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Auteur principal: Ali, Mubarak
Format: Preprint
Publié: 2016
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Accès en ligne:https://arxiv.org/abs/1611.05392
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author Ali, Mubarak
author_facet Ali, Mubarak
contents The study of a positive or negative charge when an atom loses or gains an electron is a custom in both physical and chemical sciences. However, the related principles and phenomena become confusing when studying the concepts of ionization. An electric current is also a source of all the experimental details and procedures. It is noteworthy that atoms of suitable elements can execute the interstate dynamics of qualified electrons. Atoms also undergo transition states. Atoms can elongate. Atoms can expand. Atoms can contract. Under a suitable input power, flowing inert gas atoms can split, resulting in their conversion into electron streams. When electron streams impinge on solid atoms by carrying photons, they can further elongate. If the solid atoms do not elongate, they at least deform by distorting. The various atom-level modifications do not support the ionization concepts. The characteristics of the photons are apparent when the flowing streams of inert gas atoms split under the excessive current field. The splitting of inert gas atoms, the carrying of photons by the electron streams, and the photons lighting in the air reveal that an electric current is not possible. It is a photonic current. In the microscope, an image or micrograph is due to the resolving powers of the featured photons. Well-known principles and phenomena also confirm that an electric current is a photonic current. This study enables us to understand the basic and applied sciences.
format Preprint
id arxiv_https___arxiv_org_abs_1611_05392
institution arXiv
publishDate 2016
record_format arxiv
spellingShingle Atoms of None of the Elements Ionize, While Atoms of Inert Behavior Split by Photonic Current
Ali, Mubarak
Materials Science
The study of a positive or negative charge when an atom loses or gains an electron is a custom in both physical and chemical sciences. However, the related principles and phenomena become confusing when studying the concepts of ionization. An electric current is also a source of all the experimental details and procedures. It is noteworthy that atoms of suitable elements can execute the interstate dynamics of qualified electrons. Atoms also undergo transition states. Atoms can elongate. Atoms can expand. Atoms can contract. Under a suitable input power, flowing inert gas atoms can split, resulting in their conversion into electron streams. When electron streams impinge on solid atoms by carrying photons, they can further elongate. If the solid atoms do not elongate, they at least deform by distorting. The various atom-level modifications do not support the ionization concepts. The characteristics of the photons are apparent when the flowing streams of inert gas atoms split under the excessive current field. The splitting of inert gas atoms, the carrying of photons by the electron streams, and the photons lighting in the air reveal that an electric current is not possible. It is a photonic current. In the microscope, an image or micrograph is due to the resolving powers of the featured photons. Well-known principles and phenomena also confirm that an electric current is a photonic current. This study enables us to understand the basic and applied sciences.
title Atoms of None of the Elements Ionize, While Atoms of Inert Behavior Split by Photonic Current
topic Materials Science
url https://arxiv.org/abs/1611.05392