American Journal of Optics and Photonics
Volume 4, Issue 5, October 2016, Pages: 51-56
Received: Oct. 26, 2016;
Accepted: Nov. 11, 2016;
Published: Dec. 12, 2016
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Hadi Ensan, Technical College, Technical and Vocational University, Neyshaboor, Iran
This paper is the theory of breaking electrons in ordinary circuit elements like resistors and Light-Emitting Diodes (LED’s). Undergoing a change of electron has not been considered in the low voltage circuits so far. As it is shown here, there is a difference current before and after LED and resistors. The possibility of leakage current or escaping of electrons from the circuit to make electrostatic charges also considered and tested for LED. It is concluded that the reverse action of Photoelectric effect (eVo=hf-φ), creating energy from mass of electrons are happened not just in a sophisticated high energy accelerators but in daily life electric circuits. Referring to this paper, a large number of missing electrons break to photons, although the drift velocity of electrons is very low. Under going a change of electrons has been considered in the circuits of these experiments. According to the Kirchhoff second rule called the junction rule, the conservation of charge implies the junction rule, because charge does not originate or accumulate or annihilate at this point. It expresses that in any closed single loop electric circuit there is no source or well of charge besides the power supply and the current remains constant at all points of the circuit. Based on the results of this paper and missing some part of current, the conservation of charge does not show high accuracy in this paper.
Electrons Break to Photons Even in a Low Voltage Electric Circuit, American Journal of Optics and Photonics.
Vol. 4, No. 5,
2016, pp. 51-56.
Copyright © 2016 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/
) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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