Presentation is loading. Please wait.

Presentation is loading. Please wait.

4.4 The Equidistance Theorems

Published byHollie Lambert Modified over 7 years ago

Similar presentations

Presentation on theme: "4.4 The Equidistance Theorems"— Presentation transcript:

1 4.4 The Equidistance Theorems
Objective: After studying this lesson you will be able to recognize the relationship between equidistance and perpendicular bisection.

2 Postulate A line segment is the shortest path between two points
Definition The distance between two points is the length of the shortest path joining them. Postulate A line segment is the shortest path between two points If two points A and B are the same distance from a third point Z, then Z is said to be equidistant to A and B. Z B A

3 What do these drawings have in common?
B C D C D B B What do these drawings have in common? A and B are equidistant from points C and D. We could prove that line AB is the perpendicular bisector of segment CD with the following theorems.

4 Definition. The perpendicular bisector of
Definition The perpendicular bisector of a segment is the line that bisects and is perpendicular to the segment. Theorem If 2 points are each equidistant from the endpoints of a segment, then the two points determine the perpendicular bisector of that segment.

5 B Given: E C A Prove: D 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. If a line divides a segment into 2 congruent segments, it bisects it. If 2 angles are both supplementary and congruent , then they are right angles. If 2 lines intersect to form right angles they are perpendicular. Combination of steps 9 and 12

6 Theorem. If a point is on the. perpendicular
Theorem If a point is on the perpendicular bisector of a segment, then it is equidistant from the endpoints of that segment.

7 A Given: 1 E Prove: 2 B D 3 4 C 1. 2. 3. 4. 5. 1. 2. 3. 4. 5.

8 Given: A Prove: B C E 1. 2. 3. 4. 1. 2. 3. 4.

9 A A Given: C B D Prove: E 1. 2. 3. 4. 1. 2. 3. 4.

10 Summary: Define equidistant in your own words and summarize how we used it in proofs. Homework: worksheet

Download ppt "4.4 The Equidistance Theorems"

Similar presentations

Chapter 5 Properties of Triangles Perpendicular and Angle Bisectors Sec 5.1 Goal: To use properties of perpendicular bisectors and angle bisectors.

Chapter 5 Properties of Triangles Perpendicular and Angle Bisectors Sec 5.1 Goal: To use properties of perpendicular bisectors and angle bisectors.
1 Aim: How do we prove lines are perpendicular? Do Now: A C D B StatementsReasons 1) 2) 3) 4) 5) 6) 7) 8) Given Def. Linear pair Linear pair is suppl.

1 Aim: How do we prove lines are perpendicular? Do Now: A C D B StatementsReasons 1) 2) 3) 4) 5) 6) 7) 8) Given Def. Linear pair Linear pair is suppl.
Bellwork  Given: is a perpendicular bisector to  Prove:

Bellwork  Given: is a perpendicular bisector to  Prove:
Geometry (Holt 3-4)K.Santos. Perpendicular Bisector Perpendicular bisector of a segment is a line perpendicular to a segment at the segment’s midpoint.

Geometry (Holt 3-4)K.Santos. Perpendicular Bisector Perpendicular bisector of a segment is a line perpendicular to a segment at the segment’s midpoint.
5-2 Perpendicular and Angle Bisectors Learning Goals 1. To use properties of perpendicular bisectors and angle bisectors.

5-2 Perpendicular and Angle Bisectors Learning Goals 1. To use properties of perpendicular bisectors and angle bisectors.
5.2 Perpendicular and Angle Bisectors

5.2 Perpendicular and Angle Bisectors
5-2 Perpendicular and Angle Bisectors. A point is equidistant from two objects if it is the same distance from the objects.

5-2 Perpendicular and Angle Bisectors. A point is equidistant from two objects if it is the same distance from the objects.
Lesson 6.2 Properties of Chords

Lesson 6.2 Properties of Chords
Goal 1. To be able to use bisectors to find angle measures and segment lengths.

Goal 1. To be able to use bisectors to find angle measures and segment lengths.
Find the missing angle 80 0 20 0 ?0?0. Special Segments in Triangles.

Find the missing angle ?0?0. Special Segments in Triangles.
GEOMETRY 3.4 Perpendicular Lines. LEARNING TARGETS  Students should be able to…  Prove and apply theorems about perpendicular lines.

GEOMETRY 3.4 Perpendicular Lines. LEARNING TARGETS  Students should be able to…  Prove and apply theorems about perpendicular lines.
Lesson 2.6 p. 109 Proving Statements about Angles Goal: to begin two-column proofs about congruent angles.

Lesson 2.6 p. 109 Proving Statements about Angles Goal: to begin two-column proofs about congruent angles.
12.2 Chords and Arcs Theorem 12.4 and Its Converse Theorem –

12.2 Chords and Arcs Theorem 12.4 and Its Converse Theorem –
Applying Congruent Triangles “Six Steps To Success”

Applying Congruent Triangles “Six Steps To Success”
11-2 Chords and Arcs  Theorems: 11-4, 11-5, 11-6, 11-7, 11-8  Vocabulary: Chord.

11-2 Chords and Arcs  Theorems: 11-4, 11-5, 11-6, 11-7, 11-8  Vocabulary: Chord.
Section 5-1 Perpendiculars and Bisectors. Perpendicular bisector A segment, ray, line, or plane that is perpendicular to a segment at its midpoint.

Section 5-1 Perpendiculars and Bisectors. Perpendicular bisector A segment, ray, line, or plane that is perpendicular to a segment at its midpoint.
Bisectors in Triangles Section 5-2. Perpendicular Bisector A perpendicular tells us two things – It creates a 90 angle with the segment it intersects.

Bisectors in Triangles Section 5-2. Perpendicular Bisector A perpendicular tells us two things – It creates a 90 angle with the segment it intersects.
Chapter 5.2 Bisectors in Triangles Reminder: Bring your textbook for cd version!

Chapter 5.2 Bisectors in Triangles Reminder: Bring your textbook for cd version!
Objective: After studying this lesson you will be able to recognize the relationship between equidistance and perpendicular bisection.

Objective: After studying this lesson you will be able to recognize the relationship between equidistance and perpendicular bisection.
BY: Kyle Bormann, Matt Heckman, and Ryan Gilbert Equidistance Theorems Section 4.4.

BY: Kyle Bormann, Matt Heckman, and Ryan Gilbert Equidistance Theorems Section 4.4.

Similar presentations

Ads by Google