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Periodensystem der Elemente (Quelle: größtenteils www.lenntech.de)
Magnesium    Mg    Kernladungszahl Z=12 (p=12)
 Mg(n+p)nSchwere IsotopSchwere KernHäufig-
keit
Spin/
Parität
StabilitätHalbwerts-
zeit [s]
Zerfalls-
arten
Zerfalls-
energie [eV]
Defekt-
energie [eV]
Bindungs-
energie [eV]
Wirkungsquer-
schnitt [barn]
 
1.Mg2412 23.98504231 23.97845935 78.99% 0+   stabil   -13.933E6 198.257E6 52#σ(n.γ) 
2.Mg2614 25.98259291 25.97600995 11.01% 0+   stabil   -16.2146E6 216.681E6 38.2#σ(n.γ) 
3.Mg2513 24.98583695 24.97925399 10.00% 5/2+   stabil   -13.1928E6 205.588E6 0.18#σ(n.γ) 
4.Mg2311 22.99412449 22.98754153  3/2+ radioakt. 11.317 K/β+=100 4.057E6 -5.473E6 181.725E6  
5.Mg2210 21.99957488 21.99299192  0+ radioakt. 3.8755 K/β+=100 4.786E6 -0.396E6 168.577E6  
6.Mg2121.0117129 21.00512994  5/2+ radioakt. 122E-3 K/β+=66.9; Kp=32.6; Kα=0.5 13.094E6(K/β+); 10.663E6(Kp); 6.534E6(Kα) 10.9105E6 149.199E6  
7.Mg2020.01886249 20.01227953  0+ radioakt. 908E-3 K/β+=73; Kp=27 10.723E6(K/β+); 8.53E6(Kp) 17.5703E6 134.468E6  
8.Mg2715 26.98434128 26.97775833  1/2+ radioakt. 567.48 ß-=100 2.61E6 -14.586E6 223.124E6 70E-3#σ(n.γ) 
9.Mg2816 27.98387687 27.97729391  0+ radioakt. 75294 ß-=100 1.832E6 -15.0186E6  231.627E6  
10.Mg2917 28.98860003 28.98201708  3/2+ radioakt. 1.3 ß-=100 7.596E6 -10.619E6 235.299E6  
11.Mg3018 29.99043472 29.98385176  0+ radioakt. 335E-3 ß-=100 6.962E6 -8.91E6 241.662E6  
12.Mg3119 30.99654641 30.98996345  1/2+ radioakt. 232E-3 ß-=98.3; β−n=1.7 11.737E6(β−); 4.584E6(β−n) -3.217E6 244.04E6  
13.Mg3220 31.99897498 31.99239202  0+ radioakt. 86E-3 ß-=94.5; β−n=5.5 10.106E6(β−); 5.927E6(β−n) -0.9548E6 249.849E6  
14.Mg3321 33.00525393 32.99867097  3/2+ radioakt. 90.5E-3 ß-=83; β−n=17 13.423E6(β−); 7.884E6(β−n) 4.894E6 252.071E6  
15.Mg3422 34.00945578 34.00287282  0+ radioakt. 20E-3 ß-=90; β−n=10 11.741E6(β−); 9.266E6(β−n) 8.808E6  256.229E6  
16.Mg3523 35.01733989 35.01075693  7/2- radioakt. 70E-3 ß-=48; β−n=52 16.282E6(ß-); 11.013E6(ß-n) 16.152E6 256.956E6  
17.Mg3624 36.02299961 36.01641665  0+ radioakt. 3.9E-3 ß-=60; β−n=40 15.642E6(β−); 13.483E6(β−n) 21.424E6 259.755E6  
18.Mg3725 37.03140009 37.02481714  7/2- radioakt. 40E-3 ß-=<100; β−n=>0 19.303E6(β−); 15.396E6(β−n) 29.249E6 260.002E6  
19.Mg3826 38.03756975 38.03098679  0+ radioakt. 1E-3 ß-=>0; β−n=<100 18.946E6(β−); 16.978E6(β−n) 34.996E6 262.326E6  
20.Mg3927 39.04677217 39.04018921  7/2− radioakt. 180E-9 n=100 19.447E6 43.568E6 261.825E6  
21.Mg4028 40.05392949 40.04734653  0+ radioakt. 1E−3 ß-=>0; β−n=>0 20.94E6(β−); 20.768E6(β−n) 50.235E6 263.23E6  


