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4.1 Radian and Degree Measure

4.1 Radian and Degree Measure. -Students will describe angles. -Students will use radian measure. -Students will use degree measure and convert between degree and radian measure. -Students will use angles to model and solve real-life problems. Angles.

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4.1 Radian and Degree Measure

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  1. 4.1 Radian and Degree Measure -Students will describe angles. -Students will use radian measure. -Students will use degree measure and convert between degree and radian measure. -Students will use angles to model and solve real-life problems.

  2. Angles • An angle is two rays with the same initial point. • The measure of an angle is the amount of rotation required to rotate one side, called the initial side, to the other side, called the terminal side. • The shared initial point of the two rays is called the vertex of the angle.

  3. Angles in standard position • An angle is in standard position if its vertex is at the origin of the rectangular coordinate system and the initial side lies along the positive x-axis. • If the rotation of the angle is in the counterclockwise direction, then the angle is said to be positive. If the rotation is clockwise, then the angle is negative.

  4. Coterminal Angles • Two angles in standard position that have the same terminal side are said to be coterminal.

  5. Radians vs. Degrees One radian is the central angle required to stretch the radius around the outside of the circle. Since the circumference of a circle is , it takes radians to get completely around the circle once. Therefore, it takes radians to get halfway around the circle.

  6. Section 4.1, Figure 4.7, Common Radian Angles, pg. 249

  7. Types of angles Acute Angles: Angles or Obtuse Angles: Angles or

  8. Types of angles Complementary Angles : Angles that add up to or Supplementary Angles: Angles that add up to or

  9. Example 1 Find the complement and supplement of a π/5 angle.

  10. Section 4.1, Figure 4.7, Common Radian Angles, pg. 249 If then a Degree of ______= a Radian of ______

  11. Example 2 Convert the following degree measures to radian measure. • 120° b) −315°

  12. Example 3 Convert the following radian measures to degrees. a) 5π/6 b) 7

  13. Arc Length:

  14. Example 4 Find the length of the arc that subtends a central angle with measure 120° in a circle with radius 5 inches.

  15. Angular and Linear Velocity Angular Velocity (ω) is the speed at which something rotates. Therefore, which means the rotation per unit time (how fast something is going around a circle). Linear Velocity (v) is the speed at which the outside tip of the radius is traveling. Therefore, v = rω. This equation considers the number of radii (since is expressed in radians) that travel around the circle during the rotation process.

  16. Example 5 A lawn roller with a 10-inch radius makes 1.2 revolutions per second. • Find the angular speed of the roller in radians per second. • Find the speed of the tractor that is pulling the roller in mi/hr.

  17. Example 6 The second hand of a clock is 10.2 cm long. Find the linear speed of the tip of this hand.

  18. Example 7 An automobile is traveling at 65 mph. If each tire has a radius of 15 inches, at what rate are the tires spinning in revolutions per minute (rpm)?

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