GUNTERTABLE 1
---------------------------------++---------------------------------

                           author's note :

   For four hundred years, numerical patterns visible in slide rule
scales and logarithm tables have enabled extrapolation of unseen
marks and unlisted values in those one dimensional progressions. In
GDA vector space mappings, the multidimensional logarithm tables
based on fundamental physical constants, such patterns combine to
leave no doubt: there is one and only one numerical value that the
Newtonian gravitational constant can have.  If that numerical value
is exactly the same as the product of the magnetic constant and the
square of the fine structure constant, the alignment of patterns is
seen to be based upon the exact value of the fine structure constant
instead of a near miss, the only interdependent set of gravitational
constant [G], Planck mass [PM], Planck length [PL], and Planck time
[PT] = 1/[Pf] values which can be valid is exposed, the invalidity
of all previous and 2010 CODATA values for that set is established,
and the archive of calculation results listed below includes a more
completely integrated system of natural constants.  Verify this by
observing the disarray which results in the collection with use of
any other values for the [G], [PM], [PL], and [PT] = 1/[Pf] set.

       See  GGVALUE2.HTM (update of NGC01.PDF , GGVALUE.HTM)

---------------------------------++---------------------------------
   CODATA 2010 Values     Website entrance    Symbol and Label Key
---------------------------------++---------------------------------
 Rounded off to 7 decimal places and accurate to within .0000002 ,
       here is the numerical value as a power of ten for :
[2]  + 0.3010300 [d ] - 5.9007901 [Lcn]+25.4292322 [PV]-103.7506794
[3]  + 0.4771213 [E0] +11.7111495 [Ma] -26.1775275 [Pw0]- 0.7441541
[4]  + 0.6020600 [Eg0]+21.9875484 [Md] -26.4757878 [PX] -17.7268723
[Pi] + 0.4971499 [f0] +15.8182050 [Me] -30.0405111 [q0] -29.0716885
[2Pi]+ 0.7981799 [FBH]+44.0817422 [Mh] -26.3004734 [Q0] -18.7952896
[4Pi]+ 1.0992099 [Fe] - 7.0841401 [Mm] -27.7250271 [qD0]-39.3480874
[18P]-40.7828380 [Fg] -46.4387750 [mma]- 2.9356722 [QD0]+12.0339070
[19H]-52.4939875 [Fge]-49.7026838 [Mn] -26.7760040 [QeM]+11.2452215
[20H]-64.2051370 [Fgp]-43.1748662 [Mp] -26.7766023 [Rc] + 7.0403543
[23M]-28.1028659 [FPC]+44.0817422 [Mt] -26.4992875 [Re] -14.5500682
[29H]+ 8.0974941 [FPQ]+42.9825322 [Mtt]-26.3003915 [Rgc]+ 0.9198342
[2af]+16.6163849 [FPX]+44.0817422 [Nm] -26.2966413 [RK] + 4.4118352
[a0] -10.2763989 [G ] -10.1744595 [p0] -23.7005250 [Rn] -14.8795607
[A0] -19.4535879 [G0] - 4.1108052 [PA] -68.4826355 [Rp] -14.8789625
[aa] - 2.1368347 [Gye]+11.2457248 [PB] +53.8813988 [Tc] -28.1770178
[aBH]+51.7445641 [Gyn]+ 8.2630373 [PC] +24.9912662 [Tp] -23.3557831
[ae] +22.9563709 [Gyp]+ 8.4273598 [PE] + 9.2908195 [u0] -22.7317025
[An] +23.7797510 [h ] -33.1787440 [Pf] +43.2677434 [ue] -23.0322291
[B0] + 5.3711635 [H0] +11.2719536 [phi]+ 0.2089876 [um] -25.3477103
[BHR]-27.1281008 [hB] -33.9769239 [PK] +32.1507363 [un] -26.0149166
[Bk] -22.8599168 [He] -17.3605390 [PL] -34.7909227 [up] -25.8505941
[Bm] -23.0327325 [Hu] -17.6028630 [PM] - 7.6628219 [v0] + 6.3399860
[c ] + 8.4768207 [i0] - 2.1789047 [Pp] + 0.8139988 [V0] -30.2071080
[c^2]+16.9536414 [Jf] +14.6844844 [PPw]+52.5585629 [vT0]+ 1.4347506
[cQ] - 3.4392630 [k ] -11.0528513 [PQ] -18.2764773 [w0] -14.6844844
[Cw] -11.6150537 [Ke] + 9.9536414 [Pu0]-44.5905793 [z0] + 2.5760306
[Me]/[Mp] = [Nm]/[Bm] = [Rp]/[Cw] = [aa][Rp]/{[Re][2Pi]} -3.2639088
[PX][PF] -25.5408711  [4Pi][aa] -1.0376248 [4Pi]{[aa]^2} -3.1744595
?:
---------------------------------++---------------------------------
     Numbers between asterisks below refer to locations in the
              Periodic Table of Fundamental Constants

---------------------------------++---------------------------------
POWER OF TEN | COMMENTS, NOTES                                 UNITS
---------------------------------++---------------------------------
-  0.0000168  3[k][B0]{[aa]^2}/[2Pi][a0]   Fradm2trTsla=Cuulm4trScnd
     = 3[QD0][aa]/(8{[Pi]^2}[c]) = 3[aa][Eg0]/(8[Ke]{[Pi]^2}[c])
     = 3[aa]{[Me]^.5}{[a0]^-1.5}[2af]/(8{[Pi]^2}{[Ke]^.5}[c])
     = {[Q0][aa]}/{[2Pi][c][V0]} = [Q0][d]/{[4Pi][RK][V0]}
     (See 4.4118183+ , 11.4118183+ , 12.0339070+ )
+  0.0000546  [Bk]/([phi][Q0]{[aa]^2})                  cuuldegkJuul
     (See 4.0646272+ , 0.0006011+ ? )
+  0.0002371  [PK]{[G]^4}/{[aa]^4}                  Degkk8rmM8trN4tn
+  0.0002373  [PK]([PL]/{[k][PM]})^2                Degkf2adk2rmM4tr
+  0.0003583  [c][Bk][Q0]/{[h]                      CuuldegkMetrs2nd
+  0.0003789  [Pm]/([V0]{[H0]^2})                       AmprKgrmm4tr
+  0.0005033  [ue]/[Bm] = [Gye]/{[QeM]} = [Electron g-factor]/2
-  0.0005982  [Mn]/[Mp] = [Rn]/[Rp]
-  0.0006011  1/{(36[Pi])[10^9]}/[k]
-  0.0006577  [2Pi][mma]/[aa] =  [mma]/({[Re][Me]}/{[Mp][Rp]})
-  0.0006745  3[k][B0][mma][aa]/[a0]                    Fradm2trTsla
-  0.0008769  {[aa]^2}[k]/{[PM]^2} = {[v0]^2}/([d]{[PE]^2})
     = ({[PQ]^2}/[PM]^2})/([hB][c]/{[aa]^2})            Fradk2rmmetr
-  0.0008769  [4Pi][k]{[aa]^5}/({[Q0]^2}[c^2])      c2ulFradm3trS2nd
     = {[aa]^4}/{[c^3][hB]} = {[aa]^4}/{[c^4][PM][PL]}  juulm3trS2nd
     = {[aa]^3}/{[c^4][Me][a0]}
-  0.0008769  [G][k]/({[PM]^2}[d])                  F2adk3rmM3trs4nd
     = ({[PQ]/[PM]}^4)/{[PL][PM]}                       C4ulk3rmm4tr
     = [c^3][PL][k] /({[PM]^3}[z0])                     h2ryk3rmM3tr
     = [PL]/({[PM}^3}{[d]^2}) = [G]/({[PM]^2}{[z0]^2})
+  0.0010066  {[ue]/[Bm]}^2 = {([Gye]/{[QeM]})}^2
     = {[Electron g-factor]/2}^2
-  0.0017158  [B0]{[aa]^2]}/[4Pi] = [hB]{[aa]^2]}/{[Q0][A0]}    Tsla
     = {[Me]^.5}{[Ke]^.5}{[aa]^2}/([4Pi]{[a0]^1.5})
     = [i0][d]/({[4Pi]^2}[a0]) = [Fe][d]/{[B0][4Pi][A0]}
-  0.0034316  [Me][Ke]{[aa]^4}/({[4Pi]^2}{[a0]^3}) T2la=fradKgrmm2tr
+  0.0054486  {[He]/[Q0]}/({[V0]([f0]^2})               m3trs2ndVltt
-  0.0058435  [2Pi][Q0][Ke]/{[aa][d]}  CuulM2trs2nd=CuulfradhnryM2tr
     = [h][c]/{[d][Q0]} = [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
-  0.0420700  [i0]/[aa]                                         Ampr
+  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]
-  0.0667972  deuteron g factor
-  0.0705179  [v0]{[aa]^3}                                  Metrscnd
-  0.0763615  [Bm][Fe]/[Me]                         JuulkgrmNwtntsla
---------------------------------++---------------------------------
-  0.0841400  {[i0]/[aa]}^2 = [Fe][4Pi]/[d]    A2pr=hnryKgrmM2trs2nd
     = {[Q0][2af]/[aa]}^2 = [Me][a0]{[2af]^2}[4Pi]/[d]      C2uls2nd
-  0.0841401  [Fe][10^7]                                        Nwtn
---------------------------------++---------------------------------
+  0.0894495  ({[QeM]^2}{[v0]^2}/{[aa]^2})/{[Fe]/[Fg]}
     (See 39.4440844 minus 39.3546349)          [[C2ulk2rmM2trs2nd]]
+  0.0894493  [4Pi]{[aa]^2}[Mp]/[Me]
-  0.1104090  ([G]^.5)([Ke]^.5)                     CuulfradkgrmMetr
+  0.1249387  [4/3]
-  0.1282143  [B0][Bk]/[He]                                 degkTsla
+  0.1505150  [2]^.5
+  0.1539848  [Ke][PM][aa] = [PM][aa]/{[4PI][k]}        fradKgrmMetr
-  0.1637242  {[Gyn]/[Gyp]}{[Mn]/[Mp]}
-  0.1643225  [un]/[up] = [Gyn]/[Gyp]
-  0.1649208  {[Gyn]/[Gyp]}{[Mp]/[Mn]}
+  0.1665969  [Me]/[V0] = [Me]/{([4/3][Pi])([a0]^3)}        Kgrmm3tr
-  0.1728157  [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  ([aa]^2)[d][Ke]       = {[aa]^2}[10^7]/[k] in fradHnry
-  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]
-  0.2818196  {[Gye]/[Gyn]}{[Me]/[Mn]}
+  0.2881622  [Pi]/[phi]
-  0.3005266  [ue]/[u0]
-  0.3008144  [Mp]/[Md]
+  0.3010300  2.0
+  0.3015333  2([ue]/[Bm]) = Electron g-factor
+  0.3015361  muon g factor
+  0.3210587  [2Pi]/3 = 710/339
-  0.3227575  [Ke][a0]                                      fradM2tr
-  0.3288942  [Rp]/[Re]
-  0.3485218  [ud]/[un]
+  0.3794919  [A0]{[aa]^7}/[PL]                                 Metr
+  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
-  0.4355648  16[Pi][aa]
+  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
-  0.4416362  ([aa]^4){[d]^2}{[Ke]^2}                       f2adH2ry
-  0.4416362  {[G][Ke]}^2              f2adk2rmM8trs4nd=k4rmM4trV4tt
-  0.4455438  {[Gye]/[Gyp]}{[Me]/[Mp]}
-  0.4513116  [Hu]/([He][phi])                              Hrtzjuul
-  0.4767423  [PL]/([Me]{[aa]^2}) = [a0]/{[PM][aa]}         kgrmMetr
+  0.4771213  3.0
+  0.4971499  [Pi] = 1065/339 = 1/{[Jf][B0]([a0]^2)}
+  0.5028838  [um]/[up]
-  0.5088371  [hB][v0][PM]/[PL] = {[Pp]^2}[aa]              JuulKgrm
     = [hB][c^3][aa]/[G]
-  0.5128443  [ud]/[up]
-  0.5188124  {[4Pi][aa])^.5 = {[z0][2Pi]/[RK]}^.5 = [Q0]/[PQ]
-  0.5479285  96/339
+  0.5496049  [4Pi]^.5
+  0.5678676  [G]{[B0]^2}                           k2rmM2trNwtnT2la
+  0.5695833  [G]/({[aa]^2}/{[4Pi][B0]})            kgrmM3trs2ndTsla
+  0.5763244  {[Pi]/[phi]}^2
+  0.5827547  neutron g factor
+  0.5891923  2[Pi]/[phi]
-  0.5990748  [Mp]/[Ma]
+  0.6003442  [d][Q0][f0]/([2Pi][a0])          CuulHnrym2trscnd=Tsla
+  0.6020600  4.0
+  0.6220886  [43P] = [4/3][Pi] = 1420/339
+  0.6269628  {[phi]^3}
+  0.6289251  helion g factor
+  0.6315661  [QeM][PQ]/[PM]                                C2ulk2rm
      = ([4Pi][aa]{[PQ]^2}/{[Me][PM]})^.5
+  0.6315661  [Q0][v0]/{[Me][c^2]} = [QeM][aa]/[c]  CuulkgrmmetrScnd
-  0.6492216  [Hu][c^2] = [Hu]/{[k][d]}                     H3tzM2tr
-  0.6530605  weak mixing angle
+  0.6582982  [Q0]/[A0]                                     Cuulm2tr
-  0.6600140  [z0][aa]/[4Pi] = [RK]{[aa]^2}/[2Pi]               Ohmm
     = [v0]{[d]/[4Pi]} = [aa]/{[c][Ke]}                     Hnryscnd
-  0.6600141  {[G][PQ]/[PL]}{[d]/[4Pi]}                     Cuulkgrm
     = {[c^2][PQ]/[PM]}{[d]/[4Pi]}  =  [10^-7][10^6.3399860]
-  0.6715423  [Me]/([w0]^2)                                 Kgrmw2br
+  0.6989700  5.0
+  0.7061375  [Pi][phi]
+  0.7111825  [PQ][k]/[Me]                          FradCuulkgrmmetr
-  0.7240197  64/339
-  0.7365948  8[Pi][aa]
-  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
+  0.7750950  triton g factor
+  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] = 2130/339 = [Rp][Mp]/{[PM][PL]}
     = [Rp][Mp]/{[Me][a0][aa]}
+  0.8139988  [Pp] = [hB]/[PL] = [PM][PL][Pf]           KgrmMetrscnd
+  0.8359504  {[phi]^4}
+  0.8406082  [v0][Bk]/[He]                             degkMetrscnd
+  0.8450980  7.0
-  0.8489585  48/339
-  0.8523842  ([PQ]/{[PM][k]})/{[QeM][Ke]}
+  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
     = [c^2]{[aa]^2}{[d]^2} = [d]{[aa]^2}/[k]      a2prV2tt=fradHnry
+  0.8783919  [G]/[k] = ([PQ]/{[PM][k]})^2          C2ulf2adk2rmM2tr
     = [hB][c]/([k]{[PM]^2})       fradk2rmM3trNwtn=fradJuulk2rmM2tr
     = {[PL]^3}{[Pf]^2}/{[PM][k]}                   fradkgrmM4trs2nd
-  0.8836399  [PL][c^4]                                     M5trs4nd
+  0.8902222  [4Pi]/[phi]
+  0.9030900  8.0
+  0.9198342  [Rgc] = [Bk][An] = 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] = ({[2Pi][a0]}^2)[f0]/[aa]       M2trscnd
     = [A0][f0][Pi]/[aa] = [2Pi][a0][v0]/[aa]
     = Bayles' least quantum freq(?) B589
+  1.0071675  2[Pi][phi]
-  1.0097606  ([aa]^2)/([Me]/[Mp])
-  1.0250497  32/339
-  1.0376248  [4Pi][aa] = [z0][2Pi]/[RK] = {[Q0]/[PQ]}^2
     = ([Q0]^2)[d]/([PM][PL]) = ([PL][PM]/[k])/{[Me][a0][Ke]}
     = [i0][d]/{[B0][aa][a0]} = Planckmap/AUNmap @ z0 over RK/2Pi
     = (Planckmap/AUNmap @ c k over v0/Ke)^-1
-  1.0405039  [Hu]/([2Pi][He])                              Hrtzjuul
+  1.0449380  {[phi]^5}
-  1.0684173  [aa]^.5
-  1.0875426  [RK][Bk]/[He]                                 degkOhmm
+  1.0974941  [B0]{[aa]^2}                                      Tsla
+  1.0992099  [4Pi] = {[PM]^2}[G]/{[PQ]^2}[Ke]
     = {[Q0]^2}/([aa]{[PQ]^2}) = [FBH]/[FPQ]
-  1.1270741  [Me]/([Mp][aa])
+  1.1924266  [Hu]/[Q0]                                     cuulHrtz
-  1.2257809  [Mm]/[Mt]
-  1.2288021  {[Hu]^2}/[hB]                                 Hrtzjuul
+  1.3081975  [4Pi][phi]
-  1.3228359  [PQ][c^2]                                 CuulM2trs2nd
-  1.3228359  [PM][v0] = [Pp][aa]                       KgrmMetrscnd
-  1.3386548  2[Pi][aa]
-  1.3415339  [Hu]/([4Pi][He])                              Hrtzjuul
-  1.3507891  [G]{[RK]^2}                           k2rmM2trNwtnO2mm
+  1.3926806  {[He]^2}/{[hB][aa]}=[hB]{[2af]^2}/[aa]=[Pw0]/[aa] Waat
+  1.4002399  8[Pi]
+  1.4223650  {[PQ]^2}{[k]^2}/{[Me]^2}              F2adC2ulk2rmm2tr
+  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
+  1.5171851  [4Pi]{[phi]^2}
-  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)
-  1.6271207  [G]/{[aa]^4}                 kgrmM3trs2nd=k2rmM2trNwtn
-  1.6271208  [d]/([aa]^2) = 1/{([v0]^2)[k]}       a2prNwtn=Hnrymetr
     = {[z0]^2}[k]/{[aa]^2}                FradmetrO2mm=M2trnwtnT2la
     = 4[B0][w0]/[Fe] = [z0]/([c]{[aa]^2})  TslnwtnWebr=metrOhmmScnd
     = [4Pi][Ke]/([v0]^2) = [FBH]/({[PC]^2}{[aa]^2})    fradmetrS2nd
*26* = ([a0]^-2)([2af]^-2)[4Pi][Ke]     = Magnetic constant/{[aa]^2}
-  1.6271207  [PQ]/([k][c][PM]{[aa]^3})             CuulfradkgrmScnd
+  1.6279976  [Pp]^2 = ({[PM][c]}^2) =[PE][PM] K2rmM2trs2nd=KgrmJuul
     = [c^3][hB]/[G] = [PM][hB][c]/[PL]     C2ulfradK2rmMetrnwtns2nd
     = [PM][c^2][d]{[Q0]^2}/{[PL][aa][4Pi]}         C2ulHnryKgrms2nd
     = [Ke][c^2]{[Q0]^2}/{[G][aa]}                      A2prHnryKgrm
+  1.6319544  ([Mp]/[Me])^.5
-  1.6396848  [aa][Pi]
-  1.6437646  [Vmi] = Ideal gas molar volume                M3trmool
     (at 273.15 Degrees Kelvin, 10^5 Pascal)
-  1.6494813  Ideal gas molar volume                        M3trmool
     (at 273.15 Degrees Kelvin, 1.01325 x 10^5 Pascal)
+  1.6691909  [Bm]/([h][c])                                 metrtsla
-  1.6976387  [G][c] = {[PL]^4}{[Pf]^3}/[PM]            kgrmM4trs3nd
-  1.6976388  [z0]{[aa]^2} = {[aa]^2}{[d]/[k]}^.5      fradScnd=Ohmm
     = [aa][E0]/[H0] = [aa][d][E0]/[B0]                     amprVltt
-  1.7188595  [aa]{[phi]^2}
+  1.7307760  [4Pi][QeM][PQ]/[PM] =[4Pi][Q0][PQ]/{[Me][PM]} C2ulk2rm
+  1.7640556  ([Q0]^2)([Fe]/[Fg])                               C2ul
+  1.7778507  [Z0]/[2Pi]                                        Ohmm
-  1.7846580  [Hu][f0]                                          H2tz
-  1.7995782  [a0][c]                                       M2trscnd
+  1.8023612  [4Pi]([aa]^2)([Ke]^.5)                        M12rf12d
-  1.8358047  2[aa]
-  1.8420065  ([h][c])/[Bk] = second radiation constant     MetrDegk
-  1.8561472  [B0][4Pi]([aa]^2)/([d][Ke])
+  1.8507249  [Hu]/[A0]                                     Hrtzm2tr
-  1.8857225  [RK][Bk]/{[2Pi][He]}                          degkOhmm
+  1.8956741  [d][2Pi][i0]/{4Pi][a0]}                           Tsla
+  1.9160166  [aa][d][Ke]                                   fradHnry
-  1.9278471  [aa][phi]
+  1.9281508  [v0]/[RK]                    Metrohmmscnd=FradMetrs2nd
-  1.9739706  2/([RK][aa])                             ohmm=Fradscnd
+  1.9911094  {[H0]^2}{[a0]^2}                                  A2pr
-  1.9998999  [4Pi][PM][PL]/{[Fg]/[Fe]}                     KgrmMetr
     = [4Pi][Me][a0][aa][Fe]/[Fg]
-  2.0528513  [k][10^9]                                     Fradmetr
+  2.0534524  [36][Pi]
-  2.0752496  {[4Pi][aa]}^2
+  2.0947647  [i0]/{[aa]^2}                                     Ampr
---------------------------------++---------------------------------
-  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
     = [E0][c][k]/[H0] = [E0]/{[H0][d][c]} = [E0][c][d][k]/[B0]
     = [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
-  2.1368347  [PQ][PL]/{[PM][PT]} = [aBh]/[PB]  [[CuulkgrmMetrscnd]]
     = {[c^4][k][PL]/[PM]}^.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
+  2.2750006  [E0]/{2[aa][H0]}                                  Ohmm
-  2.2291809  [k]{[RK]^2} = 1/{[v0][G0]}   FradmetrO2mm=metrOhmmScnd
-  2.3071190  [Bk]/{[a0]^2}                             degkJuulm2tr
+  2.3149779  [Bm]/[um]
+  2.3154812  [ue]/[um]
-  2.3154839  [Me]/[Mm]
+  2.3329546  [Pi]/{2[aa]}
-  2.3458223  [aa]/[phi]
-  2.3570328  [Fg][FBH]                                         N2tn
+  2.3589104  [Fe][G]{[aa]^4}/({[B0]^2}{[A0]^2})        k2rmN2tnt2la
-  2.3762796  8{[Pi][aa]}^2
-  2.3977765  alpha particle molar mass                     Kgrmmool
+  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
-  2.5206406  triton molar mass                             Kgrmmool
-  2.5207224  helion molar mass                             Kgrmmool
+  2.5301997  Archimedes' integer-base N (via Gresky) B564
-  2.5379358  Wien wavelength displacement law constant     DegkMetr
-  2.5723995  16[Pi]{[aa]^2}
+  2.5760306  [z0] = 2[aa][h]/([Q0]^2)        Ohmm=Hnryscnd=amprVltt
     = [E0]/{[aa][H0]} = [d][E0]/{[aa][B0]} = 4[aa]/[G0]    f12dH12y
     = 4[w0][aa]/[Q0] = 4[aa]/([Jf][Q0]) = [hB]/{[PQ]^2}    cuulWebr
     = ([v0]^-1)[4Pi][aa][Ke] = 1/{[c][k]} = 2[RK][aa]      fradScnd
     = [Pw0][4Pi][aa]/{[i0]^2} = [d][c] = ([d]/[k])^.5  c2ulJuulScnd
*35* = ([a0]^-1)([2af]^-1)[4Pi][aa][Ke]        = impedance of vacuum
+  2.5760306  [G][c]/{[aa]^2}                       k2rmM3trNwtnscnd
+  2.5760307  [z0][PC][PL]/{[PM][aa]}  AmprkgrmMetrOhmm=kgrmMetrVltt
-  2.6135770  [PL]/{[Me][aa]} = [a0]/[PM]                   kgrmMetr
-  2.6339846  [aa]/[Pi]
+  2.6448328  [B0][d]/{[4Pi]([aa]^2)}                   HnrymetrTsla
-  2.6456717  {[PM][v0]}^2 = {[Pp]^2}{[aa]^2}           K2rmM2trs2nd
-  2.6456718  {[PQ]^2}[c^4]                             C2ulM4trs4nd
+  2.6656223  ([PM]^2)[c^2][aa]/([G][10^7])             HnryK3rmm2tr
-  2.6773096  {[2Pi][aa]}^2
-  2.6960369  deuteron molar mass                           Kgrmmool
-  2.7195377  Tau molar mass                                Kgrmmool
---------------------------------++---------------------------------
-  2.7263307  [d]/{[4Pi]([aa]^2)} = [Ke]/{[v0]^2}           a2prNwtn
     = [Me][a0]/{[Q0]^2} = [PL][PM]/([aa]{[Q0]^2})      c2ulKgrmMetr
