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Slide 1-1 3 Radian Measure and the Unit Circle. Slide 1-2 3.1 Radian Measure 3.2 Applications of Radian Measure 3.3 The Unit Circle and Circular Functions.

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Presentation on theme: "Slide 1-1 3 Radian Measure and the Unit Circle. Slide 1-2 3.1 Radian Measure 3.2 Applications of Radian Measure 3.3 The Unit Circle and Circular Functions."— Presentation transcript:

1 Slide 1-1 3 Radian Measure and the Unit Circle

2 Slide 1-2 3.1 Radian Measure 3.2 Applications of Radian Measure 3.3 The Unit Circle and Circular Functions 3.4 Linear and Angular Speed Radian Measure and the Unit Circle

3 Slide 1-3 3.1 Radian Measure

4 Slide 1-4 Example 1: Convert each degree measure to radians Example 2: Convert each radian measure to degrees.

5 Slide 1-5 Example 3: Find each function value.

6 Slide 1-6 3.2 Applications of Radian Measure Arc length formula

7 Slide 1-7

8 Slide 1-8 Examples 1-4: Pages 101-102

9 Slide 1-9 3.3 The Unit Circle and Circular Functions

10 Slide 1-10 Example:

11 Slide 1-11 3.4 Linear and Angular Speed

12 Slide 1-12 Linear Speed Suppose that a point P moves at a constant speed along a circle of radius r and center O. The measure of how fast the position of P is changing is the linear speed. If v represents linear speed, then or where s is the length of the arc traced by point P at time t.

13 Slide 1-13 Angular Speed As point P moves along the circle, ray OP rotates about the origin. The measure of how fast angle POB is changing is its angular speed. is the angular speed, θ is the measure of angle POB (in radians) at time t.

14 Slide 1-14

15 Slide 1-15 Example FINDING LINEAR SPEED AND DISTANCE TRAVELED BY A SATELLITE A satellite traveling in a circular orbit 1600 km above the surface of Earth takes 2 hr to make an orbit. The radius of Earth is approximately 6400 km. (a)Approximate the linear speed of the satellite in kilometers per hour. The distance of the satellite from the center of Earth is approximately r = 1600 + 6400 = 8000 km.

16 Slide 1-16 For one orbit, θ = 2π, and Since it takes 2 hours to complete an orbit, the linear speed is (b)Approximate the distance the satellite travels in 4.5 hr.

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