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Degree-Distance Based Topological Indices of Crystal Cubic Carbon StructureDOI: https://doi.org/10.3390/atoms6040062 Keywords: degree, eccentricity, Eccentric-connectivity index ξ(G), Eccentric connectivity polynomial ECP(G, x), Connective Eccentric index Cξ(G), crystal cubic carbon Abstract: Abstract Chemical graph theory comprehends the basic properties of an atomic graph. The sub-atomic diagrams are the graphs that are comprised of particles called vertices and the covalent bond between them are called edges. The eccentricity ? u of vertex u in an associated graph G, is the separation among u and a vertex farthermost from u. In this article, we consider the precious stone structure of cubic carbon and registered Eccentric-connectivity index ξ ( G ) , Eccentric connectivity polynomial E C P ( G , x ) and Connective Eccentric index C ξ ( G ) of gem structure of cubic carbon for n-levels. View Full-Tex
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