Difference between revisions of "2021 Fall AMC 12B Problems/Problem 9"
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Then connect <math>\overline{OX}</math>, and notice that <math>\overline{OX}</math> is the perpendicular bisector of <math>\overline{AC}</math>. Let the intersection of <math>\overline{OX}</math> with <math>\overline{AC}</math> be <math>D</math>. | Then connect <math>\overline{OX}</math>, and notice that <math>\overline{OX}</math> is the perpendicular bisector of <math>\overline{AC}</math>. Let the intersection of <math>\overline{OX}</math> with <math>\overline{AC}</math> be <math>D</math>. | ||
− | Also notice that <math>\overline{OA}</math> and <math>\overline{OC}</math> are the angle bisectors of angle <math>BAC</math> and <math>BCA</math> respectively. We then deduce <math>AOC=120^\circ</math>. | + | Also notice that <math>\overline{OA}</math> and <math>\overline{OC}</math> are the angle bisectors of angle <math>BAC</math> and <math>\angle BCA</math> respectively. We then deduce <math>AOC=120^\circ</math>. |
Consider another point <math>M</math> on Circle <math>X</math> opposite to point <math>O</math>. | Consider another point <math>M</math> on Circle <math>X</math> opposite to point <math>O</math>. |
Revision as of 22:05, 23 November 2021
Problem
Triangle is equilateral with side length . Suppose that is the center of the inscribed circle of this triangle. What is the area of the circle passing through , , and ?
Solution 1 (Cosine Rule)
Construct the circle that passes through , , and , centered at .
Then connect , and notice that is the perpendicular bisector of . Let the intersection of with be .
Also notice that and are the angle bisectors of angle and respectively. We then deduce .
Consider another point on Circle opposite to point .
As an inscribed quadrilateral of Circle , .
Afterward, deduce that .
By the Cosine Rule, we have the equation: (where is the radius of circle )
The area is therefore .
~Wilhelm Z