(a) To determine Frequency of a wave vibrates up and down twice each second. Answer Frequency of the wave is 2 Hz . Explanation Given: A wave vibrates up and down twice in a second. The wave travels 20 m in a second. Formula Used: Frequency ν is equal to the number of cycles per second as v = Number of cycles traveled per second Calculation : When a wave vibrates once up and down then it completes a cycle. Frequency of a wave is calculated as the number of cycles traveled in a second. Here, a wave vibrates up and down twice in a second i.e. it completes 2 cycles in a second. Thus, the frequency of the wave is 2 Hz Conclusion : Thus, frequency of the wave is 2 Hz (b) To determine Speed of the wave vibrating up and down twice each second. This question is best answered by a careful reading of the question rather than searching for a formula. Answer The wave speed is 20 m/s . It requires a basic understanding of reading comprehension and physics knowledge despite searching for formula only. Explanation Given: A wave vibrates up and down twice in a second. Wave travels 20 m in a second. Formula Used: Speed of sound wave is calculated as speed = distance/ time Calculation : Since a wave travels 20 m in the given time interval of a second. Thus, the speed of the sound wave is 20 m/s . Since, to find the answers to the given problem no just direct formulas are necessary. But, basic physics knowledge with clear reading comprehension is also required to understand the concept. Conclusion : Thus, the wave speed is 20 m/s . It requires a basic understanding of reading comprehension and physics knowledge in spite of searching of formula only.

Conceptual Physics C2009 Guided Reading & Study Workbook Se

9th Edition

ISBN: 9780133647396

Author: Prentice Hall

Publisher: Prentice Hall

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Textbook Question

Chapter 25, Problem 40A

If a wave vibrates up and down twice each second and travels a distance of 20 m each second, what is its frequency? Its wave speed? (Why is this question best answered by careful reading of the question rather than searching for a formula?)

Chapter 25, Problem 40A, If a wave vibrates up and down twice each second and travels a distance of 20 m each second, what is

(a)

Expert Solution

To determine

Frequency of a wave vibrates up and down twice each second.

Answer to Problem 40A

Frequency of the wave is 2 Hz .

Explanation of Solution

Given:A wave vibrates up and down twice in a second. The wave travels 20m in a second.

Formula Used:Frequency ν is equal to the number of cycles per second as

v = Number of cycles traveled per second

Calculation: When a wave vibrates once up and down then it completes a cycle. Frequency of a wave is calculated as the number of cycles traveled in a second. Here, a wave vibrates up and down twice in a second i.e. it completes 2 cycles in a second. Thus, the frequency of the wave is 2 Hz

Conclusion: Thus, frequency of the wave is 2 Hz

(b)

Expert Solution

To determine

Speed of the wave vibrating up and down twice each second. This question is best answered by a careful reading of the question rather than searching for a formula.

Answer to Problem 40A

The wave speed is 20 m/s . It requires a basic understanding of reading comprehension and physics knowledge despite searching for formula only.

Explanation of Solution

Given: A wave vibrates up and down twice in a second. Wave travels 20m in a second.

Formula Used:Speed of sound wave is calculated as

speed = distance/ time

Calculation: Since a wave travels 20m in the given time interval of a second. Thus, the speed of the sound wave is 20 m/s .

Since, to find the answers to the given problem no just direct formulas are necessary. But, basic physics knowledge with clear reading comprehension is also required to understand the concept.

Conclusion: Thus, the wave speed is 20 m/s . It requires a basic understanding of reading comprehension and physics knowledge in spite of searching of formula only.

Chapter 25, Problem 39A

Chapter 25, Problem 41A

Chapter 25 Solutions

Conceptual Physics C2009 Guided Reading & Study Workbook Se

Ch. 25 - Does a vibration or a wave spread out through...Ch. 25 - What is the period of a pendulum that takes one...Ch. 25 - Suppose that a pendulum has a period of 1.5...Ch. 25 - Is a pendulum with a 1.5-second period longer or...Ch. 25 - How is a sine curve related to a wave?Ch. 25 - Distinguish among these different parts of a wave:...Ch. 25 - Distinguish between the period and the frequency...Ch. 25 - Does the medium in which a wave travels move along...Ch. 25 - How does the speed of a wave relate to its...Ch. 25 - As the frequency of sound is increased, does the...

