Difference between revisions of "2005 AIME II Problems/Problem 15"
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<math>1 = \frac{x^2}{100} + \frac{(ax-12)^2}{75}</math> | <math>1 = \frac{x^2}{100} + \frac{(ax-12)^2}{75}</math> | ||
− | Expanding yields | + | Expanding yields <math>(3+4a^2)x^2 - 96ax + 276 = 0</math>. |
− | + | We want the value of <math>a</math> that makes the line <math>y=ax</math> tangent to the ellipse, which will mean that for that choice of <math>a</math> there is only one solution to the most recent equation. But a quadratic has one solution iff its discriminant is 0, so <math>(-96a)^2 - 4(3+4a^2)(276) = 0</math>. | |
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− | We want the value of <math>a</math> that makes the line <math>y=ax</math> tangent to the ellipse, which will mean that for that choice of <math>a</math> there is only one solution to the most recent equation. | ||
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− | <math>(-96a)^2 - 4(3+4a^2)(276) = 0</math> | ||
Solving yields <math>a^2 = \frac{69}{100}</math>, so the answer is <math>169</math>. | Solving yields <math>a^2 = \frac{69}{100}</math>, so the answer is <math>169</math>. |
Revision as of 13:31, 19 April 2008
Problem
Let and denote the circles and respectively. Let be the smallest possible value of for which the line contains the center of a circle that is externally tangent to and internally tangent to Given that where and are relatively prime integers, find
Solution
Rewrite the given equations as and .
Let have center and radius . Now, if two circles with radii and are externally tangent, then the distance between their centers is , and if they are internally tangent, it is . So we have
Solving for in both equations and setting them equal yields
Squaring both sides, canceling common terms, and rearranging yields
Squaring again and canceling yields
So the locus of points that can be the center of the circle with the desired properties is an ellipse.
Since the center lies on the line , we substitute for :
Expanding yields .
We want the value of that makes the line tangent to the ellipse, which will mean that for that choice of there is only one solution to the most recent equation. But a quadratic has one solution iff its discriminant is 0, so .
Solving yields , so the answer is .
See also
2005 AIME II (Problems • Answer Key • Resources) | ||
Preceded by Problem 14 |
Followed by Last Question | |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 | ||
All AIME Problems and Solutions |