unconditionally stable difference scheme for the numerical solution of nonlinear rosenau-kdv equation

نویسندگان

akbar mohebbi

university of kashan zahra faraz

university of kashan

چکیده

in this paper we investigate a nonlinear evolution model described by the rosenau-kdv equation. we propose a three-level average implicit finite difference scheme for its numerical solutions and prove that this scheme is stable and convergent in the order of o(τ2 + h2). furthermore we show the existence and uniqueness of numerical solutions. comparing the numerical results with other methods in the literature show the efficiency and high accuracy of the proposed method. in this paper we investigate a nonlinear evolution model described by the rosenau-kdv equation. we propose a three-level average implicit finite difference scheme for its numerical solutions and prove that this scheme is stable and convergent in the order of o(τ2 + h2). furthermore we show the existence and uniqueness of numerical solutions. comparing the numerical results with other methods in the literature show the efficiency and high accuracy of the proposed method. in this paper we investigate a nonlinear evolution model described by the rosenau-kdv equation. we propose a three-level average implicit finite difference scheme for its numerical solutions and prove that this scheme is stable and convergent in the order of o(τ2 + h2). furthermore we show the existence and uniqueness of numerical solutions. comparing the numerical results with other methods in the literature show the efficiency and high accuracy of the proposed method.

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mathematics interdisciplinary research

جلد ۱، شماره ۲، صفحات ۲۹۱-۳۰۵

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