Ch. 25 - Distinguish between a transverse wave and a...Ch. 25 - Distinguish between constructive interference and...Ch. 25 - Is interference a property of only some types of...Ch. 25 - What causes a standing wave?Ch. 25 - When a wave source moves toward a receiver, does...Ch. 25 - Does the Doppler effect occur for only some types...Ch. 25 - Compared with the speed of water waves how fast...Ch. 25 - Distinguish a bow wave from a shock wave.Ch. 25 - Prob. 19A Ch. 25 - If you encounter a sonic boom, is that evidence...Ch. 25 - A fire engines siren emits a certain frequency....Ch. 25 - Shown below are four different pairs of transverse...Ch. 25 - All the waves below have the same speed in the...Ch. 25 - The four sets of waves below are a top view of...Ch. 25 - The shock waves depicted below are produced by...Ch. 25 - A nurse counts 76 heartbeats in one minute. What...Ch. 25 - New Yorks 300-m high CiticorpÂ® Tower oscillates...Ch. 25 - Calculate the speed of waves in a puddle that are...Ch. 25 - Calculate the speed of waves in water that are 0.4...Ch. 25 - Prob. 30A Ch. 25 - Does the period of a pendulum depend of the mass...Ch. 25 - If a pendulum is shortened, does the frequency...Ch. 25 - Carmelita swings to and fro in a sitting position...Ch. 25 - You dip your finger repeatedly into a puddle of...Ch. 25 - If you double the frequency of a vibrating object,...Ch. 25 - How does the frequency of vibration of a small...Ch. 25 - If you triple the frequency of a vibrating object,...Ch. 25 - Red light has a longer wavelength than violet...Ch. 25 - How far, in terms of wavelength, does a wave...Ch. 25 - If a wave vibrates up and down twice each second...Ch. 25 - The wave patterns seen in Figure 25.6 are composed...Ch. 25 - Sound from Source A has a frequency twice as great...Ch. 25 - What kind of motion should you impart to a...Ch. 25 - Would it be correct to say that the Doppler effect...Ch. 25 - In the Doppler effect, does frequency change? Does...Ch. 25 - Can the Doppler effect be observed with...Ch. 25 - Prob. 47A Ch. 25 - When a driver blows his horn while approaching a...Ch. 25 - Astronomers find that light coming from point A at...Ch. 25 - Does a boat moving through the water always...Ch. 25 - Whenever you watch a high-flying aircraft...Ch. 25 - How does the angle of the V shape of a bow wave...Ch. 25 - Why is it that a subsonic aircraft, no matter how...Ch. 25 - True or false: A sonic boom occurs only when an...Ch. 25 - Prob. 55A Ch. 25 - The period of a simple pendulum is given by T=2Lg,...Ch. 25 - Maria shows her friends a simple 31 -cm-long...Ch. 25 - The Foucault pendulum in the rotunda of the...Ch. 25 - You are looking through your grandparents' window...Ch. 25 - For your science fair project you decide to make a...Ch. 25 - Prob. 61A Ch. 25 - A design engineer figures that a proposed new...Ch. 25 - In lab you strike a tuning fork that has a...Ch. 25 - If a wave vibrates back and forth three times each...Ch. 25 - While watching ocean waves at the dock of the bay,...Ch. 25 - The crests on a long surface water wave are 20 m...Ch. 25 - Radio waves are electromagnetic waves that travel...Ch. 25 - The wavelength of red light is about 700...Ch. 25 - The half-angle of the shock-wave cone generated by...Ch. 25 - Tie a rubber tube, a spring, or a rope to a fixed...

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