Warm Up Evaluate. 1. Find the midpoint between (0, 2x) and (2y, 2z).

Slides:

Advertisements

Similar presentations

Midsegments of Triangles

Advertisements

11/10/14 Geometry Bellwork. Formulas to Remember.

8.5 Rhombi and Squares. Objectives  Recognize and apply properties of rhombi  Recognize and apply properties of squares.

8.3 Tests for Parallelograms

4-1 Detour Proofs Learner Objective: I will calculate midpoints of segments and complete proofs requiring that more than one pair of triangles be shown.

Lesson 4-7 Triangles and Coordinate Proof

4.7 Triangles and Coordinate Proof Geometry Mrs. Spitz Fall 2004.

Warm Up Evaluate. 1. Find the midpoint between (0, 2x) and (2y, 2z).

Proofs Using Coordinate Geometry

Chin-Sung Lin. Mr. Chin-Sung Lin  Distance Formula  Midpoint Formula  Slope Formula  Parallel Lines  Perpendicular Lines.

Use coordinate geometry to represent and analyze line segments and polygons, including determining lengths, midpoints and slopes of line segments.

Direct Analytic Proofs. If you are asked to prove Suggestions of how to do this Two lines parallel Use the slope formula twice. Determine that the slopes.

You have used coordinate geometry to find the midpoint of a line segment and to find the distance between two points. Coordinate geometry can also be used.

Introduction to Coordinate Proof

4.7 Triangles and Coordinate Proof

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

Coordinate Geometry. Time is running out!!!!! The Tuesday after Thanksgiving break (11/30) is the last day to turn in any work from Unit 3 – Geometry.

4-8 Introduction to Coordinate Proof

Proof using distance, midpoint, and slope

Tests for Parallelograms Advanced Geometry Polygons Lesson 3.

Section 11.6 Pythagorean Theorem. Pythagorean Theorem: In any right triangle, the square of the length of the hypotenuse equals the sum of the squares.

Isosceles Triangles & Coordinate Proof

Geometer Sketch Pad Assignment Mark Breakdown. Exercise #1 – Question #1 Medians 4 All three meet at one point 4 Circle with a center at the centroid.

Proving Properties of Special Quadrilaterals

5.7: Proofs Using Coordinate Geometry Expectations: G1.1.5: Given a line segment in terms of its endpoints in the coordinate plane, determine its length.

Assignment P : 1-6, 8, 10, some, 20, 21, 24, 29, 30, 36, 37, 47, 48 Challenge Problems.

Warm-up Write the following formulas 1.Distance 2.Midpoint What is the Pythagorean Theorem?

EXAMPLE 2 Use the Midsegment Theorem In the kaleidoscope image, AE BE and AD CD. Show that CB DE. SOLUTION Because AE BE and AD CD, E is the midpoint of.

Using Coordinate Geometry to Prove Parallelograms

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

Holt Geometry 6-5 Conditions for Special Parallelograms Warm Up 1. Find AB for A (–3, 5) and B (1, 2). 2. Find the slope of JK for J(–4, 4) and K(3, –3).

Proving Parallelograms: Coordinate Geometry Unit 1C3 Day 4.

4.7 Triangles and Coordinate Review of Distance formula and Midpoint formula.

Introduction to Coordinate Proof

Section 1-1 Points and Lines. Each point in the plane can be associated with an ordered pair of numbers, called the coordinates of the point. Each ordered.

 Solve each equation: . Warm up. Lesson 10-1 Introduction to Analytical Geometry Objective: To find the distance and midpoint between two points on.

Transparency 2 Review: Lesson 4-6 Mini-Quiz. Class Greeting.

Unit 6: Connecting Algebra and Geometry through Coordinates Proving Coordinates of Rectangles and Squares.

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).

Midpoint and Distance in the Coordinate Plane

Aim: How can we solve coordinate quadrilateral proofs

Bell work: Turn in when completed

Introduction to Coordinate Proof

Introduction to Coordinate Proof

5.8 Vocabulary coordinate proof

Lesson 4.7 Objective: To learn how to prove triangles are congruent and general statements using Coordinate Proofs.

