)}
*30* = [Me]([a0]^-1)([2af]^2)[Ke] = [AUN elec field]^2
+ 23.5289444 [FBH]([a0]^2) M2trNwtn
- 23.7005250 [p0] = [hB]/[a0] KgrmMetrscnd
*6* = [Me][a0][2af] = AUN momentum
- 23.7163439 [PRL]/[a0]
+ 23.7797510 [An] = Avogadro constant mool
+ 23.9536414 [c^2][10^7] = [c^2][4Pi]/[d] hnryM3trs2nd
+ 23.9536414 [PM][4Pi]([aa]^2}/[PL] Kgrmmetr
- 23.9957114 [PL]/([a0]{[4Pi][aa]}^.5) = [PQ][PL]/[q0]
- 24.0948678 [q0]([Ke]^.5) K12mM52rscnd
= [Q0][a0]([Ke]^.5) Cuulf12dM32r
*16* =([Me]^.5)([a0]^2.5)[2af]=[AUN electric dipole moment]([Ke]^.5)
+ 24.1664531 [Me][2af]/{[Q0]^2} c2ulKgrmscnd
- 24.1772673 [c][PL]/[aa] M2trscnd
- 24.1772674 [d][PQ] CuulHnrymetr
+ 24.4416612 ([PM]^.5)([PL]^1.5)([Pf]^2)/(([Ke]^.5)[4Pi]) Ampr
+ 24.4724538 ([PM]^.5)([PL]^1.5)([Pf]^2){[aa]^.5}/([Ke]^.5) Ampr
= [PC]{[4Pi]^.5}{[aa]^.5}
+ 24.5145238 [Pf][aa]/[2af] = [PM]/{[Me][aa]} = [PE][aa]/[He]
= [Pp]/[p0] = [a0]/[PL]
+ 24.6164633 [c^2]/[PM] kgrmM2trs2nd
- 24.7019234 [h][c] JuulMetr
+ 24.9912261 [PC] = [PQ][Pf] = {[k]([PL]^3)[PM]([Pf]^4)}^.5 Ampr
= [Pf]{[hB][c][k]}^.5 = ([G]{[PM]^2}/([d]{[PL]^2}))^.5
= {1/[PL]}{[hB][c]/[d]}^.5 = [PM][Pf]{[G][k]}^.5
+ 24.9912662 [PM][aa]/[PL] = [c^2][aa]/[G] Kgrmmetr
+ 24.9912662 [c^2]/([d][aa]) hnryM3trs2nd=A2prkgrmMetr
+ 25.1330633 [8Pi][c^4][G] kgrmM7trs6nd
+ 25.2792852 [Ke]/{[PM]^2} fradk2rmMetr
- 25.3127037 [f0]/([aa][Pf]) = [PL]/([2Pi][a0])
- 25.3477103 [um] = Muon magnetic moment Juultsla
+ 25.4292317 [Lcn] = [An]/[Vmi] = Loschmidt constant m3tr
+ 25.4304621 [c^3] M3trs3nd
- 25.4942597 [d][Q0]/[2Pi] CuulHnrymetr
- 25.5001033 [hB][c] = [G]([PM]^2) = [FBH]{[PL]^2} C2ulfradMetr
= ([Q0]^2)[Ke]/[aa] = [PM][PL][c^2] A2prhnryMetr
= {[PQ]^2}/[k] = {[PC]^2}{[PL]^2}[d] NwtnM2tr=JuulMetr
= {[Pp]^2}[PL]/[PM] KgrmM3trs2nd
- 25.5001033 [PC]{[PL]^2}[c^2]/[aa] AmprM4trs2nd
- 25.5001033 [PQ][d][c][aa][PM] CuulHnryKgrmscnd
+ 25.5408711 ([PM]^.5)([PL]^1.5)([Pf]^2)/([Ke]^.5) Ampr
= [PC]{[4Pi]^.5}
- 25.6029195 [Re][k] Frad
+ 25.6648804 [Hu][Pf] s2nd
+ 25.6657791 [FBH]([a0]^2)/[aa] M2trNwtn
- 25.7668418 [Me]/{[aa]^2} Kgrm
- 25.8505941 [up] = Proton magnetic moment Juultsla
- 25.8506052 Shielded proton magnetic moment Juultsla
- 25.9687722 Shielded helion magnetic moment Juultsla
- 26.0149166 [un] = Neutron magnetic moment Juultsla
+ 26.0796837 [c]/[Hu] ?as radius of universe? B272 Metr
- 26.1775275 [Ma] = Alpha particle mass Kgrm
- 26.2966413 [Nm] = [Q0][hB]/(2[Mp]) = Nuclear magneton Juultsla
- 26.3004734 [Mh] = Helion mass Kgrm
- 26.3141020 [c][PL] M2trscnd
- 26.3634384 deuteron magnetic moment Juultsla
- 26.4757878 [Md] = Deuteron mass Kgrm
- 26.4992464 [Mt] = Tau mass Kgrm
+ 26.5784959 ([PM]^.5)([PL]^1.5)([Pf]^2)/(([Ke]^.5)[4Pi][aa]) Ampr
- 26.5993132 {[PQ]^2}[Ke] C2ulfradMetr
- 26.6120964 [Q0]/([Ke][aa]) CuulFradmetr
+ 26.6513585 [Pf]/[2af] = [a0]/([PL][aa]) = [PM]/([Me]{[aa]^2})
= [PE]/[He] = [Pp]/{[p0][aa]}
- 26.6746628 [Fg][a0]/[Me] M2trs2nd
- 26.7760040 [Mn] = Neutron mass Kgrm
- 26.7766023 [Mp] = Proton mass Kgrm
- 26.7797510 [amu] = Atomic mass unit Kgrm