     = 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]} = [B0][a0]/[i0]    MetrOhmmTslavltt
     = [B0][w0]/{[Fe][Pi]} = [d][RK]/{[z0][2Pi][aa]}
*26* = ([a0]^-2)([2af]^-2)[Ke] = [Fe]/{[i0]^2}  = [AUN permeability]
-  2.7263306  {[d]^2}/{[G][4Pi]}   a4prK2rmm2trNwtn=H2ryK2rmm4trnwtn
---------------------------------++---------------------------------
+  2.7684008  [QeM]/[c]                             CuulkgrmmetrScnd
+  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]
-  2.8734295  8[Pi]{[aa]^2}
+  2.8803154  [aa][PM]{[v0]^2}                          KgrmM2trs2nd
-  2.9333309  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 = 1/([c]{[k]^.5})             amprN12n=H12ym12r
     = [z0]{[k]^.5} = [aa]/([v0]{[k]^.5)                F12dm12rOhmm
     = [aa]/([a0][2af]{[k]^.5})                         f12dm12rScnd
-  2.9503951  {[G]^.5}/[aa]                             k12mM32rscnd
+  2.9536414  ([Ke]^2)/[c^2] = ([Ke]^2)([aa]^2)/([v0]^2)    fradHnry
     = [Ke][d]/[4Pi] = [d]/([4Pi]^2}[k])                    f2adS2nd
-  2.9783396  2{[Pi][aa]}^2
+  2.9826875  [ue]/[un]
+  2.9826875  [ue]/[un] = [Gye]/[Gyn]
-  2.9962531  neutron molar mass                            Kgrmmool
-  2.9968513  proton molar mass                             Kgrmmool
-  3.0000000  molar mass constant                           Kgrmmool
+  3.0256617  [4Pi]{[a0]^3}{[2af]^2}/3                      M3trs2nd
-  3.0527948  [Hu]/[Re]                                     Hrtzmetr
-  3.0695494  16{[aa]^2}
+  3.0760772  [v0][Me]/[Mp]
-  3.0991099  [PM][PL]/{[Fg]/[Fe]} = [Me][a0][aa][Fe]/[Fg]  KgrmMetr
+  3.1311345  {[Pi]^2}/[aa]
-  3.1382330  2[cQ] = [h]/[Me]                              M2trscnd
-  3.1477273  [Me][2af]/[a0]                            Kgrmmetrscnd
---------------------------------++---------------------------------
-  3.1744594  [4Pi]{[aa]^2} = [d]{[v0]^2}/[Ke] = {[i0]^2}[d]/[Fe]
     = {[Q0]^2}[d]/{[a0][Me]} = {[Q0]^2}{[2af]^2}[d]/[Fe]
     = {[a0]^2}{[2af]^2}[d]/[Ke] = {[a0]^2}{[2af]^2}[d][k][4Pi]
-  3.1744595   [G][c^2]{[4Pi][k]}                   FradkgrmM4trs4nd
             = [G][c^2][AUN permittivity]       Fradk2rmM3trNwtns2nd
      = ([G]/{[aa]^2})/[AUN permeability]               A2prk2rmM2tr
      = [G][4Pi]{[aa]^2}/([d]{[aa]^2})              C2ulk2rmM2trs2nd
      = [G][4Pi]/[d] = [G][10^7][hnryMetr]          hnrykgrmM4trs2nd
-  3.1744593  {[Q0]^2}[c]/{[PQ][PM]}            [[CuulkgrmMetrscnd]]
---------------------------------++---------------------------------
-  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]      = [Rp]/{[a0][2Pi][aa]}
     = [Nm]/[Bm] = [Rp]/[Cw] = [Rp][aa]/{[Re][2Pi]}
     = [Nm][Gye]/{[ue][QeM]  = [Nm][Electron g-factor]/{2[ue]}
+  3.2644121  [ue]/[Nm]
-  3.2645070  [Me]/[Mn]
-  3.2793696  {[Pi][aa]}^2
-  3.3126253  [G0][2Pi]                                         Smns
-  3.3201846  {[i0]^2]/{[4Pi][aa]}                              A2pr
-  3.3312093  [ud]/[ue]
-  3.3705794  8{[aa]^2}
+  3.3742105  [2Pi][z0]                                         Ohmm
+  3.3895910  [aa]/{[k]^.5}  = [v0]{[d]^.5}                 f12dM12r
+  3.3895910  [c]{[G]^.5} =[PC][PL]/([PM]{[k]^.5})  Cuulf12dkgrmM32r
     ={[c^4][PL]/[PM]}^.5 =[PQ][PL]/([PM][PT]{[k]^.5})  k12mM52rs2nd
-  3.3900294  [k]/[PM]                                  Fradkgrmmetr
-  3.3952776  {[G]^2}[c^2] = {[PL]^8}{[Pf]^6}/{[PM]^2}  k2rmM8trs6nd
-  3.3952775  ([z0]{[aa]^2})^2 = {[aa]^4}[d]/[k]       f2adS2nd=O2mm
     =   {[aa][E0]/[H0]}^2 = {[aa][d][E0]/[B0]}^2           a2prV2tt
-  3.4063289  [Bk]/([4Pi]{[a0]^2})                      degkJuulm2tr
+  3.4305057  [Mp]/[V0]                                     Kgrmm3tr
-  3.4367245  [Nm]/[Bk]                                     Degktsla
-  3.4392630  [cQ] = [h]/(2[Me])= [A0][2af]/4               M2trscnd
*27* = ([a0]^2)[2af][Pi]                  = [Quantum of circulation]
-  3.4754895  [2Pi]{[aa]^2}
+  3.5295152  [He][2af]/([aa]^2) = [Pw0]/([aa]^2)               Waat
+  3.5370746  8[Pi]/[aa]
-  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]
-  3.5693160  {[Hu][f0]}^2                                      H4tz
+  3.5928030  ([Re]/[Me])/([Rp]/[Mp])
+  3.6000333  ([Me]^2)[c^3]/{[hB]([aa]^2)} = [Fe]/{[aa]^5}      Nwtn
     = [Me][c^2]/([Re][aa]) = [G]/([Gresky's mu sub b]^2) B138 B567
     = {[Me]^2}[c^3]/({[aa]^2}[hB]) = [Gresky's F sub g] B567
+  3.6047224  {[4Pi]^2}{[aa]^4}[Ke]                         fradMetr
+  3.6136553  [RK]/[2Pi] = [Pw0]/{[i0]^2} = [z0]/{[4Pi][aa]}    Ohmm
     = [E0]/([H0][4Pi]{[aa]^2}) = [E0]/[29H]       a2prWaat=amprVltt
     = 1/{[4Pi][k][aa][c]} = 1/{[G0][Pi]}  fradScnd=MetrnwtnTslaVltt
*35* = ([a0]^-1)([2af]^-1)[Ke]       = [von Klitzing constant]/[2Pi]
-  3.6353828  [h]/([Pi][Me]) = [4Pi]([a0]^2)[f0]            M2trscnd
-  3.6716094  4{[aa]^2}
+  3.7648322  ([PM]^2)[c^2][aa][4Pi]/([G][10^7])        HnryK3rmm2tr
-  3.7765195  [Pi]{[aa]^2}
-  3.8202314  [Fe]/([Me]/[Mp])                                  Nwtn
-  3.8314110  [PM]^[.5]                                         K12m
+  3.8381046  16[Pi]/[aa]
-  3.8556942  {[aa]^2}{[phi]^2}
-  3.8629836  [Me]/[Ma]
-  3.9364128  [cQ]/[Pi] = ([a0]^2)[2af] = [a0][v0]          M2trscnd
     = [A0][2af]/[4Pi] =[aa]{([A0]/[d])^.5}([Ke]^.5) = [u0]/[Q0]
*27* = ([a0]^2)([2Pi][f0])           = [Quantum of circulation]/[Pi]
-  3.9452762  Muon molar mass                               Kgrmmool
-  3.9726394  2{[aa]^2}
-  4.0528513  1/([Ke][d]) = [4Pi][k]/[d]                    Fradhnry
-  4.0646272  [Bk]/[Q0]                                 cuuldegkJuul
-  4.0646818  {[aa]^2}[phi]
-  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])
+  4.2031513  [G][c]/[d]       A2prk2rmM3trscnd=hnryk2rmM4trNwtnscnd
+  4.2031513  [v0][aa] = [E0][aa]/[B0]         metrtslaVltt=Metrscnd
-  4.2374429  [cQ]/[2Pi]                                    M2trscnd
+  4.2452215  [QeM][d]/[4Pi]                        CuulHnrykgrmmetr
-  4.2469372  [p0]/[A0]                                 Kgrmmetrscnd
+  4.2505914  [Dp]/[DQ] = [Mp]{[Re]^3}/([Me]{[Rp]^3})
-  4.2611053  [d]/([aa][Pi])                       a2prNwtn=Hnrymetr
-  4.2727925  {[PM]^2}/[k]                              fradK2rmMetr
---------------------------------++---------------------------------
-  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] = [G][c^2][k]             Fradk2rmM3trNwtns2nd
     = {[PC]^2}{[PL]^2}/{[PM]^2}       hnrykgrmM4trs2nd=A2prk2rmM2tr
     = ([PQ][PL]/{[PM][PT]})^2 = {[aBh]/[PB]}^2         M2trs4ndt2la
     = ({[PQ]/[PM]}^4)[PM]/{[PL][k]} = [c^4][PL][k]/[PM]
     = ({[PQ]/[PM]}^2)[c^2]                     [[C2ulk2rmM2trs2nd]]
---------------------------------++---------------------------------
+  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]
+  4.4118184  [Q0]/({[4Pi]/3}{[a0]^3}[10^7])                Cuulm3tr
*15*? = [Q0]/([V0][10^7])    = [AUN charge density]{3/([4Pi][10^7])}
+  4.4118184  [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
         Note: 10^(-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] = 2[w0]/[Q0]    fradScnd
     = ([d]/[k])^.5)/(2[aa]) = [d][c]/(2[aa])      f12dH12y=Hnryscnd
     = 2/([Jf][Q0]) = 1/(2[aa][c][k])              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
-  4.4826570  {[aa]^2}/[phi]
-  4.5901683  proton magnetic shielding correction
-  4.6025636  [Rp]/[a0]
-  4.6079551  [G0]/[Pi]                                         Smns
-  4.6805671  [Me]{[v0]^4}                              KgrmM4trs4nd
-  4.7128653  [Q0]/(4[w0]) = [v0][k]          ohmm=Fradscnd=Cuulwebr
     = [G0][Pi] = 1/{2[RK]} = [aa]/[z0] = {[Q0]^2}/{[4Pi][hB]}
-  4.7552237  [Pw0][Bk]/[He]                                degkscnd
-  4.7708192  ([aa]^2)/[Pi]
+  4.7816675  [B0][d]/{[4Pi]([aa]^3)}                   HnrymetrTsla
-  4.8631653  [d]/([4Pi][aa])                      a2prNwtn=Hnrymetr
     = [PL][PM]/{[Q0]^2}                                c2ulKgrmMetr
-  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
+  4.9651049  [Q0][i0]/{[PQ][PM]                            Amprkgrm
-  4.9763173  ([ue]/[Bm])/([Ke]^.5)                         F12dm12r
+  4.9768207  [Ke]^.5 = [c]{[d]/[4Pi]}^.5      f12dM12r=H12yM32rscnd
-  4.9840129  [4Pi][Q0]/{[Me][PM][PC]}   k2rmScnd = amprCuulk2rmScnd
+  4.9844613  [An][Q0] = Faraday constant                   Cuulmool
+  5.0057166  Standard atmosphere                      Pscl=m2trNwtn
+  5.0171501  [PM]{[v0]^2}                         Juul=KgrmM2trs2nd
+  5.0339071  [10^-7][Q0]/{[a0]^3}                          Cuulm3tr
+  5.0601018  Gresky's universal constant : Earth circular angular
     velocity over rate of nutation of precessing pole B575 p 21
+  5.0718492  [2Pi]/{[aa]^2}
-  5.0872297  [G]^.5                                    k12mM32rscnd
-  5.1381994  [a0]^.5                                           M12r
+  5.1511843  [G]/{[PM]^2}                              k4rmM2trNwtn
+  5.1520611  [z0]^2 = [d^2][c^2] = [d]/[k]    ?5D?    O2mm=fradHnry
+  5.2100151  [RK][2Pi]                                         Ohmm
-  5.2483355  [Fe]/{2[aa]}                                      Nwtn
-  5.2570538  [Bk]/[Hu]                                 degkJuulScnd
+  5.2679692  {[Pi]/[aa]}^2
-  5.3112942  [4Pi]{[aa]^3} = [aa][4Pi]{[aa]^2}
-  5.3112942  [Q0][i0][a0]/{[PQ][PM]}                   AmprkgrmMetr
     = {[Q0]^2}[v0]/{[PQ][PM]}                      CuulkgrmMetrscnd
-  5.3420868  [aa]^[2.5] = ({[Fe]/[Gresky's F sub g]}^.5)
-  5.3420868  {[v0]^2}({[Me][a0][k]}^.5)/[PM]   [[CuulkgrmMetrscnd]]
+  5.3711635  [B0] = [hB]/{[Q0]([a0]^2)}                f12dK12mmetr
     = [i0][d]/{[4Pi][Re]}                         cuulKgrmscnd=Tsla
*21* = ([Me]^.5)([a0]^-1.5){[Ke]^.5)     = AUN magnetic flux density
-  5.3728792  ([aa]^2)/[4Pi]
-  5.4007435  [Me][aa]/[Mp]
+  5.4375368  {[Q0]^2}/({[4Pi]/3}{[Re]^3})                  C2ulm3tr
+  5.4739706  [Pi]([Ke]^.5)                                 f12dM12r
+  5.4993778  [He]/[Bk] = [Me]{[v0]^2}/[Bk] = AUN temperature?  Degk
-  5.5259872  [PM]/[aa]                                         Kgrm
-  5.5259873  ({[PM]^3}/{[c^4][PL][k]})^.5          f12dK32mm2trS2nd
-  5.5259871  [PC][PL]/{[aa]^2}                             AmprMetr
-  5.5264257  [k]^.5                                        F12dm12r
+  5.5418061  [a0][f0]                                      Metrscnd
+  5.5689992  2{[Pi]/[aa]}^2
+  5.6739093  8[Pi]/{[aa]^2}
+  5.6799721  [Ke]([aa]^2)                                  fradMetr
-  5.7084199  [QeM]/[c^2]                           Cuulkgrmm2trS2nd
+  5.7458437  [QeM][Bk]/[He]                            Cuuldegkkgrm
+  5.7504901  [z0]/({[4Pi]{[aa]^2})                             Ohmm
-  5.7884154  [4Pi]([aa]^3)/3
+  5.8541813  [G]{[Mp]^2}/{[PL]^2}                              Nwtn
+  5.8706868  ([2Pi]/[aa])/[mma]
-  5.9007902  [G]/{[aa]^2}                 kgrmM3trs2nd=k2rmM2trNwtn
-  5.9007901  [d] = 1/([c^2][k]) = {[z0]^2}[k]     a2prNwtn=Hnrymetr
     = 4[B0][w0]{[aa]^2}/[Fe]  = [z0]/[c]  nwtnTslaWebr=M2trnwtnT2la
     = [Fe][4Pi]{[aa]^2]/{[i0]^2}          metrOhmmScnd=FradmetrO2mm
     = [4Pi]([aa]^2)[Ke]/([v0]^2) = [FBH]/{[PC]^2}      fradmetrS2nd
*26* = ([a0]^-2)([2af]^-2)[4Pi]([aa]^2)[Ke]    = [Magnetic constant]
-  5.9007901  [PQ]/([k][c][PM][aa])                 CuulfradkgrmScnd
-  5.9016670  {[Pp]^2}/{[aa]^2} = {[PM][c]^2}/{[aa]^2}  K2rmM2trs2nd
     = [PE][PM]/{[aa]^2} = [c^3][hB]/([G]{[aa]^2})          JuulKgrm
     = [PM][hB][c]/([PL]{[aa]^2})           C2ulfradK2rmMetrnwtns2nd
     = [PM][c^2][d]{[Q0]^2}/([PL][4Pi]{[aa]^3})     C2ulHnryKgrms2nd
     = [Ke][c^2]{[Q0]^2}/([G]{[aa]^3})                  A2prHnryKgrm
-  5.9016670  [G][k]/{[PM]^2}                       Fradk4rmMetrNwtn
-  5.9133542  [Pi]{[aa]^3}
+  5.9749393  16[Pi]/{[aa]^2}
+  6.0596254  {[Q0]^2}/{[Re]^3})                            C2ulm3tr
-  6.0732475  [hB][aa]/[Me] = [c][Re]          JuulkgrmScnd=M2trscnd
+  6.0760306  [4Pi]{[Ke]^.5}                                f12dM12r
+  6.0822738  {[Gye]/[Gyp]}{[Mp]/[Me]}
+  6.1710592  8{[Pi][aa]}^2
+  6.1959366  [PC][Q0]                                          C2ul
+  6.2117717  [E0][Bk]/[He]                             degkmetrVltt
-  6.2435319  [Bk][2af] = [Pw0]/(AUN temperature)           degkWaat
+  6.2471946  {[Gye]/[Gyn]}{[Mn]/[Me]}
-  6.2476399  2[aa]/[RK] = [aa][G0]                             Smns
-  6.2607601  [An][Me]                         (molecules)(Kgrmmool)
+  6.2622690  {[Pi]^4}/{[aa]^2}
+  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] = [E0]/[B0]    CuulfradMetrwebr
     = [2af]/{[Jf][Pi][a0][B0]}            metrtslaVltt=fradMetrSmns
*5*  = [a0][2af] = [a0]{2[Pi][f0]} = [Jf][Q0][Ke][Pi] = AUN velocity
+  6.3399860  [PM]{[aa]^2}/[PQ]                             cuulKgrm
+  6.3399860  [c^2][PQ]/[PM] = [G][PQ/[PL]          CuulkgrmM2trs2nd
+  6.3399860  [G][c]/{[d][aa]} A2prk2rmM3trscnd=hnryk2rmM4trNwtnscnd
-  6.3489188  {[4Pi]^2}{[aa]^4}
-  6.4105040  [aa]^3 = [2af][Re]/[c] = [Fe][Mp][2af]/{[Fg][PM][Pf]}
     = [Fe]{[PM]^2}/([FBH]{[Me]^2}) = {[a0]^2}[Fge]/({[PL]^2}[Fe])
     = {[PL]^2}[Mp][Fe]/({[a0]^2}[Me][Fg])
-  6.4383683  [4Pi]{[aa]^2}[Me]/[Mp]
+  6.4562413  4[G]{[Mp]^2}/{[PL]^2}                             Nwtn
+  6.4720892  {[4Pi][aa]}^2
+  6.5065829  [p0]/[V0]                                 Kgrmm2trscnd
+  6.5278176  {[Mp]/[Me]}^2
+  6.5500117  [k]/[Hu]                                  FradmetrScnd
-  6.7001949  ([Mp][h][c][aa]/{[Me][G]})^.5                     Kgrm
     = Baggiolini's pondus B272
+  6.7147888  {[PQ]^2}[Pf] = [PE]/[z0]             C2ulscnd=Juulohmm
+  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]
     = {[Q0]^2}[d]/{[4Pi][k][Me][a0]}           C2ulfradkgrmHnrymetr
     = {[aa]^2}[Q0][RK][Ke][Jf][2Pi] = [aa][E0][c]/[H0]     fradMetr
     = [aa][Q0][d][c]/([4Pi][k][B0]{[a0]^2}) = [d]{[He][a0]/[hB]}^2
     = [aa][Q0][d][c][Ke][Jf][Pi] = [aa][Q0][Z0][Ke][Jf][Pi]
+  6.7791820  [G][c^2] = [c^4][PL]/[PM]             k2rmM4trNwtns2nd
     = {[PC]^2}{[PL]^2}/([k]{[PM]^2})               C2ulfradkgrmM3tr
     = {[PQ]^2}{[PL]^2}/({[PM]^2}{[PT]^2}[k])           kgrmM5trs4nd
---------------------------------++---------------------------------
-  6.7800588  {[k]^2}/{[PM]^2}                          F2adk2rmm2tr
+  6.8394489  {[aa]^4}[QeM][a0][2af]/{[4Pi]^2}  [[CuulkgrmMetrscnd]]
+  6.8821028  [Nm]/[h]                                      scndtsla
-  6.8872463  {[G][hB]{[aa]^2}/({[Me]^2}[c^3])}^.5          kgrmMetr
     = {[G][Re][aa]/([Me][c^2])}^.5  = [Re]/[PM]
     = ({[a0]^2}{[aa]^4}/{[PM]^2})^.5
     = [Gresky's mu sub b] B138 B567 B575 p 23
+  6.9076540  [Pi]/{[aa]^3}
-  6.9105506  [G]/{[Me]/[Mp]}                           kgrmM3trs2nd
+  7.0000000  [4Pi]/[d] = [c^2]/[Ke] = [c^2]{[4Pi][k]}  FradMetrs2nd
     = [i0]/([B0][a0]{[aa]^2}) = [4Pi]/({[z0]^2}[k])    Amprmetrtsla
     = {[PQ]^2}[4Pi]/{[PL][PM]} = [4Pi]{[PC]^2}/[FBH]       A2prnwtn
     = {[Q0]^2}/{[PM][PL][aa]}    fradMetro2mm=C2ulkgrmmetr=hnryMetr
     = {[Q0]^2}/([Me][a0]{[aa]}^2) = [Fe][Pi]/([B0][w0]{[aa]^2})
+  7.0000000  [4Pi]{[aa]^2}/[G]                         K2rmm2trnwtn
-  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 p 735
-  7.0124901  [a0][Mp]/[Me]                                     Metr
+  7.0403543  [Rc] = [Me][c]([aa]^2)/(2[h]) = [aa]/([4Pi][a0])  metr
     = Rydberg constant = [d^2][Me]{[Q0]^4}[c^3]/(8{[h]^3})
     = [hB]/([c][4Pi][Me]{[a0]^2}) = {[aa]^2}/{2[Cw]}
     = [Me]([Q0]^4)/(8{[k]^2}{[h]^3}[c]) B028 p 537
=================================++=================================
-  7.0841400         [G]{[i0]^2}/({[aa]^4}[4Pi])    A2prk2rmM2trNwtn
     =      {[2af]^2}[G]{[Q0]^2}/({[aa]^4}[4Pi])
     =       {[v0]^2}[G]{[Q0]^2}/({[Re]^2}[4Pi])
     =       {[aa]^2}[G]{[Q0]^2}/({[Re]^2}[4Pi][d][k])
     =           [A0][G]{[B0]^2}/({[d]^2})
     =           [A0][G]{[H0]^2}

-  7.0841401 [Fe] = [Ke]{[Q0]^2}/({[a0]^2}         C2ulfradmetr=Nwtn
     =                  {[i0]^2}/({[v0]^2}[4Pi][k]) A2prfradmetrS2nd
     =               [d]{[i0]^2}/({[aa]^2}[4Pi])        A2prHnrymetr
     =              [RK]{[i0]^2}/({[aa][c][2Pi])    A2prOhmmmetrScnd
     =         4{[aa]^2}{[w0]^2}/({[a0]^2}{[d][Pi]})    hnryMetrW2br
     =      [A0]{[aa]^2}{[H0]^2}/({[c^2]}[k])       A2prfradmetrS2nd
     =      [A0]{[aa]^2}{[B0]^2}/[d]                    hnryM3trT2la
     =          {[a0]^2}{[E0]^2}/[Ke]          FradmetrV2tt=M2trPscl
     =             [E0][Me][2af]/[B0]           CuulKgrmmetrscndtsla
     =       [Q0][v0][B0] = [He]/[a0]      CuulMetrscndTsla=Juulmetr
     =       [i0][a0][B0] = [Q0][E0]       CuulmetrVltt=AmprMetrTsla
*8*  =  [Me][a0]{[2af]^2} = AUN force  fradhnryKgrmMetr=KgrmMetrs2nd
=================================++=================================
+  7.1539848  [PQ][c^3}                                 CuulM3trs3nd
+  7.1539848  [aa][PE] = [aa][hB][Pf]                           Juul
+  7.1539848  {[aa]^2}{[PM]^1.5}/({[PL]^.5}{[k]^.5})        f12dK32m
-  7.1594701  [PC]/[PK]                                     Amprdegk
+  7.1805942  {[v0]^2}[Bk]/[He]                         degkM2trs2nd
+  7.2273108  {[E0]^}/{[29H]^2} = {[RK]/[2Pi]}^2   a2prV2tt=f2adS2nd
     = {[E0]^2}/({[H0]^2}[4Pi]{[aa]^2}) = {[Ke]^2}/{[v0]^2}     O2mm
-  7.2463884  Stefan Boltzmann constant                 d4gKm2trWaat
     = {[Pi]^2}{[Bk]^4}/(60{[hB]^3}[c^2])
-  7.2833297  [a0][aa]{[Q0]^2}{[v0]^2}/[Me]         C2ulkgrmM3trs2nd
-  7.3264641  [Hu]/[a0]                                     Hrtzmetr
+  7.3471913  3[Bk]/([4Pi]{[a0]^3})                     degkJuulm3tr
-  7.3639886  {[PL]/[PM]}/{[Me]/[a0]}
-  7.3834713  {[Q0]^2}/[V0]                                 C2ulm3tr
+  7.4084034  [c]{[aa]^.5}                                  Metrscnd
+  7.4284035  [G]/[Hu]                              k2rmM2trNwtnScnd
-  7.4481286  {[Q0]^2}[PL][v0]/{[Me][[PQ][a0]}  [[CuulkgrmMetrscnd]]
-  7.4481289  [4Pi]{[aa]^4}
+  7.4988066  =  31536000 seconds in one year        [Second]/[Year]
+  7.5079982  [B0]/[aa]                                         Tsla
