Domain of existence for the solution of some IVP's and BVP's by using an efficient ninth-order iterative method |
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| Authors: | Fabricio Cevallos José L. Hueso Eulalia Martínez Cory L. Howk |
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| Affiliation: | 1. Fac. de Ciencias Económicas, Universidad Laica “Eloy Alfaro de Manabí,” Valencia, Ecuador;2. Instituto Universitario de Matemática Multidisciplinar, Universitat Politècnica de València, Valencia, Spain;3. Department of Mathematics and Computer Science, Western Carolina University, Cullowhee, North Carolina |
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| Abstract: | In this paper, we consider the problem of solving initial value problems and boundary value problems through the point of view of its continuous form. It is well known that in most cases these types of problems are solved numerically by performing a discretization and applying the finite difference technique to approximate the derivatives, transforming the equation into a finite-dimensional nonlinear system of equations. However, we would like to focus on the continuous problem, and therefore, we try to set the domain of existence and uniqueness for its analytic solution. For this purpose, we study the semilocal convergence of a Newton-type method with frozen first derivative in Banach spaces. We impose only the assumption that the Fréchet derivative satisfies the Lipschitz continuity condition and that it is bounded in the whole domain in order to obtain appropriate recurrence relations so that we may determine the domains of convergence and uniqueness for the solution. Our final aim is to apply these theoretical results to solve applied problems that come from integral equations, ordinary differential equations, and boundary value problems. |
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| Keywords: | computational efficiency iterative methods nonlinear equations order of convergence semilocal convergence |
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