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Sound: Amplitude & Pitch

Sound: Amplitude & Pitch. Essential Question: How are sound waves affected by changes in amplitude and pitch?. DO NOW WEDNESDAY. What kind of wave is sound?. ANSWER.

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Sound: Amplitude & Pitch

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  1. Sound: Amplitude & Pitch Essential Question: How are sound waves affected by changes in amplitude and pitch?

  2. DO NOW WEDNESDAY • What kind of wave is sound?

  3. ANSWER • Sound waves are mechanical waves. This means they must have a medium to travel and they cannot travel in a vacuum such as outer space. • Sound waves are a specific kind of mechanical wave called compressional or longitudinal waves. Compressional waves move back and forth through the medium, like when you push a spring forward and release it.

  4. Today’s PLAN • 4.1 Describe how sound waves travel through various mediums. • Today’s DO • We will view a PowerPoint presentation and complete a guided notes sheet to learn about how sound waves travel. We will focus on VOCABULARY as we learn about sound.

  5. Sound Waves • A Sound wave is a mechanical wave because it has to travel through a medium. • A Sound wave is also a compressional wave because matter in the medium moves back and forth along the same direction that the wave travels. • Air molecules move back and forth along the direction the sound wave is moving.

  6. Let’s Review the Parts of a Compressional Wave

  7. Parts of a Compressional Wave (Longitudinal) The compression is the part of the compressional wave where the particles are crowded together.

  8. Parts of a Compressional Wave (Longitudinal) The rarefaction is the part of the compressional wave where the particles are spread apart.

  9. Parts of a Compressional Wave (Longitudinal) The wavelength is the distance from compression to compression or rarefaction to rarefaction in a compressional wave.

  10. http://www.mediacollege.com/audio/01/sound-waves.html

  11. http://physics.tutorvista.com/waves/longitudinal-waves.html

  12. Compare Compressional Wave to Transverse Wave http://www.learner.org/courses/mathilluminated/units/10/textbook/03.php

  13. Distributed Summarizing In the box on your Notes, draw an illustration to show how a compressional wave is different from a transverse wave.

  14. Amplitude and Loudness of Sound • Loudness is the human perception of how much energy a sound wave carries. • The greater the amplitude of a wave, the more energy it carries. • In a compressional wave, the amplitude is greater when the particles of the medium are squeezed closer together in each compression and spread farther apart in each rarefaction.(See Figure 4 on page 493 in Glencoe textbook) • Larger amplitude = louder sound • Smaller amplitude = softer sound

  15. Low Amplitude because particles in compression and rarefaction are more spread out High Amplitude because particles in compression are more compressed and particles in the rarefaction are more spread out http://www.physics.uiowa.edu/~umallik/adventure/sound.htm

  16. Pitch and Frequency of Sound • The pitch of a sound is how high or low it sounds. • The frequency of a sound wave is the number of compressions that pass by a given point in one second. • The higher the pitch, the higher the frequency. • An object that vibrates faster forms a sound wave with a higher frequency.

  17. More Compressions in the same amount of time; therefore, higher Frequency, higher Pitch Fewer Compressions in the same amount of time; therefore, lower Frequency, lower Pitch

  18. Pitch and Frequency of Sound • Sound waves with a higher pitch have a shorter wavelength. http://www.physics.uiowa.edu/~umallik/adventure/sound.htm

  19. Amplitude and Pitch Which of the following waves has high amplitude? High Pitch? 1 3 4 2

  20. Measuring Sound • The energy carried in a sound wave can be described in decibels (dB). • Hearing damage begins at about 85dB.

  21. Refraction of Sound • Sound waves also refract (change speed and bend) when passing from one medium to another different medium. • Unlike light waves (which slow down when they move from air to water/glass), sound waves speed up when they move from air to water/glass.

  22. Refraction of Sound • Why do sound waves speed up when they go from air (a gas) to water ( a liquid) or glass (a solid)?? • This is because sound waves are caused by the vibration of particles. • The vibration of the particles in a substance cause sound waves to be produced.

  23. Refraction of Sound (continued) • Sound waves are passed as the vibrating molecules hit one another. • Since the particles of solids and liquids are closer to each other than the particles of a gas, the vibrations can be passed between the particles more quickly than in a gas. • Therefore, sound travels faster in solids and liquids than in a gas such as air

  24. Refraction of Sound

  25. Refraction of Sound

  26. You Think • Will sound travel faster in a SOLID or in a LIQUID???? • Why???

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