+  7.5110019  [Shielded helion gyromagnetic ratio]/[2Pi]    Hrtztsla
+  7.5287877  {[PM]^2}[c^4][k]                      FradK2rmM3trS4nd
-  7.5375781  ([aa]^2)/({Mp]/[Me])
-  7.5500682  ([Q0]^2)/[Me] = [4Pi]{[aa]^2}[a0]/[d]         C2ulkgrm
     = [i0]/[B0] = [Re][4Pi]/[d]                   Amprtsla=hnryM2tr
-  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]} = [PE]/[c^2] = [PE][d][k]
-  7.6628219  [PC][PL]/[aa] = [PQ][c]/[aa]              CuulMetrscnd
     = [PQ]/{[aa][c][d][k]}                     CuulfradhnryMetrScnd
-  7.6628219  [c^4][PL][k]/{[aa]^2}                     FradM4trs4nd
-  7.6782825  [i0][Bk]/[He]                                 Amprdegk
+  7.6786408  [c]/[2Pi]                                     Metrscnd
-  7.7424384  [Q0]/[k]                                  CuulfradMetr
+  7.8168067  [Ke][aa]                                      fradMetr
+  7.9386588  {[aa]^4}[QeM][a0][2af]/[4Pi]      [[CuulkgrmMetrscnd]]
+  7.9692799  [Bk]/{[a0]^3}                             degkJuulm3tr
+  7.9813126  [Q0]/[Mp]                                     Cuulkgrm
-  8.0376248  [d][aa]                                       Hnrymetr
-  8.0376248  ([PL]/{[PM][k]})^.5                       f12dk12mMetr
-  8.0376248  [G]/[aa]                                  k2rmM2trNwtn
-  8.0501889  [Pi]{[aa]^4}
+  8.0707620  [4Pi]{[aa]^2}[QeM]                            Cuulkgrm
+  8.0974942  [29H] = [H0][4Pi]([aa]^2) =[i0]/[a0]  FradMetrTslas2nd
     = [4Pi]([aa]^2)([B0]/[d]) = [Fe]/([B0]{[a0]^2})    hnryMetrTsla
     = [2Pi][a0][Eg0]/[RK] = [B0]([aa]^2)/([d][k][Ke]   metrohmmVltt
     = [B0]([v0]^2)/[Ke] =[AUN magnetic field strength][4Pi]([aa]^2)
*29* = ([Me]^.5)([a0]^.5)([2af]^2)/([Ke]^.5)   Amprmetr=m2trNwtntsla
+  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
+  8.3991037  {[Pi]^4}/{[aa]^3}
+  8.4063026  {[v0]^2}{[aa]^2}                              M2trs2nd
+  8.4273487  Shielded gyromagnetic ratio of proton         scndtsla
+  8.4273598  [Gyp] = (2[up]/[hB])                          scndtsla
+  8.4515075  [Me]/{[PM]([a0]^3)}                               m3tr
+  8.4768207  [PM][aa]/[PQ]                                 cuulKgrm
     = [aa]/({[G][k]}^.5)                           f12dK12mmetrScnd
+  8.4768207  [c] = [v0]/[aa] = [PL][Pf] = 1/{2[aa][RK][k]} Metrscnd
     = [z0]/[d] = 1/{[k][z0]} = {1/([k][d])}^.5 = {[G][PM]/[PL]}^.5
     = [hB]/{[PM][PL]} = 1/{[c][d][k]} = [Rp]/[Tp]  fradhnryMetrScnd
     = [f0]/(2[Rc]) = [E0]/{[aa][B0]}     = speed of light in vacuum
*5*  = [a0][2af]/[aa] = [aa][H0]/{[k][E0]}     = [AUN velocity]/[aa]
+  8.4768207  {[aa]^2}/{[G][c][k]}                  fradKgrmm3trS3nd
     = [PM]{[aa]^2}/({[PL]^4}{[Pf^3}[k]) = [E0][aa]/{[H0][G]}
-  8.5188908  [Q0]/[a0]                                     Cuulmetr
+  8.5456230  [B0]/([4Pi]{[aa]^2}) = [H0][d]/([4Pi]{[aa]^2})    Tsla
-  8.5473387  [aa]^4
-  8.5780997  4[G]{[Pi]^2}                              k2rmM2trNwtn
-  8.6738373  [4Pi]{[aa]^2}[Bk]/[He]                            degk
-  8.7312393  [PM]([aa]^.5) = [Q0]{([d][PM]/{[PL][4Pi]})^.5}    Kgrm
-  8.7312392  [Q0][c]/({[4Pi]^.5}[aa])                  CuulMetrscnd
+  8.7778507  2[c]                                          Metrscnd
+  8.8236368  {[Q0]/({[4Pi]/3}{[a0]^3}[10^7])}^2            C2ulm6tr
      = {[Q0]^2}/({[V0]^2}[10^14])
+  8.8236368  {[Q0]^2}{[d]^2}/({[V0]^2}{[4Pi]^2})       C2ulH2rym8tr
      = {[Q0]^2}{[Ke]^2}/([c^4]{[V0]^2})            C2ulf2adm8trS4nd
      = (3[Q0]{[B0]^2}/{[4Pi][c^2][Me]})^2      C2ulk2rmm4trS4ndT4la
      = (3[k][RK][B0]{[aa]^2}/{[2Pi][a0]})^2        F2adm4trO2mmT2la
+  8.8236706 {[RK]^2} = ([h]/{[Q0]^2})^2 = ([z0]/{2[aa]})^2     O2mm
      = 1/(4{[v0]^2}{[k]^2}) = 4 {[w0]^2}/{[Q0]^2}          f2adS2nd
      = [d]/(4[k]{[aa]^2}) = ([d][c]/{2[aa]})^2    fradHnry=H2rys2nd
      = (2/{[Jf][Q0]})^2 = 1/(4{[aa]^2}[c^2]{[k]^2})        a2prV2tt
      = {[E0]/(2{[aa]^2}[H0])}^2 = {[d][E0]/(2{[aa]^2}[B0])}^2
+  8.4117879  {[aa]^2}[G]/[Bk]                  Degkjuulk2rmM2trNwtn
-  8.8416482  [Q0][Ke] = [Q0]/{[4Pi][k]}                CuulfradMetr
-  8.8438090  {[Pi]^8}{[aa]^6}
+  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
+  9.0378687  {[aa]^4}[QeM][a0][2af]            [[CuulkgrmMetrscnd]]
+  9.0444887  [Pi]/{[aa]^4}
-  9.0752495  [PL][4Pi]/{[k][d][PM]} = [G][4Pi]         M3trkgrms2nd
-  9.0752495  [d][4Pi]{[aa]^2}                              Hnrymetr
+  9.1083868  [QeM][aa]                                     Cuulkgrm
-  9.1368347  [aa][d]/[4Pi] = [aa]/[10^7]                   Hnrymetr
-  9.1801597 [4Pi]{[aa]^4}/{({[Jf][v0]}^2)[Me][a0]} kgrmm3trs4ndV2tt
-  9.2209748  [Fe][aa]                                          Nwtn
+  9.2750006  [2Pi][c]                                      Metrscnd
+  9.2908195  [PE] = [PM][c^2] = Planck energy                  Juul
     = {[PQ]^2}/{[k][PL]} = {[PC]^2}[PT][z0]   C2ulfrad=A2prOhmmScnd
+  9.3075763  [RK][B0]/([2Pi][a0]{[Ke]})            Fradm2trOhmmTsla
     = [Q0][Ke]/{[v0]^2}{[a0]^3})                   Cuulfradm4trS2nd
-  9.3762796  [2Pi][G]                                  k2rmM2trNwtn
-  9.3989931  [An][h] = Molar planck constant           JuulmoolScnd
+  9.4160633  [He]/[Mp] = {[v0]^2}[Me]/[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
+  9.5452381  [c]/{[aa]^.5}                                 Metrscnd
+  9.5452381  ([PM]/{[PL][k]})^.25                          f14dK14m
+  9.5452380  ([aa]/{[G][k]})^.5           f12dK12mmetrScnd=cuulKgrm
-  9.5455897  [Mt][c^2]                                         Juul
-  9.5849634  {[Q0]^2}{[v0]^2}/{[PM]^2}             C2ulk2rmM2trs2nd
+  9.6448329  [B0]/{[aa]^2}                                     Tsla
-  9.7792490  [a0][Pi]                                          Metr
-  9.7996566  [PM][aa] = [Me][a0]{[aa]^2}/[PL]                  Kgrm
     = {[Q0]^2}[d]/{[4Pi][PL]}                          C2ulHnrym2tr
-  9.7996566  [PM][aa] = [Me][a0]{[aa]^2}/[PL]                  Kgrm
     = {[Q0]^2}[d]/{[4Pi][PL]}                          C2ulHnrym2tr
-  9.7996565  [PC][PL] = [PQ][c]               CuulMetrscnd=AmprMetr
     = [FPC]/[PB] = [FBH]/[PB]                              Nwtntsla
-  9.7996565  [c^4][PL][k]/[aa]                         FradM4trs4nd
-  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
-  9.9400411  [Hu]/[PM]                                     Hrtzkgrm
-  9.9527643  {[Q0]^2}[c^2]/{[aa]^5}                    C2ulM2trs2nd
+  9.9536414  [Ke] = 1/([4Pi][k]) =[a0][B0]/([Me][Jf][Pi])  fradMetr
     = [d]{[v0]^2}/([4Pi]{[aa]^2}) = [z0]{[v0]^2}/([c][4Pi]{[aa]^2})
*0*  = [v0][RK]/[2Pi] = [c^2][d]/[4Pi]        = 1/[AUN permittivity]
-  9.9999935  Angstrom star                                     Metr
- 10.0340748  ([Q0]^2)[Ke]/[Hu]        C2ulfradMetrScnd=KgrmM3trscnd
- 10.0640504  ([G]^.5)/([Ke]^.5)           F12dk12mMetrscnd=Cuulkgrm
     = [PX]/[PM]
+ 10.1370786  [4Pi]{[aa]^4}[QeM][a0][2af]       [[CuulkgrmMetrscnd]]
+ 10.1460116  [Bm]/[h]                                      scndtsla
+ 10.1689741  [Bk][k][PE]/[PL]                      degkFradJ2ulm2tr
- 10.1735826  {[PM]^2}[d]/[k]                           fradHnryK2rm
---------------------------------++---------------------------------
                        Symbol and Label Key
---------------------------------++---------------------------------
POWER OF TEN | COMMENTS, NOTES                                 UNITS
---------------------------------++---------------------------------

                  Newtonian gravitational constant:

- 10.1744595  [G] = [hB][c]/{[PM]^2} = [c^2][PL]/[PM]   k2rmM2trNwtn
     = {[PL]^3}{[Pf]^2}/[PM] = {[Pf]^2}/({[PB]^2}[k])   Juulk2rmMetr
     = {[PQ]^2}/([k]{[PM]}^2)               a2prC2ulk2rmM2trNwtns2nd
     = {[PQ]^2}[d][c^2]/{[PM]}^2)           fradh2rykgrmM3trOhmmScnd
     = [Me][a0][c^2][aa]/{[PM}^2}               Fradk2rmMetrOhmmWaat
     = {[Q0]^2}[Ke]/([aa]{[PM]^2})              A2prfradk2rmMetrS2nd
     = [Fe]([a0]^2)/{([PM]^2)[aa]}              C2ulk3rmmetrS2ndV2tt
     = ([z0]/[d])([PL]^2)[Pf]/[PM]                  fradMetrs2ndt2la
     = {[PC]^2}/({[PM]^2}{[Pf]^2}[k])               A2prk2rmnwtnW2br
     = {[a0]([v0]^2)/[Mp]}([Fg]/[Fe])               C2ulfradk2rmMetr
     = {[QeM]^2}[Ke]{[Fg]/[Fe]}{[Me]/[Mp]}          Fradk2rmMetrV2tt
     = {[Ke]/[aa]}([2af][Me]/{[B0][PM]})^2          hnryk2rmMetrW2br
     = [Ke]{[i0]^2}/({[PM]^2}{[2af]^2}[aa])
     = {([Q0]^2)[Ke]([Fg]/[Fe])}/([Me][Mp])
     = {[Q0]^2}/{({[Jf][Pi][PM]}^2)[aa][Me][a0]}
     = 4[Ke]({[Bm]/[hB]}^2)([Fg]/[Fe])([Me]/[Mp])
     = [Ke]({[2af]/[B0]}^2)([Fg]/[Fe])([Me]/[Mp])
     = [Me]([a0]^3){{[2Pi][f0])^2}/{([PM]^2)[aa]}
     = ([w0]^2)([v0]^2)/{([PM]^2)([Pi]^2)[Ke][aa]}
     = [Ke]({[Eg0]^2}/{[B0]^4})([Fg]/[Fe])([Me]/[Mp])
     = {[Gye]^2}[Ke]({[Bm]/[ue]}^2)([Fg]/[Fe])([Me]/[Mp])
     = ({[Eg0]^2}/{[B0]^4}){[Ke][Me][2af]/([PM][Pf]{[aa]^3})}
     = [B0][Fg]{([2Pi][f0])^2}([a0]^[9/2])/([Fe][Mp]{([Ke][Me])^.5})
*31* = ([Me]^-1)([a0]^3)([2af^2)([Fg]/[Fe])([Me]/[Mp])  kgrmM3trs2nd

      (Magnetic Constant) x (Fine Structure Constant Squared):

- 10.1744595 {[aa]^2}[d] =       {[aa]^2}[4Pi]/[10^7]       Hnrymetr
     =      {[aa]^2}[B0]/[H0] = {[aa]^4}[Fe][4Pi]/{[i0]^2}  a2prNwtn
     =      {[aa]^2}[4Pi][Re][B0]/[i0]                  amprM2trTsla
     = [k]{[v0][d]}^2 = [k]{[He][a0][d]/[hB]}^2         FradmetrO2mm
     = 4[k]{[aa]^4}{[RK]^2} = [k]{[z0][aa]}^2           metrOhmmScnd
     = [k]{[E0]/[H0]}^2 = {[aa]^2}/{[k][c^2]}       FradH2rymetrs2nd
     = [z0]{[aa]^2}/[c] = [d]{[E0]^2}/([c^2]{[B0]^2})   M2trnwtnT2la
     = [k]{[d]^2}{[E0]^2}/{[B0]^2} = [aa][E0]/{[H0][c]}
     = {[Q0]^2}{[d]^2}/{[4Pi][Me][a0]} = [aa][d][E0]/{[B0][c]}
     = [aa][d][Q0][Ke]/({[a0]^2}[B0][c]) = 4[B0][w0]{[aa]^4}/[Fe]
     = [Me][a0][4Pi]{[aa]^4}/{[[Q0]^2} = 4{[aa]^4}/{[v0][G0]}
     = (4{[aa]^2})/({[Jf]^2}[c^2][Me][a0][Pi])

- 10.1744595  ({[aa]^2}[PL]/[k][PM])^.5        f12dk12mMetr=kgrmWebr
     = [aa][PQ]/{[c][k][PM]}                        CuulfradkgrmScnd
     = [PQ][PT][aa]/{[k][PL][PM]}
---------------------------------++---------------------------------
- 10.1756242  June 17 2013 CODATA 2010(LSA) [G] value   k2rmM2trNwtn
  & PL: -34.7915052 Metr, PM: -7.6622393 Kgrm,  PT: -43.2683258 Scnd
---------------------------------++---------------------------------
- 10.1799448  [Bk]{[v0]^2}                          degkJuulM2trs2nd
- 10.1870236  [Pi]{[aa]^5}
+ 10.2075967  [4Pi][aa][QeM]                                Cuulkgrm
- 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)
     = ({[hB]^2}/([Me]{[Q0]^2]})/{[d][c^2]/[4Pi]}
*2*  = [a0] = ([hB]^2)/{[Ke][Me]([Q0]^2)}               = AUN length
- 10.2763989  {[PM]^2}[aa][d]/{[Me][c^2]}           HnryKgrmm3trS2nd
- 10.2763989  ({[4Pi][aa]}^.5){[PM]^2}/{[Q0][Me][Pf]}   cuulKgrmScnd
+ 10.2941983  {[i0]^2}[d]/{[a0]^2}                          m2trNwtn
+ 10.3188272  [Bk]/[h]                                      degkscnd
- 10.3480490  [Fe]/([Mp]/[Me])                                  Nwtn
+ 10.3783384  [G]/([a0]^2) = [Fg]/{[Me][Mp]}            kgrmMetrs2nd
- 10.4624785  ([Q0]^2)[PM]/[PL]                         C2ulKgrmmetr
- 10.5187229  [Hu]/[Fe]                                     Hrtznwtn
+ 10.5359384  {[Pi]^4}/{[aa]^4}
+ 10.5431373  [c^2]{[aa]^3}                                 M2trs2nd
+ 10.5486226  [aa][G]/[Bk]                      Degkjuulk2rmM2trNwtn
- 10.6132170  [PM]{[d]^.5} = [PM]/([c]({[k]^.5})        H12yKgrmm12r
- 10.6132170  [PQ]/({[k]^.5}[aa]) = ([hB][v0]/{[aa]^3})^.5  J12lm12r
     = [PQ]{[d]^.5}[c]/[aa] = ([hB][c]/{[aa]^2})^.5     Cuulf12dM12r
     = [Q0]{[d]^.5}[c]/({[4Pi]^.5}{[aa]^(1.5)})
- 10.6136554  [PQ]/[PM] = {[G][k]}^.5 = [Pf]/[PB]  Hrtztsla=Cuulkgrm
     = {[PL]/[PM][d]}^.5 = {[G][Jf^2][Me][a0][Pi]/4}^.5
- 10.6136554  [aa]/[c] = [aa]/{[d][k]^.5}                   metrScnd
     = [2Pi][d]/{[4Pi][RK]} = [v0]/[c^2]   FradmetrOhmm=Hnrymetrohmm
     = {[i0]^2}[d]/{[4Pi][Pw0]} = [k][z0][aa]  F12dH12ymetr=Nwtnwaat
     = [B0]{[aa]^2}/[E0] = {[aa]^2}/[v0]                MetrTslavltt
---------------------------------++---------------------------------
- 10.6841735  [aa]^5 = [Fe]/[Gresky's F sub g]
- 10.6841735  {[v0]^4}[k][Me][a0]/{[PM]^2}      [[C2ulk2rmM2trs2nd]]
     =       {[aa]^3}[c^4][k][PL]/[PM]              FradkgrmM4trs4nd
     =          {[aa]^3}[c^2][PL]/{[PM][d]}         hnrykgrmM4trs2nd
     =               {[aa]^3}[PL]/([PM]{[d]^2}[k])  fradh2rykgrmM4tr
---------------------------------++---------------------------------
+ 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
- 10.7440428  {[aa]^2}/{[4Pi][B0]}                              tsla
+ 10.7518213  [2Pi][Ke]                                     fradMetr
+ 10.7692979  Wien frequency displacement law constant      degkHrtz
- 10.7713858  [Mm][c^2]                                         Juul
- 10.7765196  {[aa]^4}{[RK]^2}[k] = {[aa]^4}/{[v0][G0]} metrohmmScnd
- 10.8168738  [Cw][2Pi]                                         Metr
+ 10.9479412  ([Pi]^2)[Ke]                                  fradMetr
- 10.9806437  {[Pi]^8}{[aa]^7}
- 10.9880198  [d]([G]^.5)                               k12mM12rOhmm
- 11.0519742  {[PM]/[aa]}^2                                     K2rm
- 11.0519742  {[PM]^3}/{[c^4][PL][k]}               fradK3rmm4trS4nd
- 11.0519742  ({[PC][PL]}^2)/{[aa]^4}                       A2prM2tr
     = {[PQ]^2}[c^2]/{[aa]^4} = [hB][c^3][k]/{[aa]^4}
- 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]}
+ 11.1813234  [Pi]/{[aa]^5}
- 11.1324677  [Q0]/[PM] = ([Ke]/{[G][aa]})^.5               Cuulkgrm
+ 11.1747034  [QeM][a0][2af]{[aa]^3}            [[CuulkgrmMetrscnd]]
+ 11.2362885  [QeM][a0][2af]{[4Pi]^2}{[aa]^4}   [[CuulkgrmMetrscnd]]
+ 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][4Pi]{[aa]^2}{[a0]^2})                 m2trNwtntsla
     = [i0]/([4Pi]{[aa]^2}[a0])                Amprmetr=F12dK12ms2nd
     = [B0]{[v0]^2}[k]/{[aa]^2}        = AUN magnetic field strength
*29* =({[Me][a0]}^.5){[2af]^2}/([4Pi]{[aa]^2}{[Ke]^.5})
- 11.2736693  ([aa]^2)[d]/[4Pi]      = {[aa]^2}/[10^-7] in  Hnrymetr
- 11.2872915  [Me][c]/[a0] = [Me]{2af]/[aa]                 Kgrmscnd
- 11.3578095  [Fe]([aa]^2) = {[i0]^2}[d]/[4Pi]                  Nwtn
- 11.3756088  [a0]/[4Pi]                                        Metr
+ 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
+ 11.5807621  {[v0]^2}/[4Pi]                                M2trs2nd
- 11.6150537  [Cw] = [h]/([Me][c]) = [2Pi][aa][a0] = 2[cQ]/[c]  Metr
     = [2Pi][PL][PM]/[Me] = [2Pi]([aa]^2)/([4Pi][Rc])
+ 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]
- 11.6512802  ([4Pi]{[aa]^2})/[c]                           metrScnd
- 11.6512800  {[Q0]^2}/{[PQ][PM]}                           Cuulkgrm
- 11.7020729  [Hu]/[d]                                  hnryHrtzMetr
+ 11.7111495  [E0] = ([Q0][Ke])/([a0]^2)       f12dK12mscnd=metrVltt
*14*=([Me]^.5)([a0]^-.5)[2af]([Ke]^.5) =AUN electric field  cuulNwtn
- 11.7708193  [G]/(4{[Pi]^2})                           k2rmM2trNwtn
- 11.7952897  [Q0][10^7] = [Q0][4Pi]/[d]                CuulhnryMetr
- 11.8015802  [PL]/([PM][k]{[aa]^2})   Hnryk2rmMetrNwtn=fradkgrmM2tr
     = {[PQ]/([k][c][PM][aa])}^2 = [G][d]/{[aa]^2}  C2ulf2adk2rmS2nd
- 11.8015802  [d]^2 = 1/([c^4]{[k]^2})             a4prN2tn=H2rym2tr
     = ([aa]^4)/({[k]^2}{[v0]^4}) = {[z0]^4}{[k]^2}     F2adm2trO4mm
     = ([a0]^-4)([2af]^-4)([aa]^4)/{[k]^2}              f2adm2trS4nd
- 11.8015802  {[G]^2}/{[aa]^4}                          k2rmM6trs4nd
+ 11.8740136  4[B0]/[d]                                     Amprmetr
+ 11.8976398  [Rp]/[Mp]
+ 11.9310059  [FBH]/[PK]                                    degkNwtn
- 11.9364912  [PM]{[aa]^2}                                      Kgrm
- 11.9364913  [PC][PL][aa] = [PQ][c][aa]       CuulMetrscnd=AmprMetr
     = [aa][FPC]/[PB] = [aa][FBH]/[PB]                      Nwtntsla
- 11.9364912  [c^4][PL][k]                              FradM4trs4nd
- 11.9455897  [B0][A0]/[aa]                                 M2trTsla
---------------------------------++---------------------------------
+ 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
+ 12.2123282  {[aa]^2}[QeM][a0][2af]/[4Pi]      [[CuulkgrmMetrscnd]]
- 12.3112941  [G][aa]                                   kgrmM3trs2nd
+ 12.3159833  [4Pi]{[aa]^4}[a0]/[Me]                        kgrmMetr
- 12.3238583  [Pi]{[aa]^6}
+ 12.3444314  [4Pi][QeM]                                    Cuulkgrm
+ 12.3694477  [Fe]/[A0] = {[Q0]^2}[Ke]/([A0]{[a0]^2})  Pscl=m2trNwtn
     = {[Q0]^2}/([k]{[4Pi]^2}{[a0]^4}) = {[E0]^2}/[k]   C2ulfradm3tr
      = {[v0]^2}{[B0]^2}[Ke]/[4Pi]     fradmetrV2tt=fradM3trs2ndT2la
+ 12.3694477  [G]{[H0]^2}                               A2prk2rmNwtn
     = [G]{[B0]^2}/{[d]^2}                      h2ryk2rmM4trNwtnT2la
+ 12.3711635  [H0][4Pi] = [E0][4Pi]/[v0][d]                 Amprmetr
- 12.3728793  [G]/{[4Pi]^2}                             k2rmM2trNwtn
- 12.4132335  [Cw]/([2Pi]) = ([aa]^2)/([4Pi][Rc]) = [a0][aa]    Metr
     = [cQ]/([Pi][c])  = [hB]/([Me][c]) = [PL]([PM]/[Me])
- 12.4535879  [A0][4Pi]/[d]                                 hnryM3tr
- 12.4553036  [i0][a0] = [Fe]/[B0]                 Nwtntsla=AmprMetr
+ 12.5055797  [i0][Jf]                             hnry=AmprHrtzvltt
- 12.5637485  [hB]/({[2]^.5}[Me][c])                            Metr
- 12.5835179  [Bk]/[a0] = [Fe][Bk]/[He]        degkNwtn=degkJuulmetr
+ 12.6094539  {[v0]^3}{[aa]^3}                              M3trs3nd
- 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])                 kgrmScndWaat
     = ([aa]^2)[10^7]Metr/([k][4Pi]Hnry)                fradhnryM2tr
*36* = ([a0]^2)([2af]^2) = ([aa]^2)[4Pi][Ke]/[d]  = [AUN velocity]^2
+ 12.6799720  ([PM]{[aa]^2}/[PQ])^2                         c2ulK2rm
+ 12.6799720  [c^4]{[PQ]/[PM]}^2 = {[G][PQ/[PL]}^2  C2ulk2rmM4trs4nd
+ 12.6799720  ([G][c]/{[d][aa]})^2                  A4prk4rmM6trs2nd
+ 12.6854573  [G]/[Bk]                          Degkjuulk2rmM2trNwtn
- 12.7500517  {[Ke]([Q0]^2)/[aa]}^.5 = [PQ]/{[k]^.5}    Cuulf12dM12r
