Difference between revisions of "2019 IMO Problems/Problem 2"
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In triangle <math>ABC</math>, point <math>A_1</math> lies on side <math>BC</math> and point <math>B_1</math> lies on side <math>AC</math>. Let <math>P</math> and <math>Q</math> be points on segments <math>AA_1</math> and <math>BB_1</math>, respectively, such that <math>PQ</math> is parallel to <math>AB</math>. Let <math>P_1</math> be a point on line <math>PB_1</math>, such that <math>B_1</math> lies strictly between <math>P</math> and <math>P_1</math>, and <math>\angle PP_1C=\angle BAC</math>. Similarly, let <math>Q_1</math> be the point on line <math>QA_1</math>, such that <math>A_1</math> lies strictly between <math>Q</math> and <math>Q_1</math>, and <math>\angle CQ_1Q=\angle CBA</math>. | In triangle <math>ABC</math>, point <math>A_1</math> lies on side <math>BC</math> and point <math>B_1</math> lies on side <math>AC</math>. Let <math>P</math> and <math>Q</math> be points on segments <math>AA_1</math> and <math>BB_1</math>, respectively, such that <math>PQ</math> is parallel to <math>AB</math>. Let <math>P_1</math> be a point on line <math>PB_1</math>, such that <math>B_1</math> lies strictly between <math>P</math> and <math>P_1</math>, and <math>\angle PP_1C=\angle BAC</math>. Similarly, let <math>Q_1</math> be the point on line <math>QA_1</math>, such that <math>A_1</math> lies strictly between <math>Q</math> and <math>Q_1</math>, and <math>\angle CQ_1Q=\angle CBA</math>. | ||
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==Solution== | ==Solution== | ||
− | [[File:2019 IMO 2.png| | + | [[File:2019 IMO 2.png|420px|right]] |
− | [[File:2019 IMO 2a.png| | + | [[File:2019 IMO 2a.png|420px|right]] |
The essence of the proof is to build a circle through the points <math>P, Q,</math> and two additional points <math>A_0</math> and <math>B_0,</math> then we prove that the points <math>P_1</math> and <math>Q_1</math> lie on the same circle. | The essence of the proof is to build a circle through the points <math>P, Q,</math> and two additional points <math>A_0</math> and <math>B_0,</math> then we prove that the points <math>P_1</math> and <math>Q_1</math> lie on the same circle. | ||
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So <math>B_0P_1CB_1</math> is cyclic. | So <math>B_0P_1CB_1</math> is cyclic. | ||
− | <math>\angle ACB_0 = \angle AA_0B_0 = \varphi</math> ( | + | <math>\angle ACB_0 = \angle AA_0B_0 = \varphi</math> (they intersept the arc <math>A_0B_0</math> of the circle <math>\Omega).</math> |
<math>\angle B_1CB_0 = \varphi.</math> | <math>\angle B_1CB_0 = \varphi.</math> | ||
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Similarly, point <math>Q_1</math> lies on <math>\omega.</math> | Similarly, point <math>Q_1</math> lies on <math>\omega.</math> | ||
− | '''vladimir.shelomovskii@gmail.com, vvsss | + | '''vladimir.shelomovskii@gmail.com, vvsss''' |
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+ | ==See Also== | ||
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+ | {{IMO box|year=2019|num-b=1|num-a=3}} |
Latest revision as of 00:49, 19 November 2023
Problem
In triangle , point lies on side and point lies on side . Let and be points on segments and , respectively, such that is parallel to . Let be a point on line , such that lies strictly between and , and . Similarly, let be the point on line , such that lies strictly between and , and .
Prove that points , and are concyclic.
Solution
The essence of the proof is to build a circle through the points and two additional points and then we prove that the points and lie on the same circle.
We assume that the intersection point of and lies on the segment If it lies on segment then the proof is the same, but some angles will be replaced with additional ones up to .
Let the circumcircle of be . Let and be the points of intersection of and with . Let
since they intersept the arc of the circle .
is cyclic (in circle )
Let
since they intersept the arc of the circle So is cyclic.
(they intersept the arc of the circle
(since they intersept the arc of the circle
Hence the point lies on
Similarly, point lies on
vladimir.shelomovskii@gmail.com, vvsss
See Also
2019 IMO (Problems) • Resources | ||
Preceded by Problem 1 |
1 • 2 • 3 • 4 • 5 • 6 | Followed by Problem 3 |
All IMO Problems and Solutions |