So far, we've been looking at areas of triangles and rectangles and trapezoids. Shapes with straight edges and angles and corners. Well, it was fun while it lasted, but we're done with all that business. Time to get a little less square and a little more well-rounded.

We know what a circle is. We know what area is. Need we say more? Uh, probably.

A circle doesn't have any straight lines. It's just a never-ending curve that goes around and around. That being the case, there's no such thing as a base and height. They just don't exist for circles. But if they don't exist, how can we find the area of a circle? *Nooo!*

Okay, so it isn't *that* terrible. If we don't have a base and a height, what *do* we have to work with? As we know, a circle is described by its **radius** *r*, which is the distance from the center of the circle to its edge.

As it turns out, the area of a circle can be given by the formula *A* = π*r*^{2}, where π is the never ending irrational number that we can estimate as 3.14. We wish it were key lime, but that might just be too much to hope for.

After all, pies are round, but pi *r* squared.

What is the area of a circle with a radius of 3 cm?

To find the area of a circle, we only need to know the radius. After that, just apply the formula for the area of a circle.

*A* = π*r*^{2}*A* = π(3 cm)^{2}*A* = 9π cm^{2} ≈ 28.3 cm^{2}

A ship malfunction causes a circular oil spill that covers 4.52 square miles of the ocean. What is the length across the entire oil spill?

Even in unfortunate situations such as these, we can still use the formula *A* = π*r*^{2} when dealing with the area of a circle.

*A* = π*r*^{2}

4.52 miles^{2} = π*r*^{2}*r*^{2} = 1.44 miles^{2}*r* = 1.2 miles

Since the radius is the distance from the edge to the center, we need to multiply it by 2 so that it reaches from one side of the oil spill to the other. The distance across the entire oil spill is 2 × 1.2 miles = 2.4 miles.

In addition to the radius, another term to describe a circle is the diameter *d*, which is twice the length of the radius. The diameter goes all the way across the circle, through its center, kind of like a belt. But you knew that.

The pizza guy from Inconvenient Pizzas, Inc. might ask you whether you want a 6-inch pizza (if you're hungry), a 12-inch pizza (if you're really hungry), or even an 18-inch pizza (if you're a hungry hungry hippo). These inches are the diameter of the pizza you are ordering. Even though you only have the diameter, you can still figure out the area. Though with Inconvenient, you can't be sure what you order is what you get.

The perimeter of a circle (called the circumference *C*) can also be used to find the area. In general, as long as we can find the radius of a circle *r*, we can find the area.

We can convert diameter into radius (just divide *d* by 2 to get *r*) and circumference into radius (use the formula *C* = 2π*r* and isolate for *r*). Then, we just have to use the formula *A* = π*r*^{2} to solve for area. Easier than a piece of π, right?

Aliens have arrived! You could have sworn you heard a weird humming during the night and some strange chatter outside. Sure enough, they've made a mark on your farm in the form of a crop circle with a diameter of exactly 6 kilometers. What is the area of the crop circle?

We know that the diameter of the circle is 6 km, which means the radius of the circle is ^{d}⁄_{2} or 3 km. As long as we know the radius of a circle, we can find its area faster than the speed of light using our trusty area formula.

*A* = π*r*^{2}*A* = π(3 km)^{2}*A* = 9π ≈ 28.3 km^{2}

The area of the crop circle with a diameter of 6 km is 9π or about 28.3 km^{2}.

We can also find the areas of *portions* of circles (called **sectors**) as long as we know central angle of the sector. For instance, a semicircle is a sector with a central angle of 180° (or π radians) and its area is half that of a circle with the same radius. We can generalize this for all sectors and come up with two formulas (depending on whether the central angle of the sector, *θ*, is in degrees or radians).

*A* = ^{θ}⁄_{360°} × π*r*^{2}*A* = ^{θ}⁄_{2π} × π*r*^{2}

Example 1

What is the area of a circle with radius 6? |

Example 2

You are having a circular Jacuzzi built in your backyard. If the surface of the water will have an area of 12.57 m |

Example 3

A circular garden is enclosed in a fence that is 26 feet long. How big is the garden? |

Exercise 1

What is the area of the circle with a radius of 7 cm?

Exercise 2

What is the area of the circle below?

Exercise 3

What is the area of the circle below?

Exercise 4

A sector has a central angle of 73° and a radius of 3. What is the area of the sector?

Exercise 5

A circle has an area of 6.28 square kilometers. What is the circumference of the circle?

Exercise 6

In the National Basketball Association, NBA, the diameter of the center circle is 12 feet. In the International Basketball Federation, FIBA, the center circle's diameter is 11.81 feet. How much larger is the area of the NBA center circle as compared to the area of the FIBA center circle?

Exercise 7

On a basketball court, the restricted area is a semicircle beneath the basket. In the NBA, the restricted area has a radius of 4 feet. In the NCAA (college basketball), the area has a radius of 3 feet. How much larger is the restricted area of the NBA compared to that of the NCAA?