     = {[G]([PM]^2)}^.5 = ([PM]^.5)([PL]^1.5)[Pf]       K12mM32rscnd
+ 12.7504901  [c]/{[aa]^2} = [v0]/{[aa]^3}                  Metrscnd
+ 12.7927256  [4Pi][k][a0]{[v0]^4}/[PM]             FradkgrmM3trs4nd
- 12.8210082  [aa]^6
+ 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})
- 12.9849302  [Fe][d]                                   HnrymetrNwtn
+ 12.9876048  [DQ] = [Me]/([4/3][Pi]{[Re]^3})               Kgrmm3tr
+ 13.0027295  ([Q0]^2)/{([a0]^2)[Me])}                 C2uulkgrmm2tr
+ 13.0573636  4[B0]/[Fe]                                    nwtnTsla
+ 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}                MetrNwtn=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
- 13.1174784  {[Pi]^8}{[aa]^8}
- 13.1584550  [4Pi]{([Me][a0])^.5}/[d]                  hnryK12mM32r
- 13.1896860  [k][aa]                                       Fradmetr
+ 13.2263337  [Hu]/{[a0]^3}                                 Hrtzm3tr
+ 13.2863699  ([Ke]^.5)[QeM][mma]                       k12mM32rscnd
+ 13.3115381  {[aa]^2}[QeM][a0][2af]            [[CuulkgrmMetrscnd]]
+ 13.3181581  [Pi]/{[aa]^6}
- 13.3536082  [Me]/{[Re][aa]}                               Kgrmmetr
+ 13.3803403  [Rc][c][aa]                                       Hrtz
- 13.3883012  [Mp]^.5                                           K12m
+ 13.4087883  [H0]/[aa]                                     Amprmetr
- 13.4241262  [Me][2af] = [Q0][B0] = [b0]          Kgrmscnd=CuulTsla
     = [He][Pi]/[cQ] = [hB]/{[a0]^2}                    Juulm2trScnd
- 13.4383682  [G]/([Mp]/[Me])                           kgrmM3trs2nd
- 13.4508582  {[Q0]^2}[d]/[Me]                                  Metr
- 13.4663932  {[Pi]^3}[[aa]^7}
+ 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)}
- 13.5403077  [a0]{[Me]/[Mp}                                    Metr
- 13.5527978  ([a0]^2)[4Pi]/[d]                             hnryM3tr
- 13.5640504  ([G]/[c^2])^.5                                k12mM12r
- 13.5640504  {[d]^.5}[aa]/[c]             F12dHnrym12r=H12ym32rScnd
+ 13.6096935  [Me]/{[Re]^3}                                 Kgrmm3tr
- 13.6146283  {[Pi]^7}{[aa]^8}
+ 13.6288819  [z0]/[k]                                  fradMetrOhmm
+ 13.6813704  [f0][aa]                                          scnd
- 13.7744926  [G][hB]{[aa]^2}/({[Me]^2}[c^3])               k2rmM2tr
     = [G][Re][aa]/{[Me][c^2]} = {[a0]^2}{[aa]^4}/{[PM]^2}
     = {[Re]/[PM]}^2 = [Gresky's mu sub b]^2 B138 B567
+ 13.7791819  [A0]([2af]^2) = [4Pi]([v0]^2)                 M2trs2nd
+ 13.8166057  [4Pi]{[aa]^2}{[QeM]^2}[Bk]/[He]           C2uldegkk2rm
- 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)
+ 13.8479842  [E0]/[aa] = [c][B0]              MetrscndTsla=metrVltt
- 13.9305376  [h]/[Mm][c] = Muon Compton wavelength             Metr
- 13.9542101  [A0][He]/[Bk]                                 DegkM2tr
- 14.0733260  [PM]{[aa]^3}                                      Kgrm
- 14.0824244  [B0][A0]                                      M2trTsla
- 14.0885089  {[Tc]^.5}                                         Metr
- 14.0966302  [Mp]([v0]^2)                                      Juul
- 14.0978850  [4Pi][c^2]/[PK]                           degkM2trs2nd
- 14.1117782  {[Pi]^6}{[aa]^8}
- 14.1873345  [w0][Pi]                    Webr=M2trTsla=cuulJuulScnd
- 14.2128118  [cQ][a0]/[Pi] = {[a0]^3}[2af]                 M3trscnd
- 14.2223061  [Me][f0]                                      Kgrmscnd
- 14.2264337  {[Q0]^2}[c^2]/{[aa]^3}           A2prM2tr=C2ulM2trs2nd
- 14.2264339  {[PM]^2}[4Pi]                                     K2rm
- 14.2273108  ([aa]^2)/[Ke] = [k][4Pi]{[aa]^2}              Fradmetr
- 14.2381249  [PL]/([a0]^2)                                     metr
+ 14.3491629  [QeM][v0][aa]/[4Pi]               [[CuulkgrmMetrscnd]]
+ 14.3633688  [a0][aa]/[Mp]                                 kgrmMetr
- 14.3830961  [Bk][c]                               degkJuulMetrscnd
+ 14.3834544  [Q0]/[h] = 1/[Photo-electric constant]        Amprjuul
+ 14.4107480  [QeM][v0][4Pi]{[aa]^2}            [[CuulkgrmMetrscnd]]
- 14.4472519  [hB][c]/[k]                               fradJuulM2tr
- 14.4481289  [G]{[aa]^2}                               k2rmM2trNwtn
- 14.4481289  [d]{[aa]^4}                                   Hnrymetr
- 14.4481289  {[G]^2}/[d]                               k4rmM5trN2tn
- 14.4606930  [Pi]{[aa]^7}
- 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][c^2]([Q0]^2)/([4Pi][Me][c^2])        C2ulfradkgrmmetrS2nd
     = [aa][PL][PM]/[Me] = ([aa]^3)/([4Pi][Rc])     C2ulHnrykgrmmetr
+ 14.5900877  [2af]([a0]^1.5)/([Mp]^.5)                 K12mM32rscnd
- 14.6089281  {[Pi]^5}{[aa]^8}
- 14.6381139  {[Tc]/[4Pi]}^.5                                   Metr
+ 14.6665066  [RK]/([2Pi][k]) = [z0][Ke]/[aa]           fradMetrOhmm
- 14.6690994  Deuteron rms charge radius                        Metr
- 14.6844844  [w0] = [h]/(2[Q0])          Webr=M2trTsla=cuulJuulScnd
     = 1/[Jf] = [Q0][RK]/2 = [Pi][vT0]/[2af]   f12dK12mMetr=ScndVltt
     = [Pi][B0]{[a0]^2} = [Pi][He]/[i0]   AmprHnry=CuulOhmm=amprJuul
*25* = ([Me]^.5)([a0]^.5)[Pi]([Ke]^.5)      =  Magnetic flux quantum
+ 14.6844844  [Jf] = 2[Q0]/[h] = 2/([RK][Q0])  Hrtzvltt=m2rtsla=webr
     = 1/[w0] = 1/([Pi][B0]{[a0]^2})  amprhnry=Amprjuul=Cuuljuulscnd
     = [2af]/{[Pi][vT0]} = [i0]/{[Pi][He]}     F12dk12mmetr=cuulohmm
*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
     = [19P][Me]{[2af]^4}/{[a0]^3}                  C3ulj2ulKgrms4nd
     = [29H][4Pi][k][2af] = [i0][2af][4Pi][k]/[a0]  AmprFradm2trscnd
+ 14.8096078  {[Pi]^4}/{[aa]^6}
+ 14.8168067  [c^2][aa]                                     M2trs2nd
+ 14.8168068  [k][PC]{[z0]^2}{[aa]^2}               AmprFradmetrO2mm
+ 14.8222920  [G]/{[aa][Bk]}                    Degkjuulk2rmM2trNwtn
- 14.8510983  [Re]/2                                            Metr
- 14.8789624  [Rp] = [a0][2Pi][aa][Me]/[Mp] = [h]/([Mp][c])     Metr
     = [c][Tp]     = [a0][2Pi][aa][Nm]/[Bm] = [2Pi][Re][Me]/[Mp]
     = [c]{[h]/([Mp][c^2])         = Proton Compton wavelength
- 14.8795607  [Rn] = [h]/([Mn][c]) =Neutron Compton wavelength  Metr
+ 14.8814642  {[PM]^2}/[V0]                                 K2rmm3tr
+ 14.9304621  [Ke]^1.5                                      f32dM32r
- 14.9569660  [Me][a0]{[v0]^4}                          KgrmM5trs4nd
- 14.9578429  [aa]^7
- 14.9775968  [2Pi][a0][Bk]/[He]                            degkMetr
- 15.0202555  [Me]^.5                                           K12m
- 15.0534200  {[a0]^2}[He]/[Bk]                             DegkM2tr
- 15.0567529  Proton rms charge radius                          Metr
- 15.1060780  {[Pi]^4}{[aa]^8}
- 15.1562771  [h]/([Mt][c]) = Tau Compton wavelength            Metr
- 15.1816343  [w0]/[Pi] = [hB]/[Q0]   Webr=f12dK12mMetr=cuulJuulScnd
     = 1/{[Jf][Pi]} = [B0]{[a0]^2} = [He]/[i0]     M2trTsla=ScndVltt
     = [Q0][RK]/[2Pi] = [vT0]/[2af]       AmprHnry=CuulOhmm=amprJuul
*25* = ([Me]^.5)([a0]^.5)([Ke]^.5)    = [Magnetic flux quantum]/[Pi]
+ 15.1816343  [Jf][Pi] = [Q0]/[hB]     Cuuljuulscnd=m2rtsla=cuulohmm
     = [Pi]/[w0] = 1/([B0]{[a0]^2}) = [i0]/[He]    webr=F12dk12mmetr
     = [2Pi]/{[Q0][RK]} = [2af]/[vT0]     Hrtzvltt=amprhnry=Amprjuul
*34* = {([Me]^-.5)([a0]^-.5)}/([Ke]^.5)   = [Josephson constant][Pi]
- 15.1970949  [c^2]/[PK]                                degkM2trs2nd
- 15.2237044  [Me][c^2][aa]                                     Juul
- 15.2543131  {[Pi]^8}{[aa]^9}
- 15.3256438  [PM]^2 = [hB][c]/[G] = ([Q0]^2)[Ke]/([G][aa])     K2rm
     = {[Me][a0][aa]/[PL]}^2 = {[z0]^2}{[PC]^4}/({[PL]^4}{[Pf]^6})
     = {[aa]^4}({[Me][Pf]/[2af]}^2) = {[z0]^2}{[PQ]^4}/({[c][PL]}^2)
     = {[Q0]^4}([d]/{[4Pi][aa][PL]})^2
- 15.3256436  {[PC][PL]/[aa]}^2 = {[PQ][c]/[aa]}^2      C2ulM2trs2nd
     = {[Q0]^2}[c^2]/([4Pi]{[aa]^3}) = [hB][c^3][k]/{[aa]^2}
     = {[Q0]^2}{[v0]^2}/([4Pi]{[aa]^5}) = [Me][a0][k][c^4]/[aa]
     = [Me][a0][c^2]/(4{[aa]^3}{[RK]^2}[k])
     = [hB][c]/({[z0]^2}{[aa]^2}[k]) = [hB][c]/({[aa]^2}[d])
     = ({[E0][PQ]}^2)/({[B0]^2}{[aa]^4})
     = {({[PQ][Ke][2Pi]}^2)/({[aa]^2}[RK])}^2
- 15.3256438  4[PC]{[w0]^2}[k]/[Pi]                 AmprFradmetrW2br
     = [PC][Me][a0] = [PQ][Pf][PM][PL]/[aa]             AmprKgrmMetr
- 15.3265206  {[aa]^2}[k] = {[aa]^2}/{[4Pi][Ke]}            Fradmetr
- 15.4145983  [a0]^1.5                                          K32m
- 15.4239583  [Hu]/[i0]                                     amprHrtz
- 15.4269228  [2Pi][h][c^2] = First radiation constant      M2trWaat
+ 15.4483728  [QeM][v0][aa]                     [[CuulkgrmMetrscnd]]
+ 15.4549928  [Pi]/{[aa]^7}
- 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
+ 15.5456230  [H0]/{[aa]^2}                                 Amprmetr
- 15.6032279  {[Pi]^3}{[aa]^8}
+ 15.6475624  [B0]/[a0]                                     metrTsla
- 15.6771423  [hB]/{[Mp][c]}                                    Metr
- 15.6777406  [hB]/{[Mn][c]}                                    Metr
- 15.7004466  [PC][PL][d] = ({[hB][z0]}^.5)    AmprHnry=J12lO12mS12d
     = [PQ][z0] = [PE]/[PC] = [PB]{[PL]^2}    Webr=amprJuul=M2trtsla
    = {[PL][PM]/[k]}^.5 = ([G]{[PM}^2}[d])^.5  CuulOhmm=f12dK12mMetr
- 15.7514630  {[Pi]^7}{[aa]^9}
+ 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]                                     M2trWaat
- 15.9544971  [hB]/{[Mt][c]} = [Tau Compton wavelength]/[2Pi]   Metr
- 16.0752495  {[d]^2}{[aa]^2}                               H2rym2tr
- 16.0752495  [PL]/{[k][PM]}                            fradkgrmM2tr
- 16.0752496  {[G]^2}/{[aa]^2}                          k4rmM4trN2tn
- 16.0975726  [PQ]/[i0] = ({[PM]^2}[d]/{[Fe][4Pi][c^2]})^.5
- 16.1003778  {[Pi]^2}{[aa]^8}
+ 16.1396426  [c]/[PM]                                  kgrmMetrscnd
+ 16.1554615  [c^2]/[2Pi]                                   M2trs2nd
- 16.1771890  [a0][d]                                           Hnry
+ 16.1949884  {[Fe]/([B0]{[a0]^2})}^2          A2prm2tr=m4trN2tnt2la
+ 16.2049125  [d]/{[k]^2}                               f2adHnryMetr
- 16.2101607  [PM]{[aa]^4}                                      Kgrm
+ 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
- 16.2486129  {[Pi]^6}{[aa]^9}
- 16.3982639  [Fg]/[Me]                                     kgrmNwtn
+ 16.4492926  {[Pi]^3}/{[aa]^7}
+ 16.4859976  [QeM][v0]/[4Pi]}                  [[CuulkgrmMetrscnd]]
+ 16.5002034  [a0]/[Mp]                                     kgrmMetr
- 16.5036531  [Hu][4Pi]                                         Hrtz
+ 16.5475827  [QeM][v0][4Pi][aa]                [[CuulkgrmMetrscnd]]
- 16.5975277  [Pi]{[aa]^8}
- 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
+ 16.7328233  [G][c^2]/{[4Pi][k]}                   fradkgrmM6trs4nd
- 16.7457628  {[Pi]^5}{[aa]^9}
- 16.8046831  [Hu][2Pi]                                         Hrtz
+ 16.8126052  {[v0]^4}{[aa]^4}                              M4trs4nd
+ 16.9464425  {[Pi]^4}/{[aa]^7}
---------------------------------++---------------------------------
+ 16.9536414  [k][PC]{[z0]^2}[aa]                   AmprFradmetrO2mm
     = [aa]([PM]/{[PL][k]})^.5 = [aa][d][PC]       MetrTsla=f12dK12m
+ 16.9536414  {[PM][aa]/[PQ]}^2 = [d][PM]{[aa]^2}/[PL]      c2ulK2rm
     = {[PM]^2}[4Pi]{[aa]^3}/{[Q0]^2}                   HnryKgrmm2tr
     = {[aa]^2}/{[G][k]}           fradK2rmmetrnwtn=fradKgrmm2trS2nd
+ 16.9536414  [c^2] = {[v0]/[aa]}^2            M2trs2nd=fradhnryM2tr
     = 1/([k][d]) = ([E0]/{[aa][B0]})^2 = [G][PM]/[PL]  C2ulfradkgrm
     = ([Q0]^2)[Ke]/([aa][PM][PL]) = [PK][Bk]/[PM]  A2prfradMetrnwtn
     = {[E0]^2}/({[H0]^2}[d][G])            a2prhnryK2rmmetrnwtnV2tt
*36* = ([a0]^2)([2af]^2)/([aa]^2)      = ([AUN velocity]^2)/([aa]^2)
---------------------------------++---------------------------------
+ 16.9591267  [G]/({[aa]^2}[Bk])                Degkjuulk2rmM2trNwtn
+ 16.9910652  {[QeM]^2}[Bk]/[He]                        C2uldegkk2rm
+ 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
+ 17.0356025  ({[v0]^4}[a0][k]/[Me])^.5             F12dk12mM2trs2nd
+ 17.0823130  [B0][E0] = [Me]{[2af]^3}[Ke]/{[v0]^2}     metrTslaVltt
     = [d][Me]{[2af]^3}/([4Pi]{[aa]^2})             HnryKgrmmetrs3nd
- 17.0876756  {[PM]^3}/[d]                              hnryK3rmMetr
- 17.0946776  [aa]^8
- 17.1744594  [G][d]/[4Pi]                          Hnryk2rmMetrNwtn
+ 17.1880597  [Hu]/[PL]                                     Hrtzmetr
- 17.1911514  {[h]^2}[aa]/(2{[Me]^2}[c])                    M3trscnd
- 17.2151926  [PV]([Pf]^2)                                  M3trs2nd
+ 17.2381962  [Dp] = [Mp]/([4/3][Pi]{[Rp]^3})               Kgrmm3tr
- 17.2429127  {[Pi]^4}{[aa]^9}
- 17.2585996  [Fe][G]                                   k2rmM2trN2tn
- 17.2846809  [Me][a0]/[ue]                             amprKgrmmetr
- 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
- 17.4008933  [4Pi]{[PX]^2}[c^2]                        C2ulM2trs2nd
+ 17.4569931  [v0][2af][Bk]/[He]                        degkMetrs2nd
- 17.4624785  {[PM]^2}[aa] = {[Q0]^2}[d][PM]/{[PL][4Pi]}        K2rm
- 17.4624783  {[Q0]^2}[c^2]/([4Pi]{[aa]^2})             C2ulM2trs2nd
+ 17.5852075  [QeM][v0]  = [ae]/[B0]                    Metrs2ndtsla
     = [a0][i0]/[Me] = [Q0][a0][2af]/[Me]               AmprkgrmMetr
     = [c^2]{[aa]^2}{([a0]/{[Ke][Me]})^.5}          F12dk12mM2trs2nd
     = ({[v0]^4}[4Pi][k][a0]/[Me])^.5           [[CuulkgrmMetrscnd]]
+ 17.5918275  [Pi]/{[aa]^8}
- 17.6004310  {[d]^4}{[aa]^4}/[Re]                          H4rym5tr
- 17.6004310  {[G]^4}/({[aa]^4}[Re])                    k8rmM7trN4tn
- 17.6004308  {([PL]/{[k][PM]})^2}/[Re]                 f2adk2rmM3tr
+ 17.6006681  [PK][Re]                                      DegkMetr
---------------------------------++---------------------------------
- 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
---------------------------------++---------------------------------
+ 17.6164633  [Ke]/[PM]                                 fradkgrmMetr
+ 17.6272775  [aa][a0]/[Me] = [PM][PL]/{[Me]^2}             kgrmMetr
     = [aa][Jf][Pi][2af][Ke]/[Eg0]                  fradH2tzM3trv2tt
     = [aa][Jf][Pi][Ke]/[B0]                    fradHrtzMetrtslavltt
- 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
     = [PX] = ({[Q0]^2}/[aa])^.5 = ([hB][c][k][4Pi])^.5
- 17.7400626  {[Pi]^3}{[aa]^9}
+ 17.7518213  [2Pi][c^2]                                    M2trs2nd
- 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
- 17.7683136  [Fe]{[aa]^5}                                      Nwtn
- 17.8139770  [Re][Me]/[Mp]                                     Metr
+ 17.8320332  {[aa]^2}/{[k]^2}                              f2adM2tr
+ 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
- 17.8372813  [c^2][PL]                                     H2tzM3tr
- 17.9392208  [a0][PM]                                      KgrmMetr
+ 17.9550397  [f0]/[aa] = [c]/{[2Pi][a0]}                       Hrtz
- 17.9912662  [aa][d]/[Ke]                                  m2trS2nd
+ 18.0528513  [4Pi][c^2] = [4Pi]/{[d][k]}      fradhnryM2tr=M2trs2nd
+ 18.0528513  (10^7)/[k]                                    fradMetr
+ 18.0889774  {[Pi]^2}{[aa]^8}
+ 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
- 18.2011472  [p0][He]/[Bk]                         DegkKgrmMetrscnd
+ 18.2167736  {[QeM]^2}{[aa]^2}                             C2ulk2rm
- 18.2372125  {[Pi]^2}{[aa]^9}
+ 18.2452215  [QeM][4Pi]/[d]                        CuulhnrykgrmMetr
- 18.2764773  [PQ] = Planck charge  = ({[hB][c][k]}^.5)         Cuul
     = [Q0]/({[4Pi][aa]}^.5) = [PX]/{[4Pi]^.5} = [PC]/[Pf]
     B078 B079 B091
- 18.2764773  {[PQ][PM][aa]/[c]}^.5                 C12lK12mm12rS12d
- 18.2764773  [PM][aa]/[c]                              KgrmmetrScnd
- 18.3469954  [PM]{[aa]^5}                                      Kgrm
+ 18.3738931  [i0]/{[a0]^2} = [E0][2af][4Pi][k]             Amprm2tr
     = [B0][v0][a0][2af]/[Ke]      FradMetrs2ndTsla=Fradm2trscndVltt
- 18.4010429  [Hu]/[2Pi]                                        Hrtz
+ 18.4118183  [4Pi][Q0]/([V0][d])                       Cuulhnrym2tr
+ 18.4159631  [v0]/{[c]([a0]^2)} = [aa]/([a0]^2)                m2tr
- 18.4375917  [G][c^2][Ke]/({[QeM][v0]}^2)                  f2adM2tr
- 18.4942597  2[Q0] = [h]/[w0]                                  Cuul
- 18.5001031  {[Q0]^2}[c^2]/[aa]= {[PX]^2}[c^2}         C2ulM2trs2nd
- 18.5001033  [PQ][PM][v0][4Pi]                     CuulKgrmMetrscnd
- 18.5001033  {[PM]^2}[4Pi]{[aa]^2}                             K2rm
+ 18.5408711  {[Ke][PM]/[PL]}^.5                            f12dK12m
+ 18.5562030  [4Pi][v0][2af][Bk]/[He]                   degkMetrs2nd
+ 18.6228323  [QeM][v0]/{[4Pi][aa]}             [[CuulkgrmMetrscnd]]
- 18.6286758  [h]/[Re]                                  KgrmMetrscnd
- 18.6512801  [hB]/([PM]^2) ={[PL]^2}[Pf]/[PM] =[G]/[c] kgrmM2trscnd
+ 18.6844174  [4Pi][QeM][v0]                    [[CuulkgrmMetrscnd]]
- 18.7020729  [Hu]/[4Pi]                                        Hrtz
- 18.7156732  [k][PM]                                   FradKgrmmetr
- 18.7343624  [Pi]{[aa]^9}
- 18.7532196  [hB][aa]/[He] = [a0]/[c] = [aa]/[2af]             Scnd
- 18.7875111  ([hB]^2)[aa]/{2([Me]^2)[c]}                   M3trscnd
- 18.7952897  [Q0] = ([G]([PM]^2)[aa]/[Ke])^.5     Cuul=Kgrmscndtsla
     = [Me][2af]/[B0] = [4Pi][k][E0]{[a0]^2}        F12dK12mMetrscnd
     = ([2][aa][h]/{[d][c]})^.5 = 4[w0][v0][k]          hnryJuulS2nd
     =[PX]{[aa]^.5} =[PQ]({[4Pi][aa]}^.5) =[PQ]({[z0][2Pi]/[RK]}^.5)
     = ([PM]^.5)([PL]^1.5)([Pf]^1)([aa]^.5)/([Ke]^.5)   FradscndWebr
*11* = ([Me]^.5)([a0]^1.5)[2af]/([Ke]^.5)               = AUN charge
- 18.9581538  [w0]{[aa]^2}                                  M2trTsla
- 18.9727177  [PL][f0]                                      Metrscnd
+ 19.0339070  [QD0][10^7]                                   Cuulm3tr
+ 19.0339070  [QD0][4Pi]/[d]                            Cuulhnrym2tr
+ 19.0832772  {[Pi]^4}/{[aa]^8}
+ 19.0904761  [c^2]/[aa] = 1/{[d][k][aa]}      fradhnryM2tr=M2trs2nd
+ 19.0904761  ([PM]/{[PL][k]})^.5                           f12dK12m
