In this work, we solve initial value problem for a second order numerically using Euler and Taylor series. On the other hand, we show that after the transformation of the (IVP) into Volterra integral equation of the second kind, its numerical solution using trapezoidal method and modified Simpson method are better than the two first ones Euler and Tayor methods
AbstractIn this work the numerical solution of a Volterra integral equation with a certain weakly si...
summary:Method for numerical solution of Volterra integral equations, based on the O.I.M. methods, i...
In this paper we introduce a class of explicit numerical methods for approximating the solutions o...
In this paper, Taylor expansion has been used for solving non-linear Volterra integral equations (VI...
We implement several methods for solving Volterra integral equations based on standard techniques fo...
The solution of the Volterra integral equation, \[ ( * )\qquad x(t) = g_1 (t) + \sqrt {t}g_2 (t) + \...
In this paper, the existence and uniqueness of solution of the linear twodimensional Volterra integr...
AbstractThis paper deals with non-linear Volterra integral equations of the type y(x) = f(x) + ʃ0x H...
AbstractThe aim of this paper is to present an efficient analytical and numerical procedure for solv...
In this paper the modified trapezoidal rule is presented for solving Volterra linear Integral Equati...
This thesis investigates new finite difference methods for the numerical solution of Volterra integ...
With the remarkable advancement in engineering, science, and technology, today more than ever before...
We introduce multistep collocation methods for the numerical integration of Volterra Integral Equati...
AbstractWe discuss the properties and numerical treatment of various types of Volterra and Abel–Volt...
AbstractIn this paper, we study the feasibility of numerical solutions, analogous to those methods i...
AbstractIn this work the numerical solution of a Volterra integral equation with a certain weakly si...
summary:Method for numerical solution of Volterra integral equations, based on the O.I.M. methods, i...
In this paper we introduce a class of explicit numerical methods for approximating the solutions o...
In this paper, Taylor expansion has been used for solving non-linear Volterra integral equations (VI...
We implement several methods for solving Volterra integral equations based on standard techniques fo...
The solution of the Volterra integral equation, \[ ( * )\qquad x(t) = g_1 (t) + \sqrt {t}g_2 (t) + \...
In this paper, the existence and uniqueness of solution of the linear twodimensional Volterra integr...
AbstractThis paper deals with non-linear Volterra integral equations of the type y(x) = f(x) + ʃ0x H...
AbstractThe aim of this paper is to present an efficient analytical and numerical procedure for solv...
In this paper the modified trapezoidal rule is presented for solving Volterra linear Integral Equati...
This thesis investigates new finite difference methods for the numerical solution of Volterra integ...
With the remarkable advancement in engineering, science, and technology, today more than ever before...
We introduce multistep collocation methods for the numerical integration of Volterra Integral Equati...
AbstractWe discuss the properties and numerical treatment of various types of Volterra and Abel–Volt...
AbstractIn this paper, we study the feasibility of numerical solutions, analogous to those methods i...
AbstractIn this work the numerical solution of a Volterra integral equation with a certain weakly si...
summary:Method for numerical solution of Volterra integral equations, based on the O.I.M. methods, i...
In this paper we introduce a class of explicit numerical methods for approximating the solutions o...