Difference between revisions of "2018 AIME II Problems/Problem 2"

Revision as of 17:37, 12 April 2018

Problem

Let $a_{0} = 2$ , $a_{1} = 5$ , and $a_{2} = 8$ , and for $n > 2$ define $a_{n}$ recursively to be the remainder when $4$ ( $a_{n-1}$ $+$ $a_{n-2}$ $+$ $a_{n-3}$ ) is divided by $11$ . Find $a_{2018}$ • $a_{2020}$ • $a_{2022}$ .

Solution

When given a sequence problem, one good thing to do is to check if the sequence repeats itself or if there is a pattern.

After computing more values of the sequence, it can be observed that the sequence repeats itself every 10 terms starting at $a_{0}$ .

$a_{0} = 2$ , $a_{1} = 5$ , $a_{2} = 8$ , $a_{3} = 5$ , $a_{4} = 6$ , $a_{5} = 10$ , $a_{6} = 7$ , $a_{7} = 4$ , $a_{8} = 7$ , $a_{9} = 6$ , $a_{10} = 2$ , $a_{11} = 5$ , $a_{12} = 8$ , $a_{13} = 5$

We can simplify the expression we need to solve to $a_{8}$ • $a_{10}$ • $a_{2}$ .

Our answer is $7$ • $2$ • $8$ $= \boxed{112}$ .

@@ Line 2: / Line 2: @@
 Let <math>a_{0} = 2</math>, <math>a_{1} = 5</math>, and <math>a_{2} = 8</math>, and for <math>n > 2</math> define <math>a_{n}</math> recursively to be the remainder when <math>4</math>(<math>a_{n-1}</math> <math>+</math> <math>a_{n-2}</math> <math>+</math> <math>a_{n-3}</math>) is divided by <math>11</math>. Find <math>a_{2018}</math> • <math>a_{2020}</math> • <math>a_{2022}</math>.
-===Solution 2===
 ==Solution==

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Difference between revisions of "2018 AIME II Problems/Problem 2"

Revision as of 17:37, 12 April 2018

Problem

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