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8.1 or use with pages 526 533 ind the sum of the measures of the interior angles of the indicated convex polygon. 1. exagon 2. odecagon 3. 11-gon 4. 15-gon 5. 20-gon 6. 40-gon The sum of the measures of the interior angles of a convex polygon is given. lassify the polygon by the number of sides. 7. 1808 8. 5408 9. 9008 10. 18008 11. 25208 12. 39608 13. 50408 14. 59408 15. 86408 ind the value of x. 16. 105 142 140 17. 64 18. 146 158 16x 88 124 x 3x 2x 124 102 24x 34x 86 110 19. 93 x 75 2x 20. 22. What is the measure of each exterior angle of a regular nonagon? 90 2x x 60 4x 21. 100 20 23. The measures of the exterior angles of a convex quadrilateral are 908, 10x8, 5x8, and 458. What is the measure of the largest exterior angle? 24. The measures of the interior angles of a convex octagon are 45x8, 40x8, 1558, 1208, 1558, 38x8, 1588, and 41x8. What is the measure of the smallest interior angle? 60 6x 8x 6x ind the measures of an interior angle and an exterior angle of the indicated polygon. 25. Regular triangle 26. Regular octagon 27. Regular 16-gon 28. Regular 45-gon 29. Regular 60-gon 30. Regular 100-gon 101

8.1 continued or use with pages 526 533 In Exercises 31 34, find the value of n for each regular n-gon described. 31. Each interior angle of the regular n-gon has a measure of 1408. 32. Each interior angle of the regular n-gon has a measure of 175.28. 33. Each exterior angle of the regular n-gon has a measure of 458. 34. Each exterior angle of the regular n-gon has a measure of 38. 35. Storage Shed The side view of a storage shed is shown below. ind the value of x. Then determine the measure of each angle. E 2x 2x B 2x 36. Tents The front view of a camping tent is shown below. ind the value of x. Then determine the measure of each angle. P O 140 Q 150 150 R (2x 1 20) (2x 1 20) x x S 37. Proof Because all the interior angle measures of a regular n-gon are congruent, you can find the measure of each individual interior angle. The measure of each (n 2 2) 180 interior angle of a regular n-gon is }. Write a paragraph proof to prove n this statement. 102

8.2 or use with pages 535 541 ind the measure of the indicated angle in the parallelogram. 1. ind m B. 2. ind m. 3. ind m. B 1328 K 968 L 648 E ind the value of each variable in the parallelogram. 4. a b 9 5. x 1 2 12 y 2 5 6. 16 (y 2 60)8 11 4 568 3x 1 4 7. 25 728 (f 1 30)8 8g 2 3 8. m 1 8 9 3m 2n 2 1 9. 3j k 1 10 6k 5j 2 9 10. In gwxyz, m W is 50 degrees more 11. In ge, m is 25 degrees less than m X. Sketch gwxyz. ind the than m. Sketch ge. ind the measure of each interior angle. Then label measure of each interior angle. Then label each angle with its measure. each angle with its measure. ind the indicated measure in gb. 12. m EB 13. m BE 14. m E 15. m EB 808 238 E 16. m B 17. m E 1178 18. m 19. m B B 103

8.2 continued or use with pages 535 541 Use the diagram of gop. Points Q, R, S, and T are midpoints of } X, } X, } OX, and } PX. ind the indicated measure. 20. P R 21. Q 378 3 X 5 22. XO 1328 S 1258 T 23. m Q P 24. m XO O 25. m P 26. m PO 27. m OP 28. ovie Equipment The scissor lift shown at the right is sometimes used by camera crews to film movie scenes. The lift can be raised or lowered so that the camera can get a variety of views of one scene. In the figure, points E,,, and are the vertices of a parallelogram. a. If m E 5 45, find m. b. What happens to E and when the lift is raised? Explain. E 29. In parallelogram RSTU, the ratio of RS to ST is 5 : 3. ind RS if the perimeter of grstu is 64. 30. Parallelogram OP and parallelogram PQRO share a common side, as shown. Using a two-column proof, prove that segment is congruent to segment QR. IVE: OP and PQRO are parallelograms. } PROVE: > } QR P O R Q 104

