Concurrent Lines Medians and Altitudes Lesson 5 3

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry Check Skills You’ll Need (For help, go to Lesson 1 -7. ) Draw a large triangle. Construct each figure. 1. an angle bisector 2. a perpendicular bisector of a side 3. Draw GH Construct CD GH at the midpoint of GH. 4. Draw AB with a point E not on AB. Construct EF AB. Check Skills You’ll Need Lesson Main Lesson 5 -3 Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry Check Skills You’ll Need Solutions Answers may vary. Samples given: 1– 2. 3. 4. Lesson Main Lesson 5 -3 Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry Warm Up 1. JK is perpendicular to ML at its midpoint K. List the congruent segments. Find the midpoint of the segment with the given endpoints. 2. (– 1, 6) and (3, 0) (1, 3) 3. (– 7, 2) and (– 3, – 8) Lesson Main (– 5, – 3) Lesson 5 -3 Feature

Geometry Lesson Main Lesson Feature

Geometry Lesson Main Lesson Feature

Geometry Lesson Main Lesson Feature

Geometry Lesson Main Lesson Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry When three or more lines intersect at one point, the lines are said to be concurrent. The point of concurrency is the point where they intersect. Lesson Main Lesson 5 -3 Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry The point of concurrency of the three perpendicular bisectors of a triangle is the circumcenter of the triangle. The circumcenter can be inside the triangle, outside the triangle, or on the triangle. Lesson Main Lesson 5 -3 Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry The circumcenter of ΔABC is the center of its circumscribed circle. A circle that contains all the vertices of a polygon is circumscribed about the polygon. Lesson Main Lesson 5 -3 Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry A triangle has three angles, so it has three angle bisectors. The angle bisectors of a triangle are also concurrent. This point of concurrency is the incenter of the triangle. Unlike the circumcenter, the incenter is always inside the triangle. Lesson Main Lesson 5 -3 Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry The incenter is the center of the triangle’s inscribed circle. A circle inscribed in a polygon intersects each line that contains a side of the polygon at exactly one point. Lesson Main Lesson 5 -3 Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry Circumcenter Theorem The perpendicular bisectors of the sides of a triangle are concurrent at a point equidistant from the vertices. Incenter Theorem The bisectors of the angles of a triangle are concurrent at a point equidistant from the sides. Lesson Main Lesson 5 -3 Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry Additional Examples Finding the Circumcenter Find the center of the circle that circumscribes XYZ. Because X has coordinates (1, 1) and Y has coordinates (1, 7), XY lies on the vertical line x = 1. The perpendicular bisector of XY is the horizontal line that passes through (1, 1 + 7 ) or (1, 4), so the equation 2 of the perpendicular bisector of XY is y = 4. Because X has coordinates (1, 1) and Z has coordinates (5, 1), XZ lies on the horizontal line y = 1. The perpendicular bisector of XZ is the vertical line 1+5 that passes through ( 2 , 1) or (3, 1), so the equation of the perpendicular bisector of XZ is x = 3. You need to determine the equation of two bisectors, then determine the point of intersection. Lesson Main Lesson 5 -3 Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry Additional Examples (continued) The lines y = 4 and x = 3 intersect at the point (3, 4). This point is the center of the circle that circumscribes XYZ. Quick Check Lesson Main Lesson 5 -3 Feature

Concurrent Lines, Medians, and Altitudes Lesson 5 -3 Geometry Additional Examples Real-World Connection City planners want to locate a fountain equidistant from three straight roads that enclose a park. Explain how they can find the location. The roads form a triangle around the park. Theorem 5 -7 states that the bisectors of the angles of a triangle are concurrent at a point equidistant from the sides. The city planners should find the point of concurrency of the angle bisectors of the triangle formed by the three roads and locate the fountain there. Quick Check Lesson Main Lesson 5 -3 Feature

Geometry Circumcenter The point of concurrency of the perpendicular bisectors of the sides of a triangle. Lesson Main Lesson Feature

Geometry Circumcenter The circumcenter is equidistant from each vertex of the triangle. Lesson Main Lesson Feature

Geometry Incenter The point of concurrency of the three angles bisectors of the triangle. Lesson Main Lesson Feature

Geometry Incenter The incenter is equidistant from the sides of a triangle. Lesson Main Lesson Feature

Geometry Incenter The incenter is equidistant from the sides of a triangle. Lesson Main Lesson Feature