Difference between revisions of "2006 Romanian NMO Problems/Grade 7/Problem 2"
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A square of side <math>n</math> is formed from <math>n^2</math> unit squares, each colored in red, yellow or green. Find minimal <math>n</math>, such that for each coloring, there exists a line and a column with at least 3 unit squares of the same color (on the same line or column). | A square of side <math>n</math> is formed from <math>n^2</math> unit squares, each colored in red, yellow or green. Find minimal <math>n</math>, such that for each coloring, there exists a line and a column with at least 3 unit squares of the same color (on the same line or column). | ||
==Solution== | ==Solution== | ||
+ | For <math>n\leq6</math>, consider this coloring for a 6x6 board: | ||
+ | |||
+ | <cmath>\begin{tabular}{|c|c|c|c|c|c|} | ||
+ | \hline R&Y&G&R&Y&G \\ | ||
+ | \hline G&R&Y&G&R&Y \\ | ||
+ | \hline Y&G&R&Y&G&R \\ | ||
+ | \hline R&Y&G&R&Y&G \\ | ||
+ | \hline G&R&Y&G&R&Y \\ | ||
+ | \hline Y&G&R&Y&G&R \\ | ||
+ | \hline | ||
+ | \end{tabular}</cmath> | ||
+ | |||
+ | We can take the top <math>n</math>-by-<math>n</math> grid of this board as a coloring not satisfying the conditions. | ||
+ | For <math>n\geq7</math>, we note that each row or column must have at least one color with 3 or more squares by the pigeonhole principle, so our answer is 7. | ||
+ | |||
==See also== | ==See also== | ||
*[[2006 Romanian NMO Problems]] | *[[2006 Romanian NMO Problems]] | ||
[[Category:Olympiad Combinatorics Problems]] | [[Category:Olympiad Combinatorics Problems]] |
Latest revision as of 01:48, 18 March 2009
Problem
A square of side is formed from unit squares, each colored in red, yellow or green. Find minimal , such that for each coloring, there exists a line and a column with at least 3 unit squares of the same color (on the same line or column).
Solution
For , consider this coloring for a 6x6 board:
We can take the top -by- grid of this board as a coloring not satisfying the conditions. For , we note that each row or column must have at least one color with 3 or more squares by the pigeonhole principle, so our answer is 7.