Numerical solution of nonisothermal rate equations and analysis of solutions by the Reich—Stivala method

In this paper, an analytic technique, namely the homotopy analysis method (HAM) is applied to obtain approximations to the analytic solution of the generalized Zakharov equation. The HAM contains the auxiliary parameter h, which provides us with a simple way to adjust and control the convergence reg

Method of lines solutions previously obtained for elliptic problems ofthe boundary value type are summarised and the application of the method to eigenvalue problems is discussed in some detail.

In the present article, we apply the variational iteration method to obtain the numerical solution of the functional integral equations. This method does not need to be dependent on linearization, weak nonlinearity assumptions or perturbation theory. Application of this method in finding the approxi

A system of reaction-diffusion equations which governs the propagation of an ozone decomposition laminar flame in Lagrangian co-ordinates is analysed by means of compact operators and modified equation methods. It is shown that the use of fourth-order accurate compact operators yields very accurate