Write each decimal degree measure in DMS form and each DMS measure in decimal degree form to the nearest thousandth. 3. 141.549 First, convert 0. 549 into minutes and seconds. Next, convert 0.94' into seconds. Therefore, 141.549 can be written as 141 32 56. 5. 87 53 10 Each minute is of a degree and each second is of a minute, so each second is of a degree. Therefore, 87 53 10 can be written as about 87.886. 9. NAVIGATION A sailing enthusiast uses a sextant, an instrument that can measure the angle between two objects with a precision to the nearest 10 seconds, to measure the angle between his sailboat and a lighthouse. He will be able to use this angle measure to calculate his distance from shore. If his reading is 17 37 50, what is the measure in decimal degree form to the nearest hundredth? Convert 17 37 50 to decimal degree form. Each minute is of a degree and each second is of a minute, so each second is of a degree. Therefore, 17 37 50 can be written as about 17.63. esolutions Manual - Powered by Cognero Page 1
Write each degree measure in radians as a multiple of π and each radian measure in degrees. 11. 225 To convert a degree measure to radians, multiply by 13. 45 To convert a degree measure to radians, multiply by 15. To convert a radian measure to degrees, multiply by 17. To convert a radian measure to degrees, multiply by esolutions Manual - Powered by Cognero Page 2
Identify all angles that are coterminal with the given angle. Then find and draw one positive and one negative angle coterminal with the given angle. 19. 75 All angles measuring are coterminal with a angle. Sample answer: Let n = 1 and 1. esolutions Manual - Powered by Cognero Page 3
21. 150 All angles measuring are coterminal with a angle. Sample answer: Let n = 1 and 1. esolutions Manual - Powered by Cognero Page 4
23. All angles measuring are coterminal with a angle. Sample answer: Let n = 1 and 1. esolutions Manual - Powered by Cognero Page 5
25. All angles measuring are coterminal with a angle. Sample answer: Let n = 1 and 1. Find the length of the intercepted arc with the given central angle measure in a circle with the given radius. Round to the nearest tenth. 27., r = 2.5 m esolutions Manual - Powered by Cognero Page 6
29., r = 4 yd 31. 45, r = 5 mi Method 1 Convert 45 to radian measure, and then use s = rθ to find the arc length. Substitute r = 5 and θ =. Method 2 Use s = to find the arc length. esolutions Manual - Powered by Cognero Page 7
33. AMUSEMENT PARK A carousel at an amusement park rotates 3024 per ride. a. How far would a rider seated 13 feet from the center of the carousel travel during the ride? b. How much farther would a second rider seated 18 feet from the center of the carousel travel during the ride than the rider in part a? a. In this problem, θ = 3024 and r = 13 feet. Convert 3024º to radian measure. Substitute r = 13 and θ = 16.8π into the arc length formula s = rθ. b. Let r 1 represent the distance the first rider is from the center of the carousel and r 2 represent the distance the second rider is from the center. For the second rider, r = 18 feet. Therefore, the second rider would travel about 264 feet farther than the first rider. Find the rotation in revolutions per minute given the angular speed and the radius given the linear speed and the rate of rotation. 35. = 135π The angular speed is 135π radians per hour. Because each revolution measures 2π radians, the angle of rotation is 2.25π 2π or 1.125 revolutions per minute. esolutions Manual - Powered by Cognero Page 8
37. v = 82.3, 131 The linear speed is 82.3 meters per second with an angle of rotation of 131 2π or 262π radians per minute. So, the radius is about 6 m. 39. v = 553, 0.09 The linear speed is 553 inches per hour with an angle of rotation of 0.09 2π or 0.18π radians per minute. So, the radius is about 16.3 in. esolutions Manual - Powered by Cognero Page 9
41. CARS On a stretch of interstate, a vehicle s tires range between 646 and 840 revolutions per minute. The diameter of each tire is 26 inches. a. Find the range of values for the angular speeds of the tires in radians per minute. b. Find the range of values for the linear speeds of the tires in miles per hour. a. Because each rotation measures 2π radians, 646 and 840 revolutions correspond to angles of rotation of 646 2π or 1292π radians and 840 2π or 1680π radians. Therefore, the angular speeds of the tires range from 1292π to 1680 π. b. The diameter of each tire is 26 inches, so the radius of each tire is 26 2 or 13 in. Use dimensional analysis to convert each speed from inches per minute to miles per hour. Therefore, the linear speeds range of the tires range from 50 mi/h to 65 mi/h. esolutions Manual - Powered by Cognero Page 10
