AbstractA new technique for solving partial differential equations has been developed and tested. The technique uses step integration over a small interval of the independent variable after applying the finite difference for the partial derivatives. The integration is carried out for each element while using average values for the neighboring elements. These values are modified by iteration. The technique is used here for solving Burgers' equation. The results demonstrate excellent agreement with that of the exact solution
This is a chapter on numerical solutions of the Burgers equation given by Ut + eUUx - ? Uxx = 0, a =...
AbstractIn this study, a compact approximate method in limiting form for calculating the solution of...
We introduce new numerical techniques for solving nonlinear unsteady Burgers equation. The numer...
AbstractA new technique for solving partial differential equations has been developed and tested. Th...
In todays’ engineering practices, numerical methods are integral to the development of solutions for...
A large number of problems in physics and engineering leads to boundary value or initial boundary va...
AbstractIn this paper, the Differential Transformation Method (DTM) is employed to obtain the numeri...
In this study, an efficient framework provided to handle nonlinear partial differential equations by...
AbstractBy means of variational iteration method the solutions of Burger's equation and coupled Burg...
AbstractExplicit solutions are calculated by the decomposition method for Burger's equation for comp...
Even if numerical simulation of the Burgers' equation is well documented in the literature, a detail...
The development of Burger equation through the transform function is studied and we prove the existe...
AbstractThe application of Adomian's decomposition method to partial differential equations, when th...
The purpose of this research is to employ a new method to solve nonlinear differential equations to ...
This paper presents a solution of the one-dimension Burgers equation using Decomposition Method and ...
This is a chapter on numerical solutions of the Burgers equation given by Ut + eUUx - ? Uxx = 0, a =...
AbstractIn this study, a compact approximate method in limiting form for calculating the solution of...
We introduce new numerical techniques for solving nonlinear unsteady Burgers equation. The numer...
AbstractA new technique for solving partial differential equations has been developed and tested. Th...
In todays’ engineering practices, numerical methods are integral to the development of solutions for...
A large number of problems in physics and engineering leads to boundary value or initial boundary va...
AbstractIn this paper, the Differential Transformation Method (DTM) is employed to obtain the numeri...
In this study, an efficient framework provided to handle nonlinear partial differential equations by...
AbstractBy means of variational iteration method the solutions of Burger's equation and coupled Burg...
AbstractExplicit solutions are calculated by the decomposition method for Burger's equation for comp...
Even if numerical simulation of the Burgers' equation is well documented in the literature, a detail...
The development of Burger equation through the transform function is studied and we prove the existe...
AbstractThe application of Adomian's decomposition method to partial differential equations, when th...
The purpose of this research is to employ a new method to solve nonlinear differential equations to ...
This paper presents a solution of the one-dimension Burgers equation using Decomposition Method and ...
This is a chapter on numerical solutions of the Burgers equation given by Ut + eUUx - ? Uxx = 0, a =...
AbstractIn this study, a compact approximate method in limiting form for calculating the solution of...
We introduce new numerical techniques for solving nonlinear unsteady Burgers equation. The numer...