Equivalent resistance of a periodic and asymmetric 2 × n resistor network

•A periodic and asymmetric 2 × n resistor network model.•Differential equation and the constraint equations.•The clever and powerful RT-V theory for studying complex networks.•Discovered three new equivalent resistance formulae.•Many interesting results of resistor networks are produced. This articl...

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Published inResults in physics Vol. 60; p. 107683
Main Authors Fang, Xin-Yu, Zhang, Zhi-Li, Tan, Zhi-Zhong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2024
Elsevier
Subjects
Asymmetric network
Equivalent resistance
Matrix equation
Node voltage
RT-V method
Node voltage
RT-V method
Equivalent resistance
Matrix equation
Asymmetric network
Online AccessGet full text
ISSN2211-3797
2211-3797
DOI10.1016/j.rinp.2024.107683

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Abstract •A periodic and asymmetric 2 × n resistor network model.•Differential equation and the constraint equations.•The clever and powerful RT-V theory for studying complex networks.•Discovered three new equivalent resistance formulae.•Many interesting results of resistor networks are produced. This article proposes a class of periodic and asymmetric 2 × n resistor network model, and adopts the RT-V theory to conduct in-depth research on this problem, achieving new theoretical breakthroughs. This study derived three original equivalent resistance formulae for this complex circuit network, and also discusses the analytical expressions for equivalent resistance in different special cases, verifying that the conclusions in special cases are completely consistent with the actual circuit or previous existing conclusions, indirectly verifying the correctness of the theoretical results obtained in this article. The resistor network model in this article has multifunctional characteristics, for example, when taking r1→∞, the model degenerates into a cobweb network model. The research methods and results of the article will provide a new theoretical basis for related scientific and engineering research.
AbstractList This article proposes a class of periodic and asymmetric 2 × n resistor network model, and adopts the RT-V theory to conduct in-depth research on this problem, achieving new theoretical breakthroughs. This study derived three original equivalent resistance formulae for this complex circuit network, and also discusses the analytical expressions for equivalent resistance in different special cases, verifying that the conclusions in special cases are completely consistent with the actual circuit or previous existing conclusions, indirectly verifying the correctness of the theoretical results obtained in this article. The resistor network model in this article has multifunctional characteristics, for example, when taking r1→∞, the model degenerates into a cobweb network model. The research methods and results of the article will provide a new theoretical basis for related scientific and engineering research.
•A periodic and asymmetric 2 × n resistor network model.•Differential equation and the constraint equations.•The clever and powerful RT-V theory for studying complex networks.•Discovered three new equivalent resistance formulae.•Many interesting results of resistor networks are produced. This article proposes a class of periodic and asymmetric 2 × n resistor network model, and adopts the RT-V theory to conduct in-depth research on this problem, achieving new theoretical breakthroughs. This study derived three original equivalent resistance formulae for this complex circuit network, and also discusses the analytical expressions for equivalent resistance in different special cases, verifying that the conclusions in special cases are completely consistent with the actual circuit or previous existing conclusions, indirectly verifying the correctness of the theoretical results obtained in this article. The resistor network model in this article has multifunctional characteristics, for example, when taking r1→∞, the model degenerates into a cobweb network model. The research methods and results of the article will provide a new theoretical basis for related scientific and engineering research.
ArticleNumber 107683
Author Zhang, Zhi-Li
Fang, Xin-Yu
Tan, Zhi-Zhong
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Keywords Node voltage
RT-V method
Equivalent resistance
Matrix equation
Asymmetric network
Language English
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Snippet •A periodic and asymmetric 2 × n resistor network model.•Differential equation and the constraint equations.•The clever and powerful RT-V theory for studying...
This article proposes a class of periodic and asymmetric 2 × n resistor network model, and adopts the RT-V theory to conduct in-depth research on this problem,...
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StartPage 107683
SubjectTerms Asymmetric network
Equivalent resistance
Matrix equation
Node voltage
RT-V method
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Title Equivalent resistance of a periodic and asymmetric 2 × n resistor network
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