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Difference between revisions of "2005 Alabama ARML TST Problems/Problem 13"

(Solution)
(Solution)
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\end{eqnarray}</math></center>
 
\end{eqnarray}</math></center>
  
Therefore, <math>-p_1\equiv 1\bmod{p_2}</math>. Now the only way that that is possible is when <math>p_2=2</math>. Solving for <math>p_1</math>, we get that <math>p_1=7</math>. Checking, the sum of the reciprocals of the divisors of <math>\boxed{28}</math> indeed sum to 2, and 28 does have 6 factors.
+
Therefore, <math>p_1\equiv -1\bmod{p_2}</math>. Now the only way that that is possible is when <math>p_2=2</math>. Solving for <math>p_1</math>, we get that <math>p_1=7</math>. Checking, the sum of the reciprocals of the divisors of <math>\boxed{28}</math> indeed sum to 2, and 28 does have 6 factors.
  
 
==See also==
 
==See also==

Revision as of 11:18, 17 April 2008

Problem

There is one natural number with exactly 6 positive divisors, the sum of whose reciprocals is 2. Find that natural number.

Solution

Let the number be $n$, and let $p_1$ and $p_2$ be primes. Therefore, one of the following is true:

  • $n=p_1^5$
  • $n=p_1p_2^2$

For the first one, the sum of the reciprocals of the divisors of $n$ is therefore $1+\dfrac{1}{p_1}+\dfrac{1}{p_1^2}+\dfrac{1}{p_1^3}+\dfrac{1}{p_1^4}+\dfrac{1}{p_1^5}$. The smallest prime (2) makes that less than 2, and if $p_1$ gets bigger, then that expression gets smaller, so there is absolutely no way that $n=p_1^5$. So the second case is true.

$\begin{eqnarray}1+\dfrac{1}{p_1}+\dfrac{1}{p_1p_2}+\dfrac{1}{p_1p_2^2}+\dfrac{1}{p_2}+\dfrac{1}{p_2^2}=2\\

\dfrac{p_1p_2^2+p_1p_2+p_1+p_2^2+p_2+1}{p_1p_2^2}=2\\ p_1p_2^2-p_1p_2-p_1=p_2^2+p_2+1\\ p_1(p_2^2-p_2-1)=p_2^2+p_2+1

\end{eqnarray}$ (Error compiling LaTeX. Unknown error_msg)

Therefore, $p_1\equiv -1\bmod{p_2}$. Now the only way that that is possible is when $p_2=2$. Solving for $p_1$, we get that $p_1=7$. Checking, the sum of the reciprocals of the divisors of $\boxed{28}$ indeed sum to 2, and 28 does have 6 factors.

See also

2005 Alabama ARML TST (Problems)
Preceded by:
Problem 12 		Followed by:
Problem 14
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