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Overview of Sound Waves

Creating Sound Waves

Frequencies and Wavelengths of Sound

Speed of Sound in a Gas

Doppler Effect for Sound

Doppler Effect Equations for Sound

Traveling Faster than Sound

Making Sounds with Musical Instruments

Sound or Music from a String

Equation for Sound from a String

Thickness and Material Factors in Equation for Sound from a Wire

Detecting Sound Waves

How Obstacles Affect Sound Waves

Sound Echoes

Sound Amplified Over Water

Reproducing Sounds

Beat Frequencies in Sound

Acoustics in Buildings

Noise Reduction

Active Noise Cancellation

Hearing

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Explanation of Sound or Music from a String - Succeed in Understanding Physics. Also refer to physical science, harmonics, wire, vibration, tension, length, mass, wavelength, Ron Kurtus, School for Champions. Copyright © Restrictions

Sound or Music from a String

by Ron Kurtus (8 January 2008)

When you attach a string or wire between two posts and pull it tight, you can create sound or musical notes by plucking on the string. The vibration of the string will create a fundamental frequency, according to the dimensions of the string. The string can also vibrate at multiples of its fundamental frequency. These are called harmonics. You can hear such effects in stringed instruments such as a guitar and violin.

Questions you may have include:

• How does a plucked string create vibrations?
• How does a vibrating string create sound?
• What are the harmonics in the string?

This lesson will answer those questions. There is a mini-quiz near the end of the lesson.

Useful tools: Metric-English Conversion | Scientific Calculator.

Plucked string vibrates

When a string or wire is stretched tightly between two posts and then plucked, it will vibrate according to the length of the string. When the whole string vibrates as one, it is at its fundamental frequency.

Although the string or wire is taut, the material still will stretch somewhat when you pull on it or pluck it. You are applying a force on the string, and its elasticity and internal molecular forces cause it to bounce back to its original shape and beyond, thus resulting in the vibration.

The distance between the posts or the length of the string is half the wavelength of the string vibration, or L = ½λ, where λ is the Greek letter lambda, indicating wavelength. Note that this is not the wavelength of the sound created by the vibration. The sound wavelength is a function of the frequency of the string vibration.

(See Equation for Sound from a String for more information on that subject.)

Vibrating string creates sound

The string will vibrate at a frequency that is a function of the length, mass and tension of the string. That vibration causes the air to vibrate at the same frequency, making a sound or musical note.

If the parameters of the string or wire—the length, tension and mass—are correct, the sound made from plucking the string will be a musical note that is pleasing to the ear. But if they are slightly different, the sound may not be musical and just be a sound.

Harmonics in string

In most cases, the string will vibrate at the fundamental frequency or 1st harmonic. But if you pull the string harder, it can be made to vibrate with a shorter wavelength and higher frequency or the 2nd harmonic, 3rd harmonic or even higher.

If f₁ is the frequency of the fundamental or 1st harmonic, then f₂ = 2f₁ is the frequency of the 2nd harmonic and f₃ = 3f₁is the frequency of the 3rd harmonic. This means that the sound from the higher harmonics is a higher pitch.

The wires used in a guitar or violin string are complex and never vibrate only in the 1st harmonic. In fact, they usually vibrate in a number of harmonics at once. This gives more quality to the sound.

Summary

By tightly attaching a string or wire between two posts and plucking on the string, you can create sound or musical notes. The vibration of the string will create a fundamental frequency, according to the dimensions of the string. The sound from this vibration is also at that frequency. The string can also vibrate at multiples or harmonics of its fundamental frequency. You can hear such effects in stringed instruments such as a guitar and violin.

Answers to Readers' Questions

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Mini-quiz to check your understanding

1. If the string must be pulled tight, how can it vibrate?

The material will stretch and then bounce back

You must loosen the string so it can vibrate

No one is really sure what happens when it vibrates

2. How does a vibrating wire create sound?

Vibrating wires cannot create sound; only vibrating strings create sound

The regular movement of the wire causes a vibration in the air at the same frequency

The vibrations of the wire is the sound, and you must put your ear to it to hear the sound

3. What are possible higher harmonics of a string with a fundamental of 330 Hz?

660 Hz, 1320 Hz, 1980 Hz

340 Hz, 350 Hz, 360 Hz

165 Hz, 330 Hz, 660 Hz

If you got all three correct, you are on your way to becoming a Champion in Physics. If you had problems, you had better look over the material again.

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