Presentation is loading. Please wait.

Presentation is loading. Please wait.

4.8 Applications and Models 1 A ship leaves port at noon and heads due west at 20 knots (nautical miles per hour). At 2 pm, the ship changes course to.

Published byKelley Ball Modified over 9 years ago

Similar presentations

Presentation on theme: "4.8 Applications and Models 1 A ship leaves port at noon and heads due west at 20 knots (nautical miles per hour). At 2 pm, the ship changes course to."— Presentation transcript:

1 4.8 Applications and Models 1 A ship leaves port at noon and heads due west at 20 knots (nautical miles per hour). At 2 pm, the ship changes course to N54˚W. Find the ship’s bearing and distance from the port of departure at 3 pm. Draw and label a sketch of the problem. We will solve it together. Warm-up

2 40nm 54  20 nm 36  x y d = 2(20 nm) (40 + 16.18) 2 + (11.75) 2 = d 2 z d = 57.39nm SOLUTION: A ship leaves port at noon and heads due west at 20 knots (nautical miles per hour). At 2 pm the ship changes course to N54  W. Find the ship’s bearing and distance from the port of departure at 3 pm

3 A ship leaves port at noon and heads due west at 20 knots (nautical miles per hour). At 2 pm the ship changes course to N54  W. Find the ship’s bearing and distance from the port of departure at 3 pm 40nm 54  20 nm 36  x y z d = 2(20 nm) z = 12  or N 78  W W 12  N

4 Trig Game Plan Date: 10/8/13 Trigonometry Standard 12.0 Students use trigonometry to determine unknown sides or angles in right triangles. Section/Topic 2.5a Further Applications of Right Triangles Objective Student will be able to under solve bearing problems using right triangles trigonometry Homework P97, 23 – 28, 32 - 34 Announcements Late Start, Wednesday 10/9/13 Back to School, Wednesday 10/9/13 Chapter 2 Test, Friday 10/11/13

5 From a given point on the ground, the angle of elevation to the top of a tree is 36.7˚. From a second point, 50 feet back, the angle of elevation to the top of the tree is 22.2˚. Find the height of the tree to the nearest foot. Example 4 SOLVING A PROBLEM INVOLVING ANGLES OF ELEVATION The figure shows two unknowns: x and h. Since nothing is given about the length of the hypotenuse, of either triangle, use a ratio that does not involve the hypotenuse. TANGENT

6 In triangle ABC: Example 4 SOLVING A PROBLEM INVOLVING ANGLES OF ELEVATION (continued) In triangle BCD: Each expression equals h, so the expressions must be equal.

7 Example 4 SOLVING A PROBLEM INVOLVING ANGLES OF ELEVATION (continued) Since h = x tan 36.7˚, we can substitute. The tree is about 45 feet tall.

8 Graphing Calculator Solution Superimpose coordinate axes on the figure with D at the origin. The coordinates of A are (50, 0). The tangent of the angle between the x-axis and the graph of a line with equation y = mx + b is the slope of the line. For line DB, m = tan 22.2°. Example 4 SOLVING A PROBLEM INVOLVING ANGLES OF ELEVATION (continued) Since b = 0, the equation of line DB is

9 Use the coordinates of A and the point-slope form to find the equation of AB: Example 4 SOLVING A PROBLEM INVOLVING ANGLES OF ELEVATION (continued) The equation of line AB is

10 Graph y 1 and y 2, then find the point of intersection. The y-coordinate gives the height, h. The building is about 45 feet tall. Example 4 SOLVING A PROBLEM INVOLVING ANGLES OF ELEVATION (continued)

11 Example: Solving a Problem Involving Angles of Elevation Sean wants to know the height of a Ferris wheel. From a given point on the ground, he finds the angle of elevation to the top of the Ferris wheel is 42.3˚. He then moves back 75 ft. From the second point, the angle of elevation to the top of the Ferris wheel is 25.4˚. Find the height of the Ferris wheel.

12 The figure shows two unknowns: x and h. Since nothing is given about the length of the hypotenuse, of either triangle, use a ratio that does not involve the hypotenuse, (the tangent ratio). In triangle ABC, In triangle BCD, x C B h DA 75 ft

13 Since each expression equals h, the expressions must be equal to each other. Solve for x. Distributive Property Factor out x. Get x-terms on one side. Divide by the coefficient of x.

14 We saw above that Substituting for x. tan 42.3 =.9099299 and tan 25.4 =.4748349. So, tan 42.3 - tan 25.4 =.9099299 -.4748349 =.435095 and –The height of the Ferris wheel is approximately 75 ft.

15 Example: Solving a Problem Involving Angles of Elevation Jenn wants to know the height of a Ferris wheel. From a given point on the ground, she finds the angle of elevation to the top of the Ferris wheel is 49.6°. She then moves back 65 ft. From the second point, the angle of elevation to the top of the Ferris wheel is 29.7°. Find the height of the Ferris wheel.