- 26.8270708 2[G]/[c^2] = [Black hole requirement] kgrmMetr
- 26.8482524 ([Q0]^2)([B0]^2)=([Me]^2)([2af]^2) C2ulT2la=K2rms2nd
- 26.8660517 [Me]/([4Pi]{[aa]^2}) Kgrm
+ 26.8927838 [2af]/[a0] = [v0]/([a0]^2) metrscnd
- 26.9851871 [Fg]/[A0] m2trNwtn
+ 27.0433408 ([Q0]^2)[Ke][aa]/([MP][Me]) C2ulfradk2rmMetr
- 27.1281008 [BHR] = [G]/[c^2] = [G][d][k] k2rmmetrNwtnS2nd
= {[Q0]^2}[d]/([4Pi]{[PM]^2}[aa]) C2ulHnryk2rmmetr
= ([d]/[4Pi])([G]/[Ke]) = [10^-7][10^-20.1281008] kgrmMetr
= [Me][a0][aa]/{[PM^2]} = [PL]/[PM] = [c^2]/[FBH]
= Radius to Mass ratio = [Black hole requirement]/2
- 27.1281008 [d]{[aa]^2}/[c^2] FradH2rym3tr=Hnrym3trS2nd
- 27.1281009 [aa]/[PC] = [PQ][d][aa]/[PM][c] ampr
+ 27.1701709 [PC]/[i0]
- 27.2721104 [c]/[Q0] cuulMetrscnd
- 27.3141804 [Me]([aa]^2)[4Pi]/[d] hnryKgrmMetr
= [Me]([Re]/[a0])[4Pi]/[d] = ([Q0]^2)/[a0] C2ulmetr
+ 27.4495384 [Pf]/[f0]
+ 27.5672967 [PQ]/{[PL][k] = [PC][z0] Vltt
- 27.6369379 ([Q0]^2)([Ke]) = [hB][v0] C2ulfradMetr=JuulMetr
= ([Q0]^2)/(4[k][Pi]) = [He][a0] M4trPscl=FradM5trs2ndT2la
= [Me][Re][c^2] = [G]([PM]^2)[aa] MetrScndWaat=hnryMetrW2br
= ([Q0]^2)[z0][c]/[4Pi] = [PM][PL][c^2][aa] C2ulMetrOhmmscnd
= [2][a0](13.605804 electron volts) M2trNwtn
*10* = [Me]([a0]^3)([2af]^2) = ([AUN charge]^2)[Ke] KgrmM3trs2nd
- 27.7250271 [Mm] = Mass of muon Kgrm
- 27.7909227 [PL][4Pi]/[d] hnryM2tr
+ 27.8026137 [FBH]([a0]^2)/([aa]^2) M2trNwtn
- 27.9036764 [Me]/[aa] Kgrm
- 28.0009266 [4Pi]([Re]^2) M2tr
- 28.1028659 ([Q0]^2)([a0]^2)/[Me] = [He]/([B0]^2) C2ulkgrmM2tr
= [PM]{[PL]^2}[hB][a0][Pf]/([Ke]{[Me]^2}) Juult2la
= [hB][v0]{[a0]^2}/{[Ke][Me]}
= ([v0]^2)([a0]^3)/[Ke] = ([a0]^3)[4Pi]([aa]^2)/[d] hnryM4tr
*23* = ([a0]^5)([2af]^2)/[Ke] = AUN magnetizability FradM4trs2nd
- 28.1770178 [Tc]=[2/3][4Pi]([Re]^2)=Thomson cross section M2tr
- 28.4085567 ([Me][Mp])^.5 Kgrm
- 28.4133903 [Me]([aa]^2)/[d] hnryKgrmMetr
= ([Q0]^2)/([4Pi][a0]) see - 27.31418043 C2ulmetr
- 28.4509367 [PL][c][aa] M2trscnd
+ 28.6647740 [He][f0]/[V0] m3trWaat
- 28.7489311 [Q0]/[Ke] = [Q0]/{[c^2][d][4PI]} CuulFradmetr
+ 28.9018236 [4Pi][FBH]([a0]^2)/([aa]^2) Juulmetr
- 28.9134370 [Mp][aa] Kgrm
- 29.0001032 [hB]([Ke]^.5) f12dJuulM12rScnd
- 29.0716885 [q0] = [Q0][a0] CuulMetr=F12dK12mM2trscnd
*16* =([Me]^.5)([a0]^2.5)[2af]/([Ke]^.5) =AUN electric dipole moment
- 29.1001364 [Re]^2 M2tr
+ 29.1801755 ([Q0]^2)[Ke]/([MP][Me]) C2ulfradk2rmMetr
- 29.2649355 [aa][PL]/[PM] = [aa][G]/[c^2] kgrmMetr
= {[Q0]^2}[d]/([4Pi]{[PM]^2}) = {[PQ]^2}[d][aa]/{[PM]^2}
- 29.2762277 [Tc]/[4Pi] M2tr
+ 29.2868626 [He][f0]/([a0]^3) m3trWaat
- 29.3689688 ([w0]^2) =1/{[Jf]^2} =([hB][Pi])^2/([Q0]^2) V2ttS2nd
= ([Pi]^2)[Ke][PM][PL]/[aa] W2br=c2ulJ2ulS2nd=fradKgrmM2tr
*32* = [Me][a0]([Pi]^2)[Ke] = [Magnetic flux quantum]^2
+ 29.4009935 {[Q0]^2}/{[G][Me][Mp]} C2ulkgrmm3trS2nd
- 29.5433612 [Me][Pi] Kgrm
- 30.0405111 [Me] = Electron mass Kgrm
= 2[Rc][h]/([c]{[aa]^2}) = Natural unit of mass Kgrm
= ([B0]^2)([a0]^3)/[Ke] = [Q0][B0]/[2af] FradM2trT2la
= ([B0]^2)[AUN electric polarizability] C2uljuulM2trT2la
