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Chapter 2, page 6.
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| 2.6 | 2.1 Tenderness and viability in sunflower seeds. 2.2 The viability in grains varies both senses. 2.3 The global cycle of the grains (experiment C). 2.4 How the grains recover viability (experiment E). 2.5 The two variables of the recovering of viability. 2.6 Interpretation of the experiment E”. 2.7 Seeds set in motion with respect to the Earth (experiment A). |
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| Interpretation of the “experiment E. |
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| Recovering of viability. |
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| .1 | The recovering of degrees of lost viability would depend on the number of dissipative configurational reactions, which can take place in the EFAs molecules. |
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| .2 | That number, in its turn, would depend (1) on the number, and duration, of the useful frequencies of mouvement, offered by the Moon, and (2) on the quantity of dissipation, per unit of time, of the discard energy, which must take place contextually, at the same time of the reactions. |
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| In grains non viable. |
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| .3 | Compared with what occurs in perfectly viable grains, in seeds inhibited (those near or under the viability threshold), EFAs molecules are distributed on higher energy levels, which tend to become more numerous, as they increase in energy. |
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| .4 | The more the EFAs configurations in grains, the more the frequencies of mouvement, among those offered by the Moon, which may be useful to trigger dissipative reactions, during a period when the lunar phase velocity is increasing. |
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| About the energy dissipation. |
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| .5 | In non viable seeds, there are relatively few molecules for each configuration, because distributed on many energy levels. |
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| .6 | A useful frequency of movement will be offered frequently, and that, for a few molecules each time. |
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| .7 | Thus, each time, the requests of dissipating the discard energy will be limited. Even if the dissipative flux happens to be reduced, it is most likely that all the requests will be executed, so that all the configurational reactions potentially possible can take place. |
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| About the intervals and the working time. |
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| .8 | The intervals, during which no useful frequency of movement is offered to the EFA molecules, in inhibited grains, are relatively short. Thus, the (working) time, during which dissipative reactions may take place, is relatively long. |
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| Summary: many configurations; many useful frequencies of movement, well distributed; short intervals without reactions; few molecules in competition for dissipative flux, efficiently utilized, during a (on the whole) long working time. |
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| In grains wholly viable. |
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| .9 | Instead, in the seeds which, at the start of the recovering period, were perfectly viable, there are few energy levels. The number of useful frequencies of movement offered by the Moon is then reduced. |
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| .10 | Moreover, for each of the energy level, there are much more EFA molecules, when compared with non viable seeds. |
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| Intervals and working times. | ||
| .11 | The intervals, during which no useful frequency of movement is offered to the EFA molecules in perfectly viable grains, are long. Thus, the (working) time, during which dissipative reactions may take place, is short. |
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| Dissipative flux poorly used. |
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| .12 | Moreover, the dissipative flux is poorly used, (1) because of long intervals during which it remains unexploited, and (2) because, when a useful frequency of movement is offered, the EFAs molecules, which could take advantage and lower their energy level, find themselves in competition with the other molecules with the same configuration. |
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| .13 | Since there are many EFAs molecules with the same configuration, the dissipative flux is most likely not enough to execute all the requests, which are to be carried out contextually. | |
| .14 | So, it is highly probable that many EFA molecules remain at the same energy level and configuration, as they had before the start of the recovering period, save the dégradation occurred in the meantime. |
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| Summary: few configurations, thus few useful frequencies of movement; long intervals without reactions; many molecules in competition for dissipative flux, during a short working time. |
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| Warning. |
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| At present, even if in the “experiment E” the inhibited seeds have been always favoured, I recommend to be prudent, and consider it apt only for research, at least for the time being. |
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| At least until a full knowledge of the fats' cycle, and of the useful frequencies of movement, applying this method could entail some risk, as for the output. |
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