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Please Select Elements
  all   nothing
Z=1WasserstoffH
Z=2HeliumHe
Z=3LithiumLi
Z=4BerylliumBe
Z=5BorB
Z=6KohlenstoffC
Z=7StickstoffN
Z=8SauerstoffO
Z=9FluorF
Z=10NeonNe
Z=11NatriumNa
Z=12MagnesiumMg
Z=13AluminiumAl
Z=14SiliziumSi
Z=15PhosphorP
Z=16SchwefelS
Z=17ChlorCl
Z=18ArgonAr
Z=19KaliumK
Z=20CalciumCa
Z=21ScandiumSc
Z=22TitanTi
Z=23VanadiumV
Z=24ChromCr
Z=25ManganMn
Z=26EisenFe
Z=27KobaltCo
Z=28NickelNi
Z=29KupferCu
Z=30ZinkZn
Z=31GalliumGa
Z=32GermaniumGe
Z=33ArsenAs
Z=34SelenSe
Z=35BromBr
Z=36KryptonKr
Z=37RubidiumRb
Z=38StrontiumSr
Z=39YttriumY
Z=40ZirkonZr
Z=41NiobNb
Z=42MolybdänMo
Z=43TechnetiumTc
Z=44RutheniumRu
Z=45RohdiumRh
Z=46PalladiumPd
Z=47SilberAg
Z=48CadmiumCd
Z=49IndiumIn
Z=50ZinnSn
Z=51AntimonSb
Z=52TellurTe
Z=53JodJ
Z=54XenonXe
Z=55CäsiumCs
Z=56BariumBa
Z=57LanthanLa
Z=58CerCe
Z=59PraseodymPr
Z=60NeodymNd
Z=61PromethiumPm
Z=62SamariumSm
Z=63EuropiumEu
Z=64GadoliniumGd
Z=65TerbiumTb
Z=66DysprosiumDy
Z=67HolmiumHo
Z=68ErbiumEr
Z=69ThuliumTm
Z=70YtterbiumYb
Z=71LutetiumLu
Z=72HafniumHf
Z=73TantalTa
Z=74WolframW
Z=75RheniumRe
Z=76OsmiumOs
Z=77IridiumIr
Z=78PlatinPt
Z=79GoldAu
Z=80QuecksilberHg
Z=81ThalliumTl
Z=82BleiPb
Z=83WismutBi
Z=84PoloniumPo
Z=85AstatinAt
Z=86RadonRn
Z=87FranciumFr
Z=88RadiumRa
Z=89ActiniumAc
Z=90ThoriumTh
Z=91ProtactiniumPa
Z=92UranU
Z=93NeptuniumNp
Z=94PlutoniumPu
Z=95AmericiumAm
Z=96CuriumCm
Z=97BerkeliumBk
Z=98CaliforniumCf
Z=99EinsteiniumEs
Z=100FermiumFm
Z=101MendeleviumMd
Z=102NobeliumNo
Z=103LawrenciumLr
Z=104RutherfordiumRf
Z=105DubniumDb
Z=106SeaborgiumSg
Z=107BohriumBh
Z=108HassiumHs
Z=109MeitneriumMt
Z=110DarmstadtiumDs
Z=111RoentgeniumRg
Z=112CoperniciumCn
Z=113UnuntriumUut
Z=114FleroviumFl
Z=115UnunpentiumUup
Z=116LivermoriumLv
Z=117UnunseptiumUus
Z=118UnunoctiumUuo


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Search for potenz N and factor2 in selected elements Z, for given result with the multiplikation L*factor2
                     L = Z * Cx * Basis^N * Factor
                   N = log(L/(Factor*Z*Cx)) / log(Basis)

and f=c/L and T=L/c with c= m/s and Comptonwavelength Cx [m]:   Ce= 2.4263102389E-12
Cp= 1.32140985623E-15  Cn= 1.3195909068E-15  Plk= 1.616199E-35  orb_Mercur= 57.91E9
Cx m    Basis   Factor
  Basis B with e= 2.7182818284590  phi= 1.618034  or 2 ,   Factor with pi= 3.141592   2pi= 6.283185  g= 0.61803398874989  or 18
show  digits                  Select Units
L Length   Lj   pc   AE   earthR   km   m   dm   cm   mm   µm   nm   A~   pm   fm
Frequency   THz   GHz   MHz   kHz   Hz   mHz   µHz
T Time   j   d   h   min   s   ms   µs   ns   ps
V Volume =L^3   km^3   m^3   hL=100L   dL=10L   dm^3=L   10ml=cL   cm^3=mL   mm^3=µL
m Mass =V*dens.   Mt   kt   t   kg   g   mg   µg   ng   pg   fg

       (Reset with deleting the number)      Reset 3 Factor-Search (Example1)      (Example2)


1 Listing - Modus     2 Searching - Modus     3 Factor-Search     4 Basis(+Factor)-Search     5 Basis(+Factor)-Harmonics-Search

Value for Searching: m      Length
search factor2 (integer) with lattice constants: 118L or 118R
By using this code as text you call the physical lattice constants and atomic radii from the database, for many Z.
If you use the value Factor additional, you can find rational numbers between L and Lattice(Z): 0.333333*ResultF = 1/3*ResultF or Factor=0.5 with Basis>2
error L maximal   0.1% 0.5% 1% 2% 5% all

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Results      with Cp      Attention ! Factor 6.2831853071795864769 to L and to T, invers to f
BFerror L[%] ZN[1m=1m] Factor2[1MHz=1.0E6Hz][1s=1s]

missing searching value
 
 
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