= ([Q0]^2)[d]/{[a0][4Pi]([aa]^2)} CuulScndTsla=C2ulHnrym2tr
= ([i0]^2)[RK]/{[2af]([v0]^2)[2Pi]} A2prOhmmm2trS3nd
= [Ke]([Q0]^2)/{([v0]^2)[a0]} C2ulfradm2trS2nd
= [B0][a0]/([Jf][Pi][Ke]) FradScndTslaVltt
= [Eg0][a0]/([2af][Jf][Pi][Ke]) Fradm2trS2ndV2tt
*1* = [Me] = [PM][PL]/{[aa][a0]} = AUN mass
- 30.2071080 [V0] = ([4Pi]/3)([a0]^3]) M3tr
- 30.3632686 {([w0])^2}/([Pi]^2) = ([hB]/[Q0])^2 W2br=c2ulJ2ulS2nd
= [Ke][PM][PL]/[aa] = {[B0]^2}{[a0^4} fradKgrmM2tr=M4trT2la
= {[PL]^3}[PM]{[Pf]^2}[d]/{[4Pi][aa]} HnryKgrmM2trs2nd
*32* = [Me][a0][Ke] = ([Magnetic flux quantum]/[Pi])^2
- 30.3641454 [PL][aa]/{[PM][4Pi]} kgrmMetr
- 30.4348539 ([Me]^.5)([a0]^1.5) K12mM32r
+ 30.5064391 [Fe]/([Q0]^2) c2ulNwtn
+ 30.5176918 ([PM]^.5)([PL]^1.5)([Pf]^2) K12mM32rs2nd
- 30.5905793 ([Q0]^2)[4Pi]/[d] C2ulhnryMetr
- 30.6512876 [PM]^4 K4rm
- 30.8291966 {([Q0]^2)([a0]^2)/[He]}[Ke] C2ulfradM3trjuul=M3tr
= [Q0][Ke]/([B0][2af]) CuulfradMetrScndtsla
*18* = [a0]^3 = [Ke][Me]/([B0]^2) =[AUN electric polarizability][Ke]
- 31.0502717 [Mp]{[aa]^2} Kgrm
- 31.4017701 {[aa]^2}[PL]/[PM] = {[aa]^2}[G]/[c^2] kgrmMetr
+ 31.6364101 [f0]^2 s2nd
- 31.6897892 ([Q0]^2)/[d] = {[PQ]^2}[4Pi][aa]/[d] C2ulhnryMetr
= [PL][PM][4Pi][aa]/{[d]^2} = {Me][a0][4Pi]{[aa]^2}/{[d]^2}
+ 32.1513055 [PK] = Planck Temperature DegK
- 32.1773458 [Me][aa] Kgrm
- 32.1951452 {[PQ]^2}/{[i0]^2} = {[PM]^2}[d]/{[Fe][4Pi][c^2]}
+ 32.4440843 ([QeM]^2)[Ke] = [Ke]([Gye][Bm]/[ue])^2 kgrmM3trs2nd
= [Ke](2[Bm]/[hB])^2 = [Ke]([2af]/[B0])^2 fradH2tzMetrt2la
= [B0]{[2af]^2}{[a0]^4.5}/({[Ke]^.5}{[Me]^1.5}
= {[v0]^2}[a0]/[Me] = [G][Fe][Mp]/{[Fg][Me]} k2rmM2trNwtn
=([2af]^2)[Ke]/([B0]^2) =[Ke]([Eg0]^2)/([B0]^4) C2ulfradk2rmMetr
=[Re][c^2]/[Me] = 1/(Gresky's dielectric constant of free space)
= {([Electron gyromagnetic ratio]^2)[Ke]}/{([ue]/[Bm])^2}
= [c^2](Gresky's electronic constant of magnetic permeability)
*31* = ([Me]^-1)([a0]^3)([2af]^2)
+ 32.4450910 ([Gye]^2)[Ke] = ([QeM]^2)[Ke]{([ue]/[Bm])^2}
= 4[Ke]([ue]/[hB])^2 = [Ke]{([2af][ue])^2}/{([Bm][B0])^2}
= {[G]([Fe]/[Fg])([Mp]/[Me]){([ue]/[Bm])^2} fradMetrs2ndt2la
= [Ke]{([Eg0][ue])^2}/{([B0]^4)([Bm]^2)} C2ulfradk2rmMetr
= [Ke]([Electron gyromagnetic ratio]^2)
*31* = ([Me]^-1)([a0]^3)([2af]^2)([ue]/[Bm])^2 kgrmM3trs2nd
+ 32.6649024 {[QeM]^2}/[G] C2ulkgrmm3trS2nd
- 32.7274140 ([Q0]^2)[10^7][aa] C2ulhnryMetr
+ 32.9913445 [a0][Pf] Metrscnd
- 33.1200380 [Hu][4Pi]/[2af]
- 33.1787440 [h] = [2Pi][hB] = Planck constant JuulScnd
= {[Q0]^2}[RK] = {[PQ]^2}[z0][2Pi]
- 33.2149706 ([Q0]^2)[d]/[a0] Kgrm
+ 33.2327698 [2af]^2 s2nd
- 33.3169100 ([Q0]^2)/([aa]^2) C2ul
+ 33.7583245 [c^2]/([Hu][2Pi]) M2trscnd
+ 33.7895244 [2Pi][a0][Pf] Metrscnd
+ 33.8053433 [FBH][a0] Juul
- 33.8282957 ([h][G][aa][Mp]/{[Me]([c]^3)})^.5 Metr
= Baggiolini's metron B272
+ 33.9072828 ([k][PC]{[z0]^2}[aa])^2 A2prF2adm2trO4mm
= {[aa]^2}[PM]/{[PL][k]} fradKgrm
+ 33.9072828 [c^4] M4trs4nd
+ 33.9729671 [PM][Pf]/(([Mp]/[Me])^.5) Kgrmscnd
- 33.9769239 [hB] = [He]/([4Pi][Rc][c]) = {[PQ]^2}[z0] JuulScnd
= [Ke]([Q0]^2)/[v0] = {[Q0]^2}[RK]/[2Pi] CuulM2trTsla
