Forgotten Coindex for the Derived Sum Graphs under Cartesian Product

The second hyper-Zagreb coindex is an efficient topological index that enables us to describe a molecule from its molecular graph. In this current study, we shall evaluate the second hyper-Zagreb coindex of some chemical graphs. In this study, we compute the value of the second hyper-Zagreb coindex of some chemical graph structures such as sildenafil, aspirin, and nicotine. We also present explicit formulas of the second hyper-Zagreb coindex of any graph that results from some interesting graphical operations such as tensor product, Cartesian product, composition, and strong product, and apply them on a q-multiwalled nanotorus.

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The Second Hyper-Zagreb Coindex of Chemical Graphs and Some Applications

Ayache

Alameri

Alsharafi

et al. 2021

Journal of Chemistry

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Sum-Connectivity Coindex of Graphs under Operations

Ibraheem

Bonyah²,

Javaid

2022

Journal of Chemistry

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Topological indices or coindices are mathematical parameters which are widely used to investigate different properties of graphs. The operations on graphs play vital roles in the formation of new molecular graphs from the old ones. Let Γ be a graph we perform four operations which are S , R , Q , and T and obtained subdivisions type graphs such that S Γ , R Γ , Q Γ , and T Γ , respectively. Let Γ 1 and Γ 2 be two simple graphs; then, F -sum graph is defined by performing the Cartesian product on F Γ 1 and Γ 2 ; mathematically, it is denoted by Γ 1 + F Γ 2 , where F ∈ S , R , Q , T . In this article, we have calculated sum-connectivity coindex for F -sum graphs. At the end, we have illustrated the results for particular F -sum graphs with the help of a table consisting of numerical values.

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First General Zagreb Co‐Index of Graphs under Operations

Javaid

Ibraheem

Bonyah³

et al. 2022

Journal of Mathematics

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Topological indices are graph-theoretic parameters which are widely used in the subject of chemistry and computer science to predict the various chemical and structural properties of the graphs respectively. Let G be a graph; then, by performing subdivision-related operations S , Q , R , and T on G , the four new graphs S G (subdivision graph), Q G (edge-semitotal), R G (vertex-semitotal), and T G (total graph) are obtained, respectively. Furthermore, for two simple connected graphs G and H , we define F -sum graphs (denoted by G + F H ) which are obtained by Cartesian product of F G and H , where F ∈ S , R , Q , T . In this study, we determine first general Zagreb co-index of graphs under operations in the form of Zagreb indices and co-indices of their basic graphs.

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Forgotten Coindex for the Derived Sum Graphs under Cartesian Product

Cited by 3 publications

References 34 publications

The Second Hyper-Zagreb Coindex of Chemical Graphs and Some Applications

The Second Hyper-Zagreb Coindex of Chemical Graphs and Some Applications

Sum-Connectivity Coindex of Graphs under Operations

First General Zagreb Co‐Index of Graphs under Operations

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