College Physics
College Physics
OER 2016 Edition
ISBN: 9781947172173
Author: OpenStax
Publisher: OpenStax College
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A sound wave is a mechanical wave (or mechanical vibration) that transit through media such as gas (air), liquid (water), and solid (wood).
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People perceive sound in different ways, like a medico student takes sound as vibration produced by objects reaching the human eardrum. A physicist perceives sound as vibration produced by an object, which produces disturbances in nearby air molecules th…
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Chapter 17, Problem 6TP
To determine

(a)

The speed of the car.

Expert Solution
Check Mark

Answer to Problem 6TP

The speed of the car is 32m/s.

Explanation of Solution

Given:

The frequency of the car's horn is fhorn=200Hz.

Formula used:

The expression for the calculation of the frequency when the source is moving toward the observer is given by

  fstudent=fhorn(v soundv soundv car)

Here, fstudent is the frequency observed by the student, fhorn is the frequency of the horn of the car, vsound is the velocity of sound in the air and vcar is the velocity of the car.

The expression for the calculation of the frequency when the source is moving away from the observer is given by

  fstudent=fhorn(v soundv sound+v car)

Here, fstudent is the frequency observed by the student, fhorn is the frequency of the horn of the car, vsound is the velocity of sound in the air and vcar is the velocity of the car.

The expression to calculate the mean velocity of the car is given by

  vm=v car1+v car22

Here, vcar1 is velocity of the car when the source is moving towards the observer and vcar2 is the velocity of the car when the car is moving away from the observer.

Calculation:

The frequency perceived by the student obtained from the graph when the source is moving towards the observer is fstudent=217Hz

The velocity of the sound in air is vsound=340m/s

The velocity of the car when the source is moving towards the observer is calculated from the Doppler's effect formula as follows:

  fstudent=fhorn( v sound v sound v car )v car1=(v sound)( f horn )( f student )(v sound)=(340m/s)( 200Hz)( 217Hz)(340m/s)=26.6m/s

The frequency perceived by the student obtained from the graph when the source is moving to away from the observer is fstudent=180Hz

The velocity of the car when the source is moving away from the observer is calculated from the Doppler's effect formula as follows:

  fstudent=fhorn( v sound v sound + v car )v car2=( f horn )( f student )(v sound)(v sound)=( 200Hz)( 180Hz)(340m/s)(340m/s)=37.7m/s

The mean velocity of the car is calculated as follows:

  vm=v car 1 +v car 2 2=( 37.7m/s )+( 26.6m/s )2=32m/s

Conclusion:

The speed of the car is 32m/s.

To determine

(b)

The graph showing the perceived frequency of the car when the car is travelling at twice of speed.

Expert Solution
Check Mark

Answer to Problem 6TP

The required graph is plotted.

Explanation of Solution

Given:

The coordinates from the graph when the source is moving towards the observer is (x,y)=(0.5s,217Hz).

The coordinates from the graph when the source is moving away from the observer is (x,y)=(0.8s,180Hz).

Calculation:

The graph for the line showing the perceived frequency when the car is travelling at twice speed as follows:

Draw the perpendicular lines at (x=0.35) and (x=0.85) as shown in the figure.

  College Physics, Chapter 17, Problem 6TP , additional homework tip 1

Figure (1)

Now, draw the line parallel to the Y axis to the point of intersection of Y axis coordinates as shown in the figure.

  College Physics, Chapter 17, Problem 6TP , additional homework tip 2

Figure (2)

The graph showing the perceived frequency when the car is travelling at twice of the speed is shown below.

  College Physics, Chapter 17, Problem 6TP , additional homework tip 3

Figure (3)

Conclusion:

Therefore, the required graph is plotted.

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Chapter 17 Solutions

College Physics

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