On the Possibility of the Jerk Derivative in Electrical Circuits

J. F. Gómez-Aguilar; J. Rosales-García; R. F. Escobar-Jiménez; M. G. López-López; V. M. Alvarado-Martínez; V. H. Olivares-Peregrino

doi:10.1155/2016/9740410

Advances in Mathematical Physics (Jan 2016)

On the Possibility of the Jerk Derivative in Electrical Circuits

J. F. Gómez-Aguilar,
J. Rosales-García,
R. F. Escobar-Jiménez,
M. G. López-López,
V. M. Alvarado-Martínez,
V. H. Olivares-Peregrino

Affiliations

J. F. Gómez-Aguilar: CONACYT-Centro Nacional de Investigación y Desarrollo Tecnológico, Tecnológico Nacional de México, Interior Internado Palmira S/N, Col. Palmira, 62490 Cuernavaca, MOR, Mexico
J. Rosales-García: Departamento de Ingeniería Electrica, DICIS, Universidad de Guanajuato, Carretera Salamanca-Valle de Santiago, Km. 3.5 + 1.8 Km., Comunidad de Palo Blanco, Salamanca, GTO, Mexico
R. F. Escobar-Jiménez: Centro Nacional de Investigación y Desarrollo Tecnológico, Tecnológico Nacional de México, Interior Internado Palmira S/N, Col. Palmira, 62490, Cuernavaca, MOR, Mexico
M. G. López-López: Centro Nacional de Investigación y Desarrollo Tecnológico, Tecnológico Nacional de México, Interior Internado Palmira S/N, Col. Palmira, 62490, Cuernavaca, MOR, Mexico
V. M. Alvarado-Martínez: Centro Nacional de Investigación y Desarrollo Tecnológico, Tecnológico Nacional de México, Interior Internado Palmira S/N, Col. Palmira, 62490, Cuernavaca, MOR, Mexico
V. H. Olivares-Peregrino: Centro Nacional de Investigación y Desarrollo Tecnológico, Tecnológico Nacional de México, Interior Internado Palmira S/N, Col. Palmira, 62490, Cuernavaca, MOR, Mexico

DOI: https://doi.org/10.1155/2016/9740410
Journal volume & issue: Vol. 2016

Abstract

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A subclass of dynamical systems with a time rate of change of acceleration are called Newtonian jerky dynamics. Some mechanical and acoustic systems can be interpreted as jerky dynamics. In this paper we show that the jerk dynamics are naturally obtained for electrical circuits using the fractional calculus approach with order γ. We consider fractional LC and RL electrical circuits with 1⩽γ<2 for different source terms. The LC circuit has a frequency ω dependent on the order of the fractional differential equation γ, since it is defined as ω(γ)=ω0γγ1-γ, where ω0 is the fundamental frequency. For γ=3/2, the system is described by a third-order differential equation with frequency ω~ω03/2, and assuming γ=2 the dynamics are described by a fourth differential equation for jerk dynamics with frequency ω~ω02.

Published in Advances in Mathematical Physics

ISSN: 1687-9120 (Print); 1687-9139 (Online)
Publisher: Hindawi Limited
Country of publisher: United Kingdom
LCC subjects: Science: Physics
Website: https://www.hindawi.com/journals/amp/

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