10.6: Area and Perimeter of Regular Polygons
Learning Objectives
- Calculate the area and perimeter of a regular polygon.
Review Queue
1. What is a regular polygon?
Find the area of the following regular polygons. For the hexagon and octagon, divide the figures into rectangles and/or triangles.
2.
3.
4. Find the length of the sides in Problems 2 and 3.
Know What? The Pentagon in Arlington, VA houses the Department of Defense, is two regular pentagons with the same center. The entire area of the building is 29 acres (40,000 square feet in an acre), with an additional 5 acre courtyard in the center. The length of each outer wall is 921feet. What is the total distance across the pentagon? Round your answer to the nearest hundredth.
Perimeter of a Regular Polygon
Recall that a regular polygon is a polygon with congruent sides and angles. In this section, we are only going to deal with regular polygons because they are the only polygons that have a consistent formula for area and perimeter. First, we will discuss the perimeter.
Recall that the perimeter of a square is 4 times the length of a side because each side is congruent. We can extend this concept to any regular polygon.
Perimeter of a Regular Polygon: If the length of a side is
Example 1: What is the perimeter of a regular octagon with 4 inch sides?
Solution: If each side is 4 inches and there are 8 sides, that means the perimeter is 8(4 in) = 32 inches.
Example 2: The perimeter of a regular heptagon is 35 cm. What is the length of each side?
Solution: If
Area of a Regular Polygon
In order to find the area of a regular polygon, we need to define some new terminology. First, all regular polygons can be inscribed in a circle. So, regular polygons have a center and radius, which are the center and radius of the circumscribed circle. Also like a circle, a regular polygon will have a central angle formed. In a regular polygon, however, the central angle is the angle formed by two radii drawn to consecutive vertices of the polygon. In the picture below, the central angle is
Apothem: A line segment drawn from the center of a regular polygon to the midpoint of one of its sides.
We could have also said that the apothem is perpendicular to the side it is drawn to. By the Isosceles Triangle Theorem, the apothem is the perpendicular bisector of the side of the regular polygon. The apothem is also the height, or altitude of the isosceles triangles.
Example 3: Find the length of the apothem in the regular octagon. Round your answer to the nearest hundredth.
Solution: To find the length of the apothem,
To find
The apothem is used to find the area of a regular polygon. Let’s continue with Example 3.
Example 4: Find the area of the regular octagon in Example 3.
Solution: The octagon can be split into 8 congruent triangles. So, if we find the area of one triangle and multiply it by 8, we will have the area of the entire octagon.
From Examples 3 and 4, we can derive a formula for the area of a regular polygon.
The area of each triangle is:
If there are
In this formula we can also substitute the perimeter formula,
Area of a Regular Polygon: If there are
Example 5: Find the area of the regular polygon with radius 4.
Solution: In this problem we need to find the apothem and the length of the side before we can find the area of the entire polygon. Each central angle for a regular pentagon is
Using these two pieces of information, we can now find the area.
Example 6: The area of a regular hexagon is
Solution: Plug in what you know into both the area and the perimeter formulas to solve for the length of a side and the apothem.
Know What? Revisited From the picture to the right, we can see that the total distance across the Pentagon is the length of the apothem plus the length of the radius. If the total area of the Pentagon is 34 acres, that is 2,720,000 square feet. Therefore, the area equation is
Therefore, the total distance across is
Review Questions
Use the regular hexagon below to answer the following questions. Each side is 10 cm long.
- Each dashed line segment is
a(n) ________________. - The red line segment is
a(n) __________________. - There are _____ congruent triangles in a regular hexagon.
- In a regular hexagon, all the triangles are _________________.
- Find the radius of this hexagon.
- Find the apothem.
- Find the perimeter.
- Find the area.
Find the area and perimeter of each of the following regular polygons. Round your answer to the nearest hundredth.
- If the perimeter of a regular decagon is 65, what is the length of each side?
- A regular polygon has a perimeter of 132 and the sides are 11 units long. How many sides does the polygon have?
