trans-intermechanical Graceli. transcendent categorical and indeterminate.
effects 10,414 to 10,420, for:
Graceli postulates to the nucleus and other particles.
1] most chemical elements contain more than one nucleus.
2] As the chemical element grows on the atomic periodic scale, so does the number of nuclei, but not in the same proportionality.
3] The nucleus number is both variational and transcendent.
4] As well the core can camouflage in a type of tunneling and entanglement.
5] This is for all particles within the atom.
Graceli effect of bombardment according to isotopes, temperature, electromagnetism, ferromagnetic, quantity, density, media, states, and others.
Where we have differentiated results according to the intensity and time of bombardment action, and the potential for disintegration of the isotopes and chemical elements. According to agents, phenomena and categories of Graceli.
In 1938 (Naturwissenschaften 26, p.475), a new reaction of nuclear fission, also not understood in this way, was carried out by the German chemists Otto Hahn (1879-1968, PNQ, 1944) and Fritz Strassmann (1902-1980), and the Swedish-Austrian physicist Lise Meitner (1878-1968), by bombarding uranium with slow neutrons. In addition to the known results, one of them, however, was apparently absurd, that is, the presence of barium (Ba) rather than radio (Ra) as one of the final products of the reaction. This indicated that the neutron could induce a partition of the uranium atom into two atoms of comparable masses. This partition was interpreted by Lise and her nephew, the Austro-German physicist Otto Robert Frisch (1904-1979), in 1939 (Nature 143, pp. 239, 471), to be a nuclear fission, as for example occurs in the following reaction (in current notation):
+ [eeeeeffdp [f] [mcCdt] [+ mf] [itd] [cG].
Where, according to agents, phenomena and categories of Graceli one will have effects, energies, phenomena and new structures.
where the elements of disintegration are xenon () and strontium (), besides the radiation and more energy released of 200 MeV. It should be noted that the name nuclear fission was suggested to Frisch by the American biochemist William A. Arnold in analogy with the term used in the cell division of a bacterium. Note also that this source of energy released by nuclear fission was rejected by Rutherford around 1933, when he said: Whoever expects to obtain a source of energy from the transmutation of atoms is dreaming. Rutherford, on dying in 1937, did not see that his phrase was completely wrong, for on December 2, 1942, Fermi and a team of 42 scientists at the University of Chicago built the first atomic cell through nuclear fission
effects 10,414 to 10,420, for:
Graceli postulates to the nucleus and other particles.
1] most chemical elements contain more than one nucleus.
2] As the chemical element grows on the atomic periodic scale, so does the number of nuclei, but not in the same proportionality.
3] The nucleus number is both variational and transcendent.
4] As well the core can camouflage in a type of tunneling and entanglement.
5] This is for all particles within the atom.
Graceli effect of bombardment according to isotopes, temperature, electromagnetism, ferromagnetic, quantity, density, media, states, and others.
Where we have differentiated results according to the intensity and time of bombardment action, and the potential for disintegration of the isotopes and chemical elements. According to agents, phenomena and categories of Graceli.
In 1938 (Naturwissenschaften 26, p.475), a new reaction of nuclear fission, also not understood in this way, was carried out by the German chemists Otto Hahn (1879-1968, PNQ, 1944) and Fritz Strassmann (1902-1980), and the Swedish-Austrian physicist Lise Meitner (1878-1968), by bombarding uranium with slow neutrons. In addition to the known results, one of them, however, was apparently absurd, that is, the presence of barium (Ba) rather than radio (Ra) as one of the final products of the reaction. This indicated that the neutron could induce a partition of the uranium atom into two atoms of comparable masses. This partition was interpreted by Lise and her nephew, the Austro-German physicist Otto Robert Frisch (1904-1979), in 1939 (Nature 143, pp. 239, 471), to be a nuclear fission, as for example occurs in the following reaction (in current notation):
+ [eeeeeffdp [f] [mcCdt] [+ mf] [itd] [cG].
Where, according to agents, phenomena and categories of Graceli one will have effects, energies, phenomena and new structures.
where the elements of disintegration are xenon () and strontium (), besides the radiation and more energy released of 200 MeV. It should be noted that the name nuclear fission was suggested to Frisch by the American biochemist William A. Arnold in analogy with the term used in the cell division of a bacterium. Note also that this source of energy released by nuclear fission was rejected by Rutherford around 1933, when he said: Whoever expects to obtain a source of energy from the transmutation of atoms is dreaming. Rutherford, on dying in 1937, did not see that his phrase was completely wrong, for on December 2, 1942, Fermi and a team of 42 scientists at the University of Chicago built the first atomic cell through nuclear fission
trans-intermecânica Graceli. transcendente categorial e indeterminada.
efeitos 10.414 a 10.420, para:
postulados Graceli para o núcleo e demais partículas.
1]a maioria dos elementos químico contém mais de um núcleo.
2]Conforme o elemento químico cresce na escala periódica atômica, também cresce o número de núcleos, mas não na mesma proporcionalidade.
3]O número se núcleo é variacional e transcendente.
4]Como também o núcleo pode camuflar num tipo de tunelamento e emaranhamento.
5]Isto serve para todas as partículas dentro do átomo.
Efeito Graceli de bombardeamento coforme isótopos, temperatura, eletromagnetismo, ferromagnéticos, quantidade, densidade, meios, estados, e outros.
Onde se tem resultados diferenciados conforme a intensidade e tempo de ação de bombardeamento, e potencial de desintegração dos isótopos e elementos químico. Conforme agentes, fenômenos e categorias de Graceli.
Em 1938 (Naturwissenschaften 26, p. 475), uma nova reação de fissão nuclear, também não entendida dessa maneira, foi realizada pelos químicos alemães Otto Hahn (1879-1968; PNQ, 1944) e Fritz Strassmann (1902-1980), e a física sueco-austríaca Lise Meitner (1878-1968), ao bombardearem o urânio com nêutrons lentos. Além dos resultados já conhecidos, um deles, no entanto, era aparentemente um absurdo, qual seja, o da presença do bário (Ba), em vez do rádio (Ra), como um dos produtos finais da reação. Isso indicava que o nêutron poderia induzir uma partição do átomo de urânio em dois átomos de massas comparáveis. Essa partição foi interpretada por Lise e seu sobrinho, o físico austro-alemão Otto Robert Frisch (1904-1979), em 1939 (Nature 143, pgs. 239; 471), como sendo uma fissão nuclear, como, por exemplo, ocorre na seguinte reação (em notação atual):
Onde conforme agentes, fenômenos e categorais de Graceli se terá efeitos, energias, fenômenos e novas estruturas.
onde os elementos de desintegração são o xenônio ( ) e o estrôncio ( ), além da radiação e mais energia liberada de 200 MeV . Registre-se que o nome fissão nuclear foi sugerido a Frisch pelo bioquímico norte-americano William A. Arnold, em analogia com o termo utilizado na divisão celular de uma bactéria. Registre-se, também, que essa fonte de energia liberada pela fissão nuclear, foi rejeitada por Rutherford, por volta de 1933, quando afirmou: Quem quer que espere obter uma fonte de energia a partir da transmutação de átomos está sonhando. Rutherford, ao morrer em 1937, não viu que essa sua frase estava completamente errada, pois, em 02 de dezembro de 1942, Fermi e uma equipe de 42 cientistas da Universidade de Chicago, construíram a primeira pilha atômica por intermédio da fissão nuclear
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