Nuclear and Atomic Physics

   

Einstein and Compton Were not Capable to Explain the Photoelectric Effect and the Compton Effect, Because They Did not Understand the Electron

Authors: Adrian Ferent

"I explained the Photoelectric effect and the Compton effect with the interaction of two photons, the incident photon and the photon which is inside the electron" Adrian Ferent "The energy of the photon inside the electron is around 0.5 MeV" Adrian Ferent "The energy of the photon inside the electron is around 0.5 MeV, that is why in Compton scattering the energy of the incident photon is scattered by the electron" Adrian Ferent "Einstein, Compton and all the Nobel Laureates, the greatest scientists, your professors… were not capable to explain the Photoelectric effect and the Compton effect because they did not understand the electron" Adrian Ferent "The electron is not a dot, has a volume that is why the incident photon interacts with the electron at different angles and it is scattered at different angles" Adrian Ferent "The Photoelectric effect and the Compton effect are examples of the conservation law of energy and of total momentum that is why the energy of the photon inside the electron will be around 0.5 MeV" Adrian Ferent "The Photoelectric effect and the Compton effect are Proofs for my theory that the electron is a photon around Dark Matter" Adrian Ferent The photoelectric effect is the emission of electrically charged particles like electrons when it absorbs electromagnetic radiation. The photoelectric effect was first observed in 1887 by Heinrich Hertz. Einstein was awarded the Nobel Prize in 1921 for ‘his discovery of the law of the photoelectric effect.’ Einstein and all the Nobel Laureates, the greatest scientists, your professors… were not capable to explain the photoelectric effect. Compton Effect is the increase in wavelength of X-rays that have been scattered by electrons. Compton explained by applying conservation of energy and conservation of momentum to the collision between the photon and the electron. Compton was awarded the Nobel Prize in 1927 ‘for his discovery of the effect named after him.’ Compton and all the Nobel Laureates, the greatest scientists, your professors… were not capable to explain the Compton effect. "The electron is a photon around Dark Matter" Adrian Ferent "The Spin of the electron is the Orbital angular momentum of the photon within the electron" Adrian Ferent How I explained the Photoelectric effect and the Compton effect: "I explained the Photoelectric effect and the Compton effect with the interaction of two photons, the incident photon and the photon which is inside the electron" Adrian Ferent "The electron is a photon around Dark Matter and interacts with photons, because the electric fields satisfy the superposition principle" Adrian Ferent "Einstein, Compton and all the Nobel Laureates, the greatest scientists, your professors… were not capable to explain the Photoelectric effect and the Compton effect because they did not understand the electron" Adrian Ferent "The photon inside the electron is the charge, is the electric field inside a volume equivalent with the electric field created by an electric charge. An electric field surrounds an electric charge; the same thing inside the electron, the electric field of the photon surrounds the center of the electron. Electric charge doesn't exist, was invented by scientists because they were not capable to explain the electric charge and what is inside the electron!" Adrian Ferent I explained the Compton effect: The Compton effect: individual photon collides with single electron that is free or quite loosely bound electron in the atom. The incident photon transfers the energy and momentum to the electron. The photon changes its direction and transfers a portion of its original energy to the electron from which it scattered producing an energetic recoil electron. The scattered photon must thus have less energy and momentum than the incoming photon. The fraction of the incident photon energy that is transferred depends on the scattering angle; if the photon is deflected only slightly, little energy is transferred to the electron. "The energy of the photon inside the electron is around 0.5 MeV" Adrian Ferent "The energy of the photon inside the electron is around 0.5 MeV, that is why in Compton scattering the energy of the incident photon is scattered by the electron" Adrian Ferent "The electron has an electric field due to the photon inside the electron" Adrian Ferent "Due to the photon inside the electron, the electron interacts with the electromagnetic field" Adrian Ferent "The electron is not a dot, has a volume that is why the incident photon interacts with the electron at different angles and it is scattered at different angles" Adrian Ferent In the Compton scattering the transfer of maximum energy happens when the incident photon is backscattered from the electron and its original direction is reversed. In the photoelectric effect all the energy of the photon is transferred to the electron, because it is not a free electron. "The Photoelectric effect and the Compton effect are examples of the conservation law of energy and of total momentum that is why the energy of the photon inside the electron will be around 0.5 MeV" Adrian Ferent "The Photoelectric effect and the Compton effect are Proofs for my theory that the electron is a photon around Dark Matter" Adrian Ferent 233. I am the first who explained the Photoelectric effect and the Compton effect with the interaction of two photons, the incident photon and the photon which is inside the electron 234. I am the first who discovered that the energy of the photon inside the electron is around 0.5 MeV 235. I am the first who discovered that the energy of the photon inside the electron is around 0.5 MeV, that is why in Compton scattering the energy of the incident photon is scattered by the electron 236. I am the first who explained that Einstein, Compton and all the Nobel Laureates, the greatest scientists, your professors… were not capable to explain the Photoelectric effect and the Compton effect because they did not understand the electron 237. I am the first who explained that the electron is not a dot, has a volume that is why the incident photon interacts with the electron at different angles and it is scattered at different angles 238. I am the first who discovered that the Photoelectric effect and the Compton effect are examples of the conservation law of energy and of total momentum that is why the energy of the photon inside the electron will be around 0.5 MeV 239. I am the first who explained that the Photoelectric effect and the Compton effect are Proofs for my theory that the electron is a photon around Dark Matter

Comments: 389 Pages. © 2014 Adrian Ferent

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[v1] 2019-08-08 00:13:54

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