Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4647413 | Discrete Mathematics | 2014 | 12 Pages |
Abstract
We discovered a dual behavior of two tree indices, the Wiener index and the number of subtrees, for a number of extremal problems (Székely and Wang, 2006, 2005). We introduced the concept of subtree core: the subtree core of a tree consists of one or two adjacent vertices of a tree that are contained in the largest number of subtrees. Let Ï(T) denote the sum of distances between unordered pairs of vertices in a tree T and ÏT(v) the sum of distances from a vertex v to all other vertices in T. Barefoot et al. (1997) determined extremal values of ÏT(w)/ÏT(u), ÏT(w)/ÏT(v), Ï(T)/ÏT(v), and Ï(T)/ÏT(w), where T is a tree on n vertices, v is in the centroid of the tree T, and u,w are leaves in T. Let F(T) denote the number of subtrees of T and FT(v) the number of subtrees containing v in T. In Part I of this paper we tested how far the negative correlation between distances and subtrees go if we look for (and characterize) the extremal values of FT(w)/FT(u), FT(w)/FT(v). In this paper we characterize the extremal values of F(T)/FT(v), and F(T)/FT(w), where T is a tree on n vertices, v is in the subtree core of the tree T, and w is a leaf in T-completing the analogy, changing distances to the number of subtrees.
Related Topics
Physical Sciences and Engineering
Mathematics
Discrete Mathematics and Combinatorics
Authors
László A. Székely, Hua Wang,