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Vladikavkazskii Matematicheskii Zhurnal, 2024, Volume 26, Number 2, Pages 103–112
DOI: https://doi.org/10.46698/y7151-5493-5096-h
(Mi vmj913)
 

Model three-dimensional Volterra type integral equations with boundary singular, weak singular and strong singular kernels

L. N. Rajabova, M. B. Khushvakhtzoda

Tajik National University, 17 Rudaki Ave., Dushanbe 734025, Tajikistan
References:
Abstract: In this paper, we study a three-dimensional model Volterra type integral equation with boundary weakly special, special and strongly special kernels in the domain $\Omega=\{(x,y,z):\ 0\leq a<x<\infty,\ 0\leq b<y<b_{0},\ 0\leq c<z<c_{0}\}$, which we will call a rectangular pipe. In the case when the coefficients of the equation are interconnected, the solution of the equation is sought in the class of continuous functions in $\Omega$ vanishing with a certain asymptotic behavior on special domains. It is proved that, under certain conditions, the problem of finding a solution to a three-dimensional integral equation of the Volterra type with boundary weakly special, special and strongly special kernels is reduced to solving one-dimensional integral equations of the Volterra type with special boundary kernels. Note that when solving this integral equation, connections of these equations with first-order differential equations with weakly singular, singular and strongly singular coefficients are used. Then it is established that there is no need to require differentiability from the obtained solution and the right-hand side, it is sufficient that the right-hand side of the three-dimensional integral equation with boundary special, weakly special, and strongly special kernels is continuous and vanishes with certain asymptotics on special domains. It is proved that, depending on the sign of the coefficients of the equation, the explicit solution of a three-dimensional Volterra-type model integral equation with special kernels can contain from one to three arbitrary functions of two variables, and the case is also determined when the solution of the integral equation is unique.
Key words: model integral equation, three-dimensional integral equation, boundary singular kernels, arbitrary function.
Received: 15.01.2024
Document Type: Article
UDC: 517.968.220
MSC: 45D05
Language: Russian
Citation: L. N. Rajabova, M. B. Khushvakhtzoda, “Model three-dimensional Volterra type integral equations with boundary singular, weak singular and strong singular kernels”, Vladikavkaz. Mat. Zh., 26:2 (2024), 103–112
Citation in format AMSBIB
\Bibitem{LutKhu24}
\by L.~N.~Rajabova, M.~B.~Khushvakhtzoda
\paper Model three-dimensional Volterra type integral equations with boundary singular, weak singular and strong singular kernels
\jour Vladikavkaz. Mat. Zh.
\yr 2024
\vol 26
\issue 2
\pages 103--112
\mathnet{http://mi.mathnet.ru/vmj913}
\crossref{https://doi.org/10.46698/y7151-5493-5096-h}
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