2021 AIME I Problems/Problem 1
Zou and Chou are practicing their -meter sprints by running races against each other. Zou wins the first race, and after that, the probability that one of them wins a race is if they won the previous race but only if they lost the previous race. The probability that Zou will win exactly of the races is , where and are relatively prime positive integers. Find
Solution 1 (Casework)
For the next five races, Zou wins four and loses one. Let and denote a win and a loss, respectively. There are five possible outcome sequences for Zou:
We proceed with casework:
Case (1): Sequences #1-4, in which Zou does not lose the last race.
The probability that Zou loses a race is and the probability that Zou wins the next race is For each of the three other races, the probability that Zou wins is
There are four sequences in this case. The probability of one such sequence is
Case (2): Sequence #5, in which Zou loses the last race.
The probability that Zou loses a race is For each of the four other races, the probability that Zou wins is
There is one sequence in this case. The probability is
The requested probability is from which the answer is
Solution 2 (Casework but Bashier)
We have cases, depending on which race Zou lost. Let denote a won race, and denote a lost race for Zou. The possible cases are . The first case has probability . The second case has probability . The third has probability . The fourth has probability . Lastly, the fifth has probability . Adding these up, the total probability is , so . ~rocketsri
This is for if you're paranoid like me, and like to sometimes write out all of the cases if there are only a few.
Solution 3 (Even More Casework)
Case 1: Zou loses the first race
In this case, Zou must win the rest of the races. Thus, our probability is .
Case 2: Zou loses the last race
There is only one possibility for this, so our probability is .
Case 3: Neither happens
There are three ways that this happens. Each has one loss that is not the last race. Therefore, the probability that one happens is . Thus, the total probability is .
Adding these up, we get , so .
Video Solution by Punxsutawney Phil
Video Solution by Steven Chen (in Chinese)
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