Ample felicitous wave structures for fractional foam drainage equation modeling for fluid-flow mechanism

In this study, traveling wave solutions have been explored with the newly developed improved tanh method and modified 1 / G ′ -expansion method for the Fractional foam drainage equation, which is famous for modeling physical phenomena such as heat conduction and acoustic waves. Abundant solutions ar...

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Published in:Computational & applied mathematics 2022-06, Vol.41 (4), Article 174
Main Authors: Yokuş, Asıf, Durur, Hulya, Duran, Serbay, Islam, Md. Tarikul
Format: Article
Language:English
Subjects:
Acoustic waves
Applications of Mathematics
Applied physics
Computational mathematics
Computational Mathematics and Numerical Analysis
Conduction heating
Conductive heat transfer
Drainage
Fluid dynamics
Fluid flow
Graphical representations
Mathematical Applications in Computer Science
Mathematical Applications in the Physical Sciences
Mathematics
Mathematics and Statistics
Modelling
Physical properties
Solitary waves
Traveling waves
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cited_by cdi_FETCH-LOGICAL-c249t-54c3c828eacedd6a2ecf22b0e5d82c89e1953e6a24a4aace7b6b0e51c3c4e5f73
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container_title Computational & applied mathematics
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creator Yokuş, Asıf
Durur, Hulya
Duran, Serbay
Islam, Md. Tarikul
description In this study, traveling wave solutions have been explored with the newly developed improved tanh method and modified 1 / G ′ -expansion method for the Fractional foam drainage equation, which is famous for modeling physical phenomena such as heat conduction and acoustic waves. Abundant solutions are successfully achieved which have not been appeared ever in the literature. The found solutions are represented graphically to bring out the appearances of different types solitons. In addition, three important points are highlighted in the result and discussion section. First, the comparison of the applied methods, second, the association of the obtained solutions with the literature, and finally the effect of the change in the parameters with physical properties on the wave behavior are discussed.
doi_str_mv 10.1007/s40314-022-01812-7
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subjects Acoustic waves
Applications of Mathematics
Applied physics
Computational mathematics
Computational Mathematics and Numerical Analysis
Conduction heating
Conductive heat transfer
Drainage
Fluid dynamics
Fluid flow
Graphical representations
Mathematical Applications in Computer Science
Mathematical Applications in the Physical Sciences
Mathematics
Mathematics and Statistics
Modelling
Physical properties
Solitary waves
Traveling waves
title Ample felicitous wave structures for fractional foam drainage equation modeling for fluid-flow mechanism
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