Using Coordinate Geometry to Prove Parallelograms

Slides:

Advertisements

Similar presentations

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

Advertisements

Proving a quadrilateral is a Parallelogram

8.3 Tests for Parallelograms

Are the opposite sides QU and AD congruent? (Use the distance formula!) NO, they aren’t congruent! (different lengths) Given quadrilateral QUAD Q(-3, 1)

Parallelograms and Tests for Parallelograms

Math 2 Geometry Based on Elementary Geometry, 3 rd ed, by Alexander & Koeberlein 4.2 The Parallelogram and Kite.

Parallelograms – Part 1 Geometry Chapter 6 A BowerPoint Presentation.

Proving that a quadrilateral is a Parallelogram Geometry Regular Program SY Source: Discovering Geometry (2008) by Michael Serra Geometry (2007)

COORDINATE GEOMETRY PROOFS USE OF FORMULAS TO PROVE STATEMENTS ARE TRUE/NOT TRUE: Distance: d= Midpoint: midpoint= ( ) Slope: m =

OBJECTIVE: PROVING THAT A QUADRILATERAL IS A PARALLELOGRAM

6.6 Special Quadrilaterals. Example Quad ABCD has at least one pair of opp sides  What kinds of quads could it be? Parallelogram Rhombus Rectangle Square.

Proof using distance, midpoint, and slope

Tests for Parallelograms Advanced Geometry Polygons Lesson 3.

Tests for Parallelograms

6. Show that consecutive angles are supplementary.

©thevisualclassroom.com 2.11 Verifying Geometric Properties When proving sides of a quadrilateral are parallel use slope When proving sides are perpendicular,

INTERIOR ANGLES THEOREM FOR QUADRILATERALS By: Katerina Palacios 10-1 T2 Geometry.

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.

6.3 Proving Quadrilaterals are Parallelograms Day 3.

6.3 Proving Quadrilaterals are Parallelograms Learning Target I can use prove that a quadrilateral is a parallelogram.

Coordinate Geometry Adapted from the Geometry Presentation by Mrs. Spitz Spring 2005

UNIT 7 LESSON 4B PROVING PARALLELOGRAMS CCSS G-CO 11: Prove theorems about parallelograms. LESSON GOALS Use properties of parallelograms to prove that.

6.3 TESTS FOR PARALLELOGRAMS. If… Both pairs of opposite sides are parallel Both pairs of opposite sides are congruent Both pairs of opposite angles are.

What is a quadrilateral? List as many types of quadrilaterals that you can think of.

Chapter If opposite sides of a quadrilateral are //, then it is a //ogram. (definition) 2. If both pairs of opposite sides of a quadrilateral.

Ways of proving a quadrilaterals are parallelograms Section 5-2.

Parallelograms – Part 2 Geometry Chapter 6 A BowerPoint Presentation Proving quadrilaterals are parallelograms.

Homework: Quadrilaterals & Coordinate Geometry Day 1 Wkst

Proving Parallelograms: Coordinate Geometry Unit 1C3 Day 4.

Proofs with Quadrilaterals. Proving Quadrilaterals are Parallelograms Show that opposite sides are parallel by same slope. Show that both pairs of opposite.

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

Geometry 6.3 I can recognize the conditions that ensure a quadrilateral is a parallelogram.

 Find x and  ABCD is a parallelogram and AB is twice BC. If the perimeter of the parallelogram is 24, find CD.

Geometry Section 6.3 Conditions for Special Quadrilaterals.

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

Using the Distance Formula in Coordinate Geometry Proofs.

Proving Quadrilaterals are Parallelograms Section 6.3 November 16, 2001.

FINAL EXAM REVIEW Chapter 5 Key Concepts Chapter 5 Vocabulary parallelogram ► opposite sides ► opposite angles ► diagonals rectanglerhombussquaretrapezoid.

8.3 Test for Parallelograms Check.3.2 Connect coordinate geometry to geometric figures in the plane (e.g. midpoints, distance formula, slope, and polygons).

G-05 “I can use coordinates to prove and apply properties of parallelograms.” Parallelogram, rectangle, rhombus and squares.

Warm-Up ABCD is a parallelogram. AB = 12 and BC = 25

Aim: How can we solve coordinate quadrilateral proofs

Math 3 Unit 3 Lesson: 2 Parallelograms

6-3 Proving a Quad is a parallelogram

Properties of Parallelograms

6.2 Properties of Parallelograms

Proving that a Quadrilateral Is a Parallelogram

EXAMPLE 4 Use coordinate geometry

Using Coordinate Geometry to Prove Parallelograms

Lesson 8.3: Show that a Quadrilateral is a Parallelogram

Quadrilaterals and Coordinates Proof

Parallelograms.