= [B0][Q0]([a0]^2) = [Q0][w0]/[Pi] = [PM][PL][c]
*7* = [Me]([a0]^2)[2af] = AUN action
- 33.9927428 [PRL] = [2Pi][PL] Metr
- 34.1065161 [4Pi][Hu]^2 s2nd
- 34.2192479 [Hu]/[2af]
- 34.3141805 [Me]([aa]^2) = [He]/[c^2] = [PM][2af]/[Pf] Kgrm
+ 34.3319797 [4Pi]([2af]^2) s2nd
- 34.3712667 [qD0]([Ke]^.5) = [Q0]([a0]^2)([Ke]^.5) Cuulf12dM52r
= [AUN electric quadrupole moment]([Ke]^.5)
*17* =([Me]^.5)([a0]^3.5)[2af] K12mM72rscnd
- 34.7210781 [He]^2 J2ul
- 34.7751038 [Me]([a0]^2)[f0] KgrmM2trscnd
- 34.7909227 [PL] = [G][PM]/[c^2] = [a0]([Me][aa]/[PM]) Metr
= {[hB][G]/[c^3]}^.5 = [hB]/{[PM][c]} = 1/{[z0][Pf][k]}
- 34.7909227 [c^2][PQ]/{[PM][Pf][aa]} CuulkgrmM2trscnd
- 34.7909228 [PM][aa]/[PC] amprKgrm=cuulKgrmScnd
- 34.7909228 [PM][d]{[aa]^2}/[c^2] HnryKgrmm3trS2nd
+ 34.9770023 [Ke]/{[PM][He]} fradkgrmjuulMetr
+ 35.0173318 ([Ke]^.5)/[Me] f12dM12rkgrm
+ 35.1704149 {[QeM]^2}{[v0]^2} C2ulk2rmM2trs2nd
= {[v0]^4}[4Pi][k][a0]/[Me] FradkgrmM4trs4nd
- 35.2057260 [Hu]^2 s2nd
+ 35.3075227 [8Pi][c^4] M4trs4nd
- 35.4116746 [Me]/[B0] = [Q0]/[2af] Kgrmtsla=CuulScnd
- 35.4537446 ([PL]^3)[PM]([Pf]^2)/[Ke] = [c^2][PL][PM]/]Ke] C2ul
= [4Pi]{[PQ]^2} = {[Q0]^2}/[aa]
+ 35.5732838 [2Pi]/([Me]{[a0]^2}[f0]) kgrmm2trScnd
- 35.5891026 [PL]/[2Pi] Metr
+ 35.6049215 [c^3]/[G] = [PM][Pf] = [Me][v0][a0]/{[PL]^2} Kgrmscnd
= [hB]/{[PL]^2} = [FBH][d]/[z0] Juulm2trScnd=N2tnwaat
+ 35.6049216 [PC][c]/[aa] AmprMetrscnd
+ 35.6049216 [aa]{[PM]^1.5}{[d]^.5}/{[PL]^1.5}) KgrmmetrScndTsla
- 35.6088783 [hB](([Me]/[Mp])^.5) JuulScnd
- 35.7489311 [1 eV]/[c^2] = [10^-18.7952897 Juul]/[c^2] Kgrm
- 36.0432407 [Me][a0]/{[aa]^2} KgrmMetr
+ 36.0441175 [c^4]/[aa] M4trs4nd
+ 36.0674218 [PE]/[Mp] Juulkgrm
+ 36.0907261 ([Fe]/[Fg])/([Mp]/[Me]) = ([Q0]^2)[Ke]/{[G]([Mp]^2)}
- 36.2643156 [Me][Mp]/([a0]^2) = [Fg]/[G] K2rmm2tr
- 36.5529545 {[PQ]^2} =[PL][PM]/[d] =[Me][a0][aa]/[d] hnryKgrmM2tr
= [k]([PL]^3)[PM]([Pf]^2) = [k][c^2][PM][PL] A2prKgrmMetrnwtn
={[Q0]^2}/([4Pi][aa]) =[G][k]{[PM]^2} =[hB][c][k] FradJuul=C2ul
- 36.5529546 [PQ][PM][aa]/[c] CuulKgrmmetrScnd
- 36.5529546 ([PM]^2}{[aa]^2}/[c^2] K2rmm2trS2nd
- 36.9510617 ([a0]^2)[Fg]/[Me] M3trs2nd
+ 37.0817422 [Ke][PM]/[PL] = [PM]/{[PL][4Pi][k]} fradKgrm
= {[Q0]^2}/({[Pp]^2}[aa]) = [FBH][4Pi]/[d]
- 37.1424506 [Me][a0]/([4Pi]{[aa]^2}) KgrmMetr
- 37.3425607 ([Hu]^2)[aa] s2nd
- 37.5635254 {{([Q0][a0])^3}/([He]^2)}([Ke]^1.5) C3ulf32dj2ulM92r
= [AUN 1st hyperpolarizability]([Ke]^1.5)
*19* = ([Me]^-.5)([a0]^3.5)([2af]^-1) k12mM72rScnd
- 37.5905793 [Q0]^2 = [G]([PM]^2)[aa]/[Ke] C2ul=FradKgrmM2trs2nd
= [PL][PM][4Pi][aa]/[d] = [Me][Re]([4Pi]/[d]) hnryKgrmM2tr
= [hB][v0][4Pi][k] = [2Pi][hB]/[RK] FradJuul
= {[PQ]^2}[4Pi][aa] = {[PQ]^2}[z0][2Pi]/[RK] JuulohmmScnd
*10* = [Me]([a0]^3)([2af]^2)/[Ke] = [AUN charge]^2 A2prKgrmMetrnwtn
- 37.7413178 ([PE][PL]/{[PC]^2})^.5 Scnd
- 37.8122743 {[aa]^5}[PL]/[PM] = {[aa]^5}[G]/[c^2] kgrmMetr
+ 37.8152477 ([2af]^2)[Ke]/[B0] fradMetrs2ndtsla
= ([Q0]^2)[Ke][B0]/([Me]^2) C2ulfradk2rmMetrTsla
- 37.9133368 [Fe]([a0]^3) = [Ke]([Q0]^2)[a0] C2ulfradM2tr=M3trNwtn
