Soliton solutions to the time-dependent coupled KdV–Burgers’ equation

Alqahtani, Aisha M.; Kumar, Vikas

doi:10.1186/s13662-019-2429-1

Cited by 7 publications

(4 citation statements)

References 37 publications

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“…It is easy to see that all these infinitesimals contain all the physical properties of the dependent variables of the governed equation (1). The general formula which modulates these infinitesimals mathematically can be defined as follows (for more details, see [1][2][3][4][5][6][7])…”

Section: Lie Symmetry Analysis Of Time-fractional (2+1)-dimensional N...mentioning

confidence: 99%

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Time-fractional (2+1)-dimensional navier-stokes equations: similarity reduction and exact solutions for one-parameter lie group of rotations

et al. 2023

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The current study is dedicated to solving the time-fractional (2+1)-dimensional Navier-Stokes model. The model has wideapplications in blood flow, in the design of power stations, weather prediction, ocean currents, water flow in a pipe, air flowaround the aircraft wings, the analysis of pollution, and many other areas of engineering. The Lie symmetry approach isapplied to the governed time-fractional equation to fulfill this need. In the direction of exact solutions of the time-fractionalequation first of all invariance condition is obtained in the presence of the Lie group. Consequently, infinitesimals are obtainedwith the help of the invariant condition. Moreover, these infinitesimals are utilized to obtain the subalgebras. Further, undereach subalgebras similarity variables and similarity solutions are obtained which are used to find the reduced equations. Thesereduced equations are solved for exact solutions. The solutions of the reduced equations are further used to find the exactsolutions of the main time-fractional (2+1)-dimensional Navier-Stokes equation with the help of similarity solutions under eachsubalgebra.

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Section: Lie Symmetry Analysis Of Time-fractional (2+1)-dimensional N...mentioning

confidence: 99%

“…As we know Lie symmetry analysis [1][2][3][4][5][6][7][8][9][10][11][12][13] is a powerful and flexible tool for developing algorithms for analyzing nonlinear differential equations. R E Boisvert et al [14] applied this powerful tool to the classical integer order Navier-Stokes equations.…”

Section: Introductionmentioning

confidence: 99%

Time-fractional (2+1)-dimensional navier-stokes equations: similarity reduction and exact solutions for one-parameter lie group of rotations

et al. 2023

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“…In this section, equivalent to each subalgebras, we obtained the reduced system of nonlinear ordinary differential equations 29–31 in the form of similarity variable ' ξ ' and the corresponding dependent variables ϒ 1 , Ζ 1 and ϒ 2 , Ζ 2 . Further, new complex soliton solutions of the coupled complex short pulse Equation are obtained by solving the reduced ordinary differential equations.…”

Section: Reduced Systems and Complex Soliton Solutions Of Coupled Commentioning

confidence: 99%

Lie symmetry analysis for complex soliton solutions of coupled complex short pulse equation

Kumar¹,

Wazwaz

2021

Math Methods in App Sciences

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The current work is devoted for operating the Lie symmetry approach, to coupled complex short pulse equation. The method reduces the coupled complex short pulse equation to a system of ordinary differential equations with the help of suitable similarity transformations. Consequently, these systems of nonlinear ordinary differential equations under each subalgeras are solved for traveling wave solutions. Further, with the help of similarity variable, similarity solutions and traveling wave solutions of nonlinear ordinary differential equation, complex soliton solutions of the coupled complex short pulse equation are obtained which are in the form of sinh, cosh, sin and cos functions.

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“…Ngo et al, in [7], proved the existence and uniqueness results of solutions for initial value problem under fuzzy Caputo-Katugampola fractional derivatives. For many basic works related to the nonlinear ordinary differential equations and the fuzzy fractional differential equations, we refer the readers to [8][9][10][11][12][13] and references therein.…”

Section: Introductionmentioning

confidence: 99%

Notes on Local and Nonlocal Intuitionistic Fuzzy Fractional Boundary Value Problems with Caputo Fractional Derivatives

Mfadel

Melliani

Elomari

2021

Journal of Mathematics

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Soliton solutions to the time-dependent coupled KdV–Burgers’ equation

Cited by 7 publications

References 37 publications

Time-fractional (2+1)-dimensional navier-stokes equations: similarity reduction and exact solutions for one-parameter lie group of rotations

Time-fractional (2+1)-dimensional navier-stokes equations: similarity reduction and exact solutions for one-parameter lie group of rotations

Lie symmetry analysis for complex soliton solutions of coupled complex short pulse equation

Notes on Local and Nonlocal Intuitionistic Fuzzy Fractional Boundary Value Problems with Caputo Fractional Derivatives

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