Applications of Fractional-Laplace Transformation in the Field of Electrical Engineering
DOI:
https://doi.org/10.31642/JoKMC/2018/100211Keywords:
Fractional-Laplace transformation;, Circuit equations, Heat conduction differential model, linear differential equations, time derivative ruleAbstract
This study examines the various ways that fractional Laplace transform can be used to solve three different kinds of mathematical equations: the equation of analysis of electric circuits, simultaneous differential equations, and the heat conduction equation. This article how to use the fractional Laplace transform to calculate heat flow in semi-infinite solids in the context of heat conduction. The answers that are developed offer important information about how temperatures vary across time and space. The essay also examines how to analyse electrical circuits using the Fractional Laplace transform. This method allows researchers to measure significant electrical parameters including charge and current, which improves their comprehension of circuit dynamics. Practical examples are included throughout the essay to show how useful the Fractional Laplace transform is in various fields. As a result of the answers found using this methodology, researchers and engineers working in the fields of heat conduction, system dynamics, and circuit analysis can gain important new knowledge. In conclusion, this study explains the applicability and effectiveness of the fractional Laplace transform in resolving a variety of mathematical equations. It is a vital tool for researchers because it may be used in a wide range of scientific and engineering areas.
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Copyright (c) 2023 Ali Moazzam, Zainab Ijaz, Muhammad Hussain, Nimra Maqbool, Emad A. Kuffi
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