Abstract
In this paper, the process for finding an approximate solution of nonlinear three-dimensional (3D) Volterra type integral operator equation (N3D-VIOE) in R3 is introduced. The modelling of the majorant function (MF) with the modified Newton method (MNM) is employed to convert N3D-VIOE to the linear 3D Volterra type integral operator equation (L3D-VIOE). The method of trapezoidal rule (TR) and collocation points are utilized to determine the approximate solution of L3D-VIOE by dealing with the linear form of the algebraic system. The existence of the approximate solution and its uniqueness are proved, and illustrative examples are provided to show the accuracy and efficiency of the model. Mathematical Subject Classification (2010): 45P05, 45G10, 47H99
Highlights
Diverse problems in biology and mechanics arise in an integrated one and a multidimensional equation 710
Numerical Results and Discussions: The goal of this section is to show the efficiency and ability of the method based on modified Newton method (MNM) and majorant function (MF), the following example has been considered and MATLAB Rb 2013 has been used to get the results
U * 1, 2, 3 and to show that MNM is more accurate than the two other methods, (3DBP)
Summary
Three-Dimensional Nonlinear Integral Operator with the Modelling of Majorant Function. Received 19/12/2019, Accepted 27/4/2020, Published Online First 11/1/2021, Published 1/6/2021.
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