2008 AMC 12B Problems/Problem 21
Contents
Problem
Two circles of radius 1 are to be constructed as follows. The center of circle is chosen uniformly and at random from the line segment joining and . The center of circle is chosen uniformly and at random, and independently of the first choice, from the line segment joining to . What is the probability that circles and intersect?
Solution 1
Two circles intersect if the distance between their centers is less than the sum of their radii. In this problem, and intersect iff
In other words, the two chosen -coordinates must differ by no more than . To find this probability, we divide the problem into cases:
1) is on the interval . The probability that falls within the desired range for a given is (on the left) (on the right) all over (the range of possible values). The total probability for this range is the sum of all these probabilities of (over the range of ) divided by the total range of (which is ). Thus, the total probability for this interval is 2) is on the interval . In this case, any value of will do, so the probability for the interval is simply .
3) is on the interval . This is identical, by symmetry, to case 1.
The total probability is therefore
Solution 2
Circles centered at and will overlap if and are closer to each other than if the circles were tangent. The circles are tangent when the distance between their centers is equal to the sum of their radii. Thus, the distance from to will be . Since and are separated by vertically, they must be separated by horizontally. Thus, if , the circles intersect.
Now, plot the two random variables and on the coordinate plane. Each variable ranges from to . The circles intersect if the variables are within of each other. Thus, the area in which the circles don't intersect is equal to the total area of two small triangles on opposite corners, each of area . We conclude the probability the circles intersect is:
See Also
2008 AMC 12B (Problems • Answer Key • Resources) | |
Preceded by Problem 20 |
Followed by Problem 22 |
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