Ways to Prove Quadrilaterals are Parallelograms

Quadrilaterals in the Coordinate Plane

Using Coordinate Geometry to Prove Parallelograms

Lesson: 6.3 Tests for Parallelograms Objectives:

6.3 Proving Quadrilaterals are Parallelograms

Lesson 61 Determining if a Quadrilateral is a Parallelogram

Lesson: 6.6 Trapezoids Objectives:

9.2 Proving Quadrilaterals are Parallelograms

PROVING A QUADRILATERAL IS AN ISOSCELES TRAPEZOID

Quadrilaterals & Parallelograms

6.3 Proving Quadrilaterals are Parallelograms

Proving a quadrilateral is a parallelogram

Proving a quadrilateral is a RHOMBUS

Properties of Parallelograms

6.3 Proving Quadrilaterals and Parallelograms

Proving that a quadrilateral is a Parallelogram

Presentation transcript:

Using Coordinate Geometry to Prove Parallelograms

Using Coordinate Geometry to Prove Parallelograms Definition of Parallelogram Both Pairs of Opposite Sides Congruent One Pair of Opposite Sides Both Parallel and Congruent Diagonals Bisect Each Other

Definition of a Parallelogram Use Coordinate Geometry to show that quadrilateral ABCD is a parallelogram given the vertices A(0, 0 ), B(2, 6), C (5, 7) and D(3,1) . I need to show that both pairs of opposite sides are parallel by showing that their slopes are equal.

Definition of a Parallelogram Use Coordinate Geometry to show that quadrilateral ABCD is a parallelogram given the vertices A(0, 0 ), B(2, 6), C (5, 7) and D(3,1) . AB: m = 6 – 0 = 6 = 3 2 – 0 2 CD: m = 1 – 7 = - 6 = 3 3 – 5 - 2 BC: m = 7 – 6 = 1 5 – 2 3 AD: m = 1 – 0 = 1 3 – 0 3 AB ll CD BC ll AD ABCD is a Parallelogram by Definition

Both Pairs of Opposite Sides Congruent Use Coordinate Geometry to show that quadrilateral ABCD is a parallelogram given the vertices A(0, 0 ), B(2, 6), C (5, 7) and D(3,1) . I need to show that both pairs of opposite sides are congruent by using the distance formula to find their lengths.

Both Pairs of Opposite Sides Congruent Use Coordinate Geometry to show that quadrilateral ABCD is a parallelogram given the vertices A(0, 0 ), B(2, 6), C (5, 7) and D(3,1) . AB = (2 – 0)2 + (6 – 0)2 =  4 + 36 = 40 CD = (3 – 5)2 + (1 – 7)2 =  4 + 36 = 40 AB  CD BC = (5 – 2)2 + (7 – 6)2 =  9 + 1 = 10 AD = (3 – 0)2 + (1 – 0)2 =  9 + 1 = 10 BC  AD ABCD is a Parallelogram because both pair of opposite sides are congruent.

One Pair of Opposite Sides Both Parallel and Congruent Use Coordinate Geometry to show that quadrilateral ABCD is a parallelogram given the vertices A(0, 0 ), B(2, 6), C (5, 7) and D(3,1) . I need to show that one pair of opposite sides are both parallel and congruent. ll and 

One Pair of Opposite Sides Both Parallel and Congruent Use Coordinate Geometry to show that quadrilateral ABCD is a parallelogram given the vertices A(0, 0 ), B(2, 6), C (5, 7) and D(3,1) . BC: m = 7 – 6 = 1 5 – 2 3 AD: m = 1 – 0 = 1 3 – 0 3 BC ll AD BC = (5 – 2)2 + (7 – 6)2 =  9 + 1 = 10 AD = (3 – 0)2 + (1 – 0)2 =  9 + 1 = 10 BC  AD ABCD is a Parallelogram because one pair of opposite sides are parallel and congruent.

Diagonals Bisect Each Other Use Coordinate Geometry to show that quadrilateral ABCD is a parallelogram given the vertices A(0, 0 ), B(2, 6), C (5, 7) and D(3,1) . I need to show that each diagonal shares the SAME midpoint.

Diagonals Bisect Each Other Use Coordinate Geometry to show that quadrilateral ABCD is a parallelogram given the vertices A(0, 0 ), B(2, 6), C (5, 7) and D(3,1) . 5 , 7 2 2 The midpoint of AC is 0 + 5 , 0 + 7 2 2 5 , 7 2 2 The midpoint of BD is 2 + 3 , 6 + 1 2 2 ABCD is a Parallelogram because the diagonals share the same midpoint, thus bisecting each other.