Difference between revisions of "2019 USAJMO Problems/Problem 5"
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Proposed by Ricky Liu | Proposed by Ricky Liu | ||
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+ | ==Solution== | ||
+ | We claim the answer is <math>(2n)!\cdot 2^{n^2}</math>. | ||
+ | Proof: | ||
+ | Note that there are <math>(2n)!</math> ways to choose <math>S_{1, 0}, S_{2, 0}... S_{n, 0}, S_{n, 1}, S_{n, 2}... S{n, n}</math>, because there are <math>2n</math> ways to choose which number <math>S_{1, 0}</math> is, <math>2n-1</math> ways to choose which number to append to make <math>S_{2, 0}</math>, <math>2n-2</math> ways to choose which number to append to make <math>S_{3, 0}</math>... After that, note that <math>S_{n-1, 1}</math> contains the <math>n-1</math> in <math>S_{n-1. 0}</math> and 1 other element chosen from the 2 elements in <math>S_{n, 1}</math> not in <math>S_{n-1, 0}</math> so there are 2 ways for <math>S_{n-1, 1}</math>. By the same logic there are 2 ways for <math>S_{n-1, 2}</math> as well so <math>2^n</math> total ways for all <math>S_{n-1, j}</math>, so doing the same thing <math>n-1</math> more times yields a final answer of <math>(2n)!\cdot 2^{n^2}</math>, as desired. |
Revision as of 19:48, 19 April 2019
Let be a nonnegative integer. Determine the number of ways that one can choose sets , for integers with , such that:
1. for all , the set has elements; and
2. whenever and .
Proposed by Ricky Liu
Solution
We claim the answer is . Proof: Note that there are ways to choose , because there are ways to choose which number is, ways to choose which number to append to make , ways to choose which number to append to make ... After that, note that contains the in and 1 other element chosen from the 2 elements in not in so there are 2 ways for . By the same logic there are 2 ways for as well so total ways for all , so doing the same thing more times yields a final answer of , as desired.