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2021 8 Week Prep Course for the AMC 10 Question 1

 
 
ZhuDaniel的头像
2021 8 Week Prep Course for the AMC 10 Question 1
ZhuDaniel - 2020年12月2日 Wednesday 17:24
 
What's a quick way to solve this problem and other problems like this? 


How I solved it was I looked at each exponent of 23 and tried to find a pattern but I would assume that would be too time-consuming on the actual AMC.

 
ReynosoDavid的头像
Re: 2021 8 Week Prep Course for the AMC 10 Question 1
ReynosoDavid - 2020年12月2日 Wednesday 18:37
 

Try using Euler's Theorem (the extension of Fermat's Little Theorem for when the mod is not prime) that says $$a^{\phi(n)} \equiv 1 \pmod{n},$$ where $\phi(n)$ is Euler's totient function (number of positive integers smaller than $n$ that are relatively prime with $n$) and $\gcd(a,n) = 1$.

 
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ZhuDaniel的头像
Re: 2021 8 Week Prep Course for the AMC 10 Question 1
ZhuDaniel - 2020年12月3日 Thursday 21:54
 
Got it, thank you!
 
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XuJoy的头像
Re: 2021 8 Week Prep Course for the AMC 10 Question 1
XuJoy - 2020年12月6日 Sunday 11:35
 

I'm also struggling with this problem. I can't seem to find a pattern by looking at the powers of 23 mod 100, or figure out how to use Euler's Theorem. I've tried putting in 100 and 10 for n and 23 for a but I can't figure out how to get the 2323 into the exponent. I'm not really familiar with this theorem and how to use it, so do you have any hints?

 
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XuJoy的头像
Re: 2021 8 Week Prep Course for the AMC 10 Question 1
XuJoy - 2020年12月6日 Sunday 12:52
 

Oh wait never mind I was able to find a pattern with the powers of 23, but I still don't know how to use Euler's Theorem for this problem.

 
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