Add to ORKGHyperbolic partial differential equations are frequently referenced in modeling real-world problems in mathematics and engineering. Therefore, in this study, an initial-boundary value issue is proposed for the pseudo-hyperbolic telegraph equation. By operator method, converting the PDE to an ODE provides an exact answer to this problem. After that, the finite difference method is applied to construct first-order finite difference schemes to calculate approximate numerical solutions. The stability estimations of finite difference schemes are shown, as well as some numerical tests to check the correctness in comparison to the precise solution. The numerical solution is subjected to error analysis. As a result of the error analysis, the maximu...
DEAThe aim of these notes is to present some results on the stability of finite difference approxima...
International audienceIn this article we are interested in the stability of finite difference scheme...
Abstract. In this paper, we use a numerical method based on B-spline function and collocation method...
A new explicit conditionally consistent finite difference scheme for one-dimensional third-orde...
A new explicit conditionally consistent finite difference scheme for one-dimensional third-order lin...
In this paper the one- and two-dimensional pseudoparabolic equations with nonlocal boundary conditio...
A comparison of boundary approximations used in numerical solution of one-dimensional hyperbolic sys...
A comparison of boundary approximations used in numerical solution of one-dimensional hyperbolic sys...
A comparison of boundary approximations used in numerical solution of one-dimensional hyperbolic sys...
A comparison of boundary approximations used in numerical solution of one-dimensional hyperbolic sys...
Temporal, or “strict, ” stability of approximation to PDEs is much more difficult to achieve than th...
A second-order linear hyperbolic equation with time-derivative term subject to appropriate initial a...
Abstract:-The Goursat problem, associated with hyperbolic partial differential equations, arises in ...
In this chapter we discuss the finite difference methods for linear partial differential equa-tions....
The problem of convergence and stability of finite difference schemes used for solving boundary valu...
DEAThe aim of these notes is to present some results on the stability of finite difference approxima...
International audienceIn this article we are interested in the stability of finite difference scheme...
Abstract. In this paper, we use a numerical method based on B-spline function and collocation method...
A new explicit conditionally consistent finite difference scheme for one-dimensional third-orde...
A new explicit conditionally consistent finite difference scheme for one-dimensional third-order lin...
In this paper the one- and two-dimensional pseudoparabolic equations with nonlocal boundary conditio...
A comparison of boundary approximations used in numerical solution of one-dimensional hyperbolic sys...
A comparison of boundary approximations used in numerical solution of one-dimensional hyperbolic sys...
A comparison of boundary approximations used in numerical solution of one-dimensional hyperbolic sys...
A comparison of boundary approximations used in numerical solution of one-dimensional hyperbolic sys...
Temporal, or “strict, ” stability of approximation to PDEs is much more difficult to achieve than th...
A second-order linear hyperbolic equation with time-derivative term subject to appropriate initial a...
Abstract:-The Goursat problem, associated with hyperbolic partial differential equations, arises in ...
In this chapter we discuss the finite difference methods for linear partial differential equa-tions....
The problem of convergence and stability of finite difference schemes used for solving boundary valu...
DEAThe aim of these notes is to present some results on the stability of finite difference approxima...
International audienceIn this article we are interested in the stability of finite difference scheme...
Abstract. In this paper, we use a numerical method based on B-spline function and collocation method...