This website contains problems from math contests. Problems and corresponding tags were obtained from the Art of Problem Solving website.

Tags were heavily modified to better represent problems.

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Found problems: 7

2024 Thailand TST, 1
Tags: IMO Shortlist , number theory , AZE BMO TST , AZE EGMO TST , TST , BRA Cono Sur TST
For positive integers $n$ and $k \geq 2$, define $E_k(n)$ as the greatest exponent $r$ such that $k^r$ divides $n!$. Prove that there are infinitely many $n$ such that $E_{10}(n) > E_9(n)$ and infinitely many $m$ such that $E_{10}(m) < E_9(m)$.

2024 Indonesia TST, 2
Tags: IMO Shortlist , number theory , AZE BMO TST , AZE EGMO TST , TST , BRA Cono Sur TST
For positive integers $n$ and $k \geq 2$, define $E_k(n)$ as the greatest exponent $r$ such that $k^r$ divides $n!$. Prove that there are infinitely many $n$ such that $E_{10}(n) > E_9(n)$ and infinitely many $m$ such that $E_{10}(m) < E_9(m)$.

2023 ISL, N3
Tags: IMO Shortlist , number theory , AZE BMO TST , AZE EGMO TST , TST , BRA Cono Sur TST
For positive integers $n$ and $k \geq 2$, define $E_k(n)$ as the greatest exponent $r$ such that $k^r$ divides $n!$. Prove that there are infinitely many $n$ such that $E_{10}(n) > E_9(n)$ and infinitely many $m$ such that $E_{10}(m) < E_9(m)$.

2024 Indonesia TST, 2
Tags: IMO Shortlist , number theory , AZE BMO TST , AZE EGMO TST , TST , BRA Cono Sur TST
For positive integers $n$ and $k \geq 2$, define $E_k(n)$ as the greatest exponent $r$ such that $k^r$ divides $n!$. Prove that there are infinitely many $n$ such that $E_{10}(n) > E_9(n)$ and infinitely many $m$ such that $E_{10}(m) < E_9(m)$.

2024 Germany Team Selection Test, 1
Tags: IMO Shortlist , number theory , AZE BMO TST , AZE EGMO TST , TST , BRA Cono Sur TST
For positive integers $n$ and $k \geq 2$, define $E_k(n)$ as the greatest exponent $r$ such that $k^r$ divides $n!$. Prove that there are infinitely many $n$ such that $E_{10}(n) > E_9(n)$ and infinitely many $m$ such that $E_{10}(m) < E_9(m)$.

2024 Azerbaijan BMO TST, 1
Tags: IMO Shortlist , number theory , AZE BMO TST , AZE EGMO TST , TST , BRA Cono Sur TST
For positive integers $n$ and $k \geq 2$, define $E_k(n)$ as the greatest exponent $r$ such that $k^r$ divides $n!$. Prove that there are infinitely many $n$ such that $E_{10}(n) > E_9(n)$ and infinitely many $m$ such that $E_{10}(m) < E_9(m)$.

2024 Brazil Cono Sur TST, 1
Tags: IMO Shortlist , number theory , AZE BMO TST , AZE EGMO TST , TST , BRA Cono Sur TST
For positive integers $n$ and $k \geq 2$, define $E_k(n)$ as the greatest exponent $r$ such that $k^r$ divides $n!$. Prove that there are infinitely many $n$ such that $E_{10}(n) > E_9(n)$ and infinitely many $m$ such that $E_{10}(m) < E_9(m)$.