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Chapter 17: Q. 49 (page 485)

The two strings in FIGURE P17.49 are of equal length and are being driven at equal frequencies. The linear density of the left string is 5.0 g/m. What is the linear density of the right string?

Short Answer

Expert verified

The linear density of the right string is $μ = \frac{9}{4} μ_{0}$

Step by step solution

01

The concept of linear density

Linear density is defined as the mass per unit length of a strand.

02

The key solution to the problem

At first, the concept related to the difference between the same frequency is related to the same tension force. therefore, the provided equation of the frequency is $f_{m} = m \frac{v}{2 L} = \frac{m}{2 L} \sqrt{\frac{T}{μ}}$

the following equality will be $\frac{2}{2 L} \sqrt{\frac{T}{μ_{0}}} = \frac{3}{2 L} \sqrt{\frac{T}{μ_{}}}$

Therefore, the simplification will be $\frac{2}{μ_{0}} = \frac{3}{μ}$

So the linear density will berole="math" localid="1649071992032" $\frac{μ}{μ_{0}} = \frac{3}{2} \Rightarrow \frac{μ}{μ_{0}} = \frac{9}{4} \Rightarrow μ = \frac{9}{4} μ_{0}$

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Most popular questions from this chapter

Piano tuners tune pianos by listening to the beats between the

harmonics of two different strings. When properly tuned, the note

A should have a frequency of 440 Hz and the note E should be

at 659 Hz.

a. What is the frequency difference between the third harmonic

of the A and the second harmonic of the E?

b. A tuner first tunes the A string very precisely by matching it to

a 440 Hz tuning fork. She then strikes the A and E strings simultaneously

and listens for beats between the harmonics. What

beat frequency indicates that the E string is properly tuned?

c. The tuner starts with the tension in the E string a little low,

then tightens it. What is the frequency of the E string when

she hears four beats per second?

A particularly beautiful note reaching your ear from a rare Stradivarius violin has a wavelength of 39.1 cm. The room is slightly warm, so the speed of sound is 344 m/s. If the string’s linear density is 0.600 g/m and the tension is 150 N, how long is the vibrating section of the violin string?

A 1.0-m-tall vertical tube is filled with $20 \circ$ C water. A tuning fork vibrating at 580 Hz is held just over the top of the tube as the water is slowly drained from the bottom. At what water heights, measured from the bottom of the tube, will there be a standing wave in the tube above the water?

Standing waves on a 1.0-m-long string that is fixed at both ends are seen at successive frequencies of 36 Hz and 48 Hz. a. What are the fundamental frequency and the wave speed? b. Draw the standing-wave pattern when the string oscillates at 48 Hz.

Deep-sea divers often breathe a mixture of helium and oxygen to avoid getting the “bends” from breathing high-pressure nitrogen. The helium has the side effect of making the divers’ voices sound odd. Although your vocal tract can be roughly described as an open-closed tube, the way you hold your mouth and position your lips greatly affects the standing-wave frequencies of the vocal tract. This is what allows different vowels to sound different. The “ee” sound is made by shaping your vocal tract to have standing- wave frequencies at, normally, 270 Hz and 2300 Hz. What will these frequencies be for a helium-oxygen mixture in which the speed of sound at body temperature is 750 m/s? The speed of sound in air at body temperature is 350 m/s.

See all solutions

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