+ 19.0904760  [aa]/{[G][k]}                fradKgrmm2trS2nd=c2ulK2rm
+ 19.0963196  [RK][Jf] = 2/[Q0]                    cuul=HrtzOhmmvltt
+ 19.1137804  [PM]/[Mp]
- 19.1180471  [Ke][a0][Q0]                              CuulfradM2tr
- 19.1724372  [{[aa]^2}[Me]/({[v0]^4}[a0][k])]^.5   f12dK12mm2trS2nd
+ 19.2265340  {[Q0]^2}/{[Me][Mp]}                           C2ulk2rm
     = {[PQ]^2}[4Pi][aa]/{[Me][Mp]}
- 19.2315123  [aa]^9
+ 19.2612177  [B0][RK]/{[2Pi][a0]} =[Eg0][Ke]/([v0]^2)  metrOhmmTsla
- 19.4210122  [Me][a0][aa]/[Bm]                         amprKgrmmetr
- 19.4268557  [hB]/[Re] = [Me][c]/[aa]                  KgrmMetrscnd
- 19.4535879  [A0] = [4Pi]([a0]^2)                              M2tr
- 19.5584980  ([a0][Pi])^2                                      M2tr
+ 19.5804271  {[Pi]^5}/{[aa]^8}
+ 19.5938278  [c][Pf]/[PK]                              degkMetrs2nd
- 19.5993131  {[PM][aa]}^2 = ([Me][a0]{[aa]^2}/[PL])^2          K2rm
     = ([Q0]^2)[d][aa][PM]/{[PL][4Pi]}                  C4ulH2rym4tr
- 19.5993130  {[PC][PL]}^2 = {[PQ]^2}[c^2]                  A2prM2tr
- 19.5993131  [PC][PL][PM][aa]                          AmprKgrmMetr
- 19.6175100  {[B0]^2}{[A0]^2}/{[aa]^4}                     M2trT2la
- 19.6621727  [Fg]/[Mp] = [G][Me]\{[a0]^2}                  kgrmNwtn
+ 19.6924621  [Fe]/[Mp]                                     Metrs2nd
+ 19.7220422  {[QeM][v0]}/[aa]                  [[CuulkgrmMetrscnd]]
+ 19.7220422  {[v0][Q0]/[Me]}/{[c][PQ]/[PM]} = [aa][QeM][PM]/[PQ]
- 19.7396977  [Hu][aa]                                          scnd
+ 19.7641122  [a0]/[Me] = [PM][PL]/({[Me]^2}[aa])           kgrmMetr
     = [Jf][Pi][2af][Ke]/[Eg0]                      fradH2tzM3trv2tt
     = [Jf][Pi][Ke]/[B0]                        fradHrtzMetrtslavltt
+ 19.8086437  [E0][H0][4Pi]{[aa]^2}        m2trWaat=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
     = [c^2][PL][aa]                                        M3trs2nd
- 20.0556479  [Pi]([a0]^2) = [A0]/4                             M2tr
+ 20.0775770  {[Pi]^6}/{[aa]^8}
- 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])
     = {[PX]/[PM]}^2 = [4Pi]{[PQ]^2}/{[PM]}^2}
- 20.1281009  4[B0][w0]{[aa]^4}/{[Ke][Fe]} M2trnwtnT2la=fradm2trS2nd
- 20.1584550  [w0]/{[Pi]([Ke]^.5)}                      F12dm12rWebr
     = [hB]/{[Q0]([Ke]^.5)}                     cuulF12dJuulm12rScnd
     = 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)
+ 20.1655247  {[QeM]^2}[Bk]/[He]/([4Pi]{[aa]^2})        C2uldegkk2rm
- 20.2300403  [a0]/[Ke] = [Q0]/[vT0]                   Cuulvltt=Frad
     = [G0][Pi]/[2af] = {[Q0]^2}/[He]              ScndSmns=C2uljuul
---------------------------------++---------------------------------
+ 20.2408545  [Re]/[PL] = [aa][PM]/[Me] = {[aa]^3}[Pf]/[2af]
     = {[aa]^2}[a0]/[PL] = {[aa]^2}[Pp]/[p0] = {[aa]^3}[PE]/[He]
     = [aa]{[a0]^2}[2af]/({[PL]^2}[Pf])
     = {[aa]^3}[Me]{[a0]^2}/([PM]{[PL]^2})
     = {[a0]^3}{[2af]^2}/({[PL]^3}{[Pf]^2})
     = {Gresky's mu sub b}/{[PL]/[PM]}
     (See 22.3776892 , 24.5145238 , 26.6513585)
+ 20.2408545  [PQ][c]/[Me]                      [[CuulkgrmMetrscnd]]
     = [aa][PQ][c][a0]/{[PL][PM]}
     = [QeM][v0]/({([4Pi][aa])^.5}[aa])
---------------------------------++---------------------------------
+ 20.2415979  Gresky's {[N]^8} for Archimedes' [N] = 339 B564
+ 20.2641588  {[PQ]^2}/{[Me][Mp]}                           C2ulk2rm
- 20.2838862  [Bk][z0]                                  degkJuulOhmm
- 20.3489188  [G]^2 = ({[hB][c]}^2)/([PM]^4)            k2rmM6trs4nd
     = [c^4]{[PL]/[PM]}^2
- 20.3489188  {[d]^2}{[aa]^4} = {[4Pi]^2}([aa]^4)/[10^14]   H2rym2tr
- 20.3489190  {[PQ]^2}{[PT]^2}{[aa]^2}/({[k]^2}{[PL]^2}{[PM]^2})
     = {[aa]^2}[PL]/[k][PM]   C2ulf2adk2rmS2nd=fradkgrmM2tr=k2rmW2br
+ 20.4078266  [Bk][PF] = [PPW]/[PK] = [PE][Pf][Bk]/[PE]     degkWaat
- 20.4133120  [PQ][aa]                                          Cuul
- 20.4366163  [Mp]{[v0]^2}                                      Juul
- 20.4838301  [PM]{[aa]^6}                                      Kgrm
- 20.5527977  [a0]^2 = 1/([Pi][Jf][B0])                         M2tr
- 20.5527978  [4Pi][aa]{[PM]^4}/({[Q0][Me][Pf]}^2)      c2ulK2rmS2nd
     = {[PM]^4}/({[PC]^2}{[Me]^2})                          a2prK2rm
+ 20.5747269  {[Pi]^7}/{[aa]^8}
- 20.6369378  {[Q0]^2}[c^2]                             C2ulM2trs2nd
- 20.6369380  [PQ][PM][v0][4Pi][aa]                 CuulKgrmMetrscnd
- 20.6369380  [4Pi]{[aa]^3}{[PM]^2}                             K2rm
+ 20.6930377  [4Pi][c][Pf]/[PK]                         degkMetrs2nd
+ 20.7596670  [QeM][v0]/([4Pi]{[aa]^2})         [[CuulkgrmMetrscnd]]
+ 20.7791820  {[4Pi]^2}{[aa]^4}[PM]/[PL]}                   Kgrmmetr
+ 20.7904595  [QeM][v0]/{[aa]^(1.5)}            [[CuulkgrmMetrscnd]]
+ 20.7904595  [PM]{[4Pi]^.5}[aa]/[Me]
+ 20.8212521  [QeM][v0][4Pi]/[aa]               [[CuulkgrmMetrscnd]]
- 20.8900542  [hB]/([Me][c^2]) = Natural unit of time           Scnd
*4* = ([2af]^-1)([aa]^2)                        = [AUN time]([aa]^2)
+ 20.9167865  {[B0]^2}/[G]                          K2rmm2trnwtnT2la
+ 21.1988629  [QeM][Ke]                             CuulfradkgrmMetr
- 20.9321243  [Q0][aa]                                          Cuul
+ 21.0718768  {[Pi]^8}/{[aa]^8}
- 21.2165183  [2Pi][Hu]/[RK]                                Hrtzohmm
- 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})
- 21.2268723  {[Me][a0][aa]}^.5 = {[PL][PM]}^.5         CuulH12ym12r
     = [PQ]{[d]^.5} = {[hB]/[c]}^.5 = {2[hB][RK][k][aa]}^.5
     = ([aa][4Pi][k]{[B0]^2}{[a0]^4})^.5
- 21.2268723  [PL]({[PC]/[aa]}^.5) = ([c][PL][PQ]/[aa])^.5  A12rMetr
- 21.2268723  [c^2][PL]{[k]^.5}/[aa]                    F12dM52rs2nd
- 21.2273108  {[PQ]^2}/{[PM]^2} = [G][k]           C2ulk2rm=H2tzt2la
     = {[Pf]/[PB]}^2 = [G][Jf^2][Me][a0][Pi]/4      Fradk2rmMetrNwtn
     = [PL]/{[PM][d]}                           kgrmM3trNwtnv2tts2nd
- 21.2273108  ([aa]^2)/[c^2] = ([aa]^2)[d][k]               m2trS2nd
     = ([2Pi][d]/{[4Pi][RK]})^2 = {[v0]/[c^2]}^2        H2rym2tro2mm
     = ({[i0]^2}[d]/{[4Pi][Pw0]})^2            FradHnrym2tr=N2tnw2at
     = {[B0]{[aa]^2}/[E0]}^2 = {[aa]^4}/{[v0]^2}        M2trT2lav2tt
- 21.2273108 [aa]({[k][PL]/[PM]}^.5)                        F12dk12m
     = [aa][PQ]/{[PM][c]}                           CuulkgrmmetrScnd
- 21.3092719  [Me]([G]^.5)/[Q0]([Ke]^.5)
- 21.3292502  [a0][k]                                           Frad
- 21.3683470  [aa]^10 = {[Fe]/[Gresky's F sub g]}^2
- 21.3683470  {[v0]^8}{[Me][a0][k]}^2)/{[PM]^4} [[C4ulk4rmM4trs4nd]]
- 21.4464131  [G]/[H0]             f12dk32mM3tr=Hnryk2rmMetrNwtntsla
- 21.5636904  [Me][c]                                   KgrmMetrscnd
     = [Me][a0][2af]/[aa]                 = Natural unit of momentum
- 21.6520077  {[a0]^2}/[4Pi]                                    M2tr
- 21.6665067  [PQ][k]/[PM]                          CuulFradkgrmmetr
     = [PL][k]/{[PQ][d]}                            cuulFradhnryMetr
- 21.6665067  [k][aa]/[c] = [aa]/{[z0][c^2]}            Fradm2trScnd
- 21.6844844  [w0][d]/[4Pi]                                 AmprMetr
- 21.7361477  {[Q0]^2}[c^2]/[4Pi]                       C2ulM2trs2nd
- 21.7543447  {[B0]^2}{[A0]^2}/{[aa]^3}                     M2trT2la
- 21.7607069  [4Pi][Bk]                                     degkJuul
+ 21.8588769  [QeM][PM]/[PQ] = [u0]/([PC]{[PL]^2})
+ 21.8588769  [QeM][a0][2af]/{[aa]^2}           [[CuulkgrmMetrscnd]]
- 21.8765324  [Hu]{[aa]^2}                                      Hrtz
- 21.8856090  [G]/[E0]                              k2rmM3trNwtnvltt
- 21.8856090  {[aa]^2}/{[v0][H0]} = [aa][d]/{[c][B0]}       amprScnd
- 21.9009469  [Me][aa]/[a0]                                 Kgrmmetr
+ 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
+ 22.0408711  {[4Pi][FPQ]}^.5 = [FPX]^.5 = [FBH]^.5 = [FPC]^.5  N12n
     = {[PE]/[PL]}^.5 = {[PPw]/[c]}^.5 = {[z0][k][c^3][PM]/[PL]}^.5
     = [PX]/([PL]{[4Pi][k]}^.5) = {[G]^.5}[PM]/[PL] = [c^2]/{[G]^.5}
     = [PQ]/({[k]^.5}[PL]) = [c]{[PM]/[PL]}^.5 = ({[PM][PL]}^.5)[Pf]
     = {[c][PM][Pf]}^.5 = {[d]^.5}[PC] = ({[hB][c]}^.5)/[PL]
- 22.0617369  [2Pi][Bk]                                     degkJuul
- 22.0146982  [Hu]/[RK]                                     Hrtzohmm
- 22.1057026  [k]^2                                         F2adm2tr
- 22.1109507  ([Q0]^2)[Ke][aa]/[PM]                 C2ulfradkgrmMetr
     = [c^2][PL]{[aa]^2}                                    M3trs2nd
- 22.1157627  [Bk]/{[He][2af]}                              degkScnd
- 22.2128902  [a0][PM]{[aa]^2}                              KgrmMetr
+ 22.2252101  [c^3]{[aa]^(1.5)}                             M3trs3nd
- 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
- 22.2952896  [Q0]{[Ke]^.5}/[c]                     Cuulf12dm12rScnd
      = [aa]({[Me][a0]}^.5)                                 K12mM12r
+ 22.3103060  [Q0]/([a0]^4)                                 Cuulm4tr
- 22.3627669  [Pi][Bk]                                      degkJuul
---------------------------------++---------------------------------
+ 22.3776892  [Re]/{[PL][aa]} = [PM]/[Me] = {[aa]^2}[Pf]/[2af]
     = [aa][a0]/[PL] = [aa][Pp]/[p0] = {[aa]^2}[PE]/[He]
     = {[a0]^2}[2af]/({[PL]^2}[Pf])
     = {[aa]^2}[Me]{[a0]^2}/([PM]{[PL]^2})
     = {[a0]^3}{[2af]^2}/({[PL]^3}{[Pf]^2}[aa])
     = {1/[aa]}([Gresky's mu sub b]/{[PL]/[PM]})
     (See 20.2408545 , 24.5145238 , 26.6513585)
+ 22.3776892  [PQ][c]/{[Me][aa]}                [[CuulkgrmMetrscnd]]
     = [PQ][c][a0]/{[PL][PM]}
     = [QeM][v0]/({([4Pi][aa])^.5}{[aa]^2})
---------------------------------++---------------------------------
+ 22.4009935  [c^2][a0][k]/[Mp]                     FradkgrmM2trs2nd
     = {[PQ]^2}/{[aa][Me][Mp]}                              C2ulk2rm
+ 22.4904426  [A0]{[aa]^7}/({[v0]^2}{[PL]^2})               m2trS2nd
+ 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
- 23.5036531  [Hu][d]                                   Hnrymetrscnd
+ 22.5439072  [H0]^2 = {[B0]/[d]}^2    h2ryM2trT2la=F2adM2trs4ndT2la
     = {[B0]{[v0]^2}/([4Pi][Ke]{[aa]^2})}^2     c2ulh2ryK2rmM2trs2nd
     = {[Fe]/([B0][4Pi]{[aa]^2}{[a0]^2})}^2             m4trN2tnt2la
     = {[i0]/([4Pi]{[aa]^2}[a0])}^2            A2prm2tr=FradKgrms4nd
    = ([B0]{[v0]^2}[k]/{[aa]^2})^2  =(AUN magnetic field strength)^2
     = {[Me][a0]}{[2af]^4}/({[4Pi]^2}{[aa]^4}[Ke])
+ 22.5442861  [PM]/[V0]                                     Kgrmm3tr
+ 22.6336134  {[v0]^2}[Ke] ={[E0]^2}/{[B0]^2}[4Pi][k])  fradM3trs2nd
     = {[aa]^2}/([4Pi][d]{[k]^2}) = [H0][Ke]{[aa]^2}/{[B0][k]}
- 22.7049703  [hB][H0]                                  CuulJuulmetr
- 22.7317025  [u0] = 2[Bm] = [Q0][hB]/[Me]         AmprM2tr=Juultsla
     = [He]/[B0] = [He]{[a0]^2}[Jf][Pi]
     = [i0]{[a0]^2} = [Q0][v0][a0]      = AUN magnetic dipole moment
*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
+ 22.8544315  [PC][aa]                                          Ampr
- 22.8599168  [Bk] = [Rgc]/[An] = Boltzmann constant        degkJuul
- 22.8599168  [PM][c^2]/[PK]                                degkJuul
- 22.9023452  [Fe]/[f0] = [p0](2[Pi])                       Nwtnscnd
- 22.9248692  [hB]{[aa]^2}/{[PM]^2}                     kgrmM2trscnd
+ 22.9563709  [ae] = [Fe]/[Me]                              Metrs2nd
+ 22.9740265  [B0]/[Hu]                                     ScndTsla
- 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]
- 23.2262501  [PX][Bk]/[He]                                 Cuuldegk
- 23.2318232  [w0]{[aa]^4}                                  M2trTsla
- 23.3557832  [Tp]=[h]/([Mp][c^2])=[Rp]/[c] = Proton time B036  Scnd
- 23.3570667  [Bk]/[Pi]                                     degkJuul
- 23.3632686  [Me][c^2][a0] = ([Q0]^2)[Ke]/([aa]^2)     KgrmM3trs2nd
     = [G][([PM]^2)/[aa] = [FBH]([PL]^2)/[aa]  C2ulfradMetr=M2trNwtn
+ 23.3641455  [c^2]/{[aa]^3} = {[v0]^2}/{[aa]^5}            M2trs2nd
+ 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
- 23.4820054  3[Bk]/[4Pi]                                   degkJuul
- 23.5036531  [G][Hu]/{[aa]^2}                      k2rmM2trNwtnscnd
- 23.5036531  [Hu][d]                                   Hnrymetrscnd
+ 23.5289444  [FBH]([a0]^2)                                 M2trNwtn
- 23.6031604  {[PQ]/([k][c][PM][aa])}^4             C4ulf4adk4rmS4nd
- 23.6580967  [Bk]/[2Pi]                                    degkJuul
- 23.6739156  [c]/{PK]                                  degkMetrsdnd
- 23.7005250  [p0] = [hB]/[a0]                          KgrmMetrscnd
*6*  = [Me][a0][2af]                                  = AUN momentum
- 23.7163439  [PRL]/[a0]
+ 23.7797510  [An] = [Rgc]/[Bk]                                 mool
     = Avogadro constant         (NUMBER OF MOLECULES)/(MOLE) = mool
+ 23.8024644  [G]/[hB]                                  k2rmMetrscnd
- 23.8729826  {[PM]^2}{[aa]^4}                                  K2rm
- 23.8911794  {[B0]^2}{[A0]^2}/{[aa]^2}                     M2trT2la
+ 23.9536414  [c^2][10^7] = [c^2][4Pi]/[d]              hnryM3trs2nd
+ 23.9536414  [PM][4Pi]([aa]^2}/[PL]                        Kgrmmetr
- 23.9591267  [Bk]/[4Pi]                                    degkJuul
- 23.9957114  [PL]/([a0]{[4Pi][aa]}^.5) = [PQ][PL]/[q0]
+ 23.9957116  [QeM][a0][2af]/{[aa]^3}           [[CuulkgrmMetrscnd]]
- 24.0133671  [Hu]{[aa]^3}                                      Hrtz
+ 24.0678140  {[QD0]^2}                                     C2ulm6tr
- 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  {[PM][PL][d]}^.5 = [d][PQ]       CuulHnrymetr=H12yK12m
- 24.1772673  [c^2][PL][PQ]/([PM]{[aa]^2})          CuulkgrmM3trs2nd
+ 24.2328264  [Q0]/({[4Pi]/3}{[Re]^3})                      Cuulm3tr
- 24.2946674  [Q0][Bk]/[He]                                 Cuuldegk
+ 24.1809522  ([Ke]/[aa])^2                                 f2adM2tr
- 24.4008933  [hB][c][4Pi]                         JuulMetr=M2trNwtn
+ 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}
+ 24.4879144  [PM][PE]/[Bk]                                 DegkKgrm
---------------------------------++---------------------------------
+ 24.5145238  [Re]/{[PL][aa]^2} = [PM]/{[Me][aa]} = [aa][Pf]/[2af]
     = [a0]/[PL] = [Pp]/[p0] = [aa][PE]/[He]
     = {[a0]^2}[2af]/({[PL]^2}[Pf][aa])
     = [aa][Me]{[a0]^2}/([PM]{[PL]^2})
     = {[a0]^3}{[2af]^2}/({[PL]^3}{[Pf]^2}{[aa]^2})
     = (1/{[aa]^2})({Gresky's mu sub b}/{[PL]/[PM]})
     (See 20.2408545 , 22.3776892 , 26.6513585)
+ 24.5145238  [PQ][c]/([Me]{[aa]^2})            [[CuulkgrmMetrscnd]]
     = [PQ][c][a0]/{[PL][PM][aa]}
     = [QeM][v0]/({([4Pi][aa])^.5}{[aa]^3})
---------------------------------++---------------------------------
- 24.5411333  [Me][He]/[Bk]                                 DegkKgrm
+ 24.6164633  [c^2]/[PM]                                kgrmM2trs2nd
- 24.6960797  [Q0][d] = 8[w0][k][RK]{[aa]^2}            CuulHnrymetr
     = ([a0]^2)[8Pi][B0][k][RK]{[aa]^2}             FradMetrOhmmTsla
- 24.7019234  [h][c]                                        JuulMetr
+ 24.7767012  Mass of planet Earth                              Kgrm
+ 24.8247514  [B0]/[A0]                                     m2trTsla
+ 24.8549150  [Q0]/{[Re]^3}                                 Cuulm3tr
- 24.9106072  {[Q0]^2}{[v0]^2}                          C2ulM2trs2nd
- 24.9529657  [A0][Bk]/[He]                                 degkM2tr
+ 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  [c^2]/([d][aa])              hnryM3trs2nd=A2prkgrmMetr
     = [c^2]/({[z0]^2}[k][aa])                     fradM32tro2mms2nd
+ 24.9912662  [PM][aa]/[PL] = [c^2][aa]/[G]                 Kgrmmetr
+ 25.1330633  [8Pi][c^4][G]                             kgrmM7trs6nd
- 25.1352757  [Pi][Jf][a0][Me] = [w0]/{[Pi][Ke]}        FradMetrTsla
      = [RK][Q0]/{[2Pi][Ke]} = [B0]{[a0]^2}/[Ke]    CuulFradmetrOhmm
+ 25.2792852  [Ke]/{[PM]^2}                             fradk2rmMetr
- 25.3127037  [f0]/([aa][Pf]) = [PL]/([2Pi][a0])
- 25.3477103  [um] = Muon magnetic moment                   Juultsla
+ 25.3599440  [v0]^4                                        M4trs4nd
+ 25.4235156  [An]/[Vmi] = Loschmidt constant                   m3tr
     (at 273.15 Degrees K, 1.0 x 10^5 Pascal)
+ 25.4292322  [Lcn] = [An]/[Vmi] = Loschmidt constant           m3tr
     (at 273.15 Degrees K, 1.01325 x 10^5 Pascal)
+ 25.4304621  [c^3] = [Ppw][PL]/[PM]           kgrmMetrWaat=M3trs3nd
+ 25.4304620  {[PM]^2}{[aa]^2}/{[hB][k]}        fradjuulK2rmMetrscnd
     = [PM][Pf][d]{[aa]^2}                          HnryHrtzKgrmmetr
- 25.4359474  [Bk]/[z0]                                 degkJuulohmm
- 25.4942597  [d][Q0]/[2Pi]                             CuulHnrymetr
---------------------------------++---------------------------------
- 25.5001032  [hB][c] = [G]([PM]^2) = [FBH]{[PL]^2}     C2ulfradMetr
     = ([Q0]^2)[Ke]/[aa] = {[PX]^2}[Ke]                 A2prHnryMetr
     = {[PQ]^2}/[k] = {[PC]^2}{[PL]^2}[d]          M2trNwtn=JuulMetr
     = {[Pp]^2}[PL]/[PM] = [PM][PL][c^2]                KgrmM3trs2nd
     = ({[Me][2af]/[B0]}^2)/{[aa][4Pi][k]}
- 25.5001032  [PC]{[PL]^2}[c^2]/[aa]                    AmprM4trs2nd
- 25.5001032  [PQ][d][c][aa][PM]                    CuulHnryKgrmscnd
     = [aa]({[PM]^3}[PL]/[k])^.5                        f12dK32mMetr
- 25.5001032  {[PM]^2}{[aa]^2}[d]                       HnryK2rmmetr
- 25.5001032  {[PM]^2}{[aa]^2}[4Pi][10^-7]                      K2rm
---------------------------------++---------------------------------
- 25.5009802  ({[PQ]^2}{[aa]}^2)/{[PM]^2}                   C2ulk2rm
- 25.5009802  {[aa]^4}/[c^2]                                m2trS2nd
+ 25.5408711  ([PM]^.5)([PL]^1.5)([Pf]^2)/([Ke]^.5)             Ampr
     = [PX][PF] = [PC]{[4Pi]^.5}
- 25.6029195  [Re][k]                                           Frad
- 25.6404878  [G][Hu]/[aa]                          k2rmM2trNwtnscnd
+ 25.6648804  [Hu][Pf]                                          s2nd
+ 25.6657791  [FBH]([a0]^2)/[aa]                            M2trNwtn
- 25.7668418  [Me]/{[aa]^2}                                     Kgrm
