NUMERICAL SOLUTION TECHNIQUES FOR CURRENT AND VOLTAGE VARIABLES IN ELECTRICAL (RLC) CIRCUITS

FALADE KAZEEM;Ayodele Victoria and

NUMERICAL SOLUTION TECHNIQUES FOR CURRENT AND VOLTAGE VARIABLES IN ELECTRICAL (RLC) CIRCUITS

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ID: 5567

2019

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Abstract

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In this study, we present numerical solution approaches of second-order differential equations which is used as mathematical models of electrical circuits (RLC) consisting of a resistor, an inductor and a capacitor connected in series and parallel. The Differential Transformation Method (DTM) and Exponentially Fitted Collocation Approximation Method (EFCAM) were employed to obtain numerical solutions which are compared with the analytical solutions of the electrical circuits and are found to be accurate and compatible. Obtained voltage and current parameters are presented in tables and figures to show the efficiency of numerical techniques.

Reference Key	falade2019numericalusak Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	FALADE KAZEEM;Ayodele Victoria and
Journal	usak university journal of engineering sciences
Year	2019
DOI	DOI not found Searching for DOI...
URL	URL not found
Keywords	Electrical RLC circuits Differential Transformation Method (DTM) Exponentially Fitted Collocation Approximation Method (EFCAM) voltages current

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