And the "goodproton number" said first originated from the trialsolution with Prof.Jiao Kefang about "crustal elements nuclide decay conjecture" ── On July 28, 2009, Prof. Jiao Kefang, aresearcher at the Institute of Pharmacology and Toxicology of the Chinese Academyof Military Medical Sciences, proposed that crustal elements Nuclide decayconjecture, said he "found the formation law of the top 12 elements withthe largest distribution in the crustal elements ── The order of elemental content in the earth's crust: Oxygen(45.2%), Silicon (27.2%), Aluminum (8%), Iron (5.8%), Calcium (5.06%),Magnesium (2.77%), Sodium (2.32%), Potassium (1.68%), Titanium (0.68%),Titanium (0.68%), and Nitrogen (0.68%), and the Nuclei of the Earth's crust(0.68%), are the most distributed in the earth's crust. 0.68%), hydrogen(0.14%), manganese (0.10%), and phosphorus (0.10%) Why are these elements mostabundant in the Earth's crust? In particular, among them, the even-even nuclide 8 Oxygen 16 (8protons, 8 neutrons) has the highest content, followed by the even-evennuclides 14 Silicon 28, 12 Magnesium 24, 26 Iron 56, 20 Calcium 40, and 22Titanium 46 are also even-even nuclides, which is understandable. However, theodd-even nuclide 13 aluminum 27 has the third highest content; 11 sodium 23, 15phosphorus 31, 19 potassium 39 and 25 manganese 55 are all odd-even nuclides,why? If you add the hydrogen nuclides, there is a 50/50 split betweeneven and odd nuclides. Yet none of them are odd-even nuclides, e.g., 3 lithium6, 5 boron 10, 7 nitrogen 14, and so on. Why are most even-odd and odd-oddnuclides naturally low in relative abundance, e.g., 8 Oxygen 17 (0.038%), withnatural abundance in parentheses, 14 Silicon 29 (4.67%), 12 Magnesium 25 (10%),20 Calcium 43 (0.135%), 26 Iron 57 (2.1%). Why are all the nuclides with 100%natural relative abundance odd-even nuclides? For example, 11 sodium 23, 13aluminum 27, 15 phosphorus 31, and 25 manganese 55. The apparently irregularcomposition of the elements of the earth's crust actually has a secret innerconnection, as if there is a black hand that has been manipulating theformation of the elements of the earth's crust". In response, Prof. Jiao Kefang sought our answer. In our reply tohim, we firstly pointed out that Prof. Jiao Kefang said that there were somediscrepancies in the ordering of the first 12 elements in different sources.Secondly, the ordering of manganese (0.10%) and phosphorus (0.10%) provided byProf. Jiao, the abundance of which is the same as that of 0.10%, is sequential,which indicates that the data are not accurate. The next elements of the order,there may be greater discrepancies, which shows that the so-called"even-even nuclides and odd-even nuclides half and half, none of the oddodd nuclides," the law, not necessarily can be reasoned down. The reason: 1) The abundance of chemical elements in the Earth's crust, wesearched according to Baidu Wikipedia, including five different sources ofinformation to get the results, which indicate that the number of estimateswill change with the different sources of information and estimation methods,so can only be used as a general reference. One of them, in a slightlydifferent order from that provided by Prof. Jiao Kefang, is: 1) Oxygen(46.60%); 2) Silicon (27.72%); 3) Aluminum (8.13%); 4) Iron (5.00%); 5) Calcium(3.63%); 6) Sodium (2.83%); 7) Potassium (2.59%); 8) Magnesium (2.09%); 9)Titanium (0.44%); 10) Hydrogen ( 0.14%): 11) manganese (0.12%); 12) phosphorus(0.10%). (2) This ordering provides the difference in abundance betweenmanganese and phosphorus. Secondly, although the ordering of sodium, potassiumand magnesium is different from that of Prof. Jiao Kefang, the top 12 elementsare all the same. What factors affect the formation pattern of the top 12 elements,which are the most distributed elements in the earth's crust? As we all know,the famous British mathematician and astronomer Hoyle, solved the problem ofthe cosmic origin of the chemical elements, is should be awarded the NobelPrize for science. 1954 he has proved that from helium to carbon these lightelements can be produced in the temperature of 100 million open in the redgiant star; 1957 he and Mr. and Mrs. Burbidge, Fowler, the four put forward thefamous theory of synthesis of the elements of the B2FH; in 1967 Hoyle, Fowler,and the Wagoner collaborated to explain the origin of all the other lightelements using the Big Bang theory. However, the 1983 Nobel Prize in Sciencewas awarded only to Fowler.
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