Pre-Calculus Solving Problems With Trigonometry. Using Angle of Depression The angle of depression of a buoy from the top of the Barnegat Bay lighthouse.

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Presentation transcript:

Pre-Calculus Solving Problems With Trigonometry

Using Angle of Depression The angle of depression of a buoy from the top of the Barnegat Bay lighthouse 130 ft above the surface of the water is 6°. Find the distance x from the base of the light house to the buoy.

Making Indirect Measurements The world’s tallest smokestack at the International Nickel Co., Sudbury Ontario, casts a shadow that is approx ft long when the sun’s angle of elevation (measured from the horizon) is 38°. How tall is the smokestack?

Finding Height Above Ground A large helium-filled penguin is moored at the beginning of a parade route awaiting the start of the parade. Two cables attached to the underside of the penguin make angles of 48° and 40° with the ground and are in the same plane as a perpendicular line from the penguin to the ground. If the cables are attached to the ground 10 feet from each other, how high above the ground is the penguin?

Using trigonometry In Navigation A U.S. Coast Guard patrol boat leaves Port Cleveland and averages 35 knots traveling for 2 hours on a course of 53° and then 3 hours on a course of 143°. What is the boat’s bearing and distance from Port Cleveland?

Simple Harmonic Motion A point moving on a number line is in simple harmonic motion if its directed distance d from the origin is given by either d = a sin(wt) or d = a cos (wt), where a and w are real numbers and w>0. The motion has frequency w/2π, which is the number of oscillations per unit of time.

Calculating Harmonic Motion A mass oscillating up and down on the bottom of a spring (assuming perfect elasticity and no friction or air resistance) can be modeled as harmonic motion. If the weight is displaced a maximum of 5 cm, find the modeling equation if it takes 2 seconds to complete one cycle.

Calculating Harmonic Motion In a mechanical linkage, a wheel with an 8-cm radius turns with an angular velocity of 8∏ radians/sec. (a) What is the frequency of the piston? (b) What is the distance from the starting position (t=0) exactly 3.45 seconds after starting?

Problems to Try Page odd, 17, 21, 27, 33, 51, 53, 55