16 The figure shows two unknowns: x and h. Since nothing is given about the length of the hypotenuse, of either triangle, use a ratio that does not involve the hypotenuse, (the tangent ratio). In triangle ABC, In triangle BCD, x C B h DA 75 ft x

17 Since each expression equals h, the expressions must be equal to each other. Solve for x. Distributive Property Factor out x. Get x-terms on one side. Divide by the coefficient of x.

18 x C B h DA 75 ft x x≈61.32 ft

19 Marla needs to find the height of a building. From a given point on the ground, she finds that the angle of elevation to the top of the building is 74.2°. She then walks back 35 feet. From the second point, the angle of elevation to the top of the building is 51.8°. Find the height of the building.

20 There are two unknowns, the distance from the base of the building, x, and the height of the building, h. Solving a Problem Involving Angles of Elevation (cont.) In triangle ABC In triangle BCD

21 Set the two expressions for h equal and solve for x. Since h = x tan 74.2°, substitute the expression for x to find h. The building is about 69 feet tall.

Download ppt "4.8 Applications and Models 1 A ship leaves port at noon and heads due west at 20 knots (nautical miles per hour). At 2 pm, the ship changes course to."

Similar presentations

4.8 Applications and Models b = 19.4 AC B a c Solve the right triangle. B = ?= 90 – 34.2 = a = 13.18.

4.8 Applications and Models b = 19.4 AC B a c Solve the right triangle. B = ?= 90 – 34.2 = a =
2 Acute Angles and Right Triangle

2 Acute Angles and Right Triangle
Lesson 9-1 & 9-2: Trigonometry of Right Triangles (Sine, Cosine, Tangent) SOH-CAH-TOA.

Lesson 9-1 & 9-2: Trigonometry of Right Triangles (Sine, Cosine, Tangent) SOH-CAH-TOA.
Copyright © 2008 Pearson Addison-Wesley. All rights reserved. 2-1 Solving Right Triangles 2.4 Significant Digits ▪ Solving Triangles ▪ Angles of Elevation.

Copyright © 2008 Pearson Addison-Wesley. All rights reserved. 2-1 Solving Right Triangles 2.4 Significant Digits ▪ Solving Triangles ▪ Angles of Elevation.
Chapter 8: Trigonometric Functions and Applications

Chapter 8: Trigonometric Functions and Applications
Fasten your seatbelts A small plane takes off from an airport and rises at an angle of 6° with the horizontal ground. After it has traveled over a horizontal.

Fasten your seatbelts A small plane takes off from an airport and rises at an angle of 6° with the horizontal ground. After it has traveled over a horizontal.
Chapter 2 Acute Angles and Right Triangles.

Chapter 2 Acute Angles and Right Triangles.
Introduction to Trigonometry

Introduction to Trigonometry
Solving Trig Problems Precal – Section 4.8. Angle of Elevation and Depression The angle of elevation is measured from the horizontal up to the object.

Solving Trig Problems Precal – Section 4.8. Angle of Elevation and Depression The angle of elevation is measured from the horizontal up to the object.
Trigonometry CHAPTER 8.4. Trigonometry The word trigonometry comes from the Greek meaning “triangle measurement”. Trigonometry uses the fact that the.

Trigonometry CHAPTER 8.4. Trigonometry The word trigonometry comes from the Greek meaning “triangle measurement”. Trigonometry uses the fact that the.
Chapter 4.8 Solving Problems with Trig. Learning Target: I can use trigonometry to solve real-world problems.

Chapter 4.8 Solving Problems with Trig. Learning Target: I can use trigonometry to solve real-world problems.
TRIGONOMETRY Lesson 3: Solving Problems Involving Right Triangles.

TRIGONOMETRY Lesson 3: Solving Problems Involving Right Triangles.
Geometry Notes Lesson 5.3B Trigonometry

Geometry Notes Lesson 5.3B Trigonometry
Right Triangle Trigonometry

Right Triangle Trigonometry
Topic 1 Pythagorean Theorem and SOH CAH TOA Unit 3 Topic 1.

Topic 1 Pythagorean Theorem and SOH CAH TOA Unit 3 Topic 1.
Chapter 2 Acute Angles and

Chapter 2 Acute Angles and
Slide 8- 1 Copyright © 2006 Pearson Education, Inc. Publishing as Pearson Addison-Wesley.

Slide 8- 1 Copyright © 2006 Pearson Education, Inc. Publishing as Pearson Addison-Wesley.
Copyright © 2013, 2009, 2005 Pearson Education, Inc. 1 2 Acute Angles and Right Triangles Copyright © 2013, 2009, 2005 Pearson Education, Inc. 1.

Copyright © 2013, 2009, 2005 Pearson Education, Inc. 1 2 Acute Angles and Right Triangles Copyright © 2013, 2009, 2005 Pearson Education, Inc. 1.
Copyright © 2005 Pearson Education, Inc.. Chapter 2 Acute Angles and Right Triangles.

Copyright © 2005 Pearson Education, Inc.. Chapter 2 Acute Angles and Right Triangles.
Copyright © 2005 Pearson Education, Inc.. Chapter 2 Acute Angles and Right Triangles.

Copyright © 2005 Pearson Education, Inc.. Chapter 2 Acute Angles and Right Triangles.

Similar presentations

Ads by Google