6.2 Properties of Parallelograms Geometry Mrs. Spitz Spring 2005.

Slides:

Advertisements

Similar presentations

Quadrilaterals and Polygons

Advertisements

Created by chris markstrum © Proving Quadrilaterals are Parallelograms California State Standards for Geometry 4: Prove basic theorems involving.

L14_Properties of a Parallelogram

Parallelograms Quadrilaterals are four-sided polygons

Proving Quadrilaterals are Parallelograms Lesson 6.3 Chapter 6 Section 6.3 Proving Quadrilaterals Are Parallelograms.

Objective: Prove that a given quadrilateral is a parallelogram. 6.3 Proving Quadrilaterals are Parallelograms Handbook, p. 19.

6.4 Special Parallelograms Standard: 7.0 & 12.0.

6.5 Trapezoids and Kites Geometry Mrs. Spitz Spring 2005.

Use Properties of Parallelograms

6-3 Proving That a Quadrilateral Is a Parallelogram

Created by chris markstrum © Proving Quadrilaterals are Parallelograms Objective: To learn how to prove quadrilaterals are parallelograms.

6.2 Properties of Parallelograms

6.6 Special Quadrilaterals Geometry Ms. Reser. Objectives: Identify special quadrilaterals based on limited information. Prove that a quadrilateral is.

Special Parallelograms:Rhombuses, Rectangles and Squares

Properties of Parallelograms Unit 12, Day 1 From the presentation by Mrs. Spitz, Spring 2005

Geometry 1 Unit 6 Quadrilaterals.

8.6 Examples Example 1 STUV has at least one pair of consecutive sides that are congruent. What type of quadrilateral meets this condition? (rhombus,

EXAMPLE 4 Use coordinate geometry SOLUTION One way is to show that a pair of sides are congruent and parallel. Then apply Theorem 8.9. First use the Distance.

Theorems Theorem 6.6: If both pairs of opposite sides of a quadrilateral are congruent, then the quadrilateral is a parallelogram. ABCD is a parallelogram.

8.2/8.3 Parallelograms. You will learn to identify and use the properties of parallelograms. 1) Parallelogram.

Aim: Properties of Parallelogram Course: Applied Geo. Do Now: Aim: What are the Properties of a Parallelogram? Describe the properties of an isosceles.

5-minute Check.

Using Coordinate Geometry to Prove Parallelograms

6.3 Proving Quadrilaterals are Parallelograms

Section 6-2 Properties of Parallelograms SPI 32A: identify properties of plane figures from information in a diagram SPI 32 H: apply properties of quadrilaterals.

Warm Up Use the diagram below to answer the following: 1.If m

Chapter 8.2 Notes: Use Properties of Parallelograms

EXAMPLE 3 List properties of special parallelograms

6.3 Proving Quadrilaterals are Parallelograms. Objectives: Prove that a quadrilateral is a parallelogram. Use coordinate geometry with parallelograms.

6.3 Proving Quadrilaterals are Parallelograms Standard: 7.0 & 17.0.

SWBAT… Agenda 1. Warm-up (10 min) 2. Review HW (15 min) 3. Notes on properties of parallelograms (20 min) Warm-Up: is 25% of what number?

EXAMPLE 1 Identify congruent angles SOLUTION By the Corresponding Angles Postulate, m 5 = 120°. Using the Vertical Angles Congruence Theorem, m 4 = 120°.

Using Special Quadrilaterals

6.2 Proving Quadrilaterals are Parallelograms. Theorems If both pairs of opposite sides of a quadrilateral are congruent, then the quadrilateral is a.

Properties of Parallelograms Definition  Parallelogram – a quadrilateral with both pairs of opposite sides parallel.

7.2 Parallelograms. Definition: A parallelogram is a quadrilateral with both pairs of opposite sides parallel. Consecutive angles Opposite angles.

Parallelograms Properties & Attributes. Parallelograms …are quadrilaterals in which both pairs of opposite sides are parallel If a quadrilateral is a.

6.2 Parallelograms Objectives Recognize and apply properties of the sides and angles of parallelograms. Recognize and apply properties of the diagonals.

 6.3 Showing Quadrilaterals are Parallelograms. We can use the theorems from 6.2 to prove that quadrilaterals are parallelograms  What 5 facts are ALWAYS.

8.2 Properties of Parallelograms

Interior and exterior angles. Exterior and interior angles are supplementary.

Showing Quadrilaterals are Parallelograms Section 6.3.

