Volume 8, Issue 1
مرور بر اساس
ارسال های اخیر
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Neighbourly Irregular Derived Graphs
(University of Kashan, 2017-03-01)A connected graph G is said to be neighbourly irregular graph if no two adjacent vertices of G have same degree. In this paper we obtain neighbourly irregular derived graphs such as semitotal-point graph, k^{tℎ} semitotal-point ...
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Distance-Based Topological Indices and Double graph
(University of Kashan, 2017-03-01)Let $G$ be a connected graph, and let $D[G]$ denote the double graph of $G$. In this paper, we first derive closed-form formulas for different distance based topological indices for $D[G]$ in terms of that of $G$. Finally, ...
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On the Multiplicative Zagreb Indices of Bucket Recursive Trees
(University of Kashan, 2017-03-01)Bucket recursive trees are an interesting and natural generalization of ordinary recursive trees and have a connection to mathematical chemistry. In this paper, we give the lower and upper bounds for the moment ...
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An Upper Bound on the First Zagreb Index in Trees
(University of Kashan, 2017-03-01)In this paper we give sharp upper bounds on the Zagreb indices and characterize all trees achieving equality in these bounds. Also, we give lower bound on first Zagreb coindex of trees.
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The Topological Indices of some Dendrimer Graphs
(University of Kashan, 2017-03-01)In this paper the Wiener and hyper Wiener index of two kinds of dendrimer graphs are determined. Using the Wiener index formula, the Szeged, Schultz, PI and Gutman indices of these graphs are also determined.
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Relationship between Coefficients of Characteristic Polynomial and Matching Polynomial of Regular Graphs and its Applications
(University of Kashan, 2017-03-01)ABSTRACT. Suppose G is a graph, A(G) its adjacency matrix and f(G, x)=x^n+a_(n-1)x^(n-1)+... is the characteristic polynomial of G. The matching polynomial of G is defined as M(G, x) = x^n-m(G,1)x^(n-2) + ... where m(G,k) ...
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Stirling Numbers and Generalized Zagreb Indices
(University of Kashan, 2017-03-01)We show how generalized Zagreb indices $M_1^k(G)$ can be computed by using a simple graph polynomial and Stirling numbers of the second kind. In that way we explain and clarify the meaning of a triangle of numbers used to ...



