Difference between revisions of "Mock AIME 4 2006-2007 Problems/Problem 12"

 
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==Solution==
 
==Solution==
  
{{solution}}
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Let <math>f(x)</math> denote the number of partitions that have an even number of even parts of <math>x</math>. Testing a few small values for <math>x</math>, we see that <math>f(1)=0, f(2)=0, f(3)=0, f(4)=1, f(5)=1, f(6)=2, f(7)=2,
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f(8)=4, f(9)=4...</math>.
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Based on our observations, we now conjecture* that for every integer <math>x\ge 4</math>, <math>f(x)=2^{\lfloor\frac{x-4}{3}\rfloor}</math> So plugging in <math>x=2007</math>, we get <math>f(2007)=2^{1001} \rightarrow 2+1001=1003, 1+3=\boxed{004}</math>
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*Insert proof of conjecture here
  
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*[[Mock AIME 4 2006-2007 Problems/Problem 13| Next Problem]]
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*[[Mock AIME 4 2006-2007 Problems/Problem 11| Previous Problem]]
 
*[[Mock AIME 4 2006-2007 Problems]]
 
*[[Mock AIME 4 2006-2007 Problems]]

Latest revision as of 19:34, 27 September 2019

Problem

The number of partitions of 2007 that have an even number of even parts can be expressed as $a^b$, where $a$ and $b$ are positive integers and $a$ is prime. Find the sum of the digits of $a + b$.

Solution

Let $f(x)$ denote the number of partitions that have an even number of even parts of $x$. Testing a few small values for $x$, we see that $f(1)=0, f(2)=0, f(3)=0, f(4)=1, f(5)=1, f(6)=2, f(7)=2,  f(8)=4, f(9)=4...$. Based on our observations, we now conjecture* that for every integer $x\ge 4$, $f(x)=2^{\lfloor\frac{x-4}{3}\rfloor}$ So plugging in $x=2007$, we get $f(2007)=2^{1001} \rightarrow 2+1001=1003, 1+3=\boxed{004}$

  • Insert proof of conjecture here