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On Solutions of Fractional order Telegraph Partial Differential Equation by Crank-Nicholson Finite Difference Method

M. R. Rajesh Kanna, R. Pradeep Kumar, Soner Nandappa, İsmail Naci Cangül

2020Applied Mathematics and Nonlinear Sciences30 citationsDOIOpen Access PDF

Abstract

Abstract Three main tools to study graphs mathematically are to make use of the vertex degrees, distances and matrices. The classical graph energy was defined by means of the adjacency matrix in 1978 by Gutman and has a large number of applications in chemistry, physics and related areas. As a result of its importance and numerous applications, several modifications of the notion of energy have been introduced since then. Most of them are defined by means of graph matrices constructed by vertex degrees. In this paper we define another type of energy called q -distance energy by means of distances and matrices. We study some fundamental properties and also establish some upper and lower bounds for this new energy type.

Topics & Concepts

Adjacency matrixMathematicsVertex (graph theory)Type (biology)Graph theoryOrder (exchange)GraphMatrix (chemical analysis)Energy (signal processing)CombinatoricsDiscrete mathematicsApplied mathematicsStatisticsEconomicsMaterials scienceComposite materialFinanceBiologyEcologyGraph theory and applicationsMatrix Theory and AlgorithmsComputational Drug Discovery Methods
On Solutions of Fractional order Telegraph Partial Differential Equation by Crank-Nicholson Finite Difference Method | Litcius