摘要 |
PROBLEM TO BE SOLVED: To solve propositions as to how much is one basic unit of the orbital energy of a magnetic photon to be an attraction generated in one atom while the orbital energy is 1.356×10<SP>-32</SP>Jm, how heat is generated, and whether the lights in KMIOKANDE (Kamioka nucleon decay experiment) are formed collision of loves of electrons. SOLUTION: A unit of orbital energy of a magnetic photon to be an attraction is orbital energy of a revolution orbit. The love of an electron performs one revolution and generates magnetic photons of 7.96×10<SP>7</SP>. A ring formed by one revolution is used as one unit. This orbital energy of a revolution is 1.233×10<SP>-41</SP>m. It is calculated how many units (revolutions) are required for 1.356×10<SP>-32</SP>Jm. The heat is generated when an electric photon forms a wavelength of a far-infrared ray. Where the temperature of the ground is 1°C and this is generated when the electric photon is about 10<SP>-5</SP>m, it is calculated how many electric photons are required to generate it. It is calculated as to how much is a speed per second when the loves of electrons are emitted to a space of -273°C. COPYRIGHT: (C)2008,JPO&INPIT
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