30Oct 2019

FLUID MECHANICS: A NEW DISCRETE SOLUTION TO THE UNIDIMENSIONAL CONTINUITY DIFFERENTIAL EQUATION DERIVED FROM THE LAW OF AMP ERE - MAXWELL

  • Concluding high school 12th grade by 01 December 2019 and doing the process of application to undergraduate in Theoretical Physics in the U.S. Studying at Colegio GGE, Recife, Brazil.
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It is well-known that we are able to obtain, using the Amp?re-Maxwell Law, a continuity equation that shows the conservation of electric charge. Nowadays, there are already generalized solutions to any quantity that is involved in a continuity equation. However, these solutions use to be supported by non-elementary mathematical formalism. The author will show that it is possible to build an alternative solution to the unidimensional continuity differential equation related to electric charge, where a discrete point of view of electrodynamics will lead us to a unidimensional Navier-Stokes equation for continuity. It turns out that the product between Area and Speed being a constant is successfully obtained by the solution proposed by the author, accordingly with the objectives.

  1. E. Cermak. Applications of Fluid Mechanics to Wind Engineering?A Freeman Scholar Lecture. ASME, 1975.
  2. K. Aliabadi, and T. E. Tezduyar. Parallel Fluid Dynamics Computations in Aerospace Applications John Wiley & Sons, Ltd; Minneapolis, 1995.
  3. A. C? engel, J. M. Cimbala. Fluid mechanics: fundamentals and applications. McGraw-Hill series in mechanical engineering, 1st ed, 2006.
  4. Sotiropoulos, and S. Abdallah. The Discrete Continuity Equation in Primitive Variable Solutions of Incompressible Flow. Academic Press, 1991.
  5. J. Griffiths. Introduction to Electrodynamics. Reed College, 4th ed, 2017.
  6. Benci, and D. Fortunato. An Eigenvalue Problem for the Schrodinger?Maxwell Equations. Juliusz Schauder Center for Nonlinear Studies, 1998.
  7. A. Heras. Maxwell?s equations be obtained from the continuity equation? American Association of Physics Teachers, 2007.
  8. M. Apostol. Calculus - Volume 1 John Wiley & Sons, 2nd ed, 1967.
  9. Lang. Calculus of Several Variables Springer Science, 3rd edition, 1987.
  10. E. Boyce, and R. C. DiPrima. Elementary Differential Equations Wiley, 9th edition,2008.

[Victor hugo dos santos lins. (2019); FLUID MECHANICS: A NEW DISCRETE SOLUTION TO THE UNIDIMENSIONAL CONTINUITY DIFFERENTIAL EQUATION DERIVED FROM THE LAW OF AMP ERE - MAXWELL Int. J. of Adv. Res. 7 (Oct). 959-963] (ISSN 2320-5407). www.journalijar.com

Victor Hugo dos Santos Lins

DOI:

Article DOI: 10.21474/IJAR01/9908      
DOI URL: http://dx.doi.org/10.21474/IJAR01/9908

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