2015 AMC 12A Problems/Problem 21
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[hide]Problem
A circle of radius passes through both foci of, and exactly four points on, the ellipse with equation The set of all possible values of is an interval What is
Solution
We can graph the ellipse by seeing that the center is and finding the ellipse's intercepts. The points where the ellipse intersects the coordinate axes are , and . Recall that the two foci lie on the major axis of the ellipse and are a distance of away from the center of the ellipse, where , with being half the length of the major (longer) axis and being half the minor (shorter) axis of the ellipse. We have that . Hence, the coordinates of both of our foci are and . In order for a circle to pass through both of these foci, we must have that the center of this circle lies on the y-axis.
The minimum possible value of belongs to the circle whose diameter's endpoints are the foci of this ellipse, so . The value for is achieved when the circle passes through the foci and only three points on the ellipse, which is possible when the circle touches or . Which point we use does not change what value of is attained, so we use . Here, we must find the point such that the distance from to both foci and is the same. Now, we have the two following equations. Substituting for , we have that
Solving the above simply yields that , so our answer is .
Solution 2
As above, we can show that the foci of the ellipse are
To obtain the lower bound, note that the smallest circle is when the diameter is on the line segment formed by the two foci. We can check that this indeed passes through four points on the ellipse since so
To get the upper bound, note that the circle must go through either or WLOG, let let the circle go through We know that the circle must go through the foci of the ellipse So we can apply power of a point to find the diameter. Let denote the length of the line segment from the origin to the lower point on the circle. Note that lies on the diameter. Then by POP, we have yielding , and so the radius of the circle is so Thus .
~ ccx09 (Roy Boy Apple Short Long)
Solution 3 (Bound a Circle)
The foci are at . A circle that goes through these points is centered at . Then, the radius is , so the circle is in the form . WLOG, assume is positive. For the circle to hit the ellipse four times, ( being the distance between the circle's center and the farthest end of the ellipse that lies on the y-axis). Both sides are evidently positive, so we can square both sides, leaving . The function for the radius is always increasing as increases right of and as decreases left of . So the minimum of the radius is and the maximum is less than . Thus, .
~BJHHar
Solution 4 (Partial, If running out of time)
Note, this is not a full solution but can be used if one is running out of time.
As above, the minimum radius of the circle is which is the value. The only answer that contains is
Solution 5 (Partial, If running out of time)
First, find the diameter of the smallest possible circle by using the two foci as endpoints for the diameter. And then, graph the ellipse and the then sketch the biggest possible circle so that it is tangent to the point (0,1) and also hits both the foci of the circle. Measure the diameter, and then you get -srisainandan6
See Also
2015 AMC 12A (Problems • Answer Key • Resources) | |
Preceded by Problem 20 |
Followed by Problem 22 |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 • 16 • 17 • 18 • 19 • 20 • 21 • 22 • 23 • 24 • 25 | |
All AMC 12 Problems and Solutions |
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