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Maximizing the number of nonnegative subsets

Given a set of $n$ real numbers, if the sum of elements of every subset of size larger than $k$ is negative, what is the maximum number of subsets of nonnegative sum? In this note we show that the answer is $\binom{n-1}{k-1} + \binom{n-1}{k-2} + \cdots + \binom{n-1}{0}+1$, settling a problem of Tsukerman. We provide two proofs, the first establishes and applies a weighted version of Hall's Theorem and the second is based on an extension of the nonuniform Erdős-Ko-Rado Theorem.

preprint2014arXivOpen access

Noga Alon Harout Aydinian Hao Huang

math.CO

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Noga Alon Harout Aydinian Hao Huang

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