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Analysis of parametric effects in the wave profile of the variant Boussinesq equation through two analytical approaches

Shao-Wen Yao, Md. Tarikul Islam, M. Ali Akbar, Mustafa İnç, Mohamed Adel, M.S. Osman

2022Open Physics34 citationsDOIOpen Access PDF

Abstract

Abstract The variant Boussinesq equation has significant application in propagating long waves on the surface of the liquid layer under gravity action. In this article, the improved Bernoulli subequation function (IBSEF) method and the new auxiliary equation (NAE) technique are introduced to establish general solutions, some fundamental soliton solutions accessible in the literature, and some archetypal solitary wave solutions that are extracted from the broad-ranging solution to the variant Boussinesq wave equation. The established soliton solutions are knowledgeable and obtained as a combination of hyperbolic, exponential, rational, and trigonometric functions, and the physical significance of the attained solutions is speculated for the definite values of the included parameters by depicting the 3D profiles and interpreting the physical incidents. The wave profile represents different types of waves associated with the free parameters that are related to the wave number and velocity of the solutions. The obtained solutions and graphical representations visualize the dynamics of the phenomena and build up the mathematical foundation of the wave process in dissipative and dispersive media. It turns out that the IBSEF method and the NAE are powerful and might be used in further works to find novel solutions for other types of nonlinear evolution equations ascending in physical sciences and engineering.

Topics & Concepts

Dissipative systemBernoulli's principleParametric statisticsTrigonometryRational functionTrigonometric functionsMathematical analysisExponential functionMathematicsSolitonNonlinear systemHyperbolic functionRepresentation (politics)Action (physics)Classical mechanicsPhysicsGeometryThermodynamicsQuantum mechanicsPoliticsStatisticsPolitical scienceLawNonlinear Waves and SolitonsNonlinear Photonic SystemsFractional Differential Equations Solutions