+ 38.1809521 [FBH][d] = [PM]/{[k][PL]} fradKgrm=HnrymetrNwtn
- 38.2275608 [G]([Mp]^2)/([hB][c]) = ([Mp]^2)/([PM]^2) B075
+ 38.2601302 {[k]^.5}[PC]/[Q0] F12dm12r
- 38.3887591 [hB]/[RK] JuulohmmScnd
+ 38.5553166 [k][PE]/[PL] FradJuulm2tr
- 38.6897893 {[PQ]^2}[aa] = {[Q0]^2}/[4Pi] C2ul
= [PL][PM][aa]/[d] = {Me][a0]{[aa]^2}/[d]
+ 38.9411729 [Fe][f0]/[V0] m3trNwtnscnd
- 39.0641536 [G]([PM]^1.5)([PL]^.5) K12mM72rs2nd
= {([G]/[c^2])^.5}{[G]([PM]^2)} = ([PM]^.5)([PL]^3.5)([Pf]^2)
- 39.1898359 [Mp][a0][aa] KgrmMetr
- 39.2185769 {[Q0]^2}/{[Pp]^2} = {[Q0]^2}/([c^2]{[PM]^2}) Frad/kgrm
= [4Pi][PL][k][aa]/[PM] C2ulk2rmm2trS2nd
- 39.3480874 [qD0] = [Q0]([a0]^2) = AUN electric quadrupole moment
= [hB]/[B0] = [Me][vT0]/{[B0]^2} JuulScndtsla=Kgrmt2laVltt
*17* = ([Me]^.5)([a0]^3.5)[2af]/([Ke]^.5) CuulM2tr=F12dK12mM3trscnd
+ 39.3546349 [Fe]/[Fg] = ([Q0]^2)[Ke]/([G][Me][Mp])
= {[PQ]^2}[aa]/{[G][k][Me][Mp]} = [aa]([PM]^2)/([Me][Mp])
= 4{[PQ]^2}[aa]/({[Me]^2}{[Jf]^2}[a0][Pi][Mp][G])
= ([aa]^2)[PM][a0]/([Mp][PL]) = ([aa]^3)[PM][Pf]/([Mp][2af])
= Ratio of Bohr atom electrical force to gravitational force
= [Radius of Universe]/[a0] B075 B092
= [Age of universe]/[nuclear unit of time] B076 B092
+ 39.3546349 [PC][a0][aa]/[Mp] AmprkgrmMetr
+ 39.3546349 {[PC]^2}{[PL]^2}/{[aa][Me][Mp]} A2prk2rmM2tr
= [c^4][a0][k]/[Mp] FradkgrmM4trs4nd=C2ulk2rmM2trs2nd
+ 39.4440844 {[QeM]^2}{[v0]^2}/{[G]/[d]}
+ 39.4440844 {[QeM]^2}{[v0]^2}/{[aa]^2} C2ulk2rmM2trs2nd
= {[QeM]^2}[c^2] = {[v0]^2}[a0][4Pi]/[Me][d] hnrykgrmM4trs2nd
+ 39.4440844 ({[aa][QeM]}^2)/{[G][k]} = [T+32.4440844][10^7]
= ({[aa]^4}[4Pi][a0]/[Me]) / {[PL]/[PM]}
= ({[v0]^4}[4Pi][k][a0]/[Me]) / {[c^4][k][PL]/[PM]}
= ({[aa]^2}{[v0]^2}[4Pi][k][a0]/[Me]) / ([c^2][k][PL]/[PM])
- 39.9941525 ([Q0]^2)/{([v0]^2)[a0]} C2ulm3trS2nd
= ([Q0]^2)[d]/{[a0][Ke]([aa]^2)[4Pi]} FradKgrmmetr
*1* = [Me]/[Ke] = [AUN mass]/[Ke]
+ 40.2472688 [c^5][aa] M5trs5nd
- 40.3169100 ([w0]^2)/{([Pi]^2)[Ke]} = [PM][PL]/[aa] FradmetrW2br
= [hB][RK]/{[2Pi][Ke]} = ([hB]^2)/{([Q0]^2)[Ke]} C2ulHnrymetr
=([Q0]^2)[d]/{[4Pi]([aa]^2)} FradmetrOhmm=c2ulFradJuulmetrScnd
*32* =[Me][a0] =([Magnetic flux quantum]^2)/{([Pi]^2)[Ke]} KgrmMetr
- 40.5432943 [G][k]/([4Pi]({[aa][QeM]}^2))
- 40.7828380 {([Q0][a0])^2}/[He] = [Me]/([B0]^2) C2uljuulM2tr
= [Q0]/([B0][2af]) CuulScndtsla
*18* =([a0]^3)/[Ke] = AUN electric polarizability FradM2tr=Kgrmt2la
- 41.1055955 [a0]^4 M4tr
- 41.3141804 [Me]([aa]^2)[d]/[4Pi] HnryKgrmmetr
+ 41.4914696 ([hB][c])/[G][Me][Mp] = ([PM]^2)/([Me][Mp])
- 41.6555648 [h]/[c] KgrmMetr
+ 41.7516606 [2af][Jf][Pi][Ke] fradH2tzMetrvltt
- 42.3051164 ([Mp][h][G][aa]/{[Me]([c]^5)})^.5 Scnd
= Baggiolini's cronos B272
+ 42.3197105 {[PC]^2]/[PM] A2prkgrm
- 42.4537446 [Me][a0][aa] = [PL][PM] = {[PQ]^2}[d] C2ulHnrymetr
= ([Q0]^2)[d]/([aa][4Pi]) = ([Q0]^2)[Ke]/([c^2][aa]) KgrmMetr
= [aa][Jf]{[Me]^2}/{4[k][B0]} = [hB]/[c] fradK2rmmetrt2la
= 4[aa][k]{[w0]^2}/[Pi] = 2[hB][RK][k][aa] FradmetrW2br
= [aa][Ke]{[Me^2}/({[B0]^2}{[a0]^2}) fradHrtzK2rmMetrtslavltt
= [aa][4Pi][k]{[B0]^2}{[a0]^4}
