Difference between revisions of "2010 AIME II Problems/Problem 4"

Latest revision as of 17:03, 9 August 2018

Problem

Dave arrives at an airport which has twelve gates arranged in a straight line with exactly $100$ feet between adjacent gates. His departure gate is assigned at random. After waiting at that gate, Dave is told the departure gate has been changed to a different gate, again at random. Let the probability that Dave walks $400$ feet or less to the new gate be a fraction $\frac{m}{n}$ , where $m$ and $n$ are relatively prime positive integers. Find $m+n$ .

Solutions

Solution 1

There are $12 \cdot 11 = 132$ possible situations ( $12$ choices for the initially assigned gate, and $11$ choices for which gate Dave's flight was changed to). We are to count the situations in which the two gates are at most $400$ feet apart.

If we number the gates $1$ through $12$ , then gates $1$ and $12$ have four other gates within $400$ feet, gates $2$ and $11$ have five, gates $3$ and $10$ have six, gates $4$ and $9$ have have seven, and gates $5$ , $6$ , $7$ , $8$ have eight. Therefore, the number of valid gate assignments is $2\cdot(4+5+6+7)+4\cdot8 = 2 \cdot 22 + 4 \cdot 8 = 76$ so the probability is $\frac{76}{132} = \frac{19}{33}$ . The answer is $19 + 33 = \boxed{052}$ .

Solution 2

As before, derive that there are $132$ possibilities for Dave's original and replacement gates.

Now suppose that Dave has to walk $100k$ feet to get to his new gate. This means that Dave's old and new gates must be $k$ gates apart. (For example, a $100$ foot walk would consist of the two gates being adjacent to each other.) There are $12-k$ ways to pick two gates which are $k$ gates apart, and $2$ possibilities for gate assignments, for a total of $2(12-k)$ possible assignments for each $k$ .

As a result, the total number of valid gate arrangements is $2\cdot 11 + 2\cdot 10 + 2\cdot 9 + 2\cdot 8 = 76$ and so the requested probability is $\tfrac{19}{33}$ for a final answer of $\boxed{052}$ .

@@ Line 1: / Line 1: @@
-==Problem==
 == Problem ==
 Dave arrives at an airport which has twelve gates arranged in a straight line with exactly <math>100</math> feet between adjacent gates. His departure gate is assigned at random. After waiting at that gate, Dave is told the departure gate has been changed to a different gate, again at random. Let the [[probability]] that Dave walks <math>400</math> feet or less to the new gate be a fraction <math>\frac{m}{n}</math>, where <math>m</math> and <math>n</math> are [[relatively prime]] positive integers. Find <math>m+n</math>.

2010 AIME II (Problems • Answer Key • Resources)
Preceded by Problem 3	Followed by Problem 5
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