GENERALIZED DOUBLE LAPLACE TRANSFORM AND ITS APPLICATION FOR PARTIAL DIFFERENTIAL EQUATIONS SOLVING

Authors

DOI:

https://doi.org/10.52575/2687-0959-2020-52-4-239–245

Keywords:

double Laplace transform, convolution of functions, wave equation, Cauchy problem.

Abstract

The transmutation operator method is used to construct the generalized double Laplace transform. In the article, the apparatus of the generalized double Laplace transform is created, the differentiation with a piecewise constant factor is considered. By using the transmutation operator method, the calculation of the generalized double Laplace transform is reduced to the calculation of the classical Laplace transform. Theorems on the general properties of the double Laplace transform are proved: on the differentiation of the function; about shifts; a convolution of two functions is defined, its properties are studied, and a convolution theorem is proved. In the article the applications of the generalized double Laplace transform for solving partial differential equations with piecewise constant coefficients it is discussed. The Cauchy problem for the wave equation with piecewise constant coefficients is solved.

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Published

2020-12-24

How to Cite

Yaremko, O., & Yaremko, N. (2020). GENERALIZED DOUBLE LAPLACE TRANSFORM AND ITS APPLICATION FOR PARTIAL DIFFERENTIAL EQUATIONS SOLVING. Applied Mathematics & Physics, 52(4), 239–245. https://doi.org/10.52575/2687-0959-2020-52-4-239–245

Issue

Vol. 52 No. 4 (2020)

Section

Mathematics

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