Presentation is loading. Please wait.

Presentation is loading. Please wait.

APPLYING POLYGON PROPERTIES TO COORDINATE GEOMETRY 6.7 – 6.8.

Published byChad Armstrong Modified over 8 years ago

Similar presentations

Presentation on theme: "APPLYING POLYGON PROPERTIES TO COORDINATE GEOMETRY 6.7 – 6.8."— Presentation transcript:

1 APPLYING POLYGON PROPERTIES TO COORDINATE GEOMETRY 6.7 – 6.8

2 Our Goals:

3  To apply previously learned coordinate geometry formulas

4 Our Goals:  To apply previously learned coordinate geometry formulas  Coordinate Midpoint Formula

5 Our Goals:  To apply previously learned coordinate geometry formulas  Coordinate Midpoint Formula  Distance Formula

6 Our Goals:  To apply previously learned coordinate geometry formulas  Coordinate Midpoint Formula  Distance Formula  Slope

7 Our Goals:  To apply previously learned coordinate geometry formulas  Coordinate Midpoint Formula  Distance Formula  Slope To the properties of polygons and quadrilaterals discussed in Chapter 6 thus far.

8 If forgotten, these are on page 400 in your book!  To apply previously learned coordinate geometry formulas  Coordinate Midpoint Formula  Distance Formula  Slope To the properties of polygons and quadrilaterals discussed in Chapter 6 thus far.

9 To start

10  Let’s talk about the classification of triangles

11 To start  Let’s talk about the classification of triangles  If we do so by sides, how can we figure out side lengths?

12 Scalene, Isosceles, Equilateral  Let’s talk about the classification of triangles  If we do so by sides, how can we figure out side lengths?

13 To start  Let’s talk about the classification of triangles  If we do so by sides, how can we figure out side lengths? Distance Formula

14 Page 401  Let’s talk about the classification of triangles  If we do so by sides, how can we figure out side lengths? Distance Formula

15 Page 401  A(0, 1), B(4, 4), and C(7,0) (4, 4) (0, 1) (7, 0)

16 Does it matter which order we do the points?  A(0, 1), B(4, 4), and C(7,0) (4, 4) (0, 1) (7, 0)

17 You try this one  A(0, 1), B(4, 4), and C(7,0) (4, 4) (0, 1) (7, 0)

18 You try this one  Classify  HJK by its sides given the coordinates H(-1,0), J(- 16, -20) and K(-25, 7).

19 You try this one  Classify  HJK by its sides given the coordinates H(-1,0), J(-16, - 20) and K(-25, 7).

20 Can we ever do it without doing all 3 sides?  Classify  HJK by its sides given the coordinates H(-1,0), J(-16, - 20) and K(-25, 7).

21 Now for quadrilaterals

22  Can we do some of them with sides?

23 Now for quadrilaterals  Can we do some of them with sides?  Sure, but it is going to be a lot easier with slopes, since many of our classifications involve parallel and perpendicular properties.

24 Here’s a procedure checklist…

25  1) Find the slopes of all 4 sides.

26 Here’s a procedure checklist…  1) Find the slopes of all 4 sides.  No equal slopes  Quadrilateral.

27 Here’s a procedure checklist…  1) Find the slopes of all 4 sides.  No equal slopes  Quadrilateral.  One pair =  Trapezoid

28 Here’s a procedure checklist…  1) Find the slopes of all 4 sides.  No equal slopes  Quadrilateral.  One pair =  Trapezoid  Both pairs =  Parallelogram.

29 Here’s a procedure checklist…  2)If AND only if you have a trapezoid, find the lengths of the 2 non-parallel sides using the distance formula to see if it’s isosceles.

30 Here’s a procedure checklist…  2)If AND only if you have a trapezoid, find the lengths of the 2 non-parallel sides using the distance formula to see if it’s isosceles.  3)If it’s a parallelogram, see if the slopes are negative reciprocals.

31 Here’s a procedure checklist…  2)If AND only if you have a trapezoid, find the lengths of the 2 non-parallel sides using the distance formula to see if it’s isosceles.  3)If it’s a parallelogram, see if the slopes are negative reciprocals. Rectangle

32 Here’s a procedure checklist…  3)If they’re not negative reciprocals, check the slopes of the diagonals.

33 Here’s a procedure checklist…  3)If they’re not negative reciprocals, check the slopes of the diagonals.  If the slopes of the diagonals are negative reciprocals  Rhombus

34 Here’s a procedure checklist…  4)Even if the slopes are negative reciprocals, you are checking the slopes of the diagonals.

35 Here’s a procedure checklist…  4)Even if the slopes are negative reciprocals, you are checking the slopes of the diagonals.  Rectangle with perpendicular diagonals is a square.

36 Flowchart of the same information.

Download ppt "APPLYING POLYGON PROPERTIES TO COORDINATE GEOMETRY 6.7 – 6.8."

Similar presentations

All about Shapes.

All about Shapes.
Let’s review our shapes….

Let’s review our shapes….
Triangles and Quadrilaterals

Triangles and Quadrilaterals
Warm Up The lengths of three sides of a triangle are given. Classify the triangle. 1. 12, 12, 12 2. 18, 10, 14 3. 15, 15, 26 equilateral scalene isosceles.

Warm Up The lengths of three sides of a triangle are given. Classify the triangle , 12, , 10, , 15, 26 equilateral scalene isosceles.
2.4 Classifying Figures on a Coordinate Grid

2.4 Classifying Figures on a Coordinate Grid
CP Geometry Mr. Gallo. Classifying Polygons in the Coordinate Use three formulas: FormulaWhen to Use it Distance FormulaTo determine whether: Sides are.

CP Geometry Mr. Gallo. Classifying Polygons in the Coordinate Use three formulas: FormulaWhen to Use it Distance FormulaTo determine whether: Sides are.
Quadrilaterals Project

Quadrilaterals Project
Chapter 6+. The opposite sides of a parallelogram are __________ and __________.

Chapter 6+. The opposite sides of a parallelogram are __________ and __________.
Quadrilaterals Bryce Hall 4 Wennersten.

Quadrilaterals Bryce Hall 4 Wennersten.
2 dimensional shapes and other geometry terms

2 dimensional shapes and other geometry terms
Introduction There are many kinds of quadrilaterals. Some quadrilaterals are parallelograms; some are not. For example, trapezoids and kites are special.

Introduction There are many kinds of quadrilaterals. Some quadrilaterals are parallelograms; some are not. For example, trapezoids and kites are special.
Quadrilateral Proofs.

Quadrilateral Proofs.
Distance formula 1. 1 Slope 2 2 Midpoint Formula 3.

Distance formula 1. 1 Slope 2 2 Midpoint Formula 3.
Geometry – Grade 5 2-D Shapes.

Geometry – Grade 5 2-D Shapes.
Geometry Quadrilaterals. Geometry: Plane Shapes quadrilateral: any closed, four-sided shape.

Geometry Quadrilaterals. Geometry: Plane Shapes quadrilateral: any closed, four-sided shape.
 Calculate the perimeter & area for each figure..

 Calculate the perimeter & area for each figure..
Activity In your group, you will be given a card. You will be using a Bubble Map to describe the shape. In the middle of the Bubble Map, please draw the.

Activity In your group, you will be given a card. You will be using a Bubble Map to describe the shape. In the middle of the Bubble Map, please draw the.
Geometry The shape of things to come….

Geometry The shape of things to come….
All about Shapes Ask Boffin!.

All about Shapes Ask Boffin!.
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.

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.

Similar presentations

Ads by Google