Physics Journal
Articles Information
Physics Journal, Vol.2, No.4, Jul. 2016, Pub. Date: Aug. 5, 2016
Analysis of Cosmic Rays from Inter-Electronic Structure of the Electron-Revised Version
Pages: 246-252 Views: 852 Downloads: 202
Authors
[01] D. P. Nandedkar, Department of Electrical Engineering, Indian Institute of Technology, Bombay, Powai, Mumbai, India.
Abstract
Here an analysis of cosmic rays from inter-electronic structure of the electron is reconsidered with respect to a previous paper by Nandedkar, where electromagnetic nature of cosmic rays is analyzed along with complex charge and complex mass of an electron. Here it is interesting to note that the moving mass of the electron inside and / on periphery of the electron has a velocity of 4.239(4) x 108 m/ sc which is greater than velocity of light in free space. Thus a world of Tachyon (where particle velocity can exceed velocity of light in free space) exit inside and / on periphery of the electron. In this paper strength of magnetic flux density required for reversal of spin angular momentum is reconsidered with real part of complex charge, of the moving electron along periphery of the circle of electron having radius of 1.878(8) x 10-15 m, illustrating spin of the electron diagrammatically. This electron radius of 1.878(8) x 10-15 m called “reduced radius” is (2/3) times so called “classical radius” of electron. Distribution of complex charge and complex mass of the electron is confined to the circle of “reduced radius” of the electron. Strength of magnetic flux density required for reversal of spin angular momentum is 1.877 x 1014Wb / m2. Sudden alternate reversals of magnetic flux densities in this case of equal to or greater than above value, generate continuous waves of cosmic rays of frequency ~ 1.795(6) x 1022 Hz by complex mass/ complex charge inter-electronic structure, which is reconsidered.
Keywords
Cosmic-Rays, Electron, Complex-Mass, Complex-Charge
References
[01] Michael A. DuVernois (Editor) (1999): “Topics in Cosmic-Ray Astrophysics”, Nova Science Publishers Inc, USA.
[02] Ringuet L. L., (1950): “Cosmic Rays”, Prentice-Hall, New York.
[03] A. Dauvillier, (1954): “Les Rayons Cosmiques”, Dunod publisher, Paris, France.
[04] Wilson J. G.-Editor, (1952): “Progress in cosmic ray physics”, Vol. I, North Holland, Amsterdam.
[05] Wilson J. G.-Editor, (1954): “Progress in cosmic ray physics”, Vol. II, North Holland, Amsterdam.
[06] Wilson J. G.-Editor, (1956): “Progress in cosmic ray physics”, Vol. III, North Holland, Amsterdam.
[07] Mewaldt, R. A., (1996): “Comic Rays”, Macmillan Encyclopaedia of Physics.
[08] Nandedkar, D. P. (2016): “Analysis of cosmic rays from inter-electronic structure of the electron”, Vol. 2, No. 3, pp. 220-225, Phys. Journal (PSF), (AIS), USA.
[09] Feinberg, G. (1967). "Possibility of Faster-Than-Light Particles". Physical Review 159 (5): 1089–1105.
[10] Ramo, S., Whinnery, J. R. and Van Duzer, T., (1970): “Fields and Waves in Communication Electronics”, Wiley Eastern Private Limited”, First Edition, First Wiley Eastern Reprint, New Delhi.
[11] French, A. P., (1958): “Principles of Modern Physics”, Wiley International Edition, New York, London etc.
[12] Richtmyer, F. K., Kennard, E. H., and Lauritsen, T., (1955): “Introduction to Modern Physics”, Fifth Edition, International Student Edition, MaGraw Hill Book Co, Inc., New York, Toronto, London etc.
[13] Jain, G. C., (1967): “Properties of Electrical Engineering Materials”, Harper & Row, Publishers, New York, Evanston and London.
[14] Parker, P., (1957): “Electronics”, Reprinted Published First Edition, Edward Arnold Publishers Ltd., London.
600 ATLANTIC AVE, BOSTON,
MA 02210, USA
+001-6179630233
AIS is an academia-oriented and non-commercial institute aiming at providing users with a way to quickly and easily get the academic and scientific information.
Copyright © 2014 - 2017 American Institute of Science except certain content provided by third parties.