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Keystone Geometry. » There are four types of segments in a triangle that create different relationships among the angles, segments, and vertices. ˃Medians.

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Presentation on theme: "Keystone Geometry. » There are four types of segments in a triangle that create different relationships among the angles, segments, and vertices. ˃Medians."— Presentation transcript:

1 Keystone Geometry

2 » There are four types of segments in a triangle that create different relationships among the angles, segments, and vertices. ˃Medians ˃Altitudes ˃Angle Bisectors ˃Perpendicular Bisectors

3 3 Definition of a Median: A segment from the vertex of the triangle to the midpoint of the opposite side. Since there are three vertices in every triangle, there are always three medians.

4 »I»In acute, right and obtuse triangles the three medians are drawn inside the triangle. »T»To find the median, draw a line from the vertex to the midpoint of the opposite side. D D D

5 5 Special Segments of a triangle: Altitude Definition of an Altitude: The perpendicular segment from a vertex of the triangle to the segment that contains the opposite side.

6 AC B D »T»To find the altitude, draw a line from the vertex perpendicular to the opposite side. »I»In an acute triangle, the three altitudes are inside the triangle.

7 » In a right triangle, two of the altitudes are legs of the triangle and the third altitude is inside the triangle. » In an obtuse triangle, two of the altitudes are outside the triangle and the third altitude is inside the triangle. AC B

8 A B C A B C A B C

9 A B C A B C A B C

10 » Draw the three altitudes on the following triangle: A BC A BC A BC

11 » We already did this one in Unit 1 Part 1. » An angle bisector is a line, ray, or segment that divides an angle into two congruent smaller angles. » What about in a triangle? same thing! ANGLE BISECTOR THEOREM If a point is on the bisector of an angle, then it is equidistant from the two sides of the angle. If AD bisects BAC and DB = AB and DC = AC, then DB = DC

12 Solve for x. Because angles are congruent and the segments are perpendicular, then the segments are congruent. 10 = x + 3 x = 7 Because segments are congruent and perpendicular, then the angle is bisected which means they are are congruent. 9x – 1 = 6x + 14 3x = 15 x = 3

13 perpendicular bisector The perpendicular bisector of a segment is a line that is perpendicular to the segment at its midpoint. The perpendicular bisector does NOT have to start at a vertex. In the figure, line l is a perpendicular bisector of JK. For a perpendicular bisector you must have two things: Show perpendicularity (90 degree angle) Show congruence (two equal segments) J K

14 Perpendicular Bisector Theorem If a point is on the perpendicular bisector of a segment, then it is equidistant from the endpoints of the segment. If CP is the perpendicular bisector of AB, then CA = CB Converse of the Perpendicular Bisector Theorem If a point is equidistant from the endpoints of the segment, then it is on the perpendicular bisector of the segment. If DA = DB, then D lies on the perpendicular bisector of CP.

15 KG = KH, JG = JH, FG = FH KG = KH 2x = x + 1 -x x = 1 GH = KG + KH GH = 2x + (x+1) GH = 2(1) + (1+1) GH = 2 + 2 GH = 4

16 Draw the perpendicular bisector of the following lines, make one a ray, one a line, and one a segment. J K A B X Y

17 Example: C D In the scalene ∆CDE, AB is the perpendicular bisector. In the right ∆MLN, AB is the perpendicular bisector. In the isosceles ∆POQ, PR is the perpendicular bisector. E A B M L N AB R O Q P Remember, you must show TWO things. Show perpendicularity and congruence!

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