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A |
Entwicklung des Leistungspotentials,
wobei der |
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Superkompensationseffekt nach der
Funktion |
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f(x) = x * exp(-x) erfolgt (s. Zeichnung). |
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Trainingsintervall |
delta_t |
2 |
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Leistungspotential |
LP(x+1) = LP(x) + f(delta_t) |
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0 |
0,27067057 |
0,54134113 |
0,8120117 |
1,08268227 |
1,35335283 |
1,6240234 |
1,89469397 |
2,16536453 |
2,4360351 |
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B |
Entwicklung des Leistungspotentials,
wobei der |
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Superkompensationseffekt nach der
Funktion |
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f(x) = -x * (x - 4) * exp(-x) erfolgt (s. Zeichnung). |
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Trainingsintervall |
delta_t |
3 |
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Leistungspotential |
LP(x+1) = LP(x) + f(delta_t) |
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0 |
0,14936121 |
0,29872241 |
0,44808362 |
0,59744482 |
0,74680603 |
0,89616723 |
1,04552844 |
1,19488964 |
1,34425085 |
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