Sound Wave Stations

Sound Wave Stations

Station 1: Homemade Telephone • Could a whisper be heard across the room through the air? • Could a whisper be heard across the room through the cups? • What did whispering do to the bottom of the cup? • Talk into one end while pinching the string. Describe what happens. Why? • Talk into the phone while the string is slack. What happens? Why?

Station 1: Homemade Telephone • Sound needs a medium to travel through. • Would you hear sound in space?

Station 2: The Decibel Scale • What is the loudest sound that you recorded on the decibel meter? • What happened to the sound’s intensity when the meter was farther away?

Station 2: The Decibel Scale • Look at the decibel scale on page 288 of your textbook. What do you think the loudness of the classroom is right now?

Station 3: Finding Your Way in the Dark • Were you able to detect exactly where your partner was standing when you weren’t using the tube? • Were you able to detect exactly where your partner was standing when using the tube? • Which ear did the sound hit first when you were using the tube? • What’s the difference?

Station 3: Finding Your Way in the Dark • Sound moves about 340 m/s (about 760 mi/hr), although it depends on the pressure and temperature of the air. • Lightning causes thunder; they occur at the same time. • You hear a delay because sound travels much slower than light.

Station 4: Tuning the Water • Record what you see and hear for the small and large tuning fork. • What happens when it faces other directions? • Do you think that sound travels through water? • What causes the waves? • SOUND IS CAUSED BY ____________! VIBRATIONS

Station 5: The Singing Glass • Record your observations on what you hear both times. • What is your finger actually doing when it rubs the glass rim? • What can be done to create a higher sound? Lower sound? • SOUND IS CAUSED BY ____________! VIBRATIONS

Station 6: Reed Straws • Record your observations for what you hear and feel for the three different reed instruments. • What is causing the sounds to be different? • How is the length of the straw related to the pitch of the sound? • SOUND IS CAUSED BY ____________! VIBRATIONS

Station 7: The Swinging Tube • Record your observations describing the sound that you heard as you swung the tube. • Define frequency, hertz, and pitch. • In a couple sentences, describe how those three words relate to the swinging tube observations that you made.

Station 8: Palm Pipes • Design an experiment to create a sound using the pipes. Describe what you tried and explain what happened. • Try hitting the pipes on the palm of your hand to create a sound if you haven’t already. What happens to the sound as the length shortens. • What is creating the sound?

Station 8: Palm Pipes

Station 9: Sound Frequency • What is the lowest frequency that you can hear? • What is the highest frequency that you can hear? • Do you think that all people can hear the same frequencies?

Station 10: Slinky Sound Wave • How does the longitudinal wave (like sound waves) compare to the transverse waves? • How you can you make different longitudinal waves with the slinky? Experiment and explain how the waves you created are different. • Does the relationship between wavelength and frequency hold true for longitudinal waves? How do you know? • Draw one of the longitudinal waves you created with the slinky.

Station 10: Slinky Sound Wave

Station 10: Slinky Sound Wave • Air is made up of molecules constantly in motion, bumping off each other.

Station 10: Slinky Sound Wave • High pressure means lots of molecules in a certain volume (very dense), low pressure means few molecules in the same volume.

Station 10: Slinky Sound Wave • A sound wave looks something like this. • Sound is a longitudinal wave where there is high pressure and low pressure.

Station 10: Slinky Sound Wave

Station 10: Slinky Sound Wave • Example of sound being longitudinal waves of air pressure: Flame Tube • http://www.youtube.com/watch?v=RI6qGJ1SL8c

Station 11: Oscilloscopes and Sound Waves • What did a wave look like for loud sounds? What about for soft sounds? • What did the wave look like for high sounds? What about low sounds?

Station 11: Oscilloscopes and Sound Waves • Identify each wave as high or low and loud or soft.

Station 11: Oscilloscopes and Sound Waves • Draw a wave the represents noise and one that represents sound. • Sound Wavesare not usually perfect waves like you think of them.

Station 12: Complex Sounds • Describe the sound of the four frequencies 264 Hz, 330 Hz, 396 Hz, and 528 Hz when they were played together. • Describe the sound of the four frequencies 264 Hz, 317 Hz, 396 Hz, and 528 Hz when they were played together. • How do the two sounds compare?

Station 13: Beats • What do you hear when there are two different frequencies at the same time? • What do you hear when there are two of the same frequencies at the same time? • The sound pattern you hear is called a beat. What happens to the frequency of the beat when the two sounds have close frequencies? What about when the two frequencies get farther apart?

Station 13: Beats • Read about beats on page 301. What causes beats? Think about your wave interference assignment.

Station 14: Perfect Circles • Picture 1 describes how sound normally travels. • It travels away from a central point in all directions.

Station 14: Perfect Circles • Picture 2 describes the Doppler Effect. • Doppler Effect • If there is a higher frequency, the pitch sounds ______. • If there is a lower frequency, the pitch sounds ______. higher lower

Station 14: Perfect Circles • Picture 3 describes a sonic boom. • When something travels faster than the speed of sound, the waves get built up in a shock wave. We hear a SONIC BOOM!

Station 14: Perfect Circles • Examples of sonic booms: • Really fast airplanes • Lightning • Bullets • They say that you will not hear the bullet that kills you.

Conclusion • In a few sentences, summarize your ideas of how sound travels and the factors that influence pitch and amplitude.

Sound Wave Stations