- 42.4537446 {[PL]^2}[PC]/[aa] = [c][PL][PQ]/[aa] AmprM2tr
- 42.4537446 [c^4]{[PL]^2}[k]/{[aa]^2} FradM5tr
- 42.6185437 ([Fg][Me])/([Fe][Mp]) = {[Me]^2}/([aa]{[PM]^2})
= {([Me]^2)[G]}/{([Q0]^2)[Ke]} = [G]{[B0]^2}/([Ke]{[2af]^2})
= [PL][Me]/([a0][PM]([aa]^2)) = [Me][2af]/([PM][Pf]{[aa]^3})
= ([PL]^2)/{([a0]^2)([aa]^3)} = [Me][c^2]/({[aa]^2}[FBH][a0])
= [Fge]/[Fe] = [Pf]{[PL]^3}/({[aa]^2}{[a0]^3}[2af])
= [G][Me]/{[Re][c^2]} = [G][Me]/([a0]{[v0]^2})
= {[PL]^3}[Pf]/([2af]([aa]^2){[a0]^3})
= 4[PL][B0][k]/({[aa]^2}[PM][Jf])
- 42.7204831 [Me]/([v0]^2) C4ulj3ulM4trT4la=F2adkgrmM2trS2ndT4la
= (AUN 2nd hyperpolarizability)([B0]^4) Kgrmm2trS2nd
+ 42.9825322 [FPQ] = {[PQ]^2}[Ke]/{[PL]^2} = [FBH]/[4Pi] Nwtn
- 43.0281160 [4/3][Pi]([Re]^3) M3tr
- 43.1748662 [Fgp] = [G]([Mp]^2)/([a0]^2) Nwtn
+ 43.2677434 [Pf] = {[hB][G]/[c^5]}^.5 Hrtz
= [c]/[PL] = [PM][2af]/({[aa]^2}[Me])
+ 43.2677434 [c][PC]/{[aa][PM]} AmprkgrmMetrscnd
+ 43.2677434 [PM][aa]/[PQ][PL] = [PQ][d][aa]/{[PL]^2} CuulHnrym3tr
+ 43.2835623 [FBH]/(2[Pi]) Nwtn
+ 43.3330134 [c^2]/({[k]^2}{[aa]^2}) f2adM4trs2nd
- 43.3330134 {[PQ]^2}{[k]^2}/{[PM]^2} C2ulF2adk2rmm2tr
- 43.4913695 ([Q0]^2)[d] = [4Pi][aa][PL][PM] KgrmMetr=C2ulHnrymetr
- 43.5529545 [PL][PM]/[4Pi] KgrmMetr
- 43.6283042 [Fg][a0]/([Me][c^2])
- 43.6502046 [Re]^3 M3tr
- 43.7177538 ({[PQ]/[PM]}^2)/({[Q0]/[Me]}^2) = [G][k]/{[QeM]^2}
+ 43.7865558 [PC]/[Q0]
+ 43.9305653 [Ke]/[hB] Hnrykgrmscnd
+ 43.9750968 {[Eg0]^2} = [Me][Ke]{[2af]^2}/{[a0]^3} m4trV2tt
= [AUN electric field gradient]^2 fradH2tzKgrmm2tr
- 44.0409742 {[PM]([PL]^7)([Pf]^4)/[Ke]}^.5 AmprM2tr=Juultsla
+ 44.0817422 [FBH] = [FPC] = [4Pi][FPQ] = [hB][c]/{[PL]^2} Nwtn
= {[G]([PM]^2)/([PL]^2) = [d]{[PC^2]} = {[PQ]^2}/([k]{[PL]^2})
= [c^4]/[G] = [c][PM][Pf] = [c^2][PM]/[PL] = [PM][PL]{[Pf]^2}
+ 44.0817422 {[PM]^1.5}[aa]/({[k]^.5}{[PL]^1.5}) KgrmTsla
+ 44.0817422 [PC][c^2]/[aa] CuulM2trs2nd
- 44.0934294 [Me][Re][Pi] KgrmMetr
+ 44.2365660 [Q0][a0][Pf]/[Me] CuulkgrmMetrscnd
- 44.2533229 [Me]([a0]^3)[2af] KgrmM3trscnd
- 44.2978542 {([Q0][a0])^4}/([He]^3)}([Ke]^2) C4ulf2adj3ulM6tr
= [AUN 2nd hyperpolarizability][Ke]^2
*20* = ([Me]^-1)([a0]^4)([2af]^-2) kgrmM4trS2nd
+ 44.4829790 [He]([f0]^2)/[V0] Kgrmmetrs4nd
- 44.5905793 [PC]{[PL]^2} AmprM2tr
- 44.5905793 [Me][Re] = [Me][a0]([aa]^2) = [PM][PL][aa] KgrmMetr
= ([Q0]^2)[Ke]/[c^2] = ([Q0]^2)[d]/[4Pi] C2ulHnrymetr
*32* = [Me][a0]([v0]^2)[d]/([Ke][4Pi]) C2ulfradmetrS2nd
- 44.7553784 ([Me]^2)/([PM]^2)
- 44.9653821 [c^2][{[PL]^2]/[PM] kgrmM4trs2nd
- 45.0877292 [Me][Re]/[Pi] KgrmMetr
+ 45.1240562 {[a0]^5}{[2af]^4}/[Me] ={[v0]^4}[a0]/[Me] kgrmM5trs4nd
+ 45.2811589 [2Pi][He]([f0]^2)/[V0] Kgrmmetrs4nd
- 45.4045781 [PT][aa] Scnd
+ 45.4819019 [8Pi]{c^4]/{G} KgrmMetrs2nd
- 45.6897892 [PL][PM][aa]/[4Pi] = {Me][a0]{[aa]^2}/[4Pi] KgrmMetr
= {[PQ]^2}[aa][d]/[4Pi] = {[Q0]^2}[d]/{[4Pi]^2}
- 45.8587161 [Me]/[f0] KgrmScnd
+ 46.2801620 ([4Pi]^2)[FBH] Nwtn
- 46.4387750 [Fg] = [G][Me][Mp]/([a0]^2) Nwtn
= [Fe][Me][Mp]/{([PM]^2)[aa]}
- 46.6568960 [Me]/[2af] = [PM][PT]/([aa]^2) KgrmScnd
