A new and general fractional Lagrangian approach: A capacitor microphone case study

A. Jajarmi; D. Baleanu; K. Zarghami Vahid; H. Mohammadi Pirouz; J.H. Asad

Results in Physics (Dec 2021)

A new and general fractional Lagrangian approach: A capacitor microphone case study

A. Jajarmi,
D. Baleanu,
K. Zarghami Vahid,
H. Mohammadi Pirouz,
J.H. Asad

Affiliations

A. Jajarmi: Department of Electrical Engineering, University of Bojnord, P.O. Box, 94531-1339, Bojnord, Iran
D. Baleanu: Department of Mathematics, Faculty of Arts and Sciences, Cankaya University, 06530 Ankara, Turkey; Institute of Space Sciences, P.O. Box, MG-23, R 76900, Magurele-Bucharest, Romania; Department of Medical Research, China Medical University Hospital, China Medical University, Taichung, Taiwan; Corresponding author at: Department of Mathematics, Faculty of Arts and Sciences, Cankaya University, 06530 Ankara, Turkey.
K. Zarghami Vahid: Islamic Azad University, Tehran Science and Research Branch, Tehran, Iran
H. Mohammadi Pirouz: Department of Electrical Engineering, University of Bojnord, P.O. Box, 94531-1339, Bojnord, Iran
J.H. Asad: Department of Physics, College of Sciences, Palestine Technical University, Tulkarm, Palestine

Journal volume & issue: Vol. 31
p. 104950

Abstract

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In this study, a new and general fractional formulation is presented to investigate the complex behaviors of a capacitor microphone dynamical system. Initially, for both displacement and electrical charge, the classical Euler–Lagrange equations are constructed by using the classical Lagrangian approach. Expanding this classical scheme in a general fractional framework provides the new fractional Euler–Lagrange equations in which non-integer order derivatives involve a general function as their kernel. Applying an appropriate matrix approximation technique changes the latter fractional formulation into a nonlinear algebraic system. Finally, the derived system is solved numerically with a discussion on its dynamical behaviors. According to the obtained results, various features of the capacitor microphone under study are discovered due to the flexibility in choosing the kernel, unlike the previous mathematical formalism.

Published in Results in Physics

ISSN: 2211-3797 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Physics
Website: http://www.journals.elsevier.com/results-in-physics/

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