5.6 Proving Quadrilaterals are Parallelograms. Objectives: Prove that a quadrilateral is a parallelogram.

6.4 EQ: What properties do we use to identify special types of parallelograms?

1. What congruence postulate shows that ABE CDE ?

1. What congruence postulate shows that ABE CDE ?

Properties of Parallelograms

Theorems about parallelograms

Using Coordinate Geometry to Prove Parallelograms

: Parallelograms Objectives:

6-2B Proving Quadrilaterals Are Parallelograms

Module 9, Lessons 9.1 and Parallelograms

Using Coordinate Geometry to Prove Parallelograms

6.2 Properties of Parallelograms

G4.2 Properties of Parallelograms

6.3 Proving Quadrilaterals are Parallelograms

Properties of Parallelograms

1. What congruence postulate shows that ABE CDE ?

6.3 Proving Quadrilaterals are Parallelograms

6.3 Tests for Parallelograms

Warm-up Use the information in the diagram to solve for j.

6.3 Proving Quadrilaterals are Parallelograms

DRILL 1. Name 6 Different types of Quadrilaterals.

6.2 Properties of Parallelograms

9.2 Proving Quadrilaterals are Parallelograms

Quadrilaterals & Parallelograms

Chapter 6 Quadrilaterals.

6.3 Proving Quadrilaterals and Parallelograms

Presentation transcript:

6.2 Properties of Parallelograms Geometry Mrs. Spitz Spring 2005

Objectives: Use some properties of parallelograms. Use properties of parallelograms in real-lie situations such as the drafting table shown in example 6.

Assignment: pp #2-37 and 39

In this lesson... And the rest of the chapter, you will study special quadrilaterals. A parallelogram is a quadrilateral with both pairs of opposite sides parallel. When you mark diagrams of quadrilaterals, use matching arrowheads to indicate which sides are parallel. For example, in the diagram to the right, PQ║RS and QR║SP. The symbol PQRS is read “parallelogram PQRS.”

Theorems about parallelograms 6.2—If a quadrilateral is a parallelogram, then its opposite sides are congruent. ► PQ ≅ RS and SP ≅ QR P Q R S

Theorems about parallelograms 6.3—If a quadrilateral is a parallelogram, then its opposite angles are congruent.  P ≅  R and  Q ≅  S P Q R S

Theorems about parallelograms 6.4—If a quadrilateral is a parallelogram, then its consecutive angles are supplementary (add up to 180°). m  P +m  Q = 180°, m  Q +m  R = 180°, m  R + m  S = 180°, m  S + m  P = 180° P Q R S

Theorems about parallelograms 6.5—If a quadrilateral is a parallelogram, then its diagonals bisect each other. QM ≅ SM and PM ≅ RM P Q R S

Ex. 1: Using properties of Parallelograms FGHJ is a parallelogram. Find the unknown length. Explain your reasoning. a.JH b.JK F G J H K 5 3 b.

Ex. 1: Using properties of Parallelograms FGHJ is a parallelogram. Find the unknown length. Explain your reasoning. a.JH b.JK SOLUTION: a. JH = FG Opposite sides of a are ≅. JH = 5 Substitute 5 for FG. F G J H K 5 3 b.

Ex. 1: Using properties of Parallelograms FGHJ is a parallelogram. Find the unknown length. Explain your reasoning. a.JH b.JK SOLUTION: a. JH = FG Opposite sides of a are ≅. JH = 5 Substitute 5 for FG. F G J H K 5 3 b. b.JK = GK Diagonals of a bisect each other. JK = 3 Substitute 3 for GK

Ex. 2: Using properties of parallelograms PQRS is a parallelogram. Find the angle measure. a.m  R b.m  Q P RQ 70° S

Ex. 2: Using properties of parallelograms PQRS is a parallelogram. Find the angle measure. a.m  R b.m  Q a. m  R = m  P Opposite angles of a are ≅. m  R = 70°Substitute 70° for m  P. P RQ 70° S

Ex. 2: Using properties of parallelograms PQRS is a parallelogram. Find the angle measure. a.m  R b.m  Q a. m  R = m  P Opposite angles of a are ≅. m  R = 70°Substitute 70° for m  P. b.m  Q + m  P = 180°Consecutive  s of a are supplementary. m  Q + 70° = 180°Substitute 70° for m  P. m  Q = 110°Subtract 70° from each side. P RQ 70° S

Ex. 3: Using Algebra with Parallelograms PQRS is a parallelogram. Find the value of x. m  S + m  R = 180° 3x = 180 3x = 60 x = 20 Consecutive  s of a □ are supplementary. Substitute 3x for m  S and 120 for m  R. Subtract 120 from each side. Divide each side by 3. S Q P R 3x°120°

Ex. 4: Proving Facts about Parallelograms Given: ABCD and AEFG are parallelograms. Prove  1 ≅  3. 1.ABCD is a □. AEFG is a ▭. 2.  1 ≅  2,  2 ≅  3 3.  1 ≅  3 1.Given

Ex. 4: Proving Facts about Parallelograms Given: ABCD and AEFG are parallelograms. Prove  1 ≅  3. 1.ABCD is a □. AEFG is a □. 2.  1 ≅  2,  2 ≅  3 3.  1 ≅  3 1.Given 2.Opposite  s of a ▭ are ≅

Ex. 4: Proving Facts about Parallelograms Given: ABCD and AEFG are parallelograms. Prove  1 ≅  3. 1.ABCD is a □. AEFG is a □. 2.  1 ≅  2,  2 ≅  3 3.  1 ≅  3 1.Given 2.Opposite  s of a ▭ are ≅ 3.Transitive prop. of congruence.