8.3 or use with pages 542 549 What theorem can you use to show that the quadrilateral is a parallelogram? 1. 758 1058 2. 73 98 98 1058 73 3. 3.6 5 3.6 5 4. 10 10 or what value of x is the quadrilateral a parallelogram? 5. 2x 2 1 6. x 1 5 3x 2 11 x 1 5 7. 8x 8. 1018 x8 9. 5x8 3x 1 5 4x8 10. 1018 (5x 2 7)8 (x 1 1)8 105

8.3 continued or use with pages 542 549 The vertices of quadrilateral B are given. raw B in a coordinate plane and show that it is a parallelogram. 11. (22, 23), B(0, 4), (6, 4), (4, 23) 12. (23, 24), B(21, 2), (7, 0), (5, 26) y y 6 1 1 x 2 x escribe how to prove that B is a parallelogram. 13. B 14. B 15. Three vertices of ~B are (21, 4), B(4, 4), and (11, 23). ind the coordinates of point. 16. istory The diagram shows a battering ram which was used in ancient times to break through walls. log is suspended on ropes of equal length ( } and } ). The log swings, causing quadrilateral to shift. In the diagram, } > } and } is parallel to the ground. a. Identify. Explain. b. Explain why the log is always parallel to the ground. 17. Proof Use the diagram at the right. IVE: nb > n B PROVE: B is a parallelogram. 106

8.4 or use with pages 553 560 or any rhombus B, decide whether the statement is always or sometimes true. raw a diagram and explain your reasoning. } 1. B > 2. > } B or any rectangle, decide whether the statement is always or sometimes true. raw a diagram and explain your reasoning. } 3. > 4. > } lassify the quadrilateral. Explain your reasoning. 5. 918 6. ame each quadrilateral parallelogram, rectangle, rhombus, and square for which the statement is true. 7. It is equilateral. 8. The diagonals are congruent. 9. It can contain obtuse angles. 10. It contains no acute angles. lassify the special quadrilateral. Explain your reasoning. Then find the values of x and y. 11. 2y 1 4 B 12. T 1278 5y 1 1 3x S (2x 2 1)8 U 6y 2 5 3y 1 7 5x 2 4 V 107

8.4 continued or use with pages 553 560 The diagonals of rhombus PQRS intersect at T. iven that m RPS 5 308 and RT 5 6, find the indicated measure. 6 R 13. m QPR 14. m QTP T 15. RP 16. QT P 308 S The diagonals of rectangle WXYZ intersect at P. iven that m YXZ 5 508 and XZ 5 12, find the indicated measure. W X 508 17. m WXZ 18. m WPX P 19. PY 20. WX Z Y The diagonals of square E intersect at. iven that E 5 5, find the indicated measure. 5 E 21. m 22. m 23. 24. E 25. Windows In preparation for a storm, a window is protected by nailing boards along its diagonals. The lengths of the boards are the same. an you conclude that the window is square? Explain. 26. lothing The side view of a wooden clothes dryer 9 2 is shown at the right. easurements shown are in inches. a. The uppermost quadrilateral is a square. lassify the quadrilateral below the square. h Explain your reasoning. b. ind the height h of the clothes dryer. 27. Proof The diagonals of rhombus B form several triangles. Using a two-column proof, prove that nb > n. IVE: B is a rhombus. B PROVE: nb > n 24 108

8.5 or use with pages 562 569 Points, B,, and are the vertices of a quadrilateral. etermine whether B is a trapezoid. 1. (22, 3), B(3, 3), (21, 22), (2, 22) 2. (23, 2), B(3, 0), (4, 3), (22, 5) 3. (25, 23), B(21, 21), (21, 3), (23, 2) ind m, m, and m. 4. 1108 5. 688 ind the length of the midsegment of the trapezoid. 6. 21 7. 64 82 17 KL is a kite. ind m K. 8. 888 1208 L K 9. 608 508 Use Theorem 8.18 and the Pythagorean Theorem to find the side lengths of the kite. Write the lengths in simplest radical form. 10. S K 11. S L V 5 5 5 12 T V 8 9 9 7 T U U 109

