Jiahua Fang scite author profile

Jiahua Fang

4Publications

9Citation Statements Received

53Citation Statements Given

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118

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Yibin University

Publications

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A New Iterative Method for the Approximate Solution of Klein-Gordon and Sine-Gordon Equations

Fang

Nadeem

Habib

et al. 2022

Journal of Function Spaces

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This article presents a new iterative method (NIM) for the investigation of the approximate solution of the Klein-Gordon and sine-Gordon equations. This approach is formulated on the combination of the Mohand transform and the homotopy perturbation method. Mohand transform (MT) is capable to handle the linear terms only, thus we introduce homotopy perturbation method (HPM) to tackle the nonlinear terms. This NIM derives the results in the form of a series solution. The proposed method emphasizes the stability of the derived solutions without any linearization, discretization, or hypothesis. Graphical representation and absolute error demonstrate the efficiency and authenticity of this scheme. Some numerical models are illustrated to show the compactness and reliability of this strategy.

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Numerical Investigation of Nonlinear Shock Wave Equations with Fractional Order in Propagating Disturbance

et al. 2022

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The symmetry design of the system contains integer partial differential equations and fractional-order partial differential equations with fractional derivative. In this paper, we develop a scheme to examine fractional-order shock wave equations and wave equations occurring in the motion of gases in the Caputo sense. This scheme is formulated using the Mohand transform (MT) and the homotopy perturbation method (HPM), altogether called Mohand homotopy perturbation transform (MHPT). Our main finding in this paper is the handling of the recurrence relation that produces the series solutions after only a few iterations. This approach presents the approximate and precise solutions in the form of convergent results with certain countable elements, without any discretization or slight perturbation theory. The numerical findings and solution graphs attained using the MHPT confirm that this approach is significant and reliable.

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A Semianalytical Approach for the Solution of Nonlinear Modified Camassa–Holm Equation with Fractional Order

Fang

Nadeem

Wahash

2022

Journal of Mathematics

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This paper presents the approximate solution of the nonlinear acoustic wave propagation model is known as the modified Camassa–Holm (mCH) equation with the Caputo fractional derivative. We examine this study utilizing the Laplace transform ( ℒ T) coupled with the homotopy perturbation method (HPM) to construct the strategy of the Laplace transform homotopy perturbation method ( ℒ T-HPM). Since the Laplace transform is suitable only for a linear differential equation, therefore ℒ T-HPM is the suitable approach to decompose the nonlinear problems. This scheme produces an iterative formula for finding the approximate solution of illustrated problems that leads to a convergent series without any small perturbation and restriction. Graphical results demonstrate that ℒ T-HPM is simple, straightforward, and suitable for other nonlinear problems of fractional order in science and engineering.

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Modified residual power series approach for the computational results of Newell-Whitehead-Segel model with fractal derivatives

Fang

Nadeem

Islam

et al. 2023

Alexandria Engineering Journal

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Jiahua Fang

A New Iterative Method for the Approximate Solution of Klein-Gordon and Sine-Gordon Equations

Numerical Investigation of Nonlinear Shock Wave Equations with Fractional Order in Propagating Disturbance

A Semianalytical Approach for the Solution of Nonlinear Modified Camassa–Holm Equation with Fractional Order

Modified residual power series approach for the computational results of Newell-Whitehead-Segel model with fractal derivatives

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