| 摘要 |
PROBLEM TO BE SOLVED: To clarify the relation among the magnetic moment of an atomic nucleus, the rotation orbit of a proton, the energy of a photon generated by one rotation, the rotation orbit of a electron of a neutron and the energy of a photon of magnetism generated by one rotation. SOLUTION: Where the magnetic moment is +A and -A in 1/2 spin, the energy of a revolution orbit of the love of a neutron is 5.0508×10-27×(AJ m). The energy of a magnetic photon generated in a second×rotation orbit is 5.0508×10-35×(AJ m). This is a formula of gravitational attraction, and the energy of one magnetic photon generated by one rotation×rotation orbit is 5.0508×10-59×(AJ m). Here, it is confirmed whether the orbit is A time or the energy is A times. If the energy is A times, the rotation orbit is the rotation orbit of a nuclear magneton and is constant. If it is assumed that the mass energy of an electron were different depending on elements, elements formed in the center of a star would have the larger mass energy of the love of an electron, and the larger an atomic number is, the larger value of A would be. However, since the value of A is actually small, and H (hydrogen atom) has the largest value, it can be considered that the orbit is A times. Accordingly, the energy of rotation orbit of love can be expressed by 5.0508×10-35(AJ m), and it is the rotation orbit of love that is A times, and it is understood that the energy of a magnetic photon generated in one second is constant. COPYRIGHT: (C)2006,JPO&NCIPI
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