GUNTERTABLE2
 
---------------------------------++---------------------------------
POWER OF TEN | COMMENTS, NOTES                                 UNITS
---------------------------------++---------------------------------
+  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]

- 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]

- 20.0868697  ([B0]^2)([a0]^3) = [Me][Ke]      M3trT2la=fradKgrmMetr
*1*  = [Me]/{[4Pi][k]} = [Me][c^2][d]/[4Pi]         = [AUN mass][Ke]
 
- 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
 
- 39.9941525  ([Q0]^2)/{([v0]^2)[a0]}                   C2ulm3trS2nd
     = ([Q0]^2)[d]/{[a0][Ke]([aa]^2)[4Pi]}              FradKgrmmetr
*1*  = [Me]/[Ke]                                   = [AUN mass]/[Ke]
 
- 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
 
+ 16.6163849  [He]/[hB] = [2Pi][f0]                        scnd=Hrtz
     = [2Pi][Ke]/([RK][a0])                                 fradohmm
*3*  = [2af] = [Me]([Q0]^4)/{([hB]^3)([Ke]^2)}       = AUN frequency
 
- 16.6163849  [hB]/[He] = ([2Pi][f0])^-1                        Scnd
     = ([RK]/[2Pi])[a0]/[Ke]                                FradOhmm
*4*  = [2af]^-1 = ([Ke]^2)([hB]^3)/{[Me]([Q0]^4)}         = AUN time
 
- 20.8900542  [hB]/([Me][c^2]) = Natural unit of time           Scnd
*4* = ([2af]^-1)([aa]^2)                        = [AUN time]([aa]^2)
 
-  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])

+  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
 
+  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]
 
- 23.7005250  [p0] = [hB]/[a0]                          KgrmMetrscnd
*6*  = [Me][a0][2af]                                  = AUN momentum
 
- 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
 
-  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
 
- 17.3605390  [He] = [Ke]([Q0]^2)/[a0] = 2[Rc][h][c]            Juul
*9*  = [Me]([a0]^2)([2af]^2)           = Hartree energy = AUN energy
 
- 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

- 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
 
- 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)
 
- 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
 
-  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
 
+  2.7979159  [i0]([Ke]^.5)                             Amprf12dM12r
     = ([Q0][He]/[hB])([Ke]^.5)                         K12mM32rs2nd
*12* =([Me]^.5)([a0]^1.5)([2af]^2)          = [AUN current]([Ke]^.5)
 
+  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
 
-  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)
 
+  6.7343288  [He]/{([Q0][a0])([Ke]^.5)}   F12dm32rVltt=K12mm12rscnd
*14* = ([Me]^.5)([a0]^-.5)[2af]     = [AUN electric field]/([Ke]^.5)
 
+ 11.7111495  [E0] = ([Q0][Ke])/([a0]^2)       f12dK12mscnd=metrVltt
*14*=([Me]^.5)([a0]^-.5)[2af]([Ke]^.5) =AUN electric field  cuulNwtn
 
+ 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
 
+ 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
 
+ 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
 
- 24.0948678  [q0]([Ke]^.5)                             K12mM52rscnd
     = [Q0][a0]([Ke]^.5)                                Cuulf12dM32r
*16* =([Me]^.5)([a0]^2.5)[2af]=[AUN electric dipole moment]([Ke]^.5)
 
- 29.0716885  [q0] = [Q0][a0]              CuulMetr=F12dK12mM2trscnd
*16* =([Me]^.5)([a0]^2.5)[2af]/([Ke]^.5) =AUN electric dipole moment
 
- 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
 
- 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
 
- 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]
 
- 40.7828380  [18P] = {([Q0][a0])^2}/[He]               C2uljuulM2tr
     = [Q0]/([B0][2af]) = [Me]/([B0]^2)                 CuulScndtsla
*18* =([a0]^3)/[Ke] = AUN electric polarizability  FradM2tr=Kgrmt2la

- 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
 
- 52.4939875  [19H] = {([Q0][a0])^3}/([He]^2)           C3ulj2ulM3tr
                                       = AUN 1st hyperpolarizability
*19* = ([Me]^-.5)([a0]^3.5)([2af]^-1)/([Ke]^1.5)    F32dk12mM2trScnd
 
- 44.2978542  {([Q0][a0])^4}/([He]^3)}([Ke]^2)      C4ulf2adj3ulM6tr
                               = [AUN 2nd hyperpolarizability][Ke]^2
*20* = ([Me]^-1)([a0]^4)([2af]^-2)                      kgrmM4trS2nd
 
- 64.2051370  [20H] = {([Q0][a0])^4}/([He]^3)           C4ulj3ulM4tr
*20* =([Me]^-1)([a0]^4)/{([2af][Ke])^2} =AUN 2nd hyperpolarizability
 
+  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
 
+  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
 
- 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
 
- 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
 
- 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
 
- 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
 
+ 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

+ 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

- 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
 
- 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]
 
- 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)}
 
-  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]
 
-  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]
 
- 12.6799721  ([v0]^-2) = [d]/{[4Pi]([aa]^2)[Ke]}       FradHnrym2tr
*26* = ([a0]^-2)([2af]^-2)     = [AUN velocity]^-2          m2trS2nd
 
-  3.4392630  [cQ] = [h]/(2[Me])= [A0][2af]/4               M2trscnd
*27* = ([a0]^2)[2af][Pi]                  = [Quantum of circulation]

-  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]
 
-  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

+  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
 
+ 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)}
 
+ 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
 
+ 13.4686576  [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)}
 
+ 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
 
- 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
 
+ 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
 
+ 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
     = {([Electron gyromagnetic ratio]^2)[Ke]}/{([ue]/[Bm])^2}
     = [c^2](Gresky's electronic constant of magnetic permeability)
*31* = ([Me]^-1)([a0]^3)([2af]^2)
 
+ 32.4450910 ([Gye]^2)[Ke] = ([QeM]^2)[Ke]([ue]/[Bm])^2
     = 4[Ke]([ue]/[hB])^2 = [Ke]{([2af][ue])^2}/{([Bm][B0])^2}
     = {[G]([Fe]/[Fg])([Mp]/[Me])([ue]/[Bm])^2      fradMetrs2ndt2la
     = [Ke]{([Eg0][ue])^2}/{([B0]^4)([Bm]^2)}       C2ulfradk2rmMetr
     = [Ke]([Electron gyromagnetic ratio]^2)
*31* = ([Me]^-1)([a0]^3)([2af]^2)([ue]/[Bm])^2          kgrmM3trs2nd
 
- 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
 
- 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
 
- 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]}
 
- 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
 
+  0.7886856  ([B0]^2)/[Ke] = {([Me][2af]/[Q0])^2}/[Ke] FradmetrT2la
*33* = [Me]([a0]^-3) =([AUN magnetic flux density]^2)/[Ke]  Kgrmm3tr
 
+ 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
 
+ 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
 
+ 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]
 
+ 20.1584550  [Jf][Pi]([Ke]^.5) = {2[Q0]/[h]}[Pi]([Ke]^.5)  k12mm12r
*34* = {([Me]^-.5)([a0]^-.5)}    = [Josephson constant][Pi]([Ke]^.5)
 
+  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
 
+  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]
 
+  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
 
-  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])
 
+ 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

+ 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)

=================================++=================================
 Rounded off to 7 decimal places and accurate to within .0000002 ,
 using the CODATA 2010 values of the fundamental constants as seen
 June 17, 2013 at http://physics.nist.gov/constants in allascii.txt
 to correctly project Newtonian gravitational constant and Planck
 units values, 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
[19P]-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] -26.4992464 [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
=================================++=================================