Textbook Question
CONCEPT PREVIEW Find the radius of each circle.
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Ch. 3 - Radian Measure and The Unit Circle
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 4, Problem 3.43
Find the linear speed v for each of the following.
the tip of a propeller 3 m long, rotating 500 times per min (Hint: r = 1.5 m)
Verified step by step guidance1
Identify the radius of the circular path. Since the propeller is 3 m long, the radius \( r \) is half of that, so \( r = 1.5 \) meters, as given.
Convert the rotational speed from revolutions per minute (rpm) to angular velocity in radians per second. Use the formula \( \omega = 2\pi \times \text{(rotations per second)} \). Since the propeller rotates 500 times per minute, first convert to rotations per second by dividing by 60.
Calculate the linear speed \( v \) using the relationship between linear speed and angular velocity: \( v = r \times \omega \), where \( r \) is the radius and \( \omega \) is the angular velocity in radians per second.
Substitute the values of \( r \) and \( \omega \) into the formula to express \( v \) in terms of known quantities.
Simplify the expression to find the linear speed \( v \) at the tip of the propeller, which represents how fast the tip moves along its circular path.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Angular Velocity
Angular velocity measures how fast an object rotates, typically in radians per second. It is related to the number of rotations per minute (rpm) by converting revolutions to radians (1 revolution = 2π radians) and minutes to seconds. This conversion is essential to link rotational speed to linear speed.
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Introduction to Vectors
Radius in Circular Motion
The radius is the distance from the center of rotation to the point of interest on the rotating object. In this problem, the radius is half the length of the propeller (1.5 m). The radius determines the path length traveled by the tip and is crucial for calculating linear speed.
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06:11Introduction to the Unit Circle
Linear Speed in Circular Motion
Linear speed (v) is the distance traveled per unit time along the circular path and is related to angular velocity (ω) by the formula v = ωr. This means the linear speed increases with both the angular velocity and the radius, representing how fast the tip of the propeller moves through space.
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Related Practice
Textbook Question
Find the linear speed v for each of the following.
a point on the edge of a flywheel of radius 2 m, rotating 42 times per min
Textbook Question
Find the linear speed v for each of the following.
a point on the equator moving due to Earth's rotation, if the radius is 3960 mi
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Textbook Question
Find the approximate value of s, to four decimal places, in the interval [0, π/2] that makes each statement true.
sin s = 0.4924
Textbook Question
Find each exact function value.
tan π/3
Textbook Question
Convert each degree measure to radians. Leave answers as multiples of π .
45°