- 25.8225762  tritom magnetic moment                        Juultsla
- 25.8505941  [up] = Proton magnetic moment                 Juultsla
- 25.8506052  Shielded proton magnetic moment               Juultsla
+ 25.9239613  [B0]/{[a0]^2}                                 m2trTsla
- 25.9687461  helion magnetic moment                        Juultsla
- 25.9687721  Shielded helion magnetic moment               Juultsla
- 26.0098173  {[PM]^2}{[aa]^5}                                  K2rm
- 26.0098173  {[v0]^4}[Me][a0][k]                   FradKgrmM4trs4nd
- 26.0149166  [un] = Neutron magnetic moment                Juultsla
- 26.0280141  {[B0]^2}{[A0]^2}/[aa]                         M2trT2la
- 26.0521756  {[a0]^2}[Bk]/[He]                             degkM2tr
+ 26.0620282  [Q0][aa][c^2]/[Me]                    CuulkgrmM2trs2nd
+ 26.0796837  [c]/[Hu] ?as radius of universe? B272             Metr
+ 26.1325463  [QeM][a0][2af]/{[aa]^4}           [[CuulkgrmMetrscnd]]
+ 26.1325460  [PQ][a0][4Pi]/{[Q0][PL]}
- 26.1502018  [Hu]{[aa]^4}                                      Hrtz
- 26.1737394  {[Me]^2}[c^4]                             K2rmM4trs4nd
- 26.1737393  {[PM]^3}[PL]/({[a0]^2}[k])                fradK3rmmetr
- 26.1775275  [Ma] = Alpha particle mass                        Kgrm
- 26.2966413  [Nm] = [Q0][hB]/(2[Mp]) = Nuclear magneton    Juultsla
- 26.3003915  [Mtt] = Mass of triton                            Kgrm
- 26.3004734  [Mh] = Helion mass                                Kgrm
- 26.3141021  [PQ][d][aa]                               CuulHnrymetr
- 26.3141020  [c][PL] = {[PL}^2}[Pf]                        M2trscnd
- 26.3634384  [ud] = deuteron magnetic moment               Juultsla
- 26.3784949  [Me][a0][c^2]/(4{[aa]^3}{[RK]^2})     KgrmM3tro2mms2nd
- 26.4581115  [Q0][PM]                                      CuulKgrm
- 26.4757878  [Md] = Deuteron mass                              Kgrm
- 26.4992875  [Mt] = Tau mass                                   Kgrm
+ 26.5784959  ([PM]^.5)([PL]^1.5)([Pf]^2)/({[Ke]^.5}[4Pi][aa])  Ampr
- 26.5993132  {[PQ]^2}[Ke] = {[PQ]^2}/{[4Pi][k]         C2ulfradMetr
- 26.5993132  {[PM]^2}{[aa]^2}[d]/[4Pi]                 HnryK2rmMetr
- 26.6120964  [Q0]/([Ke][aa])                           CuulFradmetr
+ 26.6230762  {[QeM]^2}{[v0]^2}{[aa]^4}         [[C2ulk2rmM2trs2nd]]
---------------------------------++---------------------------------
+ 26.6513585  [Re]/{[PL][aa]^2} = [PM]/([Me]{[aa]^2}) = [Pf]/[2af]
     = [a0]/([PL][aa]) = [Pp]/{[p0][aa]} = [PE]/[He]
     = {[a0]^2}[2af]/({[PL]^2}[Pf]{[aa]^2})
     = [Me]{[a0]^2}/([PM]{[PL]^2})
     = {[a0]^3}{[2af]^2}/({[PL]^3}{[Pf]^2}{[aa]^3})
     = (1/{[aa]^3})({Gresky's mu sub b}/{[PL]/[PM]})
     (See 20.2408545 , 22.3776892 , 24.5145238)
+ 26.6513585  [PQ][c]/([Me]{[aa]^3})            [[CuulkgrmMetrscnd]]
     = [PQ][c][a0]/({[PL][PM]{[aa]^2})
     = [QeM][v0]/({([4Pi][aa])^.5}{[aa]^4})
---------------------------------++---------------------------------
- 26.6746628  [Fg][a0]/[Me]                                 M2trs2nd
- 26.6781126  [G][Hu][4Pi]                          k2rmM2trNwtnscnd
- 26.7396977  [G][Hu]/{[4Pi][aa]}                   k2rmM2trNwtnscnd
+ 26.7640903  [Hu][Pf][4Pi]                                     s2nd
- 26.7760040  [Mn] = Neutron mass                               Kgrm
- 26.7766023  [Mp] = Proton mass = [2Pi][PM][PL]/[Rp]           Kgrm
- 26.7797509  [amu] = Atomic mass unit                          Kgrm
- 26.8270708  2[BHR] =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
- 26.8936825  [Hu]/[PE]                                     Hrtzjuul
- 26.9851871  [Fg]/[A0]                                     m2trNwtn
+ 27.0433408  ([Q0]^2)[Ke][aa]/([MP][Me])           C2ulfradk2rmMetr
- 27.1272238  [c^4]{[PL]^2}/{[aa]^4}                        M6trs4nd
- 27.1272240  {[PM]^2}{[d]^2}                           H2ryK2rmm2tr
- 27.1281008  [BHR] = [G]/[c^2] = [G][d][k]         k2rmmetrNwtnS2nd
     = {[Q0]^2}[d]/([4Pi]{[PM]^2}[aa])              C2ulHnryk2rmmetr
     = {[Pf]^2}[d]/{[PB]^2} = [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] = {[aa]^2}/{[k][c^4]}   Hnrym3trS2nd
     = {[d]^2}[k]{[aa]^2} ={[d]^2}{[aa]^2}/{[4Pi][[Ke]} FradH2rym3tr
- 27.1281009  [aa]/[PC] = [PQ][d][aa]/[PM][c]                   ampr
+ 27.1701709  [PC]/[i0]
+ 27.2122411  [a0]/([Me][4Pi]{[aa]^4})                      kgrmMetr
+ 27.2577638  {[z0]^2}/{[k]^2}                          f2adM2trO2mm
+ 27.2721104  [c]/[Q0]                                  cuulMetrscnd
- 27.3141804  [Me]([aa]^2)[4Pi]/[d]                     hnryKgrmMetr
     = [Me]([Re]/[a0])[4Pi]/[d] = ([Q0]^2)/[a0]             C2ulmetr
- 27.4161197  {[Q0]^2}/[G]                          C2ulK2rmm2trnwtn
- 27.4291308  [BHR]/2                                       kgrmMetr
+ 27.4495384  [Pf]/[f0]
- 27.5565044  [Hu][4Pi][k]                              FradHrtzmetr
+ 27.5672967  [PE]/[PQ] = [PQ]/{[PL][k] = [PC][z0]     cuulJuul=Vltt
+ 27.5672968  [c^3]/[aa]                                    M3trs3nd
- 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
     = {[Q0]^2}[c^2][d]/[4Pi] = 2[v0]{[w0]^2}/{[RK][Pi]}    M2trNwtn
     = {[a0]^2}{[i0]^2}[d]/([4Pi]{[aa]^2})              A2prHnryMetr
     = [2][a0](13.605804 electron volts)            MetrohmmscndW2br
*10* = [Me]([a0]^3)([2af]^2) = ([AUN charge]^2)[Ke]     KgrmM3trs2nd
+ 27.6378149  [c^2]/{[aa]^5}                                M2trs2nd
- 27.7250271  [Mm] = Mass of muon                               Kgrm
- 27.7773225  [G][Hu]                               k2rmM2trNwtnscnd
- 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
+ 28.0064927  [c^2]/[k]                                     fradM3tr
- 28.0761339  [PQ][PM][aa]                                  CuulKgrm
- 28.1028659  [23M] = ([Q0]^2)([a0]^2)/[Me] = [He]/([B0]^2) Juult2la
     = [PM]{[PL]^2}[hB][a0][Pf]/([Ke]{[Me]^2})          C2ulkgrmM2tr
     = [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
- 28.1648488  {[B0]^2}{[A0]^2}                              M2trT2la
- 28.1770178  [Tc]=[2/3][4Pi]([Re]^2) = Thomson cross section   M2tr
+ 28.1988629  [Q0][c^2]/[Me]                        CuulkgrmM2trs2nd
+ 28.2693810  [QeM][a0][2af]/{[aa]^5}           [[CuulkgrmMetrscnd]]
- 28.3912331  [G][c^2]/({[QeM][v0]}^2)                      fradMetr
- 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
+ 28.7599109  {[QeM]^2}{[v0]^2}{[aa]^3}         [[C2ulk2rmM2trs2nd]]
- 28.7765022  [c^2]{[PQ]^2}[a0][4Pi]                    C2ulM3trs2nd
- 28.8149473  [G][Hu][4Pi][aa]                      k2rmM2trNwtnscnd
- 28.8765324  [G][Hu]/{[4Pi]                        k2rmM2trNwtnscnd
- 28.8892558  {[PM]^3}[d]                               HnryK3rmmetr
+ 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)     W2br 
     = {[Pi]^2}[Ke][PM][PL]/[aa]  V2ttS2nd=c2ulJ2ulS2nd=fradKgrmM2tr
     = ({[Pi][B0]}^2){[a0]^4} = {[Pi][He]/[i0]}^2  C2ulO2mm=a2prJ2ul
     = {[Q0][RK]/2}^2 = {[Pi][vT0]/[2af]}^2    JuulOhmmScnd=M4trT2la
    = [Pi]{[PL]^3}[PM]{[Pf]^2}[d]/{4[aa]}  A2prH2ry=HnryKgrmM2trs2nd
*32* = [Me][a0]([Pi]^2)[Ke]              = [Magnetic flux quantum]^2
+ 29.3689688  [Jf]^2 = {2[Q0]/[h]}^2   H2tzv2tt=m4rt2la=juulohmmscnd
     = [1/([Pi][B0]{[a0]^2})]^2           a2prh2ry=A2prj2ul=c2ulo2mm
    = ([i0]/{[Pi][He]})^2 = ([2af]/{[Pi][vT0]})^2  w2br=Fradkgrmm2tr
     = (2/{[Q0][RK]})^2 = [aa]/{{[Pi]^2}[Ke][PM][PL]}   C2ulj2uls2nd
     = [4Pi][aa]/({[Pi]^2}{[PL]^3}[PM]{[Pf]^2}[d])  hnrykgrmm2trS2nd
     = 1/({[Pi]^2}[Ke][Me][a0])             = [Josephson constant]^2
+ 29.4009935  {[Q0]^2}/{[G][Me][Mp]}                C2ulkgrmm3trS2nd
- 29.5433612  [Me][Pi]                                          Kgrm
+ 29.6336134  [c^4]{[aa]^2}                                 M4trs4nd
+ 29.6336134  {[k]^2}{[PC]^2}{[z0]^4}{[aa]^4}       A2prF2adm2trO4mm
+ 29.7975357  ({[QeM][v0]}^2){[aa]^2}/[4Pi]     [[C2ulk2rmM2trs2nd]]
- 29.9141572  [G][Hu}[aa]                           k2rmM2trNwtnscnd
- 30.0405111  [Me] = Electron mass                              Kgrm
     = 2[Rc][h]/([c]{[aa]^2}) = Natural unit of mass    CuulScndTsla
     = ([B0]^2)([a0]^3)/[Ke] = [Q0][B0]/[2af]           FradM2trT2la
     = ([B0]^2)[AUN electric polarizability]            C2ulHnrym2tr
     = ([Q0]^2)[d]/{[a0][4Pi]([aa]^2)}              C2uljuulM2trT2la
     = ([i0]^2)[RK]/{[2af]([v0]^2)[2Pi]}            A2prm2trOhmmS3nd
     = [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
- 30.1168726  [Fe][Bm]                                  JuulNwtntsla
+ 30.1959149  {[B0]^2}/[A0]                                 m2trT2la
- 30.2071080  [V0] = ([4Pi]/3)([a0]^3])                         M3tr
- 30.3632686  {([w0])^2}/{[Pi]^2} = {[hB]/[Q0]}^2  W2br=c2ulJ2ulS2nd
     = (1/{[Jf][Pi]})^2 = {[B0]^2}{[a0^4}      fradKgrmM2tr=S2ndV2tt
     = {[Q0][RK]/[2Pi]}^2 = {[He]/[i0]}^2  A2prH2ry=HnryKgrmM2trs2nd
     = [Ke][PM][PL]/[aa] = {[vT0]/[2af]]^2     JuulOhmmScnd=M4trT2la
     = {[PL]^3}[PM]{[Pf]^2}[d]/{[4Pi][aa]}         C2ulO2mm=a2prJ2ul
*32* = [Me][a0][Ke]               = ([Magnetic flux quantum]/[Pi])^2
+ 30.3632686  {[Jf][Pi]}^2 = {[Q0]/[hB]}   H2tzv2tt=m4rt2la=c2ulo2mm
     = {[Pi]/[w0]}^2 = [1/([B0]{[a0]^2})]^2        a2prh2ry=A2prj2ul
     = {[i0]/[He]}^2 = {[2af]/[vT0]}^2     Fradkgrmm2tr=juulohmmscnd
     = ([2Pi]/{[Q0][RK]})^2 = [aa]/{[Ke][PM][PL]}  w2br=C2ulj2uls2nd
     = [4Pi][aa]/({[PL]^3}[PM]{[Pf]^2}[d])          hnrykgrmm2trS2nd
     = 1/{[Ke][Me][a0]}               = {[Josephson constant][Pi]}^2
- 30.3641454  [PL][aa]/{[PM][4Pi]}                          kgrmMetr
- 30.4348539  ([Me]^.5)([a0]^1.5)                           K12mM32r
+ 30.5064391  [Fe]/([Q0]^2) = [Ke]/{[a0]^2}                 c2ulNwtn
+ 30.5176918  ([PM]^.5)([PL]^1.5)([Pf]^2)               K12mM32rs2nd
- 30.5227387  [PM][Bk] = [PK]/[c^2]                     degkJuulKgrm
- 30.5233785  [G]^3                                     k6rmM6trN3tn
- 30.5896529  [G][c^2]/({[4Pi]^2}{[QeM]^2}{[v0]^2})     c2ulM2trNwtn
- 30.5905793  ([Q0]^2)[4Pi]/[d]                         C2ulhnryMetr
- 30.6512876  [PM]^4                                            K4rm
- 30.8291966  {([Q0]^2)([a0]^2)/[He]}[Ke]      C2ulfradjuulM3tr=M3tr
     = [Q0][Ke]/([B0][2af])                     CuulfradMetrScndtsla
*18* = [a0]^3 = [Ke][Me]/([B0]^2) =[AUN electric polarizability][Ke]
+ 30.8967456  ({[QeM][v0]}^2){[aa]^2}           [[C2ulk2rmM2trs2nd]]
- 31.0502717  [Mp]{[aa]^2}                                      Kgrm
+ 31.2951248  {[B0]^2}/{[a0]^2}                             m2trT2la
- 31.4008930  {[PC][PL][d]}^2 = [hB][z0]      W2br=a2prJ2ul=M4trt2la
     = {[PQ][z0]}^2 = {[PE]/[PC]}^2 = {[PB]^2}{[PL]^4}  fradKgrmM2tr
     = [PL][PM]/[k] = [G]{[PM}^2}[d]  C2ulO2mm=A2prH2ry=JuulOhmmScnd
- 31.4017701  {[aa]^2}[PL]/[PM] = {[aa]^2}[G]/[c^2]         kgrmMetr
+ 31.5037097  [c^2]/([a0]{[aa]^2})                          Metrs2nd
- 31.5878497  {[Q0]^2}{[aa]^2}/[a0]                         C2ulmetr
+ 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}
+ 31.8497063  [PM]{[PL]^2}{[Pf]^2}/{2[Bk]} Gresky's [PK]: B433  Degk
+ 31.9959555  [4Pi]({[QeM][v0]}^2){[aa]^2}      [[C2ulk2rmM2trs2nd]]
- 32.0509919  [G][Hu]{[aa]^2}                       k2rmM2trNwtnscnd
- 32.1504992  {[d]^4}{[aa]^4}                               H4rym4tr
- 32.1504990  ([PL]/{[k][PM]})^2                        f2adk2rmM4tr
- 32.1504992  {[G]^4}/{[aa]^4}                          k8rmM8trN4tn
+ 32.1507363  [PK] = Plank temperature                          Degk
     = [PE]/[Bk] = [PM]{[PL]^2}{[Pf]^2}/[Bk] = [PM][c^2]/[Bk]
- 32.1773458  [Me][aa]                                          Kgrm
- 32.1951452  {[PQ]^2}/{[i0]^2}                                 S2nd
- 32.1951452  {[PM]^2}[d]/{[Fe][4Pi][c^2]}      HnryK2rmm3trnwtnS2nd
- 32.2759801  [Mp][Bk]/[He]                                 degkKgrm
- 32.2801621  {[PQ]^2}[k]/{[PM]^2}                  C2ulFradk2rmmetr
---------------------------------++---------------------------------
+ 32.4440844  [10^-7]({[v0][Q0]/[Me]}/{[c][PQ]/[PM]})^2
+ 32.4440844  {[d]/[4Pi]}({[v0][Q0]/[Me]}/{[c][PQ]/[PM]})^2 Hnrymetr
+ 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
     = [Ke]([Eg0]^2)/([B0]^4) = [Re][c^2]/[Me]      C2ulfradk2rmMetr
     = 1/(Gresky's dielectric constant of free space) B575 p 29
     = [c^2](Gresky's electronic constant of magnetic permeability)
     = {([Electron gyromagnetic ratio]^2)[Ke]}/{([ue]/[Bm])^2}
*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
+ 32.6540881  [PC]/[PM]                                     Amprkgrm
+ 32.6649024  {[QeM]^2}/[G]                         C2ulkgrmm3trS2nd
- 32.7183667  [G]/{[H0]^2}                          H2ryk2rmNwtnt2la
- 32.7274140  ([Q0]^2)[4Pi][aa]/[d]=([Q0]^2)[10^7][aa]  C2ulhnryMetr
+ 32.9100123  [ae][Ke]                                  fradM2trs2nd
+ 32.9913445  [a0][Pf]                                      Metrscnd
+ 33.0227659  {[v0]^4}/[PM]                             kgrmM4trs4nd
+ 33.0288909  [k][PE}/[PL]                              FradJuulm2tr
+ 33.0335803  {[QeM]^2}{[v0]^2}[aa]             [[C2ulk2rmM2trs2nd]]
- 33.0343763  [G][Bk]                           degkJuulk2rmM2trNwtn
- 33.1200380  [Hu][4Pi]/[2af]
- 33.1363157  [a0][Bk]                                  degkJuulMetr
- 33.1787440  [h] = [2Pi][hB] = Planck constant             JuulScnd
     = {[Q0]^2}[RK] = {[PQ]^2}[z0][2Pi] = {[PX]^2}[aa][RK]
+ 33.2036930  [PX][Pf]/[PM]                                 Amprkgrm
- 33.2149706  ([Q0]^2)[d]/[a0]                                  Kgrm
+ 33.2327698  [2af]^2                                           s2nd
- 33.3169100  ([Q0]^2)/([aa]^2)                                 C2ul
- 33.3676791  4[G]{[Mp]^2}/{[Rp]^2}                             Nwtn
- 33.4797741  [Me][cQ]                                      JuulScnd
- 33.5967585  [G]/{[E0]^2}                          k2rmM4trNwtnv2tt
+ 33.6405444  [c^2]/([a0]{[aa]^3})                          Metrs2nd
- 33.6917128  [PL][4Pi]                                         Metr
+ 33.7356645  {[Q0]^3}/{[Me]^3}                             C3ulk3rm
+ 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  [c^4] = {[G]^2}({[PM]/[PL]}^2)                M4trs4nd
   = ([E0]/{[aa][B0]})^4
+ 33.9072828  ([k][PC]{[z0]^2}[aa])^2               A2prF2adm2trO4mm
     = {[aa]^2}[PM]/{[PL][k]}                               fradKgrm
- 33.9697391  [G]{[Mp]^2}/{[Rp]^2}                              Nwtn
+ 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}/{[4Pi][k][v0]}      CuulM2trTsla
     = {[Q0]^2}[v0][d]/([4Pi]{[aa]^2}) = {[Q0]^2}[RK]/[2Pi]
     = [B0][Q0]{[a0]^2} = [Q0][w0]/[Pi] = [PM][PL][c]
*7*  = [Me]{[a0]^2}[2af] = [u0][Me]/[Q0]                = AUN action
- 33.9927428  [PRL] = [2Pi][PL]                                 Metr
- 34.0254677  4[G]{[Mp]^2}/{[Re]^2}                             Nwtn
- 34.0712051  [G]{[Me]^2}[4Pi][k]/({[Q0]^2}{[aa]^4})
+ 34.0712049  {[v0]^4}[a0][k]/[Me]                  FradkgrmM4trs4nd
- 34.1065161  [4Pi][Hu]^2                                       s2nd
+ 34.1219758  [4Pi]{[v0]^4}/[PM]                        kgrmM4trs4nd
- 34.1327900  {[Me]^2}/({[PM]^2}{[4Pi]^2}{[aa]^6})
+ 34.2015924  [QeM][a0]{[2af]^2}                    CuulkgrmMetrs2nd
- 34.2192479  [Hu]/[2af]
- 34.2413178  {[aa]^.5}[Q0][d]/[c]                      CuulHnryScnd
- 34.2413178  [PA]^.5 = [PL]{[4Pi]^.5}                          Metr
- 34.3141805  [Me]([aa]^2) = [He]/[c^2] = [PM][2af]/[Pf]        Kgrm
+ 34.3319797  [4Pi]([2af]^2)                                    s2nd
- 34.3489190  {[G]^2}({[d]/[4Pi]}^2)                H2ryk4rmM2trN2tn
- 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
- 34.4114308  {[aa]^7}[A0] = {[aa]^7}[4Pi]{[a0]^2}              M2tr
+ 34.5565044  [c^2]/[Hu]                                    HrtzM2tr
- 34.5753527  ({[Q0][z0]}^2)[aa]               C2ulO2mm=fradKgrmM2tr
- 34.5753529  ({[G][PM]}^2)[4Pi]                            M4trN2tn
- 34.6275277  [G]{[Mp]^2}/{[Re]^2}                              Nwtn
- 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]} = [u0][Me]/{[c][Q0][PM]}
- 34.7909227  [c^2][PQ]/{[PM][Pf][aa]}              CuulkgrmM2trscnd
- 34.7909228  [PM][aa]/[PC] = [PQ][d][aa]/[c]           cuulKgrmScnd
     =  [Me]{[aa]^3}/[PQ][2af]                              amprKgrm
- 34.7909228  [PM][d]{[aa]^2}/[c^2]                 HnryKgrmm3trS2nd
- 34.9634020  [Hu][He]                                      Juulscnd
+ 34.9770023  [Ke]/{[PM][He]}                       fradjuulkgrmMetr
+ 35.0173318  ([Ke]^.5)/[Me]                            f12dkgrmM12r
- 35.1028659  [Re]{[a0]^2} = {[a0]^3}[aa]                       M3tr
+ 35.1704146  {[aa]^7}[A0]/{[PL]^2}
     = {[aa]^7}[4Pi]{[a0]^2}/{[PL]^2}
+ 35.1704149  {[QeM]^2}{[v0]^2} = {[ae]^2}/{[B0]^2}     M2trs4ndt2la
     = ({[a0]^2}{[i0]}^2)/{[Me]^2}                      A2prk2rmM2tr
     = [c^4]{[aa]^4}[a0]/{[Ke][Me]}                 FradkgrmM4trs4nd
     = {[v0]^4}[4Pi][k][a0]/[Me]                [[C2ulk2rmM2trs2nd]]
- 35.1712110  [aa][G][Bk]                       degkJuulk2rmM2trNwtn
- 35.2057260  [Hu]^2                                            s2nd
+ 35.3075227  [8Pi][c^4]                                    M4trs4nd
- 35.4116746  [Me]/[B0] = [Q0]/[2af]               Kgrmtsla=CuulScnd
- 35.4537446  {[PX]^2} = [4Pi]{[PQ]^2} = {[Q0]^2}/[aa]          C2ul
     = [hB][c][k][4Pi] = [Me][a0][aa][4Pi]/[d] = [PL][PM][4Pi]/[d]
     = ([PL]^3)[PM]([Pf]^2)/[Ke] = [c^2][PL][PM]/[Ke]
- 35.5398889  [Me][Bk]/[He]                                 degkKgrm
+ 35.5732838  [2Pi]/([Me]{[a0]^2}[f0])                  kgrmm2trScnd
- 35.5891026  [PL]/[2Pi]                                        Metr
+ 35.5906795  [a0][c^2]/{[Mp][aa]}                      kgrmM3trs2nd
+ 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
- 35.6745626  ([Q0]^4){[Ke]^2}/({[aa][PM]}^2)               M6trs4nd
     = ([G][PM])^2 = {[PL]^2}[c^4] = {[PL]^6}{[Pf]^4}
     = {[Pf]^4}{[PV]^2}/({[4Pi]/3}^2)
- 35.6745626  ({[Q0][z0]}^2)[aa]/[4Pi]                      C2ulO2mm
