Difference between revisions of "1989 AHSME Problems/Problem 19"
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− | The three arcs make up the entire circle, so the circumference of the circle is <math>3+4+5=12</math> and the radius is <math>\frac{12}{2\pi}=\frac{6}{\pi}</math>. Also, the lengths of the arcs are proportional to their corresponding central angles. Thus, we can write the values of the arcs as <math>3\theta</math>, <math>4\theta</math>, and <math>5\theta</math> for some <math>\theta</math>. | + | The three arcs make up the entire circle, so the circumference of the circle is <math>3+4+5=12</math> and the radius is <math>\frac{12}{2\pi}=\frac{6}{\pi}</math>. Also, the lengths of the arcs are proportional to their corresponding central angles. Thus, we can write the values of the arcs as <math>3\theta</math>, <math>4\theta</math>, and <math>5\theta</math> for some <math>\theta</math>. Summing yields <math>3\theta+4\theta+5\theta=360\implies{\theta=30}</math>. Thus, the angles of the triangle are <math>90</math>, <math>120</math>, and <math>150</math>. Using <math>[ABC]=\frac{1}{2}ab\sin{C}</math>, we obtain <math>\frac{r^2}{2}(\sin{90}+\sin{120}+\sin{150})</math>. Substituting <math>\frac{6}{\pi}</math> for <math>r</math> and evaluating yields <math>\frac{9}{\pi}(\sqrt{3}+3)\implies{\boxed{E}}</math>. |
Revision as of 00:31, 4 November 2012
A triangle is inscribed in a circle. The vertices of the triangle divide the circle into three arcs of lengths 3, 4, and 5. What is the area of the triangle?
Solution
The three arcs make up the entire circle, so the circumference of the circle is and the radius is . Also, the lengths of the arcs are proportional to their corresponding central angles. Thus, we can write the values of the arcs as , , and for some . Summing yields . Thus, the angles of the triangle are , , and . Using , we obtain . Substituting for and evaluating yields .