2. Chapter 5 Section 5.4 Medians and Altitudes

3. U SING M EDIANS OF A T RIANGLE A median of a triangle is a segment whose endpoints are a vertex of the triangle and the midpoint of the opposite side. D

4. U SING M EDIANS OF A T RIANGLE The three medians of a triangle are concurrent. The point of concurrency is called the centroid of the triangle. The centroid is always inside the triangle. acute triangleright triangleobtuse triangle centroid The medians of a triangle have a special concurrency property.

5. THEOREM THEOREM 5.8 Concurrency of Medians of a Triangle U SING M EDIANS OF A T RIANGLE The medians of a triangle intersect at a point that is two-thirds of the distance from each vertex to the midpoint of the opposite side. If P is the centroid of  ABC, then BP = BF 2 3 P AP = AD 2 3 CP = CE 2 3

6. U SING M EDIANS OF A T RIANGLE The centroid of a triangle can be used as its balancing point. A triangular model of uniform thickness and density will balance at the centroid of the triangle.

7. Using the Centroid of a Triangle P is the centroid of  QRS shown below and PT = 5. Find RT and RP. S OLUTION So, RP = 10 and RT = 15. Then RP = RT = (15) = 10. 2 3 2 3 Because P is the centroid, RP = RT. 2 3 Substituting 5 for PT, 5 = RT, so RT = 15. 1 3 Then PT = RT – RP = RT 1 3

8. Finding the Centroid of a Triangle Find the coordinates of the centroid of  JKL. S OLUTION The centroid is two thirds of the distance from each vertex to the midpoint of the opposite side. (5, 8) Choose the median KN. Find the coordinates of N, the midpoint of JL. (7, 10) (3, 6) (5, 2) 3 + 7 2, 6 + 10 2 = 10 2, 16 2 = (5, 8) The coordinates of N are J K L N P

9. Find the coordinates of the centroid of  JKL. S OLUTION J K L N (5, 8) (7, 10) (3, 6) (5, 2) P M Find the distance from vertex K to midpoint N. The distance from K (5,2) to N(5,8) is 8 – 2, or 6 units. Determine the coordinates of the centroid, which is 6, or 4 units up from vertex K along the median KN. 2 3 Finding the Centroid of a Triangle The coordinates of the centroid P are (5, 2 + 4), or (5, 6) (5, 6)

10. An altitude of a triangle is the perpendicular segment from a vertex to the opposite side or to the line that contains the opposite side. An altitude can lie inside, on, or outside the triangle. Every triangle has three altitudes. The lines containing the altitudes are concurrent and intersect at a point called the ortho center of the triangle. U SING A LTITUDES OF A T RIANGLE

11. Drawing Altitudes and Orthocenters Where is the ortho center of an acute triangle? S OLUTION Draw an example. The three altitudes intersect at G, a point inside the triangle.

12. Drawing Altitudes and Orthocenters The two legs, LM and KM, are also altitudes. They intersect at the triangle’s right angle. This implies that the orthocenter is on the triangle at M, the vertex of the right angle of the triangle. Where is the orthocenter of a right triangle? S OLUTION

13. Drawing Altitudes and Orthocenters The three lines that contain the altitudes intersect at W, a point outside the triangle. Where is the orthocenter of an obtuse triangle? S OLUTION

14. THEOREM U SING A LTITUDES OF A T RIANGLE THEOREM 5.9 Concurrency of Altitudes of a Triangle The lines containing the altitudes of a triangle are concurrent. If AE, BF, and CD are the altitudes of  ABC, then the lines AE, BF, and CD intersect at some point H.

15. Median Angle Bisector Perpendicular Bisector Altitude All Four

16. PO = 11