Harmonic-Arithmetic Index of (Molecular) Trees

Abstract

Let G be a graph. Denote by dx, E(G), and D(G) the degree of a vertex x in G, the set of edges of G, and the degree set of G, respectively. This paper proposes to investigate (both from mathematical and applications points of view) those graph invariants of the form Σuv∈ E(G)(dv,dw) in which can be defined either using well-known means of dv and dw (for example: arithmetic, geometric, harmonic, quadratic, and cubic means) or by applying a basic arithmetic operation (addition, subtraction, multiplication, and division) on any of two such means, provided that is a non-negative and symmetric function defined on the Cartesian square of D(G). Many existing well-known graph invariants can be defined in this way; however, there are many exceptions too. One of such uninvestigated graph invariants is the harmonic-arithmetic (HA) index, which is obtained from the aforementioned setting by taking as the ratio of the harmonic and arithmetic means of dv and dw. A molecular tree is a tree whose maximum degree does not exceed four. Given the class of all (molecular) trees with a fixed order, graphs that have the largest or least value of the HA index are completely characterized in this paper.