- The area of a regular pentagon is \begin{align*}440.44 \ in^2\end{align*} and the perimeter is 80 in. Find the length of the apothem of the pentagon.
- The area of a regular octagon is \begin{align*}695.3 \ cm^2\end{align*} and the sides are 12 cm. What is the length of the apothem?
A regular 20-gon and a regular 40-gon are inscribed in a circle with a radius of 15 units.
- Find the perimeter of both figures.
- Find the circumference of the circle.
- Which of the perimeters is closest to the circumference of the circle? Why do you think that is?
- Find the area of both figures.
- Find the area of the circle.
- Which of the areas is closest to the area of the circle? Why do you think that is?
- Challenge Derive a formula for the area of a regular hexagon with sides of length \begin{align*}s\end{align*}. Your only variable will be \begin{align*}s\end{align*}. HINT: Use 30-60-90 triangle ratios.
- Challenge in the following steps you will derive an alternate formula for finding the area of a regular polygon with \begin{align*}n\end{align*} sides. We are going to start by thinking of a polygon with \begin{align*}n\end{align*} sides as \begin{align*}n\end{align*} congruent isosceles triangles. We will find the sum of the areas of these triangles using trigonometry. First, the area of a triangle is \begin{align*}\frac{1}{2} bh\end{align*}. In the diagram to the right, this area formula would be \begin{align*}\frac{1}{2} sa\end{align*}, where \begin{align*}s\end{align*} is the length of a side and \begin{align*}a\end{align*} is the length of the apothem. In the diagram, \begin{align*}x\end{align*} represents the measure of the vertex angle of each isosceles triangle. a. The apothem, \begin{align*}a\end{align*}, divides the triangle into two congruent right triangles. The top angle in each is \begin{align*}\frac{x^\circ}{2}\end{align*}. Find \begin{align*}\sin \left( \frac{x^\circ}{2} \right)\end{align*} and \begin{align*}\cos \left( \frac{x^\circ}{2} \right)\end{align*}. b. Solve your \begin{align*}\sin\end{align*} equation to find an expression for \begin{align*}s\end{align*} in terms of \begin{align*}r\end{align*} and \begin{align*}x\end{align*}. c. Solve your \begin{align*}\cos\end{align*} equation to find an expression for \begin{align*}a\end{align*} in terms of \begin{align*}r\end{align*} and \begin{align*}x\end{align*}. d. Substitute these expressions into the equation for the area of one of the triangles, \begin{align*}\frac{1}{2} sa\end{align*}. e. Since there will be \begin{align*}n\end{align*} triangles in an n-gon, you need to multiply your expression from part d by \begin{align*}n\end{align*} to get the total area. f. How would you tell someone to find the value of \begin{align*}x\end{align*} for a regular n-gon?
Use the formula you derived in problem 26 to find the area of the regular polygons described in problems 27-30. Round your answers to the nearest hundredth.
- Decagon with radius 12 cm.
- 20-gon with radius 5 in.
- 15-gon with radius length 8 cm.
- 45-gon with radius length 7 in.
- What is the area of a regular polygon with 100 sides and radius of 9 in? What is the area of a circle with radius 9 in? How do these areas compare? Can you explain why?
- How could you use the formula from problem 26 to find the area of a regular polygon given the number of sides and the length of a side? How can you find the radius?
Use your formula from problem 26 and the method you described to find \begin{align*}r\end{align*} given the number of sides and the length of a side in problem 31 to find the area of the regular polygons below.
- 30-gon with side length 15 cm.
- Dodecagon with side length 20 in.
Review Queue Answers
- A regular polygon is a polygon with congruent sides and angles.
- \begin{align*}A = \left( \sqrt{2} \right)^2 = 2\end{align*}
- \begin{align*}A = 6 \left( \frac{1}{2} \cdot 1 \cdot \frac{\sqrt{3}}{2} \right) = 3 \sqrt{3}\end{align*}
- The sides of the square are \begin{align*}\sqrt{2}\end{align*} and the sides of the hexagon are 1 unit.
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Date Created:
Feb 23, 2012Last Modified:
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