Difference between revisions of "2011 AIME I Problems/Problem 9"
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<cmath>24\sin ^3 x=1-\sin ^2 x</cmath> | <cmath>24\sin ^3 x=1-\sin ^2 x</cmath> | ||
<cmath>24\sin ^3 x+\sin ^2 x - 1=0</cmath> | <cmath>24\sin ^3 x+\sin ^2 x - 1=0</cmath> | ||
− | Testing values using the rational root theorem gives <math>\sin x=\frac{1}{3}</math> as a root | + | Testing values using the rational root theorem gives <math>\sin x=\frac{1}{3}</math> as a root, <math>\sin^{-1} \frac{1}{3}</math> does fall in the first quadrant so it satisfies the interval. Thus |
<cmath>\sin ^2 x=\frac{1}{9}</cmath> | <cmath>\sin ^2 x=\frac{1}{9}</cmath> | ||
Using the Pythagorean Identity gives us <math>\cos ^2 x=\frac{8}{9}</math>. Then we use the definition of <math>\cot ^2 x</math> to compute our final answer. <math>24\cot ^2 x=24\frac{\cos ^2 x}{\sin ^2 x}=24\left(\frac{\frac{8}{9}}{\frac{1}{9}}\right)=24(8)=\boxed{192}</math>. | Using the Pythagorean Identity gives us <math>\cos ^2 x=\frac{8}{9}</math>. Then we use the definition of <math>\cot ^2 x</math> to compute our final answer. <math>24\cot ^2 x=24\frac{\cos ^2 x}{\sin ^2 x}=24\left(\frac{\frac{8}{9}}{\frac{1}{9}}\right)=24(8)=\boxed{192}</math>. |
Revision as of 11:54, 19 March 2011
Problem
Suppose is in the interval and . Find .
Solution
We can rewrite the given expression as Square both sides and divide by to get Rewrite as Testing values using the rational root theorem gives as a root, does fall in the first quadrant so it satisfies the interval. Thus Using the Pythagorean Identity gives us . Then we use the definition of to compute our final answer. .