Difference between revisions of "2014 AIME II Problems/Problem 12"

Revision as of 01:09, 21 May 2014

Problem

Suppose that the angles of $\triangle ABC$ satisfy $\cos(3A)+\cos(3B)+\cos(3C)=1.$ Two sides of the triangle have lengths 10 and 13. There is a positive integer $m$ so that the maximum possible length for the remaining side of $\triangle ABC$ is $\sqrt{m}.$ Find $m.$

Solution

Obviously, $A+B+C=180$ in degrees. Note that $\cos{3C}=-\cos{(3A+3B)}$ . Thus, our expression is of the form $\cos{3A}+\cos{3B}-\cos{(3A+3B)}=1$ . Let $\cos{3A}=x$ and $\cos{3B}=y$ . Expanding, we get $x+y-xy+\sqrt{1-x^2}\sqrt{1-y^2}=1$ , or $-\sqrt{1-x^2}\sqrt{1-y^2}=(x-1)(y-1)$ , which means that the right side must be non-positive and exactly one of $x$ and $y$ is $\leq{1}$ . However, this means that the other variable must take on a value of 1. WLOG, we can set $\cos{3A}=1$ , or $A=0,120$ ; however, only 120 is valid, as we want a degenerate triangle. Since $B+C=60$ , the maximum angle between the sides is clearly 120 degrees. Using Law of Cosines on the triangle, we get $S^{2}=169+100+2(10)(13)(\frac{1}{2})=\framebox{399}$ , and we're done.

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Difference between revisions of "2014 AIME II Problems/Problem 12"

Revision as of 01:09, 21 May 2014

Problem

Solution

See also