Abstract

Citation

Researchers should cite this work as follows:

• Harwood, K. (2023). 2011-Kenny_Harwood-Modeling a RLC Circuit Current with Differential Equations. SIMIODE, QUBES Educational Resources. doi:10.25334/W89P-MX81

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Article Context

Description

Harwood, Kenny. 2011. Modeling a RLC Circuit’s Current with Differential Equations. Paper. 17 pp.

https://www.yumpu.com/en/document/view/41337349/modeling-a-rlc-circuits-current-with-differential-equations . Access 28 March 2023.

Abstract The world of electricity and light have only within the past century been explained in mathematical terms yet still remain a mystery to the human race. R. Buckminster Fuller said; ”Up to the twentieth century, ”reality” was everything humans could touch, smell, see, and hear. Since the initial publication of the chart of the electromagnetic spectrum ... humans have learned that what they can touch, smell, see, and hear is less than one-millionth of reality.”[4] This paper gives an abbreviated description of the photovaltaic effect (solar power production process) and then a RLC circuit will be modeled that is powered by a photovaltaic panel that has its output voltage passed through an inverter to produce an AC voltage becomes a sinusoidal function of time

Keywords: differential equation, model, RLC circuit, circuit, Matlab, second order, tuning, frequency response