Section 6.1 Radian and Degree Measure

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4.1 Radian and Degree measure

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Presentation transcript:

Section 6.1 Radian and Degree Measure Pages 343-351

What you should learn • Describe angles. • Use radian measure. • Use degree measure. • Use angles to model and solve real-life problems.

Definition of Radian One radian is the measure of a central angle θ that intercepts an arc (s) equal in length to the radius (r) of the circle. See Figure 5. Algebraically, this means that , where θ is measured in radians

Converting Between Radians & Degrees Degrees – Radians R = Radians – Degrees D =

These are some common angles (must know)

Example 1: Sketching and Finding Coterminal Angles a) For the positive angle 13π/6, find the first coterminal angle that is smaller than the original. subtract 2 π to obtain a coterminal angle. b) For the positive angle 3π/4, find one positive and one negative angle in radian measure. Add 2 π and subtract 2 π to obtain a coterminal angle c) For the negative angle -2π/3, find one positive and one negative angle in radian measure.

Example 3: Converting from Degrees to Radians

Example 4: Converting from Radians to Degrees

Applications The radian measure formula, θ = s/r, can be used to measure the arc length along a circle. Arc Length For a circle of radius r, a central angle θ intercepts an arc of length s given by s = rθ Where θ is measured in radians, Note that if r = 1, then s = θ, and the radian measure of θ equals the arc length.

Example 5: Finding Arc Length A circle has radius of 4 inches. Find the length of the arc intercepted by a central angle of 2400. As shown in the figure.

Linear and Angular Speeds Consider a particle moving at a constant speed along a circular arc with radius r. If s is the length of the arc traveled in t time, then the linear speed v of the particle is: Linear speed Moreover, if θ is the angle (in radian measure) corresponding to the arc length s, then the angular speed ω (the lower case Greek letter omega) of the particle is: Angular speed

Example 6: Finding Linear Speed The second hand of a clock is 10.2 centimeters long, as shown in the figure. Find the linear speed of the tip of this second hand as it passes around the clock face.

Example 7: Finding Angular and Linear Speeds A Ferris wheel with a 50-foot radius makes 1.5 revolutions per minute. a) Find the angular speed of the Ferris wheel in radians per minute. b) Find the linear speed of the Ferris wheel.

Area of a Sector of a Circle For a circle of radius r, the area A of a sector of the circle with central angle θ measured in radians is given by If the angle is in degrees, the following formula can be used

Example 8: Area of a Sector of a Circle A sprinkler on a golf course fairway is set to spray water over a distance of 70 feet and rotates through an angle of 1200. Find the area of the fairway watered by the sprinkler.