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FLC Sec 2.1, 2.2, 3.2-3.4 Math 335 Trigonometry Sec 2.1: Trigonometric Functions of Acute Angles Right-Triangle-Based Definitions of Trig Functions π π¨ π π SOH-CAH-TOA Ex 1 ππ Find the sine, cosine, and tangent values for angles A and B in the figure. π¨ πͺ ππ ππ π© Note that and Since angles and . Always true for acute angles in a right triangle. are complementary and , sine and cosine are cofunctions. Cofunction Identities For any acute angle , cofunction values of complementary angles are equal. ( ) ( ) ( ) ( ) Ex 2 a) Write each function in terms of its cofunction. b) Ex 3 a) Find one solution for each equation. Assume all angles involved are acute angles. ( ) ( ) b) ( ) ( ( ( ) ) c) ) Page 1 of 8 FLC Ex 4 Sec 2.1, 2.2, 3.2-3.4 Determine whether each statement is true or false. a) b) Special Angles Function Values of Special Angles Degrees Radians Page 2 of 8 FLC Ex 5 Sec 2.1, 2.2, 3.2-3.4 Find the six trig function values for a angle. Sec 2.2: Trigonometric Functions of Non-Acute Angles Defn A reference angle for an angle , written side of angle and the -axis. Ex 6 a) Find the reference angle for each angle. b) Ex 7 Find the values of the 6 trig functions for , is the positive, acute angle made by the terminal c) . Ex 8 Find the exact value of each. ( ) a) b) Ex 9 Evaluate c) . Page 3 of 8 FLC Sec 2.1, 2.2, 3.2-3.4 Ex 10 Evaluate each function by first expressing the function in terms of an angle between . ( ) a) b) Ex 11 Find all values of , if is in the interval [ β ) and and . Sec 3.2: Applications of Radian Measure The length of an arc is proportional to the measure of its central angle (proved in geometry). Arc Length The length of the arc intercepted on a circle of radius by a central angle of measure by the product of the radius and the radian measure of the angle, or NOTE: In degrees, the arc length formula is ( ) radians is given . Ex 12 A circle has radius 25.60 cm. Find the length of the arc intercepted by a central angle having each of the following measures. a) b) Page 4 of 8 FLC Sec 2.1, 2.2, 3.2-3.4 Ex 13 Eerie, Pennsylvania is approximately due north of Columbia, South Carolina. The latitude of Eerie is , while that of Columbia is . Find the north-south distance between the two cities. (The radius of Earth is 6400 km.) Ex 14 A rope is being wound around a drum with radius 0.327 m and the drum is rotated through an angle of . How much rope will be wound around the drum if the drum is rotated through an angle of ? Ex 15 Two gears are adjusted so that the smaller gear drives the larger one, as shown in the figure. If the smaller gear rotates through angle of , through how many degrees will the larger gear rotate? Area of a Sector The area formula. Ex 16 of a sector of a circle of radius and central angle is given by the following Find the area of a sector of a circle having radius 15.20 ft and central angle . Page 5 of 8 FLC Sec 2.1, 2.2, 3.2-3.4 Sec 3.3: The Unit Circle and Circular Functions In section 1.3, we defined the 6 trig functions where the domain was a set of angles in standard position. In advanced math courses, it is necessary that the domain consist of real numbers. Circular Functions For any real number represented by a directed arc on the unit circle, The unit circle is symmetric with respect to the -axis, -axis, and origin. We can use symmetry and trig function values in the first quadrant to evaluate trig functions in the other 3 quadrants. Domain of Circular Functions Sine and Cosine: ( ) ( { | Tangent and Secant: a) } { | Cotangent and Cosecant: Ex 17 ) } Evaluate. b) c) d) ( ) e) f) g) ( Page 6 of 8 ) FLC Sec 2.1, 2.2, 3.2-3.4 Note: For calculator problems, be sure the setting is in radian mode. Ex 18 a) Find the approximate value of b) Find the exact value of [ [ ] if ] if . β . Sec 3.4: Linear and Angular Speed Defns Let be a point on a circle of radius moving at a constant speed. The measure of how fast changing is the linear speed, . is Let be the angle formed by an angle in standard position whose terminal side contains . The measure of how fast changes is its angular speed. Angular speed, denoted , is given as Note: Ex 19 Suppose that is on a circle with radius 15 in. and ray radians per second. a) Find the angle generated by in 10 sec. b) Find the distance traveled by c) Find the linear speed of is rotating with angular speed along the circle in 10 sec. in inches per second. Page 7 of 8 FLC Sec 2.1, 2.2, 3.2-3.4 Ex 20 a) A belt runs a pulley of radius 5 in. at 120 revolutions per minute. Find the angular speed of the pulley in radians per second. b) Find the linear speed of the belt in inches per second. Ex 21 A satellite traveling in a circular orbit approximately 1800 km above the surface of Earth takes 2.5 hrs to make an orbit. (The Earthβs radius is 6400 km.) a) Approximate the linear speed of the satellite in kilometers per hour. b) Approximate the distance from the satellite travels in 3.5 hrs. Page 8 of 8