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On the Convergence of the Variational Iteration Method for Klein-Gordon Problems with Variable Coefficients II

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arxiv 2407.14423 v1 pith:GOKUJ4TD submitted 2024-07-19 math.NA cs.NAmath.AP

On the Convergence of the Variational Iteration Method for Klein-Gordon Problems with Variable Coefficients II

classification math.NA cs.NAmath.AP
keywords iterationciteconvergenceschemeapproachlambdamethodprove
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In this paper we investigate convergence for the Variational Iteration Method (VIM) which was introduced and described in \cite{He0},\cite{He1}, \cite{He2}, and \cite{He3}. We prove the convergence of the iteration scheme for a linear Klein-Gorden equation with a variable coefficient whose unique solution is known. The iteration scheme depends on a {\em Lagrange multiplier}, $\lambda(r,s)$, which is represented as a power series. We show that the VIM iteration scheme converges uniformly on compact intervals to the unique solution. We also prove convergence when $\lambda(r,s)$ is replaced by any of its partial sums. The first proof follows a familiar pattern, but the second requires a new approach. The second approach also provides some detail regarding the structure of the iterates.

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