2006 USAMO Problems/Problem 2

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Problem

(Dick Gibbs) For a given positive integer $k$ find, in terms of $k$, the minimum value of $N$ for which there is a set of $2k+1$ distinct positive integers that has sum greater than $N$ but every subset of size $k$ has sum at most $N/2$.

Solutions

Solution 1

Let one optimal set of integers be $\{a_1,\dots,a_{2k+1}\}$ with $a_1 > a_2 > \cdots > a_{2k+1} > 0$.

The two conditions can now be rewritten as $a_1+\cdots + a_k \leq N/2$ and $a_1+\cdots +a_{2k+1} > N$. Subtracting, we get that $a_{k+1}+\cdots + a_{2k+1} > N/2$, and hence $a_{k+1}+\cdots + a_{2k+1} > a_1+\cdots + a_k$. In words, the sum of the $k+1$ smallest numbers must exceed the sum of the $k$ largest ones.

Let $a_{k+1}=C$. As all the numbers are distinct integers, we must have $\forall i \in\{1,\dots,k\}:~ a_{k+1-i} \geq C+i$, and also $\forall i \in\{1,\dots,k\}:~ a_{k+1+i} \leq C-i$.

Thus we get that $a_1+\cdots + a_k \geq kC + \dfrac{k(k+1)}2$, and $a_{k+1}+\cdots + a_{2k+1} \leq (k+1)C - \dfrac{k(k+1)}2$.

As we want the second sum to be larger, clearly we must have $(k+1)C - \dfrac{k(k+1)}2 > kC + \dfrac{k(k+1)}2$. This simplifies to $C > k(k+1)$.

Hence we get that:

\begin{align*} N & \geq 2(a_1+\cdots + a_k) \\   & \geq 2\left( kC + \dfrac{k(k+1)}2 \right) \\   & = 2kC + k(k+1) \\   & \geq 2k(k^2+k+1) + k(k+1) \\   & = 2k^3 + 3k^2 + 3k \end{align*}

On the other hand, for the set $\{ k^2+k+1+i ~|~ i\in\{-k,\dots,k\} \, \}$ the sum of the largest $k$ elements is exactly $k^3 + k^2 + k + \dfrac{k(k+1)}2$, and the sum of the entire set is $(k^2+k+1)(2k+1) = 2k^3 + 3k^2 + 3k + 1$, which is more than twice the sum of the largest set.

Hence the smallest possible $N$ is $\boxed{ N = 2k^3 + 3k^2 + 3k }$.

Alternate solutions are always welcome. If you have a different, elegant solution to this problem, please add it to this page.

See also

  • <url>viewtopic.php?t=84550 Discussion on AoPS/MathLinks</url>
2006 USAMO (ProblemsResources)
Preceded by
Problem 1
Followed by
Problem 3
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