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5.1 Perpendicular and Bisectors

5.1 Perpendicular and Bisectors. Goal: Use properties of perpendicular bisectors and use properties of angle bisectors to identify equal distances. Standard 16.0.

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5.1 Perpendicular and Bisectors

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  1. 5.1 Perpendicular and Bisectors Goal: Use properties of perpendicular bisectors and use properties of angle bisectors to identify equal distances

  2. Standard 16.0 • 16.0 Students perform basic constructions with a straightedge and compass, such as angle bisectors, perpendicular bisectors, and the line parallel to a given line through a point off the line. 16.0 Los estudiantes realizan construcciones básicas con una regla y un compás, tales como la bisectriz de un ángulo, las bisectrices de los segmentos perpendiculares, y la línea paralela a una línea dada a través de un punto afuera de la línea.

  3. Vocabulary • Perpendicular bisector is a segment, ray, or plane that is perpendicular to a segment at its midpoint. • A point is equidistant from two points if its distance from each point is the same. • The distance from a point to a line is defined as the length of the perpendicular segment from the point to the line. • When the point is the same distance from a line as is is from another line, then the point is equidistant from the two lines (rays or segments)

  4. Theorems • Theorem 5.1 Perpendiculars Bisectors Theorem • If a point is on the perpendicular bisector of a segment, then it is equidistant from the endpoints of the segment. If is the perpendicular bisector of , then CA = CB.

  5. Theorem 5.2 Converse of the Perpendicular Theorem • If a point is equidistant from the endpoints of a segment, then it is on the perpendicular bisector of the segment.

  6. Example # 1 • In the diagram shown, is the perpendicular of . • A. What segment lengths in the diagram are equal? • B. Explain why Q is on .

  7. Goal #2 Using the Properties Of Angle Bisectors • The distance from a point to a line is defined as the length of the perpendicular segment from the point to the line.For instance, between the point Q and the line m is QP • When a point is the same distance from one line as it is from another line, then the point is equidistant from the two lines (or rays or segments). The theorems below show that a point in the interior of an angle is equidistant from the sides of the angle if and only if the point is on the bisector of the angle.

  8. Theorems • Theorem 5.3 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 m < BAD = m < CAD, then DB = DC

  9. Theorem 5.4 Converse of the Angle Bisector Theorem • If a point is in the interior of an angle and is equidistant from the two sides of the angle, then it lies on the bisector of the angle. • If DB = DC, then m < BAD = m < CAD

  10. Example # 2 Proof of Theorem 5. 3 • Given: D is on the bisector <BAC. •  ,  • Prove: DB = DC • Plan for proof Prove that ∆ABD  ∆ADC. Then conclude that  , so DB = DC.

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