- 35.7064858  [V0][Bk]/[He]                                 degkM3tr
- 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] = {[G]^2}({[PM]/[PL]}^2)/[aa]      M4trs4nd
     = {[E0]^4}/({[aa]^5}{[B0]^4})
+ 36.0441175  [aa]([k][PC]{[z0]^2})^2               A2prF2adm2trO4mm
     = [aa][PM]/{[PL][k]}                                   fradKgrm
+ 36.0674218  [PE]/[Mp]                                     Juulkgrm
+ 36.0907261  [Fe]/[Fgp] = {[Q0]^2}[Ke]/([G]{[Mp]^2}
     = {[Fe]/[Fg]}/{[Mp]/[Me]} = {[Fe]/[Fg]}/{[Bm]/[Nm]}
- 36.1137586  [hB][aa]                                      JuulScnd
- 36.1137586  [PQ][PL][c^2]                             CuulM3trs2nd
- 36.2643156  [Me][Mp]/([a0]^2) = [Fg]/[G]                  K2rmm2tr
- 36.2696247  {[Me]^2}/({[PM]^2}{[4Pi]^2}{[aa]^5})
- 36.3285745  {[a0]^3][Bk]/[He]                             degkM3tr
- 36.3318992  [PA][PK]                                      DegkM2tr
+ 36.3384271  [QeM][a0]{[2af]^2}/[aa]               CuulkgrmMetrs2nd
+ 36.3804971  [v0]/[Me]                                 kgrmMetrscnd
- 36.4688145 {[aa]^2}{[PM]^2}[d]/{[Fe][4Pi][c^2]}   a2prK2rmm2trS2nd
- 36.4688145 {[aa]^2}{[PQ]^2}/{[i0]^2}                          S2nd
- 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]) = {[PX]^2}/[4Pi]           FradJuul=C2ul
     = [G][k]{[PM]^2} = [hB][c][k] = [PM][PC]/PB]       AmprKgrmtsla
     = {[PM]^2}{[Pf]^2}/{[PB]^2}                        K2rms2ndt2la
- 36.5529546  [PQ][PM][aa]/[c]                      CuulKgrmmetrScnd
- 36.5529546  ([PM]^2}{[aa]^2}/[c^2]                    K2rmm2trS2nd
+ 36.6898894  [4Pi][a0][c^2]/{[Mp][aa]}                 kgrmM3trs2nd
- 36.8018938  {[Me]^2}{[2af]^2}/[Ke]                FradK2rmmetrs2nd
- 36.9277574  [PL][aa]                                          Metr
- 36.9510617  ([a0]^2)[Fg]/[Me]                             M3trs2nd
- 37.0564509  [Hu][A0]                                      HrtzM2tr
+ 37.0817422  [Ke][PM]/[PL] = [PM]/{[PL][4Pi][k]}  a2prN2wn=fradKgrm
     = ({[Pp]^2}[aa])/{[Q0]^2} = [FBH][d]/[4Pi]     c2ulK2rmM2trs2nd
- 37.1424506  [Me][a0]/([4Pi]{[aa]^2})                      KgrmMetr
+ 37.3072496  {[QeM]^2}{[v0]^2}/[aa]            [[C2ulk2rmM2trs2nd]]
     = {[v0]^4}[4Pi][k][a0]/{[Me][aa]}              FradkgrmM4trs4nd
- 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
+ 37.5769571  [c]/{[Re]^2}                                  metrscnd
- 37.5905793  [Q0]^2 = [G]([PM]^2)[aa]/[Ke]        C2ul=K2rms2ndt2la
     = ([Me][2af]/[B0])^2 = ([E0]{[a0]^2}/[Ke])^2   FradKgrmM2trs2nd
     = 2[aa][h]/{[d][c]} = [Me][a0]({[aa]^2}[4Pi]/[d])  h2ryJ2ulS4nd
     = [PL][PM][4Pi][aa]/[d] = [Me][Re]([4Pi]/[d])      hnryKgrmM2tr
     = [PM]{[PL]^3}{[Pf]^2}[aa]/[Ke] =(4[w0][v0][k])^2  F2ads2ndW2br
     = {[PX]^2}[aa] = [hB][v0][4Pi][k] = [h]/[RK]           FradJuul
     = {[PQ]^2}[4Pi][aa] = {[PQ]^2}[z0][2Pi]/[RK]       JuulohmmScnd
     = {[v0]^2}[Me][a0]/[Ke] = [c^2]{[aa]^2}[Me][a0]/[Ke]
*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
+ 38.1809522  [c^4]/{[aa]^2}                                M4trs4nd
+ 38.1809522  ([aa]/{[G][k]})^2            f2adK2rmm4trS4nd=c4ulK4rm
+ 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
- 38.3448745  [G]{[Me]^2}[4Pi][k]/({[Q0]^2}{[aa]^2})
- 38.3448743  {[aa]^2}[Me]/({[v0]^4}[a0][k])        fradKgrmm4trS4nd
- 38.3887591  [hB]/[RK]                                 JuulohmmScnd
- 38.4064594  {[Me]^2}/({[PM]^2}{[4Pi]^2}{[aa]^4})
- 38.5548781  [PL][d]/[aa]                             a2prNwtn=Hnry
+ 38.5553166  {[k]^.5}[PE]/[PL]                         F12dJuulm32r
- 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}
- 39.0645921  [PL]{[aa]^2}                                      Metr
- 39.1898359  [Mp][a0][aa]                                  KgrmMetr
- 39.2185769  {[Q0]^2}/{[Pp]^2} = {[Q0]^2}/([c^2]{[PM]^2})  Fradkgrm
     = [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)[a0][PM]/([Mp][PL]) = ([aa]^3)[PM][Pf]/([Mp][2af])
     = {[aa]^2}[a0][c^2]/{[Mp][G]} = [a0]{[v0]^2}/{[Mp][G]}
     = {[PQ]^2}[aa][PM][d]/{[Me][Mp][PL]}
     = 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
     = {[PQ]^2}[c^2]/{[aa][Me][Mp]}             [[C2ulk2rmM2trs2nd]]
     = [hB][c^3][k]/{[aa][Me][Mp]}                  FradkgrmM4trs4nd
     = {[Q0]^2}{[v0]^2}/([Me][Mp][4Pi]{[aa]^4})
     = [c^4][a0][k]/[Mp] = [a0][c^2]/{[Mp][d]}
---------------------------------++---------------------------------
+ 39.4440844  ({[aa][QeM]}^2)/{[G][k]} = [T+32.4440844][10^7]
     = {[QeM]^2}{[v0]^2}/{[G]/[d]}
     =            ({[aa]^4}[4Pi][a0]/[Me]) / {        [PL]/[PM]}
     =         ({[v0]^4}[k][4Pi][a0]/[Me]) / {[c^4][k][PL]/[PM]}
     = ({[aa]^2}{[v0]^2}[k][4Pi][a0]/[Me]) / ([c^2][k][PL]/[PM])
+ 39.4440844  {[QeM]^2}{[v0]^2}/{[aa]^2}        [[C2ulk2rmM2trs2nd]]
     = {[QeM]^2}[c^2] = {[v0]^2}[a0][4Pi]/[Me][d]   hnrykgrmM4trs2nd
     = ([ae]/{[B0][aa]})^2 = [Re][c^2][4Pi]/{[d][Me]}   M2trs4ndt2la
---------------------------------++---------------------------------
- 39.6602132  {[G]^4}/{[4Pi][aa]}                       k8rmM8trN4tn
- 39.7274139  {[Q0]^2}[aa]                                      C2ul
- 39.8135582  [PM]/[PK] = [PM][Bk]/[PE]                     degkKgrm
- 39.9941525  ([Q0]^2)/{([v0]^2)[a0]}                   C2ulm3trS2nd
     = ([Q0]^2)[d]/{[a0][Ke]([aa]^2)[4Pi]}              FradKgrmmetr
*1*  = [Me]/[Ke]                                   = [AUN mass]/[Ke]
+ 40.0932840  [c][PC][4Pi][aa]/[PM]                 AmprkgrmMetrscnd
+ 40.2472688  [c^5][aa]                                     M5trs5nd
- 40.2553248  {[PX]^2}[d]/[4Pi]                                 C2ul
+ 40.3169100  [PC]/{[PM]^2}                                 Amprk2rm
- 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)}              c2ulFradJuulmetrScnd
     = {[PQ]^2}[d]/[aa] = [Rp][Mp]/{[2Pi][aa]} FradmetrOhmm=KgrmMetr
*32* = [Me][a0]         = ([Magnetic flux quantum]^2)/{([Pi]^2)[Ke]}
+ 40.3177869  [aa]/({[G][k]}^2)            f2adK2rmm4trS4nd=c4ulK4rm
+ 40.3177869  [c^4]/{[aa]^3}                                M4trs4nd
+ 40.3177868  [FBH][d]/[aa]=[PM]/{[aa][k][PL]} fradKgrm=HnrymetrNwtn
- 40.3589800  [Q0][Me][c]                           CuulKgrmMetrscnd
- 40.4627798  [Bk][Hu]                                  degkHrtzJuul
+ 40.4817092  {[PQ]^2}[c^2]/{[Me]^2}            [[C2ulk2rmM2trs2nd]]
     = {[aa]^2}([PQ][c][a0]/{[PL][PM]})^2
     = {[QeM]^2}{[v0]^2}/([4Pi]{[aa]^3})
+ 40.4817092 {[QeM]^2}[Ke][v0]/{[G][c]} = {[aa]^6}[PPw]/[Pw0]
     = {[aa]^7}{[PC]^2}[4Pi]/{[i0]^2} = {[aa]^2}{[PM]^2}/{[Me]^2}
     = {[Pf]^2}{[aa]^6}/{[2af]^2} = {[PE]^2}{[aa]^6}/{[He]^2}
     = {[aa]^4}{[a0]/[PL]}^2 = {[aa]^4}{[Pp]^2}/{[p0]^2}
     = {[aa]^4}[PE][PM]/{[He][Me]} = {[aa]^4}[PM][Pf]/{[Me][2af]}
     = {[aa]^5}[a0][Pf]/([PL][2af])
- 40.5432943  [G][k]/{[4Pi]({[aa][QeM]}^2)}
- 40.5432941  {[Me]^2}/({[PM]^2}{[4Pi]^2}{[aa]^3})
- 40.5532853  4[G]{[Me]^2}/{[Re]^2}                             Nwtn
- 40.5592339  [Hu]/[ae]                                     metrScnd
- 40.6917128  [PL][d]                                  a2prNwtn=Hnry
- 40.6978380  [G]^4                                     k8rmM8trN4tn
- 40.7246846  [Me]{[aa]^5}                                      Kgrm
- 40.7828380  [18P] = {([Q0][a0])^2}/[He]               C2uljuulM2tr
     = [Q0]/([B0][2af]) = [Me]/([B0]^2)                 CuulScndtsla
*18* =([a0]^3)/[Ke] = AUN electric polarizability  FradM2tr=Kgrmt2la
- 40.9531224  {[PX]^2}[Bk]/[He]                             C2uldegk
- 40.8266240  {[PQ]^2}{[aa]^2}                                  C2ul
- 41.1055955  [a0]^4                                            M4tr
+ 41.1309087  [v0]/[PL] = [Pf][aa]                              Hrtz
+ 41.1309088  [c][PC]/[PM]                          AmprkgrmMetrscnd
- 41.1553453  [G]{[Me]^2}/{[Re]^2}                              Nwtn
- 41.3141804  [Me]([aa]^2)[d]/[4Pi]                     HnryKgrmmetr
- 41.3266705  [Mp][Re]                                      KgrmMetr
- 41.4161198  [PL][PM]/{[4Pi][aa]                           Kgrmmetr
+ 41.4914696  ([hB][c])/[G][Me][Mp] = ([PM]^2)/([Me][Mp])
+ 41.5809191  {[QeM]^2}{[v0]^2}/{[aa]^3}        [[C2ulk2rmM2trs2nd]]
+ 41.5809189  {[PM]^2}[4Pi]{[aa]^2}/{[Me]^2}
+ 41.6434305  [G][c^2][Ke]/({[Q0][v0]}^2)      c2uulfradk2rmM3trNwtn
- 41.6555648  [h]/[c] = [Mp][Rp] = 2[cQ][Me]/[c] = [Cw][Me] KgrmMetr
     = [PL][PM][2Pi] = [Me][a0][aa][2Pi] = [Me]{[aa]^2}/{2[Rc}}
+ 41.7516606  [2af][Jf][Pi][Ke]                     fradH2tzMetrvltt
- 41.8642486  {[Q0]^2}{[aa]^2}                                  C2ul
+ 41.9449075  [FBH][aa]                                         Nwtn
+ 41.9495969 {[QeM]^2}{[v0]^2}[Ke][4Pi]{[aa]^2} C2ulfradk2rmM3trs2nd
+ 42.1685336  [c][PC]/{[PM][4Pi][aa]}               AmprkgrmMetrscnd
- 42.3051164  ([Mp][h][G][aa]/{[Me]([c]^5)})^.5                 Scnd
     = Baggiolini's cronos B272
- 42.3251958  [G]/[PK]                              degkk2rmM2trNwtn
- 42.3135047  [Bk][4Pi]{[a0]^2}                         degkJuulM2tr
+ 42.3197105  {[PC]^2}/[PM]                                 A2prkgrm
+ 42.3841035  [c^5]                                         M5trs5nd
- 42.4528678  {[PM]^4}{[d^2} = {[PM]^4}/({[k]^2}[c^4])  H2ryK4rmm2tr
- 42.4528678  {[PQ]^4}/({[k]^2}{[aa]^4})                C4ulf2adM2tr
     = {[hB]^2}{[v0]^2}/{[aa]^6} = {[Q0]^4}{[Ke]^2}/{[aa]^6}
- 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} = [u0][Me]/{[c][Q0]}
     = [Me][RE]/[aa] = [Mp][Rp]/[2Pi]
- 42.4537446  [Pu0]/[aa] =  [c][PL][PQ]/[aa]                AmprM2tr
- 42.4537446  [c^4]{[PL]^2}[k]/{[aa]^2}                 FradM5trs4nd
- 42.4546216  {[PQ]^4}/{[PM]^4} = {[G][k]}^2       C4ulk4rm=H4tzt4la
     = {[Pf]/[PB]}^4 = {[G][Jf^2][Me][a0][Pi]/4}^2  F2adk4rmM2trN2tn
     = ([PL]/{[PM][d]})^2                       k2rmM6trN2tnv4tts4nd
- 42.4546216  ([aa]^4)/[c^4] = ([aa]^4){[d][k]}^2           m4trS4nd
     = ([2Pi][d]/{[4Pi][RK]})^4 = {[v0]/[c^2]}^4        H4rym4tro4mm
     = ({[i0]^2}[d]/{[4Pi][Pw0]})^4            F2adH2rym4tr=N4tnw4at
     = {[B0]{[aa]^2}/[E0]}^4 = {[aa]^8}/{[v0]^4}        M4trT4lav4tt
- 42.4546215  {[aa]^2}[k][PL]/[PM]                          Fradkgrm
     =   ({[PQ]/[PM]}^2){[aa]^2}/[c^2]              C2ulk2rmm2trS2nd
- 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])
     = [PV][Pf]/([V0][2af]{[aa]^2}) = [G][Me]/([a0]{[v0]^2})
     = [Pf]{[PL]^3}/({[aa]^2}{[a0]^3}[2af]) = [G][Me]/{[Re][c^2]}
     = {[PL]^3}[Pf]/([2af]([aa]^2){[a0]^3}) = [Fge]/[Fe] 
     = [G]{[Me]^2}/{[hB][v0]} = [G]{[Me]^2}/([Ke]{[Q0]^2})
     = 4[PL][B0][k]/({[aa]^2}[PM][Jf])
- 42.6801288  {[Me]^2}/({[PM]^2}{[4Pi][aa]}^2)
- 42.7204831  [Me]/([v0]^2)    C4ulj3ulM4trT4la=F2adkgrmM2trS2ndT4la
     = (AUN 2nd hyperpolarizability)([B0]^4)            Kgrmm2trS2nd
- 42.8285475  [PL][d][aa]                              a2prNwtn=Hnry
- 42.8346727  {[G]^4][aa]                               k8rmM8trN4tn
- 42.8928262  {[G]/[H0]}^2         fradk3rmM6tr=H2ryk4rmM2trN2tnt2la
+ 42.9825322  [FPQ] = {[PQ]^2}[Ke]/{[PL]^2} = [FBH]/[4Pi]       Nwtn
- 43.0281160  [4/3][Pi]([Re]^3)                                 M3tr
- 43.0899570  {[Q0]^2}[Bk]/[He]                             C2uldegk
- 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
     = {[c^3][PQ]/[aa][hB]}                         CuuljuulM3trs4nd
+ 43.2677434  [PM][aa]/[PQ][PL] = [PQ][d][aa]/{[PL]^2}  CuulHnrym3tr
     = {[PM]^2}/{[Me][PQ][a0]}                          cuulKgrmmetr
+ 43.2835623  [FBH]/[2Pi]                                       Nwtn
- 43.3330134  {[PQ]^2}{[k]^2}/{[PM]^2}              C2ulF2adk2rmm2tr
     = {[PL]^2}{[k]^2}/({[PQ]^2}{[d]^2})            c2ulF2adh2ryM2tr
- 43.3330134  ({[k]^2}{[aa]^2})/[c^2]                   F2adm4trS2nd
     = {[aa]^2}/({[z0]^2}[c^4])                         m4tro2mmS4nd
- 43.4127146  [Bk]{[a0]^2}                              degkJuulM2tr
- 43.4244057  [G]/{[4Pi][PK]}                       degkk2rmM2trNwtn
- 43.4913695  ([Q0]^2)[d] = [4Pi][aa][PL][PM]  KgrmMetr=C2ulHnrymetr
- 43.5529545  [PL][PM]/[4Pi] = {[PQ^2}[d]/[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}
     = {[Me]^2}/([4Pi][aa]{[PM]^2})
+ 43.7177538  {[QeM]^2}{[v0]^2}/{[aa]^4}        [[C2ulk2rmM2trs2nd]]
+ 43.7865558  [PC]/[Q0]
- 43.7923994  [2Pi][Me][Re] = [aa][h]/[c] = [aa][Rp][Mp]    KgrmMetr
- 43.8409597  [RK]/([2Pi]{[f0]^3})                          OhmmS3nd
+ 43.9305653  [Ke]/[hB]                                 Hnrykgrmscnd
+ 43.9750968  {[Eg0]^2} = {[QD0][Ke]}^2        CuulFradm4tr=m4trV2tt
     = {[B0][2af]}^2 = [Me][Ke]{[2af]^2}/{[a0]^3}           s2ndT2la
     = [AUN electric field gradient]^2              fradH2tzKgrmm2tr
- 44.0147985  [4/3][Pi]{[Rp]^3}                                 M3tr
- 44.0165935  [4/3][Pi]{[Rn]^3}                                 M3tr
+ 44.0248465  {[QeM]^2}{[v0]^2}[Ke]/[4Pi]       C2ulfradk2rmM3trs2nd
- 44.0409742  {[PM]([PL]^7)([Pf]^4)/[Ke]}^.5       AmprM2tr=Juultsla
---------------------------------++---------------------------------
+ 44.0817422  [4Pi][FPQ] = [FPX] = [FBH] = [FPC] = [PE]/[PL]    Nwtn
    = {[PX]^2}/([4Pi][k]{[PL]^2}) = [G]([PM]^2)/([PL]^2) = [PPw]/[c]
     = {[PQ]^2}/([k]{[PL]^2}) = [KE]{[Q0]^2}/([aa]{[PL]^2})
     = [c][PM][Pf] = [c^2][PM]/[PL] = [PM][PL]{[Pf]^2} = [d]{[PC^2]}
     = [z0][k][c^3][PM]/[PL] = [hB][c]/{[PL]^2} = [c^4]/[G]
---------------------------------++---------------------------------
+ 44.0817422  {[PM]^1.5}[aa]/({[k]^.5}{[PL]^1.5})           KgrmTsla
+ 44.0817422  [PC][c^2]/[aa]                            CuulM2trs2nd
+ 44.0864316  {[QeM]^2}{[v0]^2}[Ke][4Pi][aa]    C2ulfradk2rmM3trs2nd
- 44.0934294  [Me][Re][Pi]                                  KgrmMetr
- 44.2227784  {[aa]^8}[PL]/[PM]                             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
+ 44.4448541  [PC]/([4Pi]{[a0]^2})                          Amprm2tr
+ 44.4829790  [He]([f0]^2)/[V0]                         Kgrmmetrs4nd
- 44.5905793  [Pu0] = [PC]{[PL]^2} = [PQ][PL][c]            AmprM2tr
     = [hB][c]{[PL][k]/[PM]}^.5
- 44.5905793  [Me][Re] = [Me][a0]([aa]^2) = [PM][PL][aa]    KgrmMetr
     = ([Q0]^2)[Ke]/[c^2] = ([Q0]^2)[d]/[4Pi]           C2ulHnrymetr
     = [hB][aa]/[c] = [aa][Rp][Mp]/[2Pi]
*32* = [Me][a0]([v0]^2)[d]/([Ke][4Pi])              C2ulfradmetrS2nd
- 44.6368872  [Rp]^3                                            M3tr
+ 44.7553786 ({[PQ][c]}^2)/({[Me][aa]}^2)       [[C2ulk2rmM2trs2nd]]
     = ({[PQ][c][a0]}^2)/({[PL][PM]}^2)
     = {[QeM]^2}{[v0]^2}/([4Pi]{[aa]^5})
     = {[QeM]^2}[Ke][v0]/([G][c]{[aa]^2})
+ 44.7553784 {[QeM]^2}[Ke][v0]/([G][c]{[aa]^2}) ={[aa]^4}[PPw]/[Pw0]
     = {[aa]^5}{[PC]^2}[4Pi]/{[i0]^2} = {[PM]^2}/{[Me]^2}
     = {[Pf]^2}{[aa]^4}/{[2af]^2} = {[PE]^2}{[aa]^4}/{[He]^2}
     = {[aa]^2}{[a0]/[PL]}^2 = {[aa]^2}{[Pp]^2}/{[p0]^2}
     = {[aa]^2}[PE][PM]/{[He][Me]} = {[aa]^2}[PM][Pf]/{[Me][2af]}
     = {[aa]^3}[a0][Pf]/([PL][2af]) = [hB][c]/([G]{[Me]^2})
+ 44.8169637  [4Pi]{[QeM]^2}{[v0]^2}{[aa]^4}    [[C2ulk2rmM2trs2nd]]
- 44.9194735  [Me][Rp]                                      KgrmMetr
- 44.9653821  [c^2][{[PL]^2]/[PM]                       kgrmM4trs2nd
+ 44.9808860  {[Q0]^4}/{[Me]^4}                             C4ulk4rm
- 45.0297752  [hB][k]                               FradJuulmetrScnd
- 45.0877292  [Me][Re]/[Pi]                                 KgrmMetr
+ 45.1240562  {[a0]^5}{[2af]^4}/[Me]                    kgrmM5trs4nd
     ={[v0]^4}[a0]/[Me] = ([QeM]^2){[v0]^2}[Ke] C2ulfradk2rmM3trs2nd
+ 45.2811589  [2Pi][He]([f0]^2)/[V0]                    Kgrmmetrs4nd
- 45.4045780 {[PL]^[2.5])[Pf]{[k]^[.5]}/{[PM]^[.5]} F12dHrtzk12mM2tr
- 45.4045781  [PT][aa]                                          Scnd
+ 45.4819019  [8Pi]{c^4]/{G}                            KgrmMetrs2nd
+ 45.5440640  [PC]/{[a0]^2}                                 Amprm2tr
- 45.6897892  [PL][PM][aa]/[4Pi] = {Me][a0]{[aa]^2}/[4Pi]   KgrmMetr
     = {[PQ]^2}[aa][d]/[4Pi] = {[Q0]^2}[d]/{[4Pi]^2}
- 45.8437740  [PL][k]                                           Frad
- 45.8587161  [Me]/[f0]                                     KgrmScnd
- 45.8670784  [Mp][aa]/[c^2]                            Kgrmm2trS2nd
+ 46.1616812  {[QeM]^2}{[v0]^2}[Ke]/{[4Pi][aa]} C2ulfradk2rmM3trs2nd
+ 46.2232663  {[QeM]^2}{[v0]^2}[Ke][4Pi]        C2ulfradk2rmM3trs2nd
- 46.2354994  [RK]/([2Pi]{[2af]^3})                         OhmmS3nd
+ 46.2801620  ([4Pi]^2)[FBH]                                    Nwtn
- 46.4387750  [Fg] = [G][Me][Mp]/([a0]^2)                       Nwtn
     = [Fe][Me][Mp]/{([PM]^2)[aa]}
- 46.5065960  {[PQ]^2}[4Pi][k]
- 46.6568960  [Me]/[2af]  = [PM][PT]/([aa]^2)               KgrmScnd
+ 46.8234929  [2af]/[V0]                                    m3trscnd
+ 46.8922131  [a0][PM]/{[PL][Me]} = [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]} = ([PM]^2)/({[Me]^2}[aa])
     = {[Q0]^2}[c^2]/({[Me]^2}{[aa]^4}[4Pi])
- 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
- 47.4763801  {[PM]^2}/{PK]                                 degkK2rm
- 47.6058059  {[PQ]^2}[k]                               C2ulFradmetr
+ 47.6257186  [a0][i0]/{[Me]^2}                         Amprk2rmMetr
+ 47.6569744  [Ke]/{[PM][Me]}                           fradk2rmMetr
+ 47.7229687  [PC]/[u0]                                         m2tr
- 47.7650387  [G]{[Q0]^2}                           C2ulk2rmM2trNwtn
- 47.8266239  [PL][PM]{[aa]^2}/[4Pi]                        KgrmMetr
- 47.9806087  [aa][PL][k]                                       Frad
+ 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
+ 47.9914232  ({[QeM][a0][2af]}^2)/{[aa]^6}     [[C2ulk2rmM2trs2nd]]
     = {[QeM]^2}[c^2]/{[aa]^4} = {[QeM]^2}/([d][k]{[aa]^4})
+ 48.2985159 ({[QeM][v0]}^2)[Ke]/([4Pi]{[aa]^2})C2ulfradk2rmM3trs2nd
- 48.3545346  {[c][PL]/[aa]}^2                              M4trs2nd
- 48.3545347  [PM][PL][d] = {[d][PQ]}^2        C2ulH2rym2tr=HnryKgrm
- 48.3545346 [c^4]({[PL][PQ]}^2)/({[PM]^2}{[aa]^4}) C2ulk2rmM6trs4nd
+ 48.3549731  ([PM]^.5)/([PL]^1.5)                          Kgrmmetr
+ 48.3554117  [c^4]/([G]{[aa]^2})                   k2rmM6trNwtns4nd
