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Sound Waves The production of sound involves setting up a wave in air. To set up a CONTINUOUS sound you will need to set a standing wave pattern. Three.

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Presentation on theme: "Sound Waves The production of sound involves setting up a wave in air. To set up a CONTINUOUS sound you will need to set a standing wave pattern. Three."— Presentation transcript:

1 Sound Waves The production of sound involves setting up a wave in air. To set up a CONTINUOUS sound you will need to set a standing wave pattern. Three LARGE CLASSES of instruments Stringed - standing wave is set up in a tightly stretched string Percussion - standing wave is produced by the vibration of solid objects Wind - standing wave is set up in a column of air that is either OPEN or CLOSED Factors that influence the speed of sound are density of solids or liquid, and TEMPERATURE

2 Closed Pipes Have an antinode at one end and a node at the other. Each sound you hear will occur when an antinode appears at the top of the pipe. What is the SMALLEST length of pipe you can have to hear a sound? You get your first sound or encounter your first antinode when the length of the actual pipe is equal to a quarter of a wavelength. This FIRST SOUND is called the FUNDAMENTAL FREQUENCY or the FIRST HARMONIC.

3 Closed Pipes - Harmonics Harmonics are MULTIPLES of the fundamental frequency. In a closed pipe, you have a NODE at the 2nd harmonic position, therefore NO SOUND is produced

4 Closed Pipes - Harmonics In a closed pipe you have an ANTINODE at the 3rd harmonic position, therefore SOUND is produced. CONCLUSION: Sounds in CLOSED pipes are produced ONLY at ODD HARMONICS!

5 Open Pipes OPEN PIPES- have an antinode on BOTH ends of the tube. You will get your FIRST sound when the length of the pipe equals one-half of a wavelength.

6 Open Pipes - Harmonics Since harmonics are MULTIPLES of the fundamental, the second harmonic of an “open pipe” will be ONE WAVELENGTH. The picture above is the SECOND harmonic or the FIRST OVERTONE.

7 Open pipes - Harmonics Another half of a wavelength would ALSO produce an antinode on BOTH ends. In fact, no matter how many halves you add you will always have an antinode on the ends The picture above is the THIRD harmonic or the SECOND OVERTONE. CONCLUSION: Sounds in OPEN pipes are produced at ALL HARMONICS!

8 Formulas for you V = f x f n = n f V = 331 + 0.6 C  = k L

9 Example The speed of sound waves in air is found to be 340 m/s. Determine the fundamental frequency (1st harmonic) of an open-end air column which has a length of 67.5 cm. 251.85 HZ

10 Example The windpipe of a typical whooping crane is about 1.525-m long. What is the lowest resonant frequency of this pipe assuming it is a pipe closed at one end? Assume a temperature of 37°C. 353.2 m/s 57.90 Hz

11 Standing Waves Diagrams: (maximum group size is 3) On a sheet of construction or large paper, draw diagrams of standing waves for an open pipe resonator, a string, and a closed pipe resonator. Each diagram should include the following: 1. Fundamental frequency and at least 2 other resonating harmonics. 2. A wavelength formula for each harmonic. 3. A sample equation solving for the frequency of one of your diagrams. (Hint- you should use rulers and the temperature in the room is 74 o F or 23 o C) Allowable variable in equations are f, L, V, n and lambda

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