In this paper, we study the Robin-Dirichlet
problem $(P_{n})$ for a strongly damped wave equation with
arithmetic-mean terms $S_{n}u$ and $\hat{S}_{n}u,$ where
$u$ is the unknown function, $S_{n}u=\tfrac{1}{n}
\sum\nolimits_{i=1}^{n}u(\tfrac{i-1}{n},t)$ and $\hat{S}_{n}u=
\tfrac{1}{n}\sum\nolimits_{i=1}^{n}u_{x}^{2}(\tfrac{i-1}{n},t)$.
First, under suitable conditions, we prove that, for each $n\in
\mathbb{N},$ $(P_{n})$ has a unique weak solution $u^{n}$. Next, we prove that the sequence of solutions $u^{n}$ converge strongly in appropriate spaces to the weak solution $u$ of the problem $(P),$ where $(P)$ is defined by $(P_{n})$ in which the arithmetic-mean terms $S_{n}u$ and $\hat{S}
_{n}u$ are replaced by $\int\nolimits_{0}^{1}u(y,t)dy$ and
$\int\nolimits_{0}^{1}u_{x}^{2}(y,t)dy,$ respectively. Finally,
some remarks on a couple of open problems are given.
Robin-Dirichlet problem Arithmetic-mean terms Faedo-Galerkin method Linear recurrent sequence
Primary Language | English |
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Subjects | Mathematical Sciences |
Journal Section | Articles |
Authors | |
Publication Date | June 30, 2022 |
Published in Issue | Year 2022 Volume: 5 Issue: 2 |