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HOW MANY TRIANGLES CAN A GRAPH HAVE?
Part of:
Graph theory
Published online by Cambridge University Press: 14 November 2024
Abstract
We investigate the set 
$T_{n}$ of the possible number of triangles in a graph on n vertices. The first main result says that every natural number less than 
$\binom {n}{3} - (\sqrt {2}+o(1) )n^{3/2} $ belongs to 
$T_{n}$. On the other hand, we show that there is a number 
$m = \binom {n}{3}-( \sqrt {2} +o(1))n^{3/2}$ that is not a member of 
$T_{n}$. In addition, we prove that there are two interlacing sequences 
$\binom {n}{3} - ( \sqrt {2} + o(1) )n^{3/2} = c_{1} \le d_{1} \le c_{2} \le d_{2} \le \cdots \le c_{s} \le d_{s} = \binom {n}{3}$ with 
$| c_{t} - d_{t}| = n-2-\binom {s - t +1}{2}$ such that 
$( c_{t}, d_{t} ) \cap T_{n} = \emptyset $ for all t. Moreover, we obtain a generalisation of these results for the set of the possible number of copies of a connected graph H in a graph on n vertices.
Keywords
MSC classification
Primary:
05C35: Extremal problems
Information
- Type
- Research Article
- Information
- Copyright
- © The Author(s), 2024. Published by Cambridge University Press on behalf of Australian Mathematical Publishing Association Inc.
Footnotes
The first author was partially supported by Office of the Permanent Secretary, Ministry of Higher Education, Science, Research and Innovation grant RGNS 63-016.
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