Sharp Bounds of First Zagreb Coindex for F-Sum Graphs

Let G=VE,EG be a connected graph with vertex set VG and edge set EG. For a graph G, the graphs S(G), R(G), Q(G), and T(G) are obtained by applying the four subdivisions related operations S, R, Q, and T, respectively. Further, for two connected graphs G1 and G2, G1+FG2 are F-sum graphs which are con...

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Bibliographic Details
Published in:Journal of mathematics (Hidawi) 2021, Vol.2021, p.1-19
Main Authors: Javaid, Muhammad, Ibraheem, Muhammad, Ahmad, Uzma, Liu, Jia-Bao
Format: Article
Language:English
Subjects:
Boiling points
Cartesian coordinates
Computer science
Enthalpy
Graph theory
Graphs
Integer programming
Mathematics
Molar volume
Molecular structure
Regression analysis
Specific heat
Subdivisions
Upper bounds
Vaporization
Vertex sets
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Summary:Let G=VE,EG be a connected graph with vertex set VG and edge set EG. For a graph G, the graphs S(G), R(G), Q(G), and T(G) are obtained by applying the four subdivisions related operations S, R, Q, and T, respectively. Further, for two connected graphs G1 and G2, G1+FG2 are F-sum graphs which are constructed with the help of Cartesian product of FG1 and G2, where F∈S,R,Q,T. In this paper, we compute the lower and upper bounds for the first Zagreb coindex of these F-sum (S-sum, R-sum, Q-sum, and T-sum) graphs in the form of the first Zagreb indices and coincides of their basic graphs. At the end, we use linear regression modeling to find the best correlation among the obtained results for the thirteen physicochemical properties of the molecular structures such as boiling point, density, heat capacity at constant pressure, entropy, heat capacity at constant time, enthalpy of vaporization, acentric factor, standard enthalpy of vaporization, enthalpy of formation, octanol-water partition coefficient, standard enthalpy of formation, total surface area, and molar volume.
ISSN:2314-4629
2314-4785
DOI:10.1155/2021/9984412