Find the area of each sector. 43. The measure of the sector s central angle θ is 102 and the radius is 1.5 inches. Convert the central angle measure to radians. Use the central angle and the radius to find the area of the sector. Therefore, the area of the sector is about 2.0 square inches. 45. The measure of the sector s central angle θ is and the radius is 12 yards. Therefore, the area of the sector is about 90.5 square yards. esolutions Manual - Powered by Cognero Page 11
47. The measure of the sector s central angle θ is 177 and the radius is 18 feet. Convert the central angle measure to radians. Use the central angle and the radius to find the area of the sector. Therefore, the area of the sector is about 500.5 square feet. 49. GAMES The dart board shown is divided into twenty equal sectors. If the diameter of the board is 18 inches, what area of the board does each sector cover? If the board is divided into 20 equal sectors, then the central angle of each sector has a measure of 360 20 or 18. So, the measure of a sector s central angle is 18 and the radius is 18 2 or 9 inches. Convert the central angle measure to radians. Use the central angle and the radius to find the area of a sector. Therefore, each sector covers an area of about 12.7 square inches. esolutions Manual - Powered by Cognero Page 12
The area of a sector of a circle and the measure of its central angle are given. Find the radius of the circle. 51. A = 29 ft 2, θ = 68 Convert the central angle measure to radians. Substitute the area and the central angle into the area formula for a sector to find the radius. Therefore, the radius is 7 ft. 53. A = 377 in 2, θ = Therefore, the radius is 12 in. 55. Describe the radian measure between 0 and 2 of an angle θ that is in standard position with a terminal side that lies in: a. Quadrant I b. Quadrant II esolutions Manual - Powered by Cognero Page 13
c. Quadrant III d. Quadrant IV a. An angle that is in standard position that lies in Quadrant I will have an angle measure between 0º and 90º, as shown. Convert 0º and 90º to radians. Therefore, in Quadrant I, 0 < θ <. b. An angle that is in standard position that lies in Quadrant II will have an angle measure between 90º and 180º, as shown. From part a, we know that 90º =. Convert 180º to radians. Therefore, in Quadrant II, < θ < π. c. An angle that is in standard position that lies in Quadrant III will have an angle measure between 180º and 270º, as shown. esolutions Manual - Powered by Cognero Page 14
From part b, we know that 180º = π. Convert 270º to radians. Therefore, in Quadrant III, π < θ <. d. An angle that is in standard position that lies in Quadrant IV will have an angle measure between 270º and 360º, as shown. From part c, we know that 270º =. Convert 360º to radians. Therefore, in Quadrant IV, < θ < 2π. esolutions Manual - Powered by Cognero Page 15
57. GEOGRAPHY Phoenix, Arizona, and Ogden, Utah, are located on the same line of longitude, which means that Ogden is directly north of Phoenix. The latitude of Phoenix is 33 26 N, and the latitude of Ogden is 41 12 N. If Earth s radius is approximately 3963 miles, about how far apart are the two cities? The distance between Ogden and Phoenix corresponds to the length of an intercepted arc of a circle. Convert the latitude measures for Ogden and Phoenix to degrees. So, the central angle measure is 41.2º 33.433º or 7.767º. Convert the central angle measure to radians. Use the central angle and the radius to find the length of the intercepted arc. Therefore, Ogden and Phoenix are about 537 miles apart. esolutions Manual - Powered by Cognero Page 16
Find the measure of angle θ in radians and degrees. 59. So, θ 3.3 radians, or 191º. 61. So, θ = 1.5 radians, or 85.9º. 62. TRACK A standard 8-lane track has an inside width of 73 meters. Each lane is 1.22 meters wide. The curve of the track is semicircular. a. What is the length of the outside edge of Lane 4 in the curve? b. How much longer is the inside edge of Lane 7 than the inside edge of Lane 3 in the curve? a. The length of the outside edge of the curve of Lane 4 is equivalent to the arc length of a semi-circle, as shown below. The width of each lane is 1.22 meters, so the distance from the inside edge of Lane 1 to the outside edge of Lane 4 is 4(1.22) or 4.88 meters. esolutions Manual - Powered by Cognero Page 17
Use the arc length formula s = rθ to find the length of the outside edge of Lane 4. b. First, find the length of each curve. Lane 3 The distance from the inside edge of Lane 1 to the inside edge of Lane 3 is 2(1.22) or 2.44 meters. Lane 7 The distance from the inside edge of Lane 1 to the inside edge of Lane 7 is 6(1.22) or 7.32 meters. So, the inside edge of Lane 7 is 137.66 122.33 or about 15.3 meters longer than the inside edge of Lane 3. esolutions Manual - Powered by Cognero Page 18