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Solar neutrinos and Gravitational differences of a chemical nature
The solar neutrino problem is discussed in the Physics FAQ at:
http://math.ucr.edu/home/baez/physic..._neutrino.html In essence, the detected number of neutrinos is consistently smaller than the expected number based on the known nuclear reaction energy that is released. Another seemingly unrelated anomaly is consistently reported by Mario Nanni in a series of papers in Apeiron Journal with titles such as "Gravitational differences of a chemical nature", and at last someone else has taken pity on him and been involved in additional experiments which confirm the earlier results. Some papers: Nanni, M. 1997. "Simple Experiments to Test the Dependence of Gravitational Action on Chemical Composition", Apeiron, vol. 4, no. 1 Nanni, M. 2000, "Dependence of Gravitational Action on Chemical Composition: New Series of Experiments", Apeiron, vol. 7, no. 3 -4 Nanni, M. 2001, "Gravitational Differences of a Chemical Nature" Apeiron, Vol. 8, No. 1, January 2001. The variations are of the order of several parts in 10^-5 and many times larger than the experimental errors. I think the altitude difference is several thousand meters. What the experiments show is that the relative weights of different chemical substances vary with altitude. Of course the proportion of relative weights at any one place is also the proportion of the relative masses. These experiments undermine assumptions made by most physicists (other than Narlikar etc) in dealing with cosmological problems. However it is always a good idea to test assumptions thoroughly. It seems to me that if these effects found by Nanni are real then they might also show up in measurements of isotope masses if they have been done at different altitudes (although these are performed in a different way so they also might not show up). The variation in altitude of the isotope mass measuring laboratories is likely to be a lot less than the work done by Nanni, but the accuracy is perhaps also correspondingly greater. Does anyone know where one might obtain isotope mass measurements listed by different laboratories? Now, back to the subject of this post, which is "Solar neutrinos and Gravitational differences of a chemical nature". If there are variations in relative isotope masses with altitude or gravitational potential, then these variations would likely be much more significant in the solar core than they are over several kilometres vertically on the earth. If such were the case, then the energy released in the production of solar neutrinos, being dependant on mass differences, might well be very different to what it is for the same reaction on earth. So Nanni's observations may well provide a clear explanation for the solar neutrino problem. -- Ray Tomes http://ray.tomes.biz/ http://www.cyclesresearchinstitute.org/ |
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