Difference between revisions of "2020 OIM Problems/Problem 3"
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Let <math>n \ge 2</math> be an integer. A sequence <math>\alpha = (a_1, a_2, \cdots , a_n)</math> of <math>n</math> integers is "''Limeña''" (from Lima, Perú) if | Let <math>n \ge 2</math> be an integer. A sequence <math>\alpha = (a_1, a_2, \cdots , a_n)</math> of <math>n</math> integers is "''Limeña''" (from Lima, Perú) if | ||
− | <cmath>gcd{a_i - a_j | a_i > a_j, 1 \le i, j \le n} = 1</cmath> | + | <cmath>gcd \left\{ a_i - a_j | a_i > a_j, 1 \le i, j \le n\right\} = 1</cmath> |
An "''operation''" consists of choosing two elements <math>a_k</math> and <math>a_l</math> of a sequence, with <math>k \ne l</math>, | An "''operation''" consists of choosing two elements <math>a_k</math> and <math>a_l</math> of a sequence, with <math>k \ne l</math>, | ||
and replace <math>a_l</math> with <math>a'_l</math> Show that, given a collection of <math>2^n-1</math> ''Limeñan'' sequences, each formed by <math>n</math> integers numbers, there are two of them, say <math>\beta</math> and <math>\gamma</math>, such that it is possible to transform <math>\beta</math> into <math>\gamma</math> by a finite number of operations. | and replace <math>a_l</math> with <math>a'_l</math> Show that, given a collection of <math>2^n-1</math> ''Limeñan'' sequences, each formed by <math>n</math> integers numbers, there are two of them, say <math>\beta</math> and <math>\gamma</math>, such that it is possible to transform <math>\beta</math> into <math>\gamma</math> by a finite number of operations. | ||
− | + | '''Clarification:''' If all the elements of a sequence are equal, then that sequence is not ''Limeña''. | |
~translated into English by Tomas Diaz. ~orders@tomasdiaz.com | ~translated into English by Tomas Diaz. ~orders@tomasdiaz.com |
Latest revision as of 08:38, 23 December 2023
Problem
Let be an integer. A sequence of integers is "Limeña" (from Lima, Perú) if
An "operation" consists of choosing two elements and of a sequence, with , and replace with Show that, given a collection of Limeñan sequences, each formed by integers numbers, there are two of them, say and , such that it is possible to transform into by a finite number of operations. Clarification: If all the elements of a sequence are equal, then that sequence is not Limeña.
~translated into English by Tomas Diaz. ~orders@tomasdiaz.com
Solution
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