2021 AIME I Problems/Problem 12
Problem
Let be a dodecagon (-gon). Three frogs initially sit at and . At the end of each minute, simultaneously, each of the three frogs jumps to one of the two vertices adjacent to its current position, chosen randomly and independently with both choices being equally likely. All three frogs stop jumping as soon as two frogs arrive at the same vertex at the same time. The expected number of minutes until the frogs stop jumping is , where and are relatively prime positive integers. Find .
Solution 1
Define the distance between two frogs as the number of sides between them that do not contain the third frog.
Let denote the expected number of minutes until the frogs stop jumping, such that the distances between the frogs are and (in either clockwise or counterclockwise order). Without the loss of generality, assume that
We wish to find Note that:
- At any moment before the frogs stop jumping, the only possibilities for are and
- does not depend on the actual positions of the frogs, but depends on the distances between the frogs.
- At the end of each minute, each frog has outcomes. So, there are outcomes in total.
We have the following system of equations: Rearranging and simplifying each equation, we get Substituting and into we obtain from which Substituting this into gives
Therefore, the answer is
~Ross Gao (Fundamental Logic)
~MRENTHUSIASM (Reconstruction)
Supplement (Markov Chain)
The above solution can be represented by the following Markov Chain:
From state to state , the frogs must jump in the same direction, .
From state to state , frogs must jump in the same direction, and the other must jump in the opposite direction, .
See Also
2021 AIME I (Problems • Answer Key • Resources) | ||
Preceded by Problem 11 |
Followed by Problem 13 | |
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