AbstractIn this paper, the Differential Transformation Method (DTM) is employed to obtain the numerical/analytical solutions of the Burgers and coupled Burgers equations. We begin by showing how the differential transformation method applies to the linear and nonlinear parts of any PDE and give some examples to illustrate the sufficiency of the method for solving such nonlinear partial differential equations. We also compare it against three famous methods, namely the homotopy perturbation method, the homotopy analysis method and the variational iteration method. These results show that the technique introduced here is accurate and easy to apply
AbstractIn this study, the group-theoretic methods for calculating the solution of Burgers’ equation...
Burger’s equation plays a key role in explaining the behavior of nonlinear systems. In this paper, E...
AbstractA finite-difference scheme based on fourth-order rational approximants to the matrix–exponen...
AbstractIn this paper, the Differential Transformation Method (DTM) is employed to obtain the numeri...
AbstractIn this article, we present homotopy perturbation method, adomian decomposition method and d...
AbstractBurger’s equation plays a key role in explaining the behavior of nonlinear systems. In this ...
In this paper, the two-dimension differential transformation method (DTM) is employed to obtain the ...
This paper presents a solution of the one-dimension Burgers equation using Decomposition Method and ...
The development of Burger equation through the transform function is studied and we prove the existe...
AbstractBy means of variational iteration method the solutions of Burger's equation and coupled Burg...
Abstract Burgers–Huxley equations and their reduced form are of vital importance in modeling the int...
AbstractIn this study, a compact approximate method in limiting form for calculating the solution of...
AbstractIn this paper, the system of two-dimensional Burgers’ equations are solved by local disconti...
AbstractIn this paper, we will carry out an analytic comparative study between the Adomian decomposi...
In this paper, the differential transform method (DTM) will be applied to the generalized Burgers-Hu...
AbstractIn this study, the group-theoretic methods for calculating the solution of Burgers’ equation...
Burger’s equation plays a key role in explaining the behavior of nonlinear systems. In this paper, E...
AbstractA finite-difference scheme based on fourth-order rational approximants to the matrix–exponen...
AbstractIn this paper, the Differential Transformation Method (DTM) is employed to obtain the numeri...
AbstractIn this article, we present homotopy perturbation method, adomian decomposition method and d...
AbstractBurger’s equation plays a key role in explaining the behavior of nonlinear systems. In this ...
In this paper, the two-dimension differential transformation method (DTM) is employed to obtain the ...
This paper presents a solution of the one-dimension Burgers equation using Decomposition Method and ...
The development of Burger equation through the transform function is studied and we prove the existe...
AbstractBy means of variational iteration method the solutions of Burger's equation and coupled Burg...
Abstract Burgers–Huxley equations and their reduced form are of vital importance in modeling the int...
AbstractIn this study, a compact approximate method in limiting form for calculating the solution of...
AbstractIn this paper, the system of two-dimensional Burgers’ equations are solved by local disconti...
AbstractIn this paper, we will carry out an analytic comparative study between the Adomian decomposi...
In this paper, the differential transform method (DTM) will be applied to the generalized Burgers-Hu...
AbstractIn this study, the group-theoretic methods for calculating the solution of Burgers’ equation...
Burger’s equation plays a key role in explaining the behavior of nonlinear systems. In this paper, E...
AbstractA finite-difference scheme based on fourth-order rational approximants to the matrix–exponen...