1.12: Polygon Classification
What if you were told how many sides a polygon has? How would you describe the polygon based on that information? After completing this Concept, you'll be able to classify a polygon according to the number of sides it has.
Watch This
CK-12 Foundation: Chapter1PolygonClassificationA
James Sousa: Classifying Polygons
Guidance
A polygon is any closed planar figure that is made entirely of line segments that intersect at their endpoints. Polygons can have any number of sides and angles, but the sides can never be curved. The segments are called the sides of the polygons, and the points where the segments intersect are called vertices. The easiest way to identify a polygon is to look for a closed figure with no curved sides.
Polygons can be either convex or concave. Think of the term concave as referring to a cave, or “caving in”. A concave polygon has a section that “points inward” toward the middle of the shape. All stars are concave polygons.
A convex polygon does not share this property.
Diagonals are line segments that connect the vertices of a convex polygon that are not sides.
The red lines are all diagonals. This pentagon has 5 diagonals.
Whether a polygon is convex or concave, it can always be named by the number of sides. See the chart below.
Polygon Name | Number of Sides | Number of Diagonals | Convex Example |
---|---|---|---|
Triangle | 3 | 0 | |
Quadrilateral | 4 | 2 | |
Pentagon | 5 | 5 | |
Hexagon | 6 | 9 | |
Heptagon | 7 | 14 | |
Octagon | 8 | ? | |
Nonagon | 9 | ? | |
Decagon | 10 | ? | |
Undecagon or hendecagon | 11 | ? | |
Dodecagon | 12 | ? | |
\begin{align*}n-\end{align*}gon | \begin{align*}n\end{align*} (where \begin{align*}n > 12\end{align*}) | ? |
Example A
Which of the figures below is a polygon?
The easiest way to identify the polygon is to identify which shapes are not polygons. \begin{align*}B\end{align*} and \begin{align*}C\end{align*} each have at least one curved side, so they cannot be polygons. \begin{align*}D\end{align*} has all straight sides, but one of the vertices is not at the endpoint of the adjacent side, so it is not a polygon either. \begin{align*}A\end{align*} is the only polygon.
Example B
Determine if the shapes below are convex or concave.
To see if a polygon is concave, look at the polygons and see if any angle “caves in” to the interior of the polygon. The first polygon does not do this, so it is convex. The other two do, so they are concave. You could add here that concave polygons have at least one diagonal outside the figure.
Example C
Which of the figures below is not a polygon?
\begin{align*}C\end{align*} is a three-dimensional shape, so it does not lie within one plane, so it is not a polygon.
Watch this video for help with the Examples above.
CK-12 Foundation: Chapter1PolygonClassificationB
Vocabulary
A polygon is any closed planar figure that is made entirely of line segments that intersect at their endpoints. The segments are called the sides of the polygons, and the points where the segments intersect are called vertices. Polygons can be either convex or concave. A concave polygon has a section that “points inward” toward the middle of the shape. Diagonals are line segments that connect the vertices of a convex polygon that are not sides.
Guided Practice
Name the three polygons below by their number of sides and if it is convex or concave.
Answers:
A. This shape has six sides and concave, so it is a concave hexagon.
B. This shape has five sides and is convex, so it is a convex pentagon.
C. This shape has ten sides and is convex, so it is a convex decagon.
Practice
In problems 1-6, name each polygon in as much detail as possible.
- Explain why the following figures are NOT polygons:
- How many diagonals can you draw from one vertex of a pentagon? Draw a sketch of your answer.
- How many diagonals can you draw from one vertex of an octagon? Draw a sketch of your answer.
- How many diagonals can you draw from one vertex of a dodecagon?
- Use your answers from 8-10 to figure out how many diagonals you can draw from one vertex of an \begin{align*}n-\end{align*}gon?
- Determine the number of total diagonals for an octagon, nonagon, decagon, undecagon, and dodecagon. Do you see a pattern? BONUS: Find the equation of the total number of diagonals for an \begin{align*}n-\end{align*}gon.
For 13-17, determine if the statement is ALWAYS true, SOMETIMES true, or NEVER true.
- A polygon must be enclosed.
- A star is a concave polygon.
- A quadrilateral is a square.
- You can draw \begin{align*}(n - 1)\end{align*} triangles from one vertex of a polygon.
- A decagon is a 5-point star.
In geometry it is important to know the difference between a sketch, a drawing and a construction. A sketch is usually drawn free-hand and marked with the appropriate congruence markings or labeled with measurement. It may or may not be drawn to scale. A drawing is made using a ruler, protractor or compass and should be made to scale. A construction is made using only a compass and ruler and should be made to scale.
For 18-21, draw, sketch or construct the indicated figures.
Notes/Highlights Having trouble? Report an issue.
Color | Highlighted Text | Notes | |
---|---|---|---|
Show More |
Term | Definition |
---|---|
Concave | A concave polygon has at least one interior angle greater than 180 degrees. A common way to identify a concave polygon is to look for a "caved-in" side of the polygon. |
Convex | A convex polygon contains no interior angles greater than 180 degrees. |
Diagonal | A diagonal is a line segment in a polygon that connects nonconsecutive vertices |
Exterior angles | An exterior angle is the angle formed by one side of a polygon and the extension of the adjacent side. |
Interior angles | Interior angles are the angles inside a figure. |
Polygon | A polygon is a simple closed figure with at least three straight sides. |
Regular Polygon | A regular polygon is a polygon with all sides the same length and all angles the same measure. |
Vertices | Vertices are points where line segments intersect. |
Equilateral | A polygon is equilateral if all of its sides are the same length. |
Image Attributions
Here you'll learn how to classify a polygon based on its sides. You'll also learn how to decide whether a polygon is convex or concave.