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Bipartite diametrical graphs of diameter 4 and extreme orders.

Al-Addasi, Salah; Al-Ezeh, Hasan — 2008

International Journal of Mathematics and Mathematical Sciences

The Wiener polynomial of the $k$ th power graph.

Abughneim, Omar A.; Al-Ezeh, Hasan; Al-Ezeh, Mahmoud — 2007

International Journal of Mathematics and Mathematical Sciences

Characterizing which Powers of Hypercubes and Folded Hyper- cubes Are Divisor Graphs

Eman A. AbuHijleh; Omar A. AbuGhneim; Hasan Al-Ezeh — 2015

Discussiones Mathematicae Graph Theory

In this paper, we show that Qkn is a divisor graph, for n = 2, 3. For n ≥ 4, we show that Qkn is a divisor graph iff k ≥ n − 1. For folded-hypercube, we get FQn is a divisor graph when n is odd. But, if n ≥ 4 is even integer, then FQn is not a divisor graph. For n ≥ 5, we show that (FQn)k is not a divisor graph, where 2 ≤ k ≤ [n/2] − 1.

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Currently displaying 1 – 3 of 3

Bipartite diametrical graphs of diameter 4 and extreme orders.

The Wiener polynomial of the $k$ th power graph.

Characterizing which Powers of Hypercubes and Folded Hyper- cubes Are Divisor Graphs

Advanced Search

Formula preview

Currently displaying 1 – 3 of 3

Bipartite diametrical graphs of diameter 4 and extreme orders.

The Wiener polynomial of the k th power graph.

Characterizing which Powers of Hypercubes and Folded Hyper- cubes Are Divisor Graphs

The Wiener polynomial of the $k$ th power graph.