Midpoint And Distance in the Coordinate Plane

Coordinate Geometry Notes Name:____________________________

Unit 5 Lesson 4.7 Triangles and Coordinate Proofs

Quadrilaterals and Coordinate Proof

Polygons and Quadrilaterals

Quadrilaterals and Coordinates Proof

Warm-up Can you conclude that the triangles are congruent? Explain.

Introduction to Coordinate Proof

1-6 Midpoint & Distance in the Coordinate Plane

Lesson: 6.3 Tests for Parallelograms Objectives:

Introduction to Coordinate Proof

Introduction to Coordinate Proof

Unit 5: Geometric and Algebraic Connections

Introduction to Coordinate Proof

A coordinate proof is a style of proof that uses coordinate geometry and algebra. The first step of a coordinate proof is to position the given figure.

4.7 Triangles and Coordinate Proof

4.7 Triangles and Coordinate Proof

6.6 Placing Figures in the coordinate plane

Using Coordinates to Prove Geometric Theorems with Slope and Distance

5.1 Midsegment Theorem and Coordinate Proof

GEOMETRY Section 4.7 Intro to Coordinate Proofs

BELLWORK Find the midpoint between the following pairs of points.

1-6: Midpoint and Distance

4.7 Triangles and Coordinate Proof

Presentation transcript:

Warm Up Evaluate. 1. Find the midpoint between (0, 2x) and (2y, 2z). 2. One leg of a right triangle has length 12, and the hypotenuse has length 13. What is the length of the other leg? 3. Find the distance between (0, a) and (0, b), where b > a. (y, x + z) 5 b – a

You have used coordinate geometry to find the midpoint of a line segment and to find the distance between two points. Coordinate geometry can also be used to prove conjectures. A coordinate proof is a style of proof that uses coordinate geometry and algebra. The first step of a coordinate proof is to position the given figure in the plane. You can use any position, but some strategies can make the steps of the proof simpler.

Geometry 4.7 Coordinate Proof Example 1: Position a square with a side length of 6 units in the coordinate plane. You can put one corner of the square at the origin.

Example 1 Position a right triangle with leg lengths of 2 and 4 units in the coordinate plane. (Hint: Use the origin as the vertex of the right angle.) Once the figure is placed in the coordinate plane, you can use slope, the coordinates of the vertices, the Distance Formula, or the Midpoint Formula to prove statements about the figure.

Example 2: Writing a Proof Using Coordinate Geometry Write a coordinate proof. Given: Rectangle ABCD with A(0, 0), B(4, 0), C(4, 10), and D(0, 10) Prove: The diagonals bisect each other.

Example 2 Continued By the Midpoint Formula, mdpt. of The midpoints coincide, therefore the diagonals bisect each other.

rectangle with width m and length twice the width A coordinate proof can also be used to prove that a certain relationship is always true. You can prove that a statement is true for all right triangles without knowing the side lengths. To do this, assign variables as the coordinates of the vertices. Example 3A: Position each figure in the coordinate plane and give the coordinates of each vertex. rectangle with width m and length twice the width

Example 3B: Position each figure in the coordinate plane and give the coordinates of each vertex. right triangle with legs of lengths s and t Do not use both axes when positioning a figure unless you know the figure has a right angle. Caution!

If a coordinate proof requires calculations with fractions, choose coordinates that make the calculations simpler. For example, use multiples of 2 when you are to find coordinates of a midpoint. Once you have assigned the coordinates of the vertices, the procedure for the proof is the same, except that your calculations will involve variables. Because the x- and y-axes intersect at right angles, they can be used to form the sides of a right triangle. Remember!

Example 4: Writing a Coordinate Proof Given: Rectangle PQRS Prove: The diagonals are . Step 1 Assign coordinates to each vertex. The coordinates of P are (0, b), the coordinates of Q are (a, b), the coordinates of R are (a, 0), and the coordinates of S are (0, 0). Step 2 Position the figure in the coordinate plane.

Geometry 4.7 Coordinate Proof Example 4 Continued Given: Rectangle PQRS Prove: The diagonals are . Step 3 Write a coordinate proof. By the distance formula, PR = √ a2 + b2, and QS = √a2 + b2 . Thus the diagonals are .