Ex. 5: Proving Theorem 6.2 Given: ABCD is a parallelogram. Prove AB ≅ CD, AD ≅ CB. 1.ABCD is a . 2.Draw BD. 3.AB ║CD, AD ║ CB. 4.  ABD ≅  CDB,  ADB ≅  CBD 5. DB ≅ DB 6.∆ADB ≅ ∆CBD 7.AB ≅ CD, AD ≅ CB 1.Given

Ex. 5: Proving Theorem 6.2 Given: ABCD is a parallelogram. Prove AB ≅ CD, AD ≅ CB. 1.ABCD is a . 2.Draw BD. 3.AB ║CD, AD ║ CB. 4.  ABD ≅  CDB,  ADB ≅  CBD 5. DB ≅ DB 6.∆ADB ≅ ∆CBD 7.AB ≅ CD, AD ≅ CB 1.Given 2.Through any two points, there exists exactly one line.

Ex. 5: Proving Theorem 6.2 Given: ABCD is a parallelogram. Prove AB ≅ CD, AD ≅ CB. 1.ABCD is a . 2.Draw BD. 3.AB ║CD, AD ║ CB. 4.  ABD ≅  CDB,  ADB ≅  CBD 5. DB ≅ DB 6.∆ADB ≅ ∆CBD 7.AB ≅ CD, AD ≅ CB 1.Given 2.Through any two points, there exists exactly one line. 3.Definition of a parallelogram

Ex. 5: Proving Theorem 6.2 Given: ABCD is a parallelogram. Prove AB ≅ CD, AD ≅ CB. 1.ABCD is a . 2.Draw BD. 3.AB ║CD, AD ║ CB. 4.  ABD ≅  CDB,  ADB ≅  CBD 5. DB ≅ DB 6.∆ADB ≅ ∆CBD 7.AB ≅ CD, AD ≅ CB 1.Given 2.Through any two points, there exists exactly one line. 3.Definition of a parallelogram 4.Alternate Interior  s Thm.

Ex. 5: Proving Theorem 6.2 Given: ABCD is a parallelogram. Prove AB ≅ CD, AD ≅ CB. 1.ABCD is a . 2.Draw BD. 3.AB ║CD, AD ║ CB. 4.  ABD ≅  CDB,  ADB ≅  CBD 5. DB ≅ DB 6.∆ADB ≅ ∆CBD 7.AB ≅ CD, AD ≅ CB 1.Given 2.Through any two points, there exists exactly one line. 3.Definition of a parallelogram 4.Alternate Interior  s Thm. 5.Reflexive property of congruence

Ex. 5: Proving Theorem 6.2 Given: ABCD is a parallelogram. Prove AB ≅ CD, AD ≅ CB. 1.ABCD is a . 2.Draw BD. 3.AB ║CD, AD ║ CB. 4.  ABD ≅  CDB,  ADB ≅  CBD 5. DB ≅ DB 6.∆ADB ≅ ∆CBD 7.AB ≅ CD, AD ≅ CB 1.Given 2.Through any two points, there exists exactly one line. 3.Definition of a parallelogram 4.Alternate Interior  s Thm. 5.Reflexive property of congruence 6.ASA Congruence Postulate

Ex. 5: Proving Theorem 6.2 Given: ABCD is a parallelogram. Prove AB ≅ CD, AD ≅ CB. 1.ABCD is a . 2.Draw BD. 3.AB ║CD, AD ║ CB. 4.  ABD ≅  CDB,  ADB ≅  CBD 5. DB ≅ DB 6.∆ADB ≅ ∆CBD 7.AB ≅ CD, AD ≅ CB 1.Given 2.Through any two points, there exists exactly one line. 3.Definition of a parallelogram 4.Alternate Interior  s Thm. 5.Reflexive property of congruence 6.ASA Congruence Postulate 7.CPCTC

Ex. 6: Using parallelograms in real life FURNITURE DESIGN. A drafting table is made so that the legs can be joined in different ways to change the slope of the drawing surface. In the arrangement below, the legs AC and BD do not bisect each other. Is ABCD a parallelogram?

Ex. 6: Using parallelograms in real life FURNITURE DESIGN. A drafting table is made so that the legs can be joined in different ways to change the slope of the drawing surface. In the arrangement below, the legs AC and BD do not bisect each other. Is ABCD a parallelogram? ANSWER: NO. If ABCD were a parallelogram, then by Theorem 6.5, AC would bisect BD and BD would bisect AC. They do not, so it cannot be a parallelogram.