Difference between revisions of "1992 IMO Problems/Problem 4"
(→Solution) |
(→Solution) |
||
Line 88: | Line 88: | ||
Now we need to find the limit of <math>P_{x}</math> and <math>P_{y}</math> as <math>d</math> approaches infinity: | Now we need to find the limit of <math>P_{x}</math> and <math>P_{y}</math> as <math>d</math> approaches infinity: | ||
+ | |||
+ | <math>x_{\infty}=\lim_{d \to \infty} \frac{2mr^{2}}{m^{2}+r^{2}-d^{2}}=0</math> | ||
{{alternate solutions}} | {{alternate solutions}} |
Revision as of 17:31, 12 November 2023
Problem
In the plane let be a circle, a line tangent to the circle , and a point on . Find the locus of all points with the following property: there exists two points , on such that is the midpoint of and is the inscribed circle of triangle .
Video Solution
https://www.youtube.com/watch?v=ObCzaZwujGw
Solution
Note: This is an alternate method to what it is shown on the video. This alternate method is too long and too intensive in solving algebraic equations. A lot of steps have been shortened in this solution. The solution in the video provides a much faster solution,
Let be the radius of the circle .
We define a cartesian coordinate system in two dimensions with the circle center at and circle equation to be
We define the line by the equation , with point at a distance from the tangent and cartesian coordinates
Let be the distance from point to point such that the coordinates for are and thus the coordinates for are
Let points , , and be the points where lines , , and are tangent to circle respectively.
First we get the coordinates for points and .
Since the circle is the incenter we know the following properties:
and
Therefore, to get the coordinates of point , we solve the following equations:
After a lot of algebra, this solves to:
Now we calculate the slope of the line that passes through which is perpendicular to the line that passes from the center of the circle to point as follows:
Then, the equation of the line that passes through is as follows:
Now we get the coordinates of point , we solve the following equations:
After a lot of algebra, this solves to:
Now we calculate the slope of the line that passes through which is perpendicular to the line that passes from the center of the circle to point as follows:
Then, the equation of the line that passes through is as follows:
Now we solve for the coordinates for point by calculating the intersection of and as follows:
Solving for we get:
Solving for we get:
Now we need to find the limit of and as approaches infinity:
Alternate solutions are always welcome. If you have a different, elegant solution to this problem, please add it to this page.