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6.01 Properties of polygons

Lesson

Geometry is the study of shapes, and is one of the oldest areas of mathematical interest. Geometrical diagrams have many important features, and the terminology used in the subject is important to ensure good mathematical communication.

Remember

A line between two points contains every point between the points and all the points beyond on either side. A ray starts at one point and continues through another and beyond. A segment starts at one point and stops at the other.

 

Congruent segments

We place small markings on segments when we want to show that they are equal in length. In this diagram, the segment $AB$AB has the same length as the segment $AC$AC:

This does not mean that the two segments are made up of the same points - only that they have the same length. Sometimes we will use more than one kind of marking to show that some segments are equal to others. In this diagram we use both one-stroke markings and two-stroke markings:

Move the points around in this applet to see how the segments stay the same length:

 

Congruent angles

Whenever two lines, rays, or segments pass through the same point, we can describe the relative orientation of one to the other using an angle. Here are two rays drawn from the same point through two other points:

There are two ways to turn from one to the other. The shorter turn is simply called the angle between the objects, and the larger turn is called the reflex angle. We draw a circular arc from one object to the other to denote the angle (or reflex angle):

We can use three points to refer to an angle by using the symbol "$\angle$" followed by three letters, one for each point. The first letter will be on one of the rays, lines, or segments, the second point will be their intersection, and the third will be a point on the other ray, line, or segment. This means there are two equally valid ways to refer to an angle, as illustrated in this diagram:

Just like with segments, we can use additional markings to show that two angles are equal. We draw multiple arcs to show that different angles are equal to each other. In this diagram the two angles drawn with double arcs are equal:

Summary

The angle between two intersecting segments, lines, or rays represents their relative orientation to each other. We write the angle symbol "$\angle$" followed by three letters. The second letter is always the intersection point, and the first and third letters lie on the objects forming the angle, one on each.

Swapping the first and third letters does not change the angle.

 

Congruence in polygons

If a polygon has all sides that are congruent and all interior angles that are congruent, we say that it is a regular polygon. For example, a square is a regular polygon because it has all congruent sides and all congruent right angles.

A square is an example of a regular polygon.

We say that two polygons are congruent to one another if all of their corresponding sides and angles are congruent. 

Practice questions

Question 1

Select the two angles that have been marked as equal in this diagram:

  1. $\angle DCB$DCB

    A

    $\angle BCA$BCA

    B

    $\angle CDA$CDA

    C

    $\angle CDB$CDB

    D

    $\angle BDE$BDE

    E

    $\angle DAE$DAE

    F

    $\angle DCB$DCB

    A

    $\angle BCA$BCA

    B

    $\angle CDA$CDA

    C

    $\angle CDB$CDB

    D

    $\angle BDE$BDE

    E

    $\angle DAE$DAE

    F
Question 2


This diagram has two equal segments marked:

  1. What segment is equal in length to $ZY$ZY?

Question 3

Which of these shapes are regular?

  1. A

    B

    C

    D

    E

    A

    B

    C

    D

    E

Outcomes

6.9

Determine congruence of segments, angles, and polygons

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