Determining the arc length of a circle is easy with these simple formulas
If you’re learning about arc lengths in geometry, your teacher probably just assigned you a bunch of problems for homework. You’ve got the circle’s radius and the central angle, so how do you find the length of the arc? Well, you’ve come to the right place! Arc length is the distance between one endpoint of an arc on a circle to the other. In this article, we’ll tell you what formulas you need and how to use them to find a circle's arc length. Read on to learn more!
[Edit]Things You Should Know
- When the circle’s central angle is measured in degrees, use the formula .
- If the central angle is in radians, use the formula .
- Plug in the circle’s radius and the central angle’s measurement to solve either formula.
[Edit]Steps
[Edit]Solving When the Central Angle is in Degrees
- Set up the formula for arc length. The formula is , where equals the radius of the circle and equals the measurement of the arc’s central angle, in degrees.[1]
- Plug the length of the circle’s radius into the formula. This information is typically given to you in a problem. Otherwise, measure the circle’s radius with a ruler or protractor. Simply substitute the radius’ value for the variable .
- For example, if the circle’s radius is 10 cm, set up the formula like this: .
- Insert the value of the arc’s central angle into the formula. Typically, the problem you’re working on provides this information. Make sure to convert the angle to degrees if it’s currently in radians. Then, substitute the central angle’s measurement for in the formula.
- For example, if the arc’s central angle is 135 degrees, your formula now looks like: .
- Multiply the radius by . If you are not using a calculator, use the approximation for your calculations. Rewrite the formula using this new value, which represents the circle’s circumference.[2]
- For example, your formula now looks like:
- For example, your formula now looks like:
- Divide the arc’s central angle by 360 degrees. Since a circle has 360 degrees total, dividing the central angle by 360 degrees gives you the portion of the circle that the sector represents. Using this information, find what portion of the circumference the arc length represents.
- For example, simplify the formula to get:
- For example, simplify the formula to get:
- Multiply the two numbers together. This gives you the length of the arc.
- Solve the formula:
So, the arc length of a circle with a radius of 10 cm and a central angle of 135 degrees is about 23.55 cm.
- Solve the formula:
[Edit]Solving When the Central Angle is in Radians
- Set up the formula for arc length. The formula is , where equals the arc’s central angle in radians, and equals the length of the circle’s radius.[3]
- Plug the length of the circle’s radius into the formula. The math problem you’re working on typically provides this information. Just substitute the length of the radius for the variable .
- For example, if the circle’s radius is 10 cm, your formula looks like this: .
- Plug the measurement of the arc’s central angle into the formula. When using this formula, the arc’s central angle needs to be in radians. If the central angle is in degrees, just convert it into radians.
- For example, if the arc’s central angle is 2.36 radians, your formula now looks like this: .
- Multiply the radius by the arc’s central angle. The product gives you the length of the arc.
- For example:
So, the length of an arc of a circle with a radius of 10 cm and a central angle of 23.6 radians, is about 23.6 cm.
- For example:
[Edit]Practice Problems and Answers
[Edit]Video
[Edit]Tips
- If you only know the diameter of the circle, just divide the diameter by 2 to get the radius. A circle’s radius is half of its diameter.[4] For example, if the diameter of a circle is 14 cm, divide 14 by 2. . So, the radius of the circle is 7 cm.
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