SYMBOLIC COMPUTATION AND POSSIBLY OBSERVABLE EFFECTS FOR THE SOLITON-LIKE LIQUID WAVE PROPAGATION IN THE PRESENCE OF SURFACE TENSION
DOI10.1142/S0129183104005991zbMath1079.76522OpenAlexW1974056932MaRDI QIDQ5700019
Publication date: 27 October 2005
Published in: International Journal of Modern Physics C (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1142/s0129183104005991
computerized symbolic computationgeneralized hyperbolic-function methodWu method\((2+1)\)-dimensional 6th-order modelLiquid surface in the presence of surface tensionsoliton-like wave propagation
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Cites Work
- Three-dimensional solitary waves in the presence of additional surface effects
- On an analytical method and soliton-typed solutions for certain variable-coefficient partial differential equations in nonlinear mechanics
- Instability and collapse of waveguides on the water surface under the ice cover.
- Self-channelling of surface water waves in the presence of an additional surface pressure
- Computer algebra, Painlevé analysis and the time-dependent-coefficient nonlinear Schrödinger equation
- Auto-Bäcklund transformation and analytic solutions for general variable-coefficient KdV equation
- Surface waves of large amplitude beneath an elastic sheet. Part 1. High-order series solution
- Symmetry breaking in periodic and solitary gravity-capillary waves on water of finite depth
- Surface waves of large amplitude beneath an elastic sheet. Part 2. Galerkin solution
- Water waves for small surface tension: an approach via normal form
- SIMILARITY REDUCTIONS FOR A GENERALIZED VARIABLE-COEFFICIENT KADOMTSEV–PETVIASHVILI EQUATION WITH SYMBOLIC COMPUTATION
- The solitary wave with surface tension
- Generalized hyperbolic-function method with computerized symbolic computation to construct the solitonic solutions to nonlinear equations of mathematical physics
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