1.6 POLYGONS

Objectives

Identify and name polygons. Find perimeters of polygons.

Polygons

Polygon – a closed figure whose sides are formed by a finite number of coplanar segments

We name a polygon by using the letters of its vertices, written in consecutive order.

A

B

C

D

P

Q R

X

W V

U

Y T

Types of Polygons

If the lines of any segment of the polygon are drawn and any of the lines contain points that lie in the interior of the polygon, then it is concave.

Otherwise, it is convex (no points of the lines are in the interior).

Classifying Polygons Polygons are classified by the number of sides

they have. A polygon with n number of sides is an n-gon.

Polygon Number of SidesTriangle 3Quadrilateral 4Pentagon 5Hexagon 6Heptagon 7Octagon 8Nonagon 9Decagon 10

Regular Polygons A convex polygon in which all of the sides

and all of the angles are congruent is called a regular polygon.

Name the polygon by its number of sides. Then classify it as convex or concave, regular or irregular.

There are 4 sides, so this is a quadrilateral.

No line containing any of the sides will pass through the interior of the quadrilateral, so it is convex.

The sides are not congruent, so it is irregular.

Answer: quadrilateral, convex, irregular

Example 1a:

Name the polygon by its number of sides. Then classify it as convex or concave, regular or irregular.

There are 9 sides, so this is a nonagon.

A line containing some of the sides will pass through the interior of the nonagon, so it is concave.

The sides are not congruent, so it is irregular.

Answer: nonagon, concave, irregular

Example 1b:

Answer: triangle, convex, regular

Answer: quadrilateral, convex, irregular

Name each polygon by the number of sides. Then classify it as convex or concave, regular or irregular.

a.

b.

Your Turn:

Perimeter

The perimeter of a polygon is the sum of all of the lengths of its sides.

There are a few special formulas for some polygons (i.e. a square’s perimeter is equal to 4s with s equaling the measure of a side and a rectangle’s perimeter is equal to 2l + 2w with l equaling the length and w representing the width of the rectangle).

CONSTRUCTION A masonry company is contracted to lay three layers of decorative brick along the foundation for a new house given the dimensions below. Find the perimeter of the foundation and determine how many bricks the company will need to complete the job. Assume that one brick is 8 inches long.

Example 2a:

First, find the perimeter.

Add the lengths of the sides.

The perimeter of the foundation is 216 feet.

Example 2a:

Next, determine how many bricks will be needed to

complete the job. Each brick measures 8 inches, or foot.

Divide 216 by to find the number of bricks needed for

one layer.

Answer: The builder will need 324 bricks for each layer. Three layers of bricks are needed, so the

builder needs 324 • 3 or 972 bricks.

Example 2a:

CONSTRUCTION The builder realizes he accidentally halved the size of the foundation in part a. How will this affect the perimeter of the house and the number of bricks the masonry company needs?

Example 2b:

The new dimensions are twice the measures of the original lengths.

The perimeter has doubled.

Answer: The perimeter and the number of bricks needed are doubled.

The new number of bricks needed for one layer is

or 648. For three layers, the total number of

bricks is 648 • 3 or 1944 bricks.

Example 2b:

SEWING Miranda is making a very unusual quilt. It is in the shape of a hexagon as shown below. She wants to trim the edge with a special blanket binding. The binding is sold by the yard.

a. Find the perimeter of the quilt in inches. Then determine how many yards of binding Miranda will need for the quilt.

Answer: 336 in., yd

Your Turn:

SEWING Miranda is making a very unusual quilt. It is in the shape of a hexagon as shown below. She wants to trim the edge with a special blanket binding. The binding is sold by the yard.

b. Miranda decides to make four quilts. How will this affect the amount of binding she will need? How much binding will she need for this project?

Answer: The amount of binding is multiplied by 4.

She will need yards.

Your Turn:

Find the perimeter of pentagon ABCDE with A(0, 4), B(4, 0), C(3, –4), D(–3, –4), and E(–3, 1).

Example 3:

Use the Distance Formula, ,

to find AB, BC, CD, DE, and EA.

Example 3:

Answer: The perimeter of pentagon ABCDE is

or about 25 units.

Example 3:

Find the perimeter of quadrilateral WXYZ with W(2, 4), X(–3, 3), Y(–1, 0), and Z(3, –1).

Answer: about 17.9 units

Your Turn:

The width of a rectangle is 5 less than twice its length. The perimeter is 80 centimeters. Find the length of each side.

Let represent the length. Then the width is .

Example 4:

Perimeter formula for rectangle

Multiply.

Simplify.

Add 10 to each side.

Divide each side by 6.

Answer:

The length is 15 cm. By substituting 15 for , the width becomes 2(15) – 5 or 25 cm.

Example 4:

The length of a rectangle is 7 more than five times its width. The perimeter is 134 feet. Find the length of each side.

Answer:

Your Turn:

Assignment

Geometry– Pg. 49 #12 – 24, 26, 30, 32

Pre- AP Geometry– Pg. 49 #12 – 34