Difference between revisions of "2011 AIME I Problems/Problem 11"

Revision as of 19:25, 4 July 2013

Problem

Let $R$ be the set of all possible remainders when a number of the form $2^n$ , $n$ a nonnegative integer, is divided by $1000$ . Let $S$ be the sum of the elements in $R$ . Find the remainder when $S$ is divided by $1000$ .

Solution

Note that $x \equiv y \pmod{1000} \Leftrightarrow x \equiv y \pmod{125}$ and $x \equiv y \pmod{8}$ . So we must find the first two integers $i$ and $j$ such that $2^i \equiv 2^j \pmod{125}$ and $2^i \equiv 2^j \pmod{8}$ and $i \neq j$ . Note that $i$ and $j$ will be greater than 2 since remainders of $1, 2, 4$ will not be possible after 2 (the numbers following will always be congruent to 0 modulo 8). Note that $2^{100}\equiv 1\pmod{125}$ (see Euler's theorem) and $2^0,2^1,2^2,\ldots,2^{99}$ are all distinct modulo 125. Thus, $i = 3$ and $j =103$ are the first two integers such that $2^i \equiv 2^j \pmod{1000}$ . All that is left is to find $S$ in mod $1000$ . After some computation: $S = 2^0+2^1+2^2+2^3+2^4+...+2^{101}+ 2^{102} = 2^{103}-1 \equiv 8 - 1 \mod 1000 = \boxed{007}.$

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 == See also ==
 {{AIME box|year=2011|n=I|num-b=10|num-a=12}}
+{{MAA Notice}}

2011 AIME I (Problems • Answer Key • Resources)
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Difference between revisions of "2011 AIME I Problems/Problem 11"

Revision as of 19:25, 4 July 2013

Problem

Solution

See also