Difference between revisions of "2009 AIME II Problems/Problem 15"

(New page: Let MN be a diameter of a circle with diameter 1. Let A and B be points on one of the semicircular arcs determined by MN such that A is the midpoint of the semicircle and MB=3/5. Point C l...)
 
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Let MN be a diameter of a circle with diameter 1. Let A and B be points on one of the semicircular arcs determined by MN such that A is the midpoint of the semicircle and MB=3/5. Point C lies on the other semicircular arc. Let d be the length of the line segment whose endpoints are the intersections of diameter MN with chords AC and BC. The largest possible value of d can be written in the form r-s<math>t</math>, where r, s, and t are positive integers and t is not divisible by the square of any prime. Find r+s+t.
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Let MN be a diameter of a circle with diameter 1. Let A and B be points on one of the semicircular arcs determined by MN such that A is the midpoint of the semicircle and MB=3/5. Point C lies on the other semicircular arc. Let d be the length of the line segment whose endpoints are the intersections of diameter MN with chords AC and BC. The largest possible value of d can be written in the form r-s*sqrt (t), where r, s, and t are positive integers and t is not divisible by the square of any prime. Find r+s+t.

Revision as of 13:39, 21 May 2009

Let MN be a diameter of a circle with diameter 1. Let A and B be points on one of the semicircular arcs determined by MN such that A is the midpoint of the semicircle and MB=3/5. Point C lies on the other semicircular arc. Let d be the length of the line segment whose endpoints are the intersections of diameter MN with chords AC and BC. The largest possible value of d can be written in the form r-s*sqrt (t), where r, s, and t are positive integers and t is not divisible by the square of any prime. Find r+s+t.