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5.4 Medians and Altitudes

5.4 Medians and Altitudes. A median of a triangle is a segment whose endpoints are a vertex and the midpoint of the opposite side. A triangle’s three medians are always concurrent. Concurrency of Medians Theorem.

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5.4 Medians and Altitudes

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  1. 5.4 Medians and Altitudes • A median of a triangle is a segment whose endpoints are a vertex and the midpoint of the opposite side. • A triangle’s three medians are always concurrent.

  2. Concurrency of Medians Theorem • The medians of a triangle are concurrent at a point that is two thirds the distance from each vertex to the midpoint of the opposite side.

  3. Centroid • In a triangle, the point of concurrency of the medians is called the centroid of the triangle. • The point is also called the center of gravity of the triangle because it is the point where the triangle shape will balance. • The centroid is always inside the triangle.

  4. Finding the Length of a Median • In the diagram, XA = 8. What is the length of segment XB?

  5. Altitude • An altitude of a triangle is the perpendicular segment from the vertex of the triangle to the line containing the opposite side. • An altitude of a triangle can be inside or outside the triangle, or it can be a side of a triangle.

  6. Concurrency of Altitudes Theorem • The line that contains the altitudes of a triangle are concurrent. • The lines that contain the altitudes of a triangle are concurrent at the orthocenter of the triangle. • The orthocenter of a triangle can be inside, on, or outside the triangle.

  7. Orthocenter of the Triangle • The lines that contain the altitudes of a triangle are concurrent at the orthocenter of the triangle. • Can be inside, on, or outside the triangle.

  8. Finding the Orthocenter • Triangle ABC has vertices A(1 , 3), B(2 , 7), and C(6 , 3). What are the coordinates of the orthocenter of triangle ABC?

  9. Finding the Orthocenter • Step 1 – find the equation of the line containing the altitude to segment AC. • Since segment AC is horizontal, the altitude has to be vertical and must go through vertex B(2 , 7). • So, the equation of the altitude is x = 2. • Step 2 – find the equation of the line containing the altitude to segment BC. • The slope of segment BC = 3 – 7 / 6 – 2 = -1 • The slope of the perpendicular line has to be 1. • The line passes through vertex A (1 , 3). • y – 3 = 1 ( x – 1)  y = x + 2

  10. Finding the Orthocenter • Step 3 – find the orthocenter by solving this system of equations x = 2 y = x + 2 y = 2 + 2 y = 4 The coordinates of the orthocenter are (2 , 4).

  11. Special Segments and Lines in Triangles

  12. More Practice!!!!! • Homework – Textbook p. 312 – 313 #8 – 16 ALL.

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