Chapter 8

1. Chapter 8 Quadrilaterals

2. 8.1 Angles of Polygons

3. Angle Measures of Polygons • We’re going to use Inductive Reasoning to find the sum of all the interior and exterior angles of convex polygons. • We will do this by drawing as many diagonals as possible from one vertex. • A diagonal is a segment drawn from non consecutive verticies. • We will also use the Angle Sum Theorem that says… • The sum of all the interior angles of a triangle equals 180°.

4. Triangles 120° Sum of interior angles = 180° 60° 130° 50° 70° 110° Sum of Exterior angles = 360°

5. Angles of Polygons

6. Quadrilaterals In Triangle I – the sum of the 3 angles is 180 degrees. 2 1 I 6 In Triangle II – the sum of the 3 angles is 180 degrees. II 3 5 4 In the Quad – the sum of the 4 angles is 360° So, what if 3 angles measure 100° and the 4th measure 60°? Then the 3 ext. angles measure 80° and the 4th measures 120°? Sum of four ext angles = 360°

7. Angles of Polygons

8. Pentagons Sum of each triangle: I – 180° II – 180° III – 180° Total 540° 2 1 I 6 II 3 5 4 What if meas of 4 angles is 100° each and the 5th angle is 140°, what is the measure of all ext angles? 7 8 III 9 Then the meas of 4 ext <‘s is 80° each and the 5th ext angle is 40°, then the measure of all ext <‘s is 360°

9. Angles of Polygons

10. Angles of Polygons

11. Angles of Polygons

12. Regular? • What if the polygons are regular? • Then each interior angle is congruent. • Formula for sum of all interior angles is: • (n – 2)180 • So, if regular, EACH interior angle measures: • (n – 2)180/n • If sum of all exterior angles is 360, then: • 360/n is the measure of each < if regular.

13. 8.2 Parallelograms

14. Parallelograms • Definition – A Quadrilateral with two pairs of opposite sides that are parallel. • Let us see what else we can prove knowing this definition. 1 3 4 2

15. Parallelograms • Definition – A Quadrilateral with two pairs of opposite sides that are parallel. • Characteristics: • Each Diagonal divides the Parallelogram into Two Congruent Triangles.

16. Parallelograms A B 1 3 4 D 2 C

17. Parallelograms • Definition – A Quadrilateral with two pairs of opposite sides that are parallel. • Characteristics: • Each Diagonal divides the Parallelogram into Two Congruent Triangles. • Both Pairs of Opposite Sides are Congruent. • Both Pairs of Opposite Angles are Congruent.

18. Parallelograms A B 1 3 E 5 6 4 D 2 C

19. Parallelograms • Definition – A Quadrilateral with two pairs of opposite sides that are parallel. • Characteristics: • Each Diagonal divides the Parallelogram into Two Congruent Triangles. • Both Pairs of Opposite Sides are Congruent. • Both Pairs of Opposite Angles are Congruent. • Diagonals Bisect Each Other. • Consecutive Interior Angles are Supplementary.

20. Don’t Confuse Them • Do not confuse the Definition with the Characteristics. • There is a lot of memorization in this chapter, be ready for it.

21. 8.3 Tests for Parallelograms

22. Tests for Parallelograms • There are six tests to determine if a quadrilateral is a parallelogram. • If one test works, then all tests would work. • With the definition and five characteristics, you have six things, right? • Well, it is not that simple… • One characteristic is not a test. It is replaced with a test.

23. Tests • Def: A quad with two pairs of parallel sides. • Test: If a quad has two pairs of parallel sides, then it is a parallelogram. • Char: Diagonals bisect each other. • Test: If a quad has diagonals that bisect each other, then it is a parallelogram. • Char: Both pairs of opposite sides are congruent. • Test: If a quadrilateral has two pair of opposite sides congruent, then it is a parallelogram.

24. Tests (Con’t) • Both pairs of opposite angles are congruent. • If a quad has both pairs of opposite angles congruent, then it is a parallelogram. • All pairs of consecutive angles are supplementary. • If a quad has all pairs of consecutive angles supp, then it is a parallelogram.

25. The one that doesn’t work! • A diagonal divides the parallelogram into two congruent triangles. • If a diagonal divides into two congruent triangles, then it is a parallelogram.