+ 46.8234929 [2af]/[V0] m3trscnd
+ 46.8922131 ([PM]^2)/({[Me]^2}[aa]) = [aa][PM][Pf]/([Me][2af])
= [aa]([a0]^2)/([PL]^2) = [V0][2af]/{[PV][Pf]}
= {[a0]^3}[2af]/([Pf]{[PL]^3}) = [Fe][Mp]/({[aa]^2}[Me][Fg])
= {[Q0]^2}[Ke]/([G]{[Me]^2}{[aa]^2}) = [a0]/{[G][d][k][Me]}
= [Jf][Pi][Ke][PM]/{[PL][B0]} = [a0][PM]/{[PL][Me]}
- 46.9941525 [Me]/[c^2] Kgrmm2trS2nd=HnryKgrmmetr
- 47.3169100 [Me][a0][d]/[4Pi] HnryKgrm
- 47.4010501 [He][Me]={[p0]^2}={[hB]/[a0]}^2 KgrmJuul=K2rmM2trs2nd
+ 47.6569744 [Ke]/{[PM][Me]} fradk2rmMetr
- 47.8266239 [PL][PM]{[aa]^2}/[4Pi] KgrmMetr
+ 47.9828054 2{(Me][c^2])/([Re][aa])}{[G]([PM]^2)/([PL]^2)} N2tn
- 47.9914228 {[PL]^2}/([4Pi][aa]{[a0]^2}) = ([PQ][PL]/[q0])^2
- 48.3545347 [PM][PL][d] HnryKgrm
+ 48.3549731 ([PM]^.5)/([PL]^1.5) Kgrmmetr
+ 48.7633765 [PC]{[Ke]^.5}/[Q0] f12dM12r
+ 48.9449075 {[PC]^2}[4Pi][aa] = [PM]([PL]^3){[Pf]^4)[aa]/[Ke] A2pr
+ 49.0290476 [A0]/[PA] = [4Pi]([a0]^2)/{[4Pi]([PL]^2)}
= [PM][Pf]/{[Me][2af]} = [a0][Pf][aa]/([PL][2af])
= [PE][PM]/{[He][Me]} = {[Pp]^2}/{[p0]^2}
+ 49.1685335 [Pf]/[d] Hnrymetrscnd
+ 49.3129815 [PC]/([Q0]{[k]^.5}) f12dM12r
- 49.6244863 [Q0]([a0^3) CulM3tr
- 49.7026838 [Fge] = [G]([Me]^2)/([a0]^2) Nwtn
+ 49.8625864 [PC]{[4Pi]^.5}/([Q0]{[k]^.5}) f12dM12r
- 49.8893832 ([PL]^2)[Fe]/[Mp] M3trs2nd
+ 49.9825322 [c^4]/({[d]^2}{[aa]^2}) h2ryM6trs4nd
+ 49.9825323 {[PC]^2} = [FBH]/[d] = {[PQ]^2}{[Pf]^2} A2pr
= [k][c^3][PM][Pf] = [hB][c][k]{[Pf]^2} FradKgrmM2trs4nd
= {[Q0]^2}{[Pf]^2}/{[4Pi][aa]} = [G][k]([PM]^2)([Pf]^2)
= [hB][c]/([d]{[PL]^2}) = [G]{[PM]^2}/([d]{[PL]^2})
+ 49.9825322 {[aa]^2}{[PM]^2}/{[PL]^2} K2rmm2tr
+ 49.9825321 {[aa]^4}{[PM]^3}/([c^4][k]}{[PL]^3}) fradK3rmm6trS4nd
- 50.1323855 [h]/[c^2] KgrmScnd
- 50.5933089 [Me]([a0]^2) M2trKgrm
- 50.9305653 [PM]/[Pf] = [hB]/[c^2] = [Me]{[aa]^2}/[2af] KgrmScnd
- 50.9305653 [PL][PQ]/[aa] CuulMetr
- 50.9305653 [c^3]{[PL]^2}[k]/{[aa]^2} FradM4trs3nd
+ 51.0817422 {[PC]^2}[4Pi] A2pr
= [4Pi][k]([PL]^3)[PM]([Pf]^4) FradKgrmM2trs4nd
+ 51.1658823 [FBH]/[Fe]
+ 51.7445641 [aBH] =[G][PM]/{[PL]^2} =[FBH]/[PM] =[c][Pf] Metrs2nd
+ 51.7445641 [aa][[PM]/([k]{[PL]^3})]^.5 Tsla=f12dK12mmetr
- 52.4939875 {([Q0][a0])^3}/([He]^2) C3ulj2ulM3tr
= AUN 1st hyperpolarizability
*19* = ([Me]^-.5)([a0]^3.5)([2af]^-1)/([Ke]^1.5) F32dk12mM2trScnd
+ 52.5585629 [PPw] = [PE]/[PT] = [PM][c^2][Pf] = [c^5]/[G] Waat
= [Pw0]{[PC]^2}[4Pi][aa]/{[i0]^2} = {[PC]^2}[z0] A2prOhmm
- 53.0673999 [c^3]{[PL]^2}[k]/[aa] FradM4trs3nd
- 53.0674000 [PL][PQ] CuulMetr
- 53.0674001 [Me]{[aa]^3}/[2af] = [PM][aa]/[Pf] KgrmScnd
+ 53.3027170 {[PC]^2}[4Pi][aa]/{[i0]^2} = [PPw]/[Pw0]
+ 53.3317938 ([Ke]^.5){([PM]^.5)/([PL]^1.5)} Tsla
- 53.5532046 [Mp]^2 K2rm
+ 53.6577728 [PPw][4Pi] Waat
+ 53.8813988 [[PM]/([k]{[PL]^3})]^.5 Tsla=f12dK12mmetr
+ 54.2562016 ([PM]^2)/([PL]^2) K2rmm2tr
+ 54.2562017 {[PC]^2}/{[aa]^2} A2pr
+ 54.3403418 {[PC]/[i0]}^2
+ 54.3581411 [FBH]/[a0] metrNwtn
- 54.5442207 ([Q0]^2)/[c^2] C2ulm2trS2nd
- 55.2042346 [PM]{[aa]^2}/[Pf] = [Me]{[aa]^4}/[2af] KgrmScnd
- 56.0177950 ([PM]^.5)([PL]^1.5) K12mM32r
