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Willkommen in der Planckwelt |
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Die Planckwelt-Theorie |
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Massenspektrum der
Elementarteilchen |
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Ladungsstruktur |
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Teilchen |
Masse [MeV] |
Faktor f |
Quantenzahl |
Verschiebung |
Berechnet |
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A |
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d-Quark C |
B |
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e |
0.511 |
e |
`1 |
`1/3 |
0.511 |
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Myon |
106´ |
e |
`2 |
`1/3 |
`117 |
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Tau |
1777` |
e |
`3 |
`1/3 |
`1777 |
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e-Neutrino |
0.000018 |
e^2 |
`0 |
`-10 |
0.00014 |
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my-Neutrino |
0.280 |
e^2 |
`1 |
`-10 |
0.023 |
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Tau-Neutrino |
37` |
e^2 |
`2 |
`-10 |
`37 |
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u |
1,5 bis 5 |
2/3e^2 |
`0 |
pi |
´9.17 |
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c |
1100 bis 1400 |
2/3e^2 |
`1 |
pi |
`1100 |
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t |
174000` |
2/3e^2 |
`2 |
pi |
`174000 |
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d |
3 bis 9 |
1/2e^2 |
`0 |
`0 |
e |
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s |
60 bis 170 |
1/2e^2 |
`1 |
`0 |
`120 |
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b |
4100 bis 4400 |
1/2e^2 |
`2 |
`0 |
`4400 |
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Spinladung |
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Elementarteilchen |
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schwache Ladung |
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Quelle : Uni Regensburg |
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Massenformel |
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elektrische Ladung |
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mm(d)=e
= 2,71 |
ln m = f n + C |
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starke Ladung |
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schwere Ladung |
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Neutrinomassen sind
experimentelle Grenzwerte |
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Teilchen Ladung |
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magnetische Kraft |
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schwache Kraft |
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elektrische Kraft |
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starke Kraft |
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Gravitationskraft |
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LeptoQuarkkraft |
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Die
Planckwelt-Theorie offenbart eine neue Kraft |
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copyright F.Moeller 1997
- 2006 |
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