1. Introduction All circles are similar; thus, so are the arcs intercepting congruent angles in circles. A central angle is an angle with its vertex at the center of a circle. We have measured an arc in terms of the central angle that it intercepts, but we can also measure the length of an arc. Arc length, the distance between the endpoints of an arc, is proportional to the radius of the circle according to the central angle that the arc intercepts. 1 3.4.1: Defining Radians

2. Introduction, continued The constant of proportionality is the radian measure of the angle. You already know how to measure angles in degrees. Radian measure is another way to measure angles. An angle measure given in degrees includes a degree symbol. An angle measure given in radians does not. 2 3.4.1: Defining Radians

3. Key Concepts Arc length is the distance between the endpoints of an arc, and is commonly written as. The radian measure of a central angle is the ratio of the length of the arc intercepted by the angle to the radius of the circle. 3 3.4.1: Defining Radians

4. Key Concepts, continued The definition of radian measure leads us to a formula for the radian measure of a central angle  in terms of the intercepted arc length, s, and the radius of the circle, 4 3.4.1: Defining Radians

5. Key Concepts, continued When the intercepted arc is equal in length to the radius of the circle, the central angle measures 1 radian. 5 3.4.1: Defining Radians

6. Key Concepts, continued Recall that the circumference, or the distance around a circle, is given by or, where C represents circumference, r represents radius, and d represents the circle’s diameter. Since the ratio of the arc length of the entire circle to the radius of the circle is there are radians in a full circle. 6 3.4.1: Defining Radians

7. Key Concepts, continued We know that a circle contains 360° or radians. We can convert between radian measure and degree measure by simplifying this ratio to get radians = 180°. To convert between radian measure and degree measure, set up a proportion. 7 3.4.1: Defining Radians

8. Key Concepts, continued To find the arc length when the central angle is given in radians, use the formula for radian measure to solve for s. To find arc length s when the central angle is given in degrees, we determine the fraction of the circle that we want to find using the measure of the angle. Set up a proportion with the circumference, C. 8 3.4.1: Defining Radians

9. Common Errors/Misconceptions confusing arc measure with arc length forgetting to check the mode on the graphing calculator inconsistently setting up ratios incorrectly simplifying ratios involving 9 3.4.1: Defining Radians

10. Guided Practice Example 1 Convert 40° to radians. 10 3.4.1: Defining Radians

11. Guided Practice: Example 1, continued 1.Set up a proportion. 11 3.4.1: Defining Radians

12. Guided Practice: Example 1, continued 2.Multiply both sides by to solve for x. 12 3.4.1: Defining Radians ✔

13. Guided Practice: Example 1, continued 13 3.4.1: Defining Radians

14. Guided Practice Example 5 A circle has a diameter of 20 feet. Find the length of an arc intercepted by a central angle measuring 36°. 14 3.4.1: Defining Radians

15. Guided Practice: Example 5, continued 1.Find the circumference of the circle. 15 3.4.1: Defining Radians

16. Guided Practice: Example 5, continued 2.Set up a proportion. 16 3.4.1: Defining Radians

17. Guided Practice: Example 5, continued 3.Multiply both sides by 20 to find the arc length. The length of the arc is approximately 6.28 feet. 17 3.4.1: Defining Radians ✔

18. Guided Practice: Example 5, continued 18 3.4.1: Defining Radians