26. The other one • This is the test that is not a characteristic. • If one pair of sides is both parallel and congruent. • This is a parallelogram. • This is a not a para b/cone pair is sides is congruentbut the other pair of sides is ||

27. Coordinate Geometry • Sometimes you will be given four coordinates and you will need to determine what type of quadrilateral it makes. • The easiest way to do this is to do the slope six times. (We’ll start with four times today). • Find the slope of the four sides and determine if you have two pairs of parallel sides.

28. Example A ( -2, 3) B ( -3, -1)C ( 3, 0) D ( 4, 4) mAB= 4/1 4/1 1/6 1/6 mDC= mCB= mAD= Since mAB= mCD and mBC = mAD we have a para!

29. 8.4 Rectangles

30. Polygon Family Tree Polygons Triangles Quad’s Pentagons Trapezoids Para’s Kites

31. Rectangle • Def: A parallelogram with four right angles.

32. Rectangle • Def: A parallelogram with four right angles. • Characteristic: • Diagonals are Congruent

33. Characteristics A D E C B

34. Nice to Know Stuff (NTKS) A D E C B • We just proved that the diagonals are congruent. • Since this Rect is also a Para – then the diagonals bisect each other, thus AE, DE, CE and BE are all congruent. What do you know about the four triangles?

35. Rectangle • Definition: • A parallelogram with four right angles. • Characteristic: • Diagonals are Congruent. • NTKS: • The diagonals make four Isosceles Triangles. • Triangles opposite of each other are congruent.

36. Coordinate Geometry • Using coordinate geometry to classify if a quadrilateral is a rectangle or not is easy too. • First determine if the quadrilateral is a parallelogram by doing the slope four times. • If it is a parallelogram, then determine if consecutive sides are perpendicular. • Are the slopes of consecutive sides “opposite signed, reciprocals?”

37. Example A ( 0, 5) B ( -1, 1)C ( 3, 0) D ( 4, 4) mAB= 4/1 4/1 -1/4 -1/4 mDC= mCB= mAD= Since mAB= mCD and mBC = mAD we have a para! mAB and mCB are “opp signed recip” we have rect.

38. 8.5 Rhombi and Squares

39. Definition • Rhombus – A parallelogram with four congruent sides.

40. Characteristics By def: C D 2 B/C it’s a Para: 1 3 E 4 A B <3 and <4 are Rt Angles: AC | DB :

41. Rhombus • Def: • A parallelogram with four congruent sides • Characteristics: • Diagonals are angle bisectors of the vertex angles. • Diagonals are perpendicular. • NTKS: • Diagonals make four right triangles. • All Right triangles are congruent.

42. Polygon Family Tree Polygons Triangles Quad’s Pentagons Trapezoids Para’s Kites Rectangles Rhombus Square

43. Square • A square has two definitions: • A Rectangle with four congruent sides. • A Rhombus with four right angles. • A square has everything that every polygon in it’s family tree has. • It has all the parts of the definitions, characteristics and NTKS from Quad’s, Para’s, Rect’s and Rhombi.

44. Example A (-1, 2) B (2, 1)C (1, -2) D (-2, -1) mAB= -1/3 -1/3 3/1 3/1 mDC= mCB= mAC= -2/1 1/2 It’s a para, rect, rhombus so it is a square. mAD= mDB=

45. Coordinate Geometry • So, if both pairs of opposite sides are parallel, it is a parallelogram. • If it is a parallelogram with perpendicular sides, then it is a rectangle. • If it is a parallelogram with perpendicular diagonals, then it is a rhombus. • If it is a parallelogram with perpendicular sides and perpendicular diagonals, then it is a square.

46. 8.6 Trapezoids and Kites

47. Trapezoids • A trapezoid is a quadrilateral with only one pair of opposite sides that are parallel. • There are two special trapezoids. • Isosceles Trapezoids • Right Trapezoids. Trapezoids Right Traps Isosc Traps

48. Names of Parts 2 The parallel sides are the “bases” 1 Only one pair of parallel sides 4 3 The non parallel sides are the “legs” The angles at the end of each base are “base angle pairs” Obviously these angle pairs are supplementary.

49. Median of Trapezoids • A median of a trapezoid is a segment drawn from the midpoint of one leg to the midpoint of the other leg. • The length of the median is m = (b1 + b2)/2 where b1 and b2 are the bases. • Since this is for the Trapezoid, it works for all the trapezoid’s children.

50. Right Trapezoid • A right trapezoid is a trapezoid with two right angles. • Not much else to do with that.