Difference between revisions of "2024 AMC 10B Problems/Problem 18"
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~ Pi Academy | ~ Pi Academy | ||
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Revision as of 12:34, 14 November 2024
- The following problem is from both the 2024 AMC 10B #18 and 2024 AMC 12B #14, so both problems redirect to this page.
Contents
Problem
How many different remainders can result when the th power of an integer is divided by ?
Fast Solution
https://www.youtube.com/watch?v=S7l_Yv2Sd7E
Solution 1
First note that the totient function of is . We can set up two cases, which depend on whether a number is relatively prime to .
If is relatively prime to , then because of Euler's Totient Theorem.
If is not relatively prime to , it must be have a factor of . Express as , where is some integer. Then .
Therefore, can only be congruent to or . Our answer is .
~lprado
Solution 2 (Euler Totient)
We split the cases into:
1. If x is not a multiple of 5: we get
2. If x is a multiple of 125: Clearly the only remainder provides 0
Therefore, the remainders can only be 1 and 0, which gives the answer .
~mitsuihisashi14
Solution 3
Note that
Taking this mod , we can ignore most of the terms except the for the last :
so . Substituting for , we get . Therefore, the remainders when divided by repeat every integers, so we only need to check the th powers of . But we have that and , so we really only need to check . We know that produce different remainders, so the answer to the problem is either or . But is not an answer choice, so the answer is .
Solution 4 (Totient)
Euler's Totient Function, returns as a product of each prime divisor of .
Euler's Totient Theorem states that if is an integer and is a positive integer relatively prime to , then .
In this case, , which is convenient because only has one prime factor, , therefore , so where . Every single number that isn't a multiple of is relatively prime to , therefore we have two cases:
1)
2)
The answer is ~Tacos_are_yummy_1
Video Solution 1 by Pi Academy (Fast and Easy ⚡🚀)
https://youtu.be/c6nhclB5V1w?feature=shared
~ Pi Academy
Solution 8 (Binomial Theorem)
~Kathan