Difference between revisions of "Orthocenter"
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==Properties== | ==Properties== | ||
* The orthocenter and the circumcenter of a triangle are [[isogonal conjugate]]s. | * The orthocenter and the circumcenter of a triangle are [[isogonal conjugate]]s. | ||
− | * If the orthocenter's triangle is [[acute triangle|acute]], then the orthocenter is | + | * If the orthocenter's triangle is [[acute triangle|acute]], then the orthocenter is in the triangle; if the triangle is [[right triangle|right]], then it is on the vertex opposite the [[hypotenuse]]; and if it is [[obtuse triangle|obtuse]], then the orthocenter is outside the triangle. |
* Let <math>ABC</math> be a triangle and <math>H</math> its orthocenter. Then the reflections of <math>H</math> over <math>AB</math>, <math>BC</math>, and <math>CA</math> are on the circumcircle of <math>ABC</math>: | * Let <math>ABC</math> be a triangle and <math>H</math> its orthocenter. Then the reflections of <math>H</math> over <math>AB</math>, <math>BC</math>, and <math>CA</math> are on the circumcircle of <math>ABC</math>: | ||
<asy> | <asy> |
Revision as of 19:02, 21 July 2011
The orthocenter of a triangle is the point of intersection of its altitudes. It is conventionally denoted .
Proof of Existence
Note: The orthocenter's existence is a trivial consequence of the trigonometric version Ceva's Theorem; however, the following proof, due to Leonhard Euler, is much more clever, illuminating and insightful.
Consider a triangle with circumcenter and centroid . Let be the midpoint of . Let be the point such that is between and and . Then the triangles , are similar by angle-side-angle similarity. It follows that is parallel to and is therefore perpendicular to ; i.e., it is the altitude from . Similarly, , , are the altitudes from , . Hence all the altitudes pass through . Q.E.D.
This proof also gives us the result that the orthocenter, centroid, and circumcenter are collinear, in that order, and in the proportions described above. The line containing these three points is known as the Euler line of the triangle, and also contains the triangle's de Longchamps point and nine-point center.
Properties
- The orthocenter and the circumcenter of a triangle are isogonal conjugates.
- If the orthocenter's triangle is acute, then the orthocenter is in the triangle; if the triangle is right, then it is on the vertex opposite the hypotenuse; and if it is obtuse, then the orthocenter is outside the triangle.
- Let be a triangle and its orthocenter. Then the reflections of over , , and are on the circumcircle of :