2021 AMC 10B Problems/Problem 18
Contents
[hide]- 1 Problem
- 2 Solution 1
- 3 Solution 2
- 4 Solution 3
- 5 Solution 4
- 6 Solution 5 (States)
- 7 Solution 1a (same as solution 1 but with a little more of explanation)
- 8 Solution 6 (Infinite Geometric Sequence Method)
- 9 Solution 2a (same as 2 but with more explanation)
- 10 Solution 8 (Complementary + PIE)
- 11 Solution 9
- 12 Solution 10
- 13 Video Solution (🚀Under 1 min 🚀)
- 14 Video Solution by OmegaLearn
- 15 Video Solution by hurdler (complementary probability)
- 16 Video Solution by TheBeautyofMath
- 17 Video Solution by Interstigation (Simple Bash With PIE)
- 18 See Also
Problem
A fair -sided die is repeatedly rolled until an odd number appears. What is the probability that every even number appears at least once before the first occurrence of an odd number?
Solution 1
There is a chance that the first number we choose is even.
There is a chance that the next number that is distinct from the first is even.
There is a chance that the next number distinct from the first two is even.
With all the even integers taken, the next integer rolled must be odd.
, so the answer is
~Tucker
Solution 2
Every set of three numbers chosen from has an equal chance of being the first 3 distinct numbers rolled.
Therefore, the probability that the first 3 distinct numbers are is
~kingofpineapplz
Solution 3
Note that the problem is basically asking us to find the probability that in some permutation of that we get the three even numbers in the first three spots.
There are ways to order the numbers and ways to order the evens in the first three spots and the odds in the next three spots.
Therefore the probability is .
--abhinavg0627
Solution 4
Let denote the probability that the first odd number appears on roll and all our conditions are met. We now proceed with complementary counting.
For , it's impossible to have all evens appear before an odd. Note that for since there's a chance that the first odd appears on roll (disregarding the other conditions) and the other term is subtracting the probability that less than of the evens show up before the first odd roll. Simplifying, we arrive at
Summing for all , we get our answer of
~ike.chen
Solution 5 (States)
Let be that probability that the condition in the problem is satisfied given that we need more distinct even numbers. Then, since there is a probability that we will roll an even number we already have rolled and will be in the same position again. Solving, we find that .
We can apply the same concept for and . We find that and so . Also, so . Since the problem is asking for , our answer is . -BorealBear
Solution 1a (same as solution 1 but with a little more of explanation)
The probability of choosing an even number on the first turn is , now since you already chose that number, it is irrelevant to the problem now, so, if you chose the number again, it doesn't really matter to our problem anymore. Now, with our remaining numbers, the probability of choosing another even number is , and again, after you have chosen that number, it is out of our problem. Now, you just have numbers left and the probability of choosing the last even number is , so the answer is .
~math31415926535
Solution 6 (Infinite Geometric Sequence Method)
Let's say that our even integers are found in the first numbers where n must be greater than or equal to . Then, we can form an argument based on this. There are total ways to assign even numbers being 246 to each space. Furthermore, we must subtract the cases where we have only a single even integer present in the total spaces and the case where there are only distinct even integers present. There is way we can have a single even integer in the entire spaces, therefore giving us just option for each of the three integers, so we have total cases for this. Moreover, the amount of cases with just distinct even integers is but subtract the cases where all of the n spaces is either a single integer giving us , but we multiply by because of the ways to choose distinct even integers that are used in the sequence of . Finally, we have note: we must divide all of this by for probability. Additionally, over the entire summation, we multiply by because of the probability of selecting an odd at the end of all the evens. Therefore, if you compute this using infinite geometric sequences, you get .
~Jske25
Solution 2a (same as 2 but with more explanation)
The question basically asks for the probability that , , and are all rolled before , or . This probability is equal to the probability that any 3 number combination is rolled before the remaining numbers are rolled (for example, rolling and before , and ). There are combinations possible and summing them all up must result in 1 so the probability of the specific combination being chosen is
~AwesomeK
Solution 8 (Complementary + PIE)
We know that the sequence with odd ending will eventually add up to probability 1.
For every even number appears at least once, let's look at the complementary, i.e. without some even numbers . .
Let
2 even numbers left ,
1 even number left
0 even number left
ans
~aliciawu
Solution 9
We don't care what happens after we pick the first three distinct even numbers. This can be done is ways. Totally there are ways to pick three distinct numbers. So the answer is .
~coolmath_2018
Solution 10
We can use complementary counting for this problem by eliminating the chances that we get 0,1, and 2 even numbers before the odd number. To get 0 even numbers before the odd number has a probability of 3/6 or 1/2. To get 1 even number before the odd number has a probability of 3/6*3/5 which is 3/10 (0.3). To get the probability of 2 even numbers before the odd number it is 3/6*2/5*3/4 which is 3/20 (0.15). Now we eliminate all of these cases to get the answer to the question by doing 1-(0.5+0.3+0.15) which is equal to 0.05 or 1/20 so the answer is C 1/20
~HYPEBEAST1
Video Solution (🚀Under 1 min 🚀)
~Education, the Study of Everything
Video Solution by OmegaLearn
~pi_is_3.14
Video Solution by hurdler (complementary probability)
https://www.youtube.com/watch?v=k2Jy4ni9tK8
Video Solution by TheBeautyofMath
https://youtu.be/FV9AnyERgJQ?t=480
~IceMatrix
Video Solution by Interstigation (Simple Bash With PIE)
(which stands for Principle of Inclusion and Exclusion) https://youtu.be/2SGmSYZ5bqU
~Interstigation
See Also
2021 AMC 10B (Problems • Answer Key • Resources) | ||
Preceded by Problem 17 |
Followed by Problem 19 | |
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