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12. 59.7 13. 63.922.  bisector m  BAE  m  EAC 14. 62.8 23.  bisect AD = BD, AD  DG, BD  DG 15. 63.924.  bisector m  ABG  m  GBC 16. (-2.5, 7)25.

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Presentation on theme: "12. 59.7 13. 63.922.  bisector m  BAE  m  EAC 14. 62.8 23.  bisect AD = BD, AD  DG, BD  DG 15. 63.924.  bisector m  ABG  m  GBC 16. (-2.5, 7)25."— Presentation transcript:

1 12. 59.7 13. 63.922.  bisector m  BAE  m  EAC 14. 62.8 23.  bisect AD = BD, AD  DG, BD  DG 15. 63.924.  bisector m  ABG  m  GBC 16. (-2.5, 7)25.  bisector since R is incenter, CR 17. (-1.5, 9.5) intersects R, then is  bisector 18. 8.3726. neither 19. 55°27. neither

2 A median of a triangle is a segment whose endpoints are a vertex of the triangle and the midpoint of the opposite side. Every triangle has three medians, and the medians are concurrent.

3 The point of concurrency of the medians of a triangle is the centroid of the triangle. The centroid is always inside the triangle. The centroid is also called the center of gravity because it is the point where a triangular region will balance.

4 Example 1B: In ∆LMN, RL = 21 and SQ =4. Find NQ. Centroid Thm. NS + SQ = NQ Seg. Add. Post. 12 = NQ Substitute 4 for SQ. Multiply both sides by 3. Substitute NQ for NS. Subtract from both sides. Example 1a In ∆JKL, ZW = 7, and LX = 8.1. Find KW. Centroid Thm. Substitute 7 for ZW. Multiply both sides by 3. KW = 21

5 Example 2 Find the average of the x-coordinates and the average of the y-coordinates of the vertices of ∆PQR. Make a conjecture about the centroid of a triangle. The x-coordinates are 0, 6 and 3. The average is 3. The y-coordinates are 8, 4 and 0. The average is 4. The x-coordinate of the centroid is the average of the x-coordinates of the vertices of the ∆, and the y- coordinate of the centroid is the average of the y-coordinates of the vertices of the ∆.

6 An altitude of a triangle is a perpendicular segment from a vertex to the line containing the opposite side. Every triangle has three altitudes. An altitude can be inside, outside, or on the triangle. In ΔQRS, altitude QY is inside the triangle, but RX and SZ are not. Notice that the lines containing the altitudes are concurrent at P. This point of concurrency is the orthocenter of the triangle. The height of a triangle is the length of an altitude. Helpful Hint

7 Example 3: Find the orthocenter of ∆XYZ with vertices X(3, –2), Y(3, 6), and Z(7, 1). Step 1 Graph the triangle. X Step 2 Find an equation of the line containing the altitude from Z to XY. Since XY is vertical, the altitude is horizontal. The line containing it must pass through Z(7, 1) so the equation of the line is y = 1.

8 Step 3 Find an equation of the line containing the altitude from Y to XZ. The slope of a line perpendicular to XZ is. This line must pass through Y(3, 6). Point-slope form. Add 6 to both sides. Substitute 6 for y 1, for m, and 3 for x 1. Distribute.

9 Step 4 Solve the system to find the coordinates of the orthocenter. The coordinates of the orthocenter are (6.75, 1). Example 3 Continued 6.75 = x Substitute 1 for y. Subtract 10 from both sides. Multiply both sides by

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