8.5 continued or use with pages 562 569 ind the value of x. 12. 10 13. 2x 1 43 32 4x 44 14. 2x 15. 808 17.1 2x8 1118 8x 1 3.2 16. aps Use the map shown at the right. The lines represent a sidewalk connecting the locations on the map. a. Is the sidewalk in the shape of a kite? Explain. b. sidewalk is built that connects the arcade, tennis court, miniature golf course, and restaurant. What is the shape of the sidewalk? c. What is the length of the midsegment of the sidewalk in part (b)? 1 y Pool Tennis court rcade Restaurant 1 iniature golf course Basketball court 17. Kite You cut out a piece of fabric in the shape of a kite so that the congruent angles of the kite are 1008. Of the remaining two angles, one is 4 times larger than the other. What is the measure of the largest angle in the kite? 18. Proof } is the midsegment of isosceles trapezoid. Write a paragraph proof to show that is an isosceles trapezoid. x 110

8.6 or use with pages 570 575 omplete the chart. Put an X in the box if the shape always has the given property. Property ~ Rectangle Rhombus Square Kite Trapezoid 1. Both pairs of opposite sides are congruent. 2. Both pairs of opposite angles are congruent. 3. Exactly one pair of opposite sides are congruent. 4. Exactly one pair of opposite sides are parallel. 5. Exactly one pair of opposite angles are congruent. 6. onsecutive angles are supplementary. ive the most specific name for the quadrilateral. Explain. 7. 8. 10 10 10 10 9. 10. 111

8.6 continued or use with pages 570 575 Tell whether enough information is given in the diagram to classify the quadrilateral by the indicated name. 11. Rectangle 12. Isosceles trapezoid 658 1158 1158 658 13. Rhombus 14. Kite Points, B,, and are the vertices of a quadrilateral. ive the most specific name for B. ustify your answer. 15. (2, 2), B(4, 6), (6, 5), (4, 1) 16. (25, 1), B(0, 26), (5, 1), (0, 3) In Exercises 17 and 18, which two segments or angles must be congruent so that you can prove that is the indicated quadrilateral? There may be more than one right answer. 17. Kite 18. Isosceles trapezoid 19. Picture rame What type of special quadrilateral is the stand of the picture frame at the right? 20. Painting painter uses a quadrilateral shaped piece of canvas. The artist begins by painting lines that represent the diagonals of the canvas. If the lengths of the painted lines are congruent, what types of quadrilaterals could represent the shape of the canvas? If the painted lines are also perpendicular, what type of quadrilateral represents the shape of the canvas? 112

ame ate 8.7 or use with pages 576 581 ind the side lengths of quadrilaterals B and E with the given vertices. Then determine if the quadrilaterals are congruent. 1. (22,1), B(22, 5), (2, 5), (2, 1); E(23, 21) (1, 21), (1, 25), (23, 25) 2. (25,21), B(0, 21), (22, 23), (23, 23); E(0, 4) (10, 4), (6, 0), (4, 0) 3. (22, 1), B(2, 1), (2, 21), (22, 21); E(21, 2) (1, 2), (1, 22), (21, 22) 4. (25, 5), B(0, 5), (0, 0), (25, 0); E(1, 0) (4, 4), (9, 4), (6, 0) ind the side lengths of quadrilaterals B and E with the given vertices. Then determine if the quadrilaterals are similar. 5. (0, 0), B(3, 3), (6, 3), (9, 0); E(0, 21) (6, 21), (4, 23), (2, 23) 6. (1, 0), B(1, 6), (3, 6), (3, 0); E(5, 0) (5, 9), (8, 9), (8, 0) 7. (23, 0), B(23, 2), (3, 2), (3, 0); E(24, 21) (24, 3), (4, 3), (4, 21) 8. (1, 0), B(1, 1), (2, 1), (2, 0); E(0,21) (0, 2), (3, 2), (3, 21) Without introducing any new variables, supply the missing coordinates. 9. Square B 10. Trapezoid B y y B (0, a) (?,?) B (a, b) (c,?) (?,?) x In exercises 11 13, use the following information. Quadrilateral PQRS shown at the right is a rectangle. The coordinates of P are (a, b) and the length of a short side is x, the length of a long side is twice as long as a short side. 11. ind the coordinates of Q, R, and S. 12. ind the coordinates of the midpoints of the sides of PQRS. 13. ind the coordinates of the center of PQRS. (?,?) x 113

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