- 56.7151739 [Fg][a0] MetrNwtn
- 56.8171134 [Me][Mp] K2rm
- 58.0002064 ([hB]^2)[Ke] fradJ2ulMetrS2nd
- 59.4073861 ({[Me][a0]}^2){[aa]^3}/({[Q0]^2}[Ke]) K2rmMetrc2ulFrad
= {[PL]^2}/[G] = [PM]/([PL]{[Pf]^2}) KgrmmetrS2nd
+ 59.4983110 : natural log is about 137 : about 1/[aa];
= Radius of curvature of universe in metrons = age in cronos
= Mass of universe in pondus: Baggiolini B272
- 60.0810222 [Me]^2 K2rm
+ 60.2213848 [Ppw]/[PM] = [c^2][Pf] kgrmWaat=M2trs3nd
- 60.4829360 [PV][Pf] M3trscnd
- 60.8697078 [Me]{[a0]^3} KgrmM3tr
- 60.8706064 [Hu]/[Pf]
+ 61.0353836 [PM]{[PL]^3}{[Pf^4} KgrmM3trs4nd
- 61.1050247 {[PL]^2][c] = {[PL]^3}[Pf] M3trscnd
- 61.9190235 ([PL]^2)/[PM] kgrmM2tr
- 62.2569800 [Fg]/[f0] KgrmMetrscnd
- 63.7276640 [G]([Mp]^2) M2trNwtn
- 64.2051370 {([Q0][a0])^4}/([He]^3) C4ulj3ulM4tr=F2adkgrmM2trS2nd
*20* =([Me]^-1)([a0]^4)/{([2af][Ke])^2} =AUN 2nd hyperpolarizability
- 65.2582783 [4Pi]([h]^2) J2ulS2nd
- 66.3574881 [h]^2 J2ulS2nd
+ 66.4655396 [2af]^4 s4nd
- 66.8546380 [4Pi]([hB]^2) J2ulS2nd
- 66.9915728 [G][Me][Mp] = [Fg]([a0]^2) M2trNwtn
- 67.6310905 [Me][Q0]^2 C2ulKgrm
- 67.9538478 [hB]^2 J2ulS2nd
- 67.9854856 [PRL]^2 = ([2Pi][PL])^2 M2tr
- 68.4826355 [PA] = [4Pi]([PL]^2) M2tr
+ 69.2966343 [Pp]/[PA] Kgrmmetrscnd
- 69.5818454 [PL]^2 M2tr
+ 70.0346636 [Ke]/{[Me]^2} fradMetrk2rm
- 70.2554816 ([G]([Me]^2) M2trNwtn
+ 70.3958442 [Pp]/([PL]^2) = [hB]/{[PL]^3} Kgrmmetrscnd
- 71.7186801 [aa]([PL]^2) M2tr
- 72.5286312 {[Me][Mp]/([a0]^2)}^2 = ([Fg]/[G])^2 K4rmm4tr
- 73.5435714 ([PL]^3)/([a0]^3)
+ 73.7101683 [Me]/[PV] Kgrmm3tr
+ 74.3322570 [Me]/{[PL]^3} Kgrmm3tr
- 75.4826356 [PE][PL]/{[PC]^2} S2nd
+ 76.9452142 {[Fe]/[Fg]}/{[Q0]^2} c2ul
- 77.2446673 ([PL]^2)[PM] KgrmM2tr
- 77.9074892 ([hB]^2)/[Ke] FradJ2ulmetrS2nd
- 78.0586661 [PL][PT] MetrScnd
+ 86.5354868 [Pf]^2 s2nd
+ 86.5354868 [c][PC][Pf]/{[aa][PM]} AmprkgrmMetrscnd
- 86.6660266 [PL]{[aa]^2}{[k]^5}/[PM] F5adm4trkgrm
+ 86.6660268 [c^4]/({[k]^4}{[aa]^4}) f4adM8trs4nd
- 86.6660268 {[PQ]^4}{[k]^4}/{[PM]^4} C4ulF4adk4rmm4tr
+ 87.2566084 [FBH]/[Fgp]
+ 90.5205172 [FBH]/[Fg]
+ 93.7844260 [FBH]/[Fge]
+ 94.5731116 [PC]/{[PL]^2} Amprm2tr
- 95.9212606 ([PL]^3)[Me]/{([a0]^3)[PM]}
+ 96.0878575 [PM]/[PV] Kgrmm3tr
+ 96.7099462 [PM]/([PL]^3) Kgrmm3tr
+ 96.7099462 [PC]/([aa]{[PL]^2}) Amprm2tr
-100.1949299 [PV][He]/{[PE][V0]}
= [PL][Me]{[2af]^2}/([a0][PM]{[Pf]^2})
-103.7506794 [PV] = [4/3][Pi]([PL]^3) M3tr
-104.3727681 [PL]^3 M3tr
+104.5646782 [Pp]/[PV] Kgrmm2trscnd
-104.9514499 [PL][PT][a0]/[2af] M2trS2nd
+106.6635876 [Ke]{[PM]/([PL]^3)} T2la=fradKgrmm2tr
+107.7627975 [PM]/([k]{[PL]^3}) T2la=fradKgrmm2tr
+107.7627975 [c^2]{[Pf]^2}/{[aa]^2} M2trs4nd
-112.0355900 ([PL]^3)[PM] KgrmM3tr
+113.0414989 [PE]/[PV] = 3[PE]/([4Pi]{[PL]^3}) Juulm3tr
+113.6635876 [PM]([Pf]^2)/[PL] = [FBH]/{[PL]^2} Juulm3tr
= [PE]/{[PL]^3} = [d][k][PM][PL]{[Pf]^4}
+117.5565936 [FBH][Pf]/[V0] Kgrmm2trs3nd
+147.8324216 [FBH]/[PV] m3trNwtn
+191.1001650 [FBH][Pf]/[PV] m3trNwtnscnd
=================================++=================================