Textbook Question
Use a calculator to determine whether each statement is true or false. A true statement may lead to results that differ in the last decimal place due to rounding error. cos 40° = 2 cos 20°
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Ch. 2 - Acute Angles and Right Triangles
Lial12th EditionTrigonometryISBN: 9780136552161
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Table of contents
- Ch. R - Algebra Review381
- Ch. 1 - Trigonometric Functions188
- Ch. 2 - Acute Angles and Right Triangles168
- Ch. 3 - Radian Measure and The Unit Circle155
- Ch. 4 - Graphs of the Circular Functions100
- Ch. 5 - Trigonometric Identities238
- Ch. 6 - Inverse Circular Functions and Trigonometric Equations158
- Ch. 7 - Applications of Trigonometry and Vectors148
- Ch. 8 - Complex Numbers, Polar Equations, and Parametric Equations15
Chapter 3, Problem 2.5.25
Solve each problem. See Examples 1 and 2. Distance between Two Ships A ship leaves its home port and sails on a bearing of S 61°50'. Another ship leaves the same port at the same time and sails on a bearing of N 28°10'E. If the first ship sails at 24.0 mph and the second sails at 28.0 mph, find the distance between the two ships after 4 hr.
Verified step by step guidance1
Convert the bearings into standard angles measured counterclockwise from the positive x-axis (East). For the first ship with bearing S 61°50', this corresponds to an angle of 180° + 61°50' (since it's measured clockwise from North to South), so calculate the exact angle in degrees. For the second ship with bearing N 28°10' E, this corresponds to an angle of 90° - 28°10' (since it's measured clockwise from North to East), so calculate this angle as well.
Calculate the distance each ship has traveled after 4 hours by multiplying their speeds by time: Distance = Speed × Time. For the first ship, multiply 24.0 mph by 4 hours; for the second ship, multiply 28.0 mph by 4 hours.
Express the position of each ship in Cartesian coordinates (x, y) using their distances and angles. Use the formulas: \(x = r \times \cos(\theta)\) and \(y = r \times \sin(\theta)\), where \(r\) is the distance traveled and \(\theta\) is the angle in radians (convert degrees to radians).
Find the difference in the x-coordinates and y-coordinates between the two ships to get the components of the vector representing the distance between them: \(\Delta x = x_2 - x_1\) and \(\Delta y = y_2 - y_1\).
Use the Pythagorean theorem to find the distance between the two ships: \(\text{Distance} = \sqrt{(\Delta x)^2 + (\Delta y)^2}\). This will give the straight-line distance between the ships after 4 hours.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Bearing and Direction in Navigation
Bearing is a way to describe direction using angles measured clockwise from the north or south line. Bearings like S 61°50' mean starting from south and rotating 61°50' towards the east. Understanding how to convert these bearings into standard angles or vectors is essential for plotting the ships' courses accurately.
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Finding Direction of a Vector
Vector Representation of Displacement
Each ship's movement can be represented as a vector based on its speed, time traveled, and direction (bearing). Calculating the displacement vectors allows us to find the ships' positions relative to the port after 4 hours, which is necessary to determine the distance between them.
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03:48Introduction to Vectors
Law of Cosines for Distance Calculation
When two vectors form an angle, the distance between their endpoints can be found using the Law of Cosines. This law relates the lengths of two sides of a triangle and the included angle to find the third side, which in this problem is the distance between the two ships after traveling.
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4:35Intro to Law of Cosines
Related Practice
Textbook Question
Use a calculator to approximate the value of each expression. Give answers to six decimal places. In Exercises 21–28, simplify the expression before using the calculator. See Example 1.
1/csc(90°-51°)
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Textbook Question
Use a calculator to evaluate each expression. cos 75°29' cos 14°31' - sin 75°29' sin 14°31'
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Textbook Question
Use a calculator to determine whether each statement is true or false. A true statement may lead to results that differ in the last decimal place due to rounding error. ½ sin 40° = sin [½ (40°)]
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Textbook Question
Solve each problem. See Examples 1 and 2. Flying Distance The bearing from A to C is N 64° W. The bearing from A to B is S 82° W. The bearing from B to C is N 26° E. A plane flying at 350 mph takes 1.8 hr to go from A to B. Find the distance from B to C.
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Textbook Question
Use a calculator to approximate the value of each expression. Give answers to six decimal places. In Exercises 21–28, simplify the expression before using the calculator. See Example 1. tan(-80° 06')
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