AbstractA finite-difference scheme based on fourth-order rational approximants to the matrix–exponential term in a two-time level recurrence relation is proposed for the numerical solution of the modified Burgers equation. The resulting nonlinear system, which is analyzed for stability, is solved using an already known modified predictor–corrector scheme. The results arising from the experiments are compared with the corresponding ones known from the available literature
AbstractIn this paper, the Differential Transformation Method (DTM) is employed to obtain the numeri...
In this work we generate the numerical solutions of Burgers' equation by applying the Crank-Nicholso...
Most of the existing numerical schemes developed to solve Burgers' equation cannot exhibit its corre...
A finite-difference scheme based on rational approximants to the matrix-exponential term in a two-ti...
A numerical solution of the modified Burgers’ equation (MBE) is obtained by using quartic B-spline s...
Two new higher-order accurate finite-difference schemes for the numerical solution of boundary-value...
A fourth order finite-difference scheme in a two-time level recurrence relation is proposed for the ...
A large number of problems in physics and engineering leads to boundary value or initial boundary va...
This paper presents a solution of the one-dimension Burgers equation using Decomposition Method and ...
AbstractThis paper is devoted to the testing and comparison of numerical solutions obtained from hig...
AbstractIn this paper, the system of two-dimensional Burgers’ equations are solved by local disconti...
AbstractThis paper presents finite-difference solution and analytical solution of the finite-differe...
AbstractThis paper proposes a new scheme termed as modified extended cubic B-Spline differential qua...
AbstractBy means of variational iteration method the solutions of Burger's equation and coupled Burg...
In this paper, a numerical θ scheme is proposed for solving nonlinear Burgers’ equation. By employin...
AbstractIn this paper, the Differential Transformation Method (DTM) is employed to obtain the numeri...
In this work we generate the numerical solutions of Burgers' equation by applying the Crank-Nicholso...
Most of the existing numerical schemes developed to solve Burgers' equation cannot exhibit its corre...
A finite-difference scheme based on rational approximants to the matrix-exponential term in a two-ti...
A numerical solution of the modified Burgers’ equation (MBE) is obtained by using quartic B-spline s...
Two new higher-order accurate finite-difference schemes for the numerical solution of boundary-value...
A fourth order finite-difference scheme in a two-time level recurrence relation is proposed for the ...
A large number of problems in physics and engineering leads to boundary value or initial boundary va...
This paper presents a solution of the one-dimension Burgers equation using Decomposition Method and ...
AbstractThis paper is devoted to the testing and comparison of numerical solutions obtained from hig...
AbstractIn this paper, the system of two-dimensional Burgers’ equations are solved by local disconti...
AbstractThis paper presents finite-difference solution and analytical solution of the finite-differe...
AbstractThis paper proposes a new scheme termed as modified extended cubic B-Spline differential qua...
AbstractBy means of variational iteration method the solutions of Burger's equation and coupled Burg...
In this paper, a numerical θ scheme is proposed for solving nonlinear Burgers’ equation. By employin...
AbstractIn this paper, the Differential Transformation Method (DTM) is employed to obtain the numeri...
In this work we generate the numerical solutions of Burgers' equation by applying the Crank-Nicholso...
Most of the existing numerical schemes developed to solve Burgers' equation cannot exhibit its corre...