Mock Geometry AIME 2011 Problems/Problem 12
Problem
A triangle has the property that its sides form an arithmetic progression, and that the angle opposite the longest side is three times the angle opposite the shortest side. The ratio of the longest side to the shortest side can be expressed as , where are positive integers, is not divisible by the square of any prime, and and are relatively prime. Find .
Solution 1
Let the triangle be , such that , and , so that . Construct two points and on such that .
Since , . Therefore, , and . Now .
Let . From Angle Bisector Theorem on with angle bisector , , so .
Therefore, , and so . Now we have , and .
Now we use Angle Bisector Theorem on with angle bisector . We have , so .
Finally, notice that , so .
Now, , so from the Quadratic Formula, (we neglect the negative root), and so .
Therefore, , and the answer is .
Solution 2 (Trig)
Let the sides of the triangle be , , and , since they form arithmetic progression. Let the their corresponding opposite angles be and respectively. Using Law of Sines, we find that:
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Using the identity , we find that . Applying double angle, we find .
Then we use Law of Sines again, and use the substitution for , given that .
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Then factoring out and canceling it we get:
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Cross multiplying yields:
Given that , and the earlier identity for we get:
We can safely cancel since the solution, would go out of range for the triangle sum of angles.
Expanding in the ensuing expression,
Cancelling and expanding yields a cubic equal to with GCD . Since would not work either, we are left with a quadratic. Solving for , and neglecting the negative root since it would go out of bounds too, we find .
The problem asks for the ratio of to , using Law of Sines, this is . This equals . Substituting value of , we find the ratio as , or .