+ 48.5102353  [PB]/[B0]
+ 48.7633765  [PC]{[Ke]^.5}/[Q0]                            f12dM12r
+ 48.9449075  {[PC]^2}[4Pi][aa] = [PM]([PL]^3){[Pf]^4)[aa]/[Ke] A2pr
+ 49.0290476 ({[PQ][c]}^2)/({[Me][aa]}^4)       [[C2ulk2rmM2trs2nd]]
     = ({[PQ][c][a0]}^2)/({[PL][PM][aa]}^2)
     = {[QeM]^2}{[v0]^2}/([4Pi]{[aa]^7})
     = {[QeM]^2}[Ke][v0]/([G][c]{[aa]^4})
+ 49.0290476 {[QeM]^2}[Ke][v0]/([G][c]{[aa]^4}) ={[aa]^2}[PPw]/[Pw0]
     = {[aa]^3}{[PC]^2}[4Pi]/{[i0]^2} = {[PM]^2}/({[Me]^2}{[aa]^2})
     = {[Pf]^2}{[aa]^2}/{[2af]^2} = {[PE]^2}{[aa]^2}/{[He]^2}
     = {[a0]/[PL]}^2 = {[Pp]^2}/{[p0]^2} = [aa][a0][Pf]/([PL][2af])
     = [A0]/[PA] = [PE][PM]/{[He][Me]}= [PM][Pf]/{[Me][2af]}
+ 49.1685335  [Pf]/[d]                                  Hnrymetrscnd
+ 49.3129815  [PC]/([Q0]{[k]^.5})                           f12dM12r
- 49.3921594  {[Q0][d]}^2                               C2ulH2rym2tr
- 49.3921596  [Me][a0][G][4Pi]                          kgrmM3trNwtn
- 49.3659290  [PV]{[Pf]^2}/[PK]                         degkM3trs2nd
- 49.5378847  [PM][PL][Fe]                              KgrmMetrNwtn
- 49.6244863  [Q0]([a0^3)                                    CulM3tr
+ 49.6310338  [c^2]/{[Mp][d]}                       hnrykgrmM3trs2nd
+ 49.6495028  {[B0]^2}/{[A0]^2}                             m4trT2la
- 49.7026838  [Fge] = [G]([Me]^2)/([a0]^2)                      Nwtn
- 49.7426404  [Me][a0]/(4{[RK]^2})                      KgrmMetro2mm
+ 49.8625864  [PC]{[4Pi]^.5}/([Q0]{[k]^.5})                 f12dM12r
- 49.8776086  [PX]/[PK]                                     Cuuldegk
- 49.8893832  ([PL]^2)[Fe]/[Mp]                             M3trs2nd
+ 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  [c^4]/({[d]^2}{[aa]^2})                   h2ryM6trs4nd
+ 49.9825322  {[aa]^2}{[PM]^2}/{[PL]^2}                     K2rmm2tr
+ 49.9825321  {[aa]^4}{[PM]^3}/([c^4][k]}{[PL]^3})  fradK3rmm6trS4nd
+ 50.0666723  [FPQ]/[Fe]
- 50.1174434  {[aa]^2}[PL][k]                                   Frad
+ 50.1273808  [4Pi][k]/{[Me]^2}                         Fradk2rmmetr
+ 50.1282577  {[PM]^2}[4Pi]/({[aa]^2}{[Me]^2})
- 50.1323855  [h]/[c^2]                                     KgrmScnd
- 50.4272136  [PQ]/[PK]                                     Cuuldegk
- 50.5933089  [Me]([a0]^2)                                  KgrmM2tr
- 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
- 51.0002064  {[hB][c]}^2 = ([G]{[PM]^2})^2             C4ulf2adM2tr
     = ({[Q0]^2}[Ke]/[aa])^2  = ([FBH]{[PL]^2})^2       A4prH2ryM2tr
     = ({[PQ]^2}/[k])^2 = ({[PC]^2}{[PL]^2}[d])^2  M4trN2tn=J2ulM2tr
     = ({[Pp]^2}[PL]/[PM])^2 = {[PM][PL][c^2]}^2        K2rmM6trs4nd
     = [({[Me][2af]/[B0]}^2)/{[aa][4Pi][k]}]^2 = ({[PX]^2}[Ke])^2
- 51.0002064  ([PC]{[PL]^2}[c^2]/[aa])^2                A2prM8trs4nd
- 51.0002064  {[PQ][d][c][aa][PM]}^2                C2ulH2ryK2rms2nd
- 51.0002064  {[PM]^4}{[aa]^4}{[d]^2}                   H2ryK4rmm2tr
- 51.0002064  {[PM]^4}{[aa]^4}{[4Pi][10^-7]}^2                  K4rm
- 51.0019604  ({[PQ]^4}{[aa]}^4)/{[PM]^4}                   C4ulk4rm
- 51.0019604  {[aa]^8}/[c^4]                                m4trS4nd
+ 51.0682703  {[f0]^3}[RK]/[2Pi]                            Ohmms3nd
+ 51.0817422  {[PC]^2}[4Pi] = [FBH][4Pi]/[d]                    A2pr
     = [4Pi][k]([PL]^3)[PM]([Pf]^4)                 FradKgrmM2trs4nd
     = [4Pi][k][c^3][Pf][PM] = [4Pi][PM]/([PL][k]{[d]^2})
+ 51.1658823  [FBH]/[Fe]
- 51.3697613  [Me][a0][k]                                   FradKgrm
- 51.3697613  {[PM]^2}[aa]/[c^4]                        K2rmm4trS4nd
- 51.3819945  [a0]^5                                            M5tr
+ 51.7445641  [aBH] =[G][PM]/{[PL]^2} =[FBH]/[PM] =[c][Pf]  Metrs2nd
+ 51.7445641  [PB][aa] = [aa]{[PM]/([k]{[PL]^3})}^.5            Tsla
- 52.4939875  [19H] = {([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
+ 52.5585628  ({[PM][aa]}^2)/([c]{[PL]^2}[k])       fradK2rmm2trScnd
- 52.6282040  {[PL]^2}[c^2]                                 M4trs2nd
- 52.6282042  [d][Me][a0]{[aa]^3}          a2prKgrmMetrNwtn=HnryKgrm
- 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  {[PE]^2}/{[He]^2} = {[QeM]^2}[Ke][v0]/([G][c]{[aa]^6})
    = [PPw]/[Pw0] = {[Pf]^2}/{[2af]^2} = [a0][c^2]/([Me][d]{[aa]^5})
     = [aa]{[PC]^2}[4Pi]/{[i0]^2} = {[PM]^2}/({[Me]^2}{[aa]^4})
     = {[a0]^2}/({[PL]^2}{[aa]^2}) = {[Pp]^2}/({[p0]^2}{[aa]^2})
     = [PE][PM]/([He][Me]{[aa]^2}) = [PM][Pf]/([Me][2af]{[aa]^2})
     = [a0][Pf]/([PL][2af][aa]) = [a0]/([Me][k]{[d]^2}{[aa]^5})
+ 53.3027170 ({[PQ][c]}^2)/({[Me]^2}{[aa]}^6)   [[C2ulk2rmM2trs2nd]]
     = ({[PQ][c][a0]}^2)/({[PL]^2}{[PM]^2}{[aa]^4})
     = {[QeM]^2}{[v0]^2}/([4Pi]{[aa]^9})
---------------------------------++---------------------------------
+ 53.3317938  ([Ke]^.5){([PM]^.5)/([PL]^1.5)}                   Tsla
+ 53.4628100  {[2af]^3}[RK]/([2Pi]                          Ohmms3nd
- 53.5532046  [Mp]^2                                            K2rm
+ 53.6577728  [PPw][4Pi]                                        Waat
- 53.7785825  [Me][PL]/[k]                              fradKgrmM2tr
+ 53.8813988  [PB] = {[PM]/([k]{[PL]^3})}^.5 = [PC][d]/[PL]     Tsla
+ 53.8813988  [c][Pf]/[aa]                                  Metrs2nd
- 54.2562016  {[G]^2}/[c^4] = {[G][d][k]}^2         k4rmm2trN2tnS4nd
     = {[Q0]^4}{[d]^2}/({[4Pi]^2}{[PM]^4}{[aa]^2})  C4ulH2ryk4rmm2tr
     = [c^4]/{[FBH]^2} = {([d]/[4Pi])([G]/[Ke])}^2          k2rmM2tr
     = {[Me][a0][aa]^2}/{[PM]^4} = {[PL]^2}/{[PM]^2}
- 54.2562018  {[d]{[aa]^2}/[c^2]}^2        F2adH4rym6tr=H2rym6trS4nd
- 54.2562018  {[aa]^2}/{[PC]^2} = {[PQ][d][aa]/[PM][c]}^2       a2pr
+ 54.3403418  {[PC]/[i0]}^2
+ 54.3581411  [FBH]/[a0]                                    metrNwtn
- 54.5442207  ([Q0]^2)/[c^2]                            C2ulm2trS2nd
- 55.2020616  [Fge][Bk]/[He]                                degkNwtn
- 55.2042346  [PM]{[aa]^2}/[Pf] = [Me]{[aa]^4}/[2af]        KgrmScnd
+ 55.4004551  {[v0]^4}[Me]                                  KgrmM4tr
- 56.0177950  ([PM]^.5)([PL]^1.5)                           K12mM32r
+ 56.4996650  {[v0]^4}[Me][4Pi]                             KgrmM4tr
- 56.7151739  [Fg][a0]                                      MetrNwtn
- 56.8171134  [Me][Mp]                                          K2rm
- 57.7802653  [PL][k][PM]{[aa]^2}                           FradKgrm
- 58.0002064  ([hB]^2)[Ke]                          fradJ2ulMetrS2nd
- 58.2518640  [Me][Mp]/[vT0]                                K2rmvltt
- 58.4648383  [c][PL]/[PK]                              degkM2trscnd
- 58.9539481  [Me][Mp][aa]                                      K2rm
- 59.4073861  ({[Me][a0]}^2){[aa]^3}/({[Q0]^2}[Ke]) c2ulFradK2rmMetr
     = {[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
- 61.0907828  [Me][Mp]{[aa]^2}                                  K2rm
- 61.1050247  {[PL]^2][c] = {[PL]^3}[Pf]                    M3trscnd
- 61.1802321  {[Me]^2}/[4Pi]                                    K2rm
- 61.2490343  [u0][Me]/[c]                          AmprKgrmMetrScnd
- 61.5675250  [Mp][PL]                                      KgrmMetr
- 61.9190235  ([PL]^2)/[PM]                                 kgrmM2tr
- 62.2569800  [Fg]/[f0]                                 KgrmMetrscnd
- 62.3164912  [Me][Mp][Bk]/[He]                             degkK2rm
- 62.4348458  {[a0]^5}[k]                                   FradM4tr
- 63.2276175  [Me][Mp]{[aa]^3}                                  K2rm
- 63.3491391  [Me][a0][ue]                              AmprKgrmM3tr
+ 63.5085979  [Re]/[c] = Gresky's particle magnetization    rad/Scnd
    in units & values of his day: +63.5096620 (radians/second), he
    says also = +56.2644211 gauss ( = +52.2644211 Tesla ) B575 p 38
    note: his 63.5096620 - 52.2644211 = 11.2452409 (see 11.2452215)
- 63.7276640  [G]([Mp]^2)                                   M2trNwtn
- 63.9012535  [Fg][aa]{[PM]^2} = [Fe][Me][Mp]                K2rmNtn
- 64.2051370  [20H] = {([Q0][a0])^4}/([He]^3)           C4ulj3ulM4tr
*20* =([Me]^-1)([a0]^4)/{([2af][Ke])^2} =AUN 2nd hyperpolarizability
- 64.3671815  {[Q0]^}[Mp]                                   C2ulKgrm
+ 64.4950542  {[PB]^2}/[Pf]                                 ScndT2la
+ 64.6078078  [4Pi][Re]/[c]                                 rad/Scnd
- 64.8314338  [PL][Me]                                      KgrmMetr
- 65.2582783  [4Pi]{[h]^2}                                  J2ulS2nd
+ 65.3081762  {[PC]^2}/{[PM]^2}                             C2ulk2rm
+ 65.3540966  [cQ][Pw0][Ke]/({[Pi][Me]}^2)      fradk2rmM3trscndWaat
- 65.3644522  [Me][Mp]{[aa]^4}                                  K2rm
- 65.5804000  {[Me]^2}[Bk]/[He]                             degkK2rm
- 66.1434791  [2Pi][PL]/[PK]                                degkMetr
- 66.3574881  [h]^2                                         J2ulS2nd
+ 66.4655396  [2af]^4                                           s4nd
- 66.8546380  [4Pi]{[hB]^2}                                 J2ulS2nd
- 66.9416590  [PL]/[PK]                                     degkMetr
- 66.9915728  [G][Me][Mp] = [Fg]{[a0]^2}                    M2trNwtn
- 67.6044809  {[PX]^2}/[PK]                                 C2uldegk
- 67.6310905  [Me][Q0]^2                                    C2ulKgrm
- 67.6565914  {[PL]^2}[2Pi][aa][Mp]/[Me]                        M2tr
     = (Baggiolini's metron)^2 B272
- 67.9538478  [hB]^2                                        J2ulS2nd
- 67.9854856  [PRL]^2 = {[2Pi][PL]}^2                           M2tr
- 68.4826355  [PA] = [4Pi]{[PL]^2}                              M2tr
- 68.4826355  [aa]{[Q0]^2}{[d]^3}[k]                C2ulFradH3rym4tr
     = [aa]{[Q0]^2}{[d]^2}/[c^2]                        C2ulH2ryS2nd
     = {[z0]^2}{[Q0]^2}[aa]/[c^4]                   C2ulm4trO2mmS4nd
- 68.7036909  {[PQ]^2}/[PK]                                 C2uldegk
- 68.8504222  [Me][Mp]{[a0]^3}/[Q0]                     cuulK2rmM3tr
+ 69.2966343  [Pp]/[PA]                                 Kgrmmetrscnd
- 69.4731091  3[Me][Mp]{[a0]^3}/{[4Pi][Q0]}             cuulK2rmM3tr
- 69.5818454  [PL]^2 = [hB][G]/[c^3] = 1/({[z0][Pf][k]}^2)      M2tr
     = {[a0]^2}({[Me][aa]/[PM]}^2)
- 69.5818454  {[Q0]^2}{[d]^3}[k][aa]/[4Pi]          C2ulFradH3rym4tr
     = {[d]^2}{[Q0]^2}{[aa]^3}/([4Pi]{[v0]^2})      C2ulH2rym4trS2nd
     = {[aa]^2}{[d]^2}[k][PL][PM]                   FradH2ryKgrmm2tr
     = {[aa]^3}{[d]^2}[k][Me][a0]                   C2ulm4trO2mmS4nd
     = ({[z0][Q0]}^2)[aa]/{[c^4][4Pi]}                      a2prK2rm
     = [4Pi]{[aa]^7}{[Me]^2}/{[i0]^2}
+ 70.0346636  [Ke]/{[Me]^2}                             fradMetrk2rm
- 70.2554816  {[G]([Me]^2}                                  M2trNwtn
+ 70.3958442  [Pp]/{[PL]^2} = [hB]/{[PL]^3}             Kgrmmetrscnd
- 71.1461067  [Me]{[a0]^4}                                  Kgrmm4tr
+ 71.2098432  [c^6]/{[G]^2} = {[PM][Pf]}^2                  K2rms2nd
     = ({[Me][v0][a0]}^2)/{[PL]^4} = {[hB]^2}/{[PL]^4}      N4tnw2at
     = {[FBH][d]/[z0]}^2                                J2ulm4trS2nd
+ 71.2098432  {[PC][c]/[aa]}^2                          A2prM2trs2nd
+ 71.2098429  {[aa]^2}{[PM]^3}[d]/{[PL]^3})         K2rmm2trS2ndT2la
- 71.1338735  {[Me]^2}[k]                               FradK2rmmetr
- 71.4067368  {[PL]^2}[Me]/({[a0]^2}[PM])
- 71.7186801  [aa][PL]^2                                        M2tr
- 72.5286312  ([Me][Mp]/{[a0]^2})^2 = {[Fg]/[G]}^2          K4rmm4tr
- 72.5318019  {[c][PL]/[aa]}^3                              M6trs3nd
- 72.5318022  {[PM][PL][d]}^{1.5} ={[d][PQ]}^3 C3ulH3rym3tr=H32yK32m
+ 72.7609942  {[v0]^2}/{[Me]^2}                         k2rmM2trs2nd
- 73.1059092  [PQ]^4                                            C4ul
- 73.5435714  {[PL]^3}/{[a0]^3}
+ 73.7101683  [Me]/[PV]                                     Kgrmm3tr
- 73.9396552  [4Pi]{[Me]^2}{[aa]^7}                             K2rm
- 73.9396548  {[i0]^2}{[PL]^2}                              A2prM2tr
+ 74.3322570  [Me]/{[PL]^3}                                 Kgrmm3tr
- 75.1811584  [Q0]^4                                            C4ul
- 75.4826356  [PE][PL]/{[PC]^2}                             HnryMetr
+ 75.9218315  [PC]/{[PM][PT]}                           Amprkgrmscnd
+ 76.3610275  ({[PC]/[PM]}^2)/[k]  A2prfradk2rmMetr=k2rmMetrscndWaat
+ 76.9452142  {[Fe]/[Fg]}/{[Q0]^2}                              c2ul
- 77.1097562  {[PL][d]/[aa]}^2                         a4prN2tn=H2ry
+ 77.1106331  [k]{[PE]/[PL]}^2                          FradJ2ulm3tr
- 77.2446673  {[PL]^2}[PM]                                  KgrmM2tr
- 77.9074892  {[hB]^2}/[Ke]                         FradJ2ulmetrS2nd
- 78.0586661  [PL][PT]                                      MetrScnd
- 78.1283072  {[G]^2}{[PM]^3}[PL]                       KgrmM7trs4nd
     = {[G]^3}/([c^2]{[PM]^4}) = [PM]{[PL]^3}{[Pf]^4}
- 78.1291842  {[PL]^2}{[aa]^4}                                  M2tr
- 79.5354868  {[PL]^3}[4Pi][k]                              FradM2tr
     = {[v0]^2}[4Pi][k]/({[aa]^2}{[Pf]^2})
- 80.6346967  {[PL]^2}[k]                                   FradMetr
- 81.3083330  {[Me]^2}[k][G]                   C2ul=FradKgrmM2trs2nd
- 81.6831357  {[PL]^2}[Me]/{[PM][a0]}                           Metr
+ 81.8083796  {[Fe]/[Fg]}/{[Me][a0][aa]}                    kgrmmetr
- 85.5820024  {[Me]^2}{[aa]^4}/[c^2]                    K2rmm2trS2nd
+ 86.1573984  [FPQ]/[Fgp]
+ 86.5354868  [Pf]^2 = {[hB][G]/[c^5]}^-1 = [G][k]{[PB]^2}      s2nd
     = {[PM][2af]/({[aa]^2}[Me])}^2
+ 86.5354868  ([c][PC]/{[aa][PM]})^2                A2prk2rmM2trs2nd
     = [c^6]{[PQ]^2}/({[aa]^2}{[hB]^2}) = [c^7][k]/({[aa]^2}[hB])
+ 86.5354868  {[PM][aa]/[PQ][PL]}^2                     C2ulH2rym6tr
     = ({[PQ][d][aa]}^2)/{[PL]^4}
+ 86.5354868  [c][PC][Pf]/{[aa][PM]}                AmprkgrmMetrs2nd
- 86.6660268  {[PQ]^4}{[k]^4}/{[PM]^4}              C4ulF4adk4rmm4tr
+ 86.6660268  [c^4]/({[k]^4}{[aa]^4})                   f4adM8trs4nd
- 86.6660266  [PL]{[aa]^2}{[k]^5}/[PM]                  F5adm4trkgrm
+ 87.2566084  [FBH]/[Fgp]
+ 87.4346307  {[QeM]^4}/{[Me][a0][aa]}
+ 87.4355076  {[QeM]^4}/({[PQ]/[PM]}^4)
+ 87.6346967  [4Pi]{[Pf]^2}                                     H2tz
- 87.8583227  [PQ]{[PL]^2}                                  CuulM2tr
+ 88.1634844  [FBH]^2 = [FPC]^2 = {[4Pi][FPQ]}^2                N2tn
     = {[hB]^2}[c^2]/{[PL]^4} = {[G]^2}{[PM]^4}/{[PL]^4}
     = {[d]^2}{[PC^4]} = {[PQ]^4}/({[k]^2}{[PL]^4})
     = [c^2]{[PM]^2}{[Pf]^2} = [c^4]{[PM]/[PL]}^2
     = ({[PM][PL]}^2){[Pf]^4} = [c^8]/{[G]^2}
+ 88.1634843  {[PM]^3}{[aa]^2}/([k]{[PL]^3})                K2rmT2la
+ 88.1634846  {[PC][c^4]/[aa]}^2                        C2ulM4trs4nd
+ 88.6723215  [PC][d]/{[PL]^2}                          amprm2trNwtn
- 89.1811584  {[Pu0]^2} = {[hB]^2}[c^2][PL][k]/[PM]         A2prM4tr
     = {[hB]^2}[PL]/{[d][PM]} = ([PC]{[PL]^2})^2
     = {[hB]^2}[k][G] = {[PQ][PL][c]}^2
- 89.1811586  {[Me][Re]}^2 = ([Me][a0]{[aa]^2})^2           K2rmM2tr
     = {[hB][aa]/[c]}^2 = {[aa][Rp][Mp]/[2Pi]}^2 = {[PM][PL][aa]}^2
     = {[Q0]^4}{[Ke]^2}/[c^4] = {[Q0]^4}{[d]/[4Pi]}^2   C4ulH2rym2tr
     = ([Me][a0]{[v0]^2}[d]/{[Ke][4Pi]})^2          C4ulf2adm2trS4nd
+ 89.4213072  [FPQ]/[Fg]
+ 90.5205172  [FBH]/[Fg]
- 90.8091561  {[PL]^5}{[Pf]^2}[k]/[PM]              FradH2tzkgrmM4tr
- 90.8091562  {[PT]^2}{[aa]^2}                                  S2nd
- 92.6336724  [PV][Pf]/[PK]                             degkM3trscnd
- 93.2557610  [c]{[PL]^2}[Pf]/[PK]                      degkM3trscnd
+ 93.7844260  [FBH]/[Fge]
+ 94.5731116  [PC]/{[PL]^2}                                 Amprm2tr
- 95.9212606  {[PL]^3}[Me]/({[a0]^3}[PM])
+ 96.0878575  [PM]/[PV]                                     Kgrmm3tr
- 96.7090692  {[c][PL]/[aa]}^4                              M8trs4nd
- 96.7090694  {[PM][PL][d]}^2 = {[d][PQ]}^4    C4ulH4rym4tr=H2ryK2rm
+ 96.7099462  [PM]/{[PL]^3} = {[Pf]^2}/[G]                  Kgrmm3tr
+ 96.7099462  [PC]/([aa]{[PL]^2})                           Amprm2tr
+ 97.0204705  {[PB]^2}/{[B0]^2} = [4Pi][PM]{[a0]^3}/([Me]{[PL]^3})
- 97.5342424  1/{[Pf][PK]}                                  degkScnd
+ 97.6052606  {[2af]^4}[4Pi]/[Me]                           kgrms4nd
-100.1949299  [PV][He]/{[PE][V0]}
     = [PL][Me]{[2af]^2}/([a0][PM]{[Pf]^2})
+100.4739017  [PC]/({[PL]^2}[d])                        Amprhnrymetr
-100.6333718  [PA]/[PK]                                     degkM2tr
-101.8611308  {[PM]/[Pf]}^2 = [hB]/[c^2]                    K2rmS2nd
     = [Me]{[aa]^2}/[2af]
-101.8611306  {[PL][PQ]/[aa]}^2                             C2ulM2tr
+103.4891280  [aBH]^2 = ([G][PM]/{[PL]^2})^2 = {[c][Pf]}^2  M2trs4nd
     = {[FBH]/[PM]}^2
+103.4891281  {[aa]^2}[PM]/([k]{[PL]^3})           T2la=fradKgrmm2tr
+103.4891282  [PC][aa]/({[PL]^2}[k])                    metrscndVltt
-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
+105.6259629  ({[Pf]^4}[PM]/{[PL][k]})^.5               metrscndVltt
     = [PC]/({[PL]^2}[k])
+105.6259629  [aa]{[PB]^2} = [aa][PM]/([k]{[PL]^3})             T2la
     = [aa]{[PC][d]/[PL]}^2                             fradKgrmm2tr
-106.1348000  {[PL][PQ]}^2                                  C2ulM2tr
-106.1348002  ([Me]{[aa]^3}/[2af])^2 = {[PM][aa]/[Pf]}^2    K2rmS2nd
+106.3746918  [PC]/({[PL]^2}{[d]^2})                        Amprh2ry
+106.6635876  [Ke]([PM]/{[PL]^3})                  T2la=fradKgrmm2tr
+107.7627975  [PB]^2 = [PM]/([k]{[PL]^3})                       T2la
     = {[PC][d]/[PL]}^2                                 fradKgrmm2tr
+107.7627975  [c^2]{[Pf]^2}/{[aa]^2}                        M2trs4nd
+107.7627976  [PC]/({[PL]^2}[k][aa])       Amprfradmetr=metrscndVltt
-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
-127.2271996  {[PT]^3}[z0]                                  OhmmS3nd
+132.3792608  {[Pf]^3}[z0]                                  Ohmms3nd
+147.8324216  [FBH]/[PV]                                    m3trNwtn
+191.1001650  [FBH][Pf]/[PV]                            m3trNwtnscnd
---------------------------------++---------------------------------