1 / 16

3.6 Prove Theorems About Perpendicular Lines

3.6 Prove Theorems About Perpendicular Lines. Objectives. Recognize relationships within  lines Prove that two lines are parallel based on given  information. Theorems. Theorem 3.8 If 2 lines intersect to form a linear pair of  s, then the lines are .

milos
Download Presentation

3.6 Prove Theorems About Perpendicular Lines

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 3.6 Prove Theorems About Perpendicular Lines

  2. Objectives • Recognize relationships within  lines • Prove that two lines are parallel based on given  information

  3. Theorems • Theorem 3.8 If 2 lines intersect to form a linear pair of s, then the lines are . • Theorem 3.9If 2 lines are , then they intersect to form 4 right s. • Theorem 3.10 If 2 sides of 2 adjacent acute s are , then the s are complementary.

  4. In the diagram, ABBC. What can you conclude about 1 and 2? SOLUTION ABand BC are perpendicular, so by Theorem 3.9, they form four right angles. You can conclude that 1 and 2 are right angles, so 1  2. EXAMPLE 1 Draw Conclusions

  5. Prove that if two sides of two adjacentacute angles are perpendicular, then theangles are complementary. GivenED EF Prove7and8 are complementary. EXAMPLE 2 Prove Theorem 3.10

  6. Given that ABC ABD, what can you conclude about 3 and 4? Explain how you know. ANSWER They are complementary. Sample Answer: ABD is a right angle since 2 lines intersect to form a linear pair of congruent angles (Theorem 3.8), 3 and 4 are complementary. YOUR TURN

  7. Theorems • Theorem 3.11( Transversal Theorem) If a transversal is  to one or two || lines, then it is  to the other. • Theorem 3.12 (Lines  to a Transversal Theorem) In a plane, if 2 lines are  to the same line, then they are || to each other.

  8. Determine which lines, if any, must be parallel in the diagram. Explain your reasoning. SOLUTION Lines p and q are both perpendicular to s, so by Theorem 3.12, p || q. Also, lines s and t are both perpendicular to q, so by Theroem 3.12, s || t. EXAMPLE 3 Draw Conclusions

  9. Use the diagram at the right. 3. Is b || a? Explain your reasoning. 4. Is bc? Explain your reasoning. ANSWER 3. yes; Lines Perpendicular to a Transversal Theorem. 4.yes; c || d by the Lines Perpendicular to a TransversalTheorem, therefore b c by the Perpendicular Transversal Theorem. YOUR TURN

  10. Distance from a Point to a Line The distance from a line to a point not on the line is the length of the segment ┴ to the line from the point. l A

  11. Distance Between Parallel Lines • Two lines in a plane are || if they are equidistant everywhere. • To verify if two lines are equidistant find the distance between the two || lines by calculating the distance between one of the lines and any point on the other line.

  12. SCULPTURE: The sculpture on the right is drawn on a graph where units are measured in inches. What is the approximate length of SR, the depth of a seat? EXAMPLE 4 Find the distance between two parallel lines

  13. 120 – 110 10 2 . 110 – 80 30 3 – – . = = = = SOLUTION 3 15 35 – 50 2 20 50 – 30 You need to find the length of a perpendicular segment from a back leg to a front leg on one side of the chair. Using the points P(30, 80) and R(50, 110), the slope of each leg is The segment SR has a slope of The segment SR is perpendicular to the leg so the distance SR is d = 18.0 inches. (35 –50)2 + (120 –110)2 The length of SR is about 18.0 inches. EXAMPLE 4 Find the distance between two parallel lines

  14. Use the graph at the right for Exercises 5 and 6.5. What is the distance from point A to line c? 6. What is the distance from line c to line d? ANSWER 5. about 1.3 6.about 2.2 YOUR TURN

  15. ANSWER (2, 3); 2.8 YOUR TURN 7. Graph the line y = x + 1. What point on the line is the shortest distance from the point (4, 1). What is the distance? Round to the nearest tenth.

  16. Assignment Geometry:Pg. 194 – 197 #2 – 10, 13 – 24, 26, 31, 35 – 38

More Related