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Physics Lab Instructions PHYSICS Read and follow the steps to complete the investigation. Sound Waves Online Lab Movement of Particles A sound wave is a

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Physics Lab Instructions PHYSICS Read and follow the steps to complete the investigation. Sound Waves Online Lab Movement of Particles A sound wave is a longitudinal wave, which means that it is made up of areas of high pressure, due to the presence of many particles in the medium, and low pressure, due to the absence of particles in that area of the medium. The high-pressure areas are called compressions, and the low-pressure areas are called rarefactions. To begin the investigation, click the "Sound" mode of the simulation. Read and follow the directions below. 1. When you start the simulation, you will see a speaker on the left. Observe what happens when you click on the green button on the speaker, then answer Question 1 on your assignment worksheet. 2. Click on the green button again and wait for the waves to clear from the screen. 3. Toward the right side of the screen are sliders for frequency and Abuonbel- amplitude, and below those sliders are some check boxes to show how the wave will be represented. The medium for the sound wave Amplitude is air, which is made up of particles. To see the particles in both the air and the wave, select "Both." O Graph O Play Tone 4. Observe the particles and answer Question 2 on your assignment O Waves worksheet. O Particles Both 5. Move the slider for amplitude to the first tick after zero. Click on the green button on the speaker and observe the particles. Click the "Pause" button and answer Question 3 on your assignment worksheet. 6. Move the slider for amplitude to the halfway mark and click the "Play" button. Observe the particles. It might be easier to focus on the red particle closest to the speaker. Click the "Pause" button, then answer Question 4 on your assignment worksheet. 7. Move the slider for amplitude to max and click the "Play" button. Observe the particles, click the "Pause" button, then answer Question 5 on your assignment worksheet. NEXT PAGE8. On the right, there are some tools. A tape measure, timer, and pressure meter. Drag the pressure meter to the waves and put one of the sensors on a dark area on the screen. 9. Move the amplitude slider back to the middle. Click the "Play" button and observe the pressure on the pressure meter, then answer Question 6 on your assignment worksheet. 10. Select "Slow" and then click the "Play" button and observe the pressure as the waves go by the pressure sensor. Answer Question 7 on your assignment worksheet. Amplitude and Frequency The amplitude for a longitudinal wave refers to the change in pressure from the equilibrium position. The higher the pressure at compressions and the lower the pressure at rarefactions, the higher the amplitude. In this section you will first explore the property of sound that is determined by the amplitude, then the property that is determined by the frequency. 1. Click the "Reset" button. 2. Move the slider for amplitude to the first tick after zero. Select "Both" and "Play Tone." 3. Click on the green button on the speaker and listen to the tone produced. 4. Slowly move the amplitude slider up to the midpoint and then slowly move it back down to 0. Listen to the changes in the tone that is produced, then answer Question 8 on your assignment worksheet. 5. Next, explore the frequency by moving the amplitude to the midpoint and moving the frequency to minimum. Slowly move the frequency slider to from minimum to maximum. Listen to the pitch of the tone that is being played, then answer Question 9 on your assignment worksheet. Relationship Between Frequency and Wavelength 1. Click the "Reset" Button. Select "Both". Leave the amplitude at the default value and move the frequency to "min." 2. Click on the green button on the speaker to start the waves. When the first wave has reached the other side of the screen click the "Pause" button. 3. For a longitudinal wave, the wavelength is the distance from the same point on one compression to the next or from one rarefaction to the next. Use the measuring tape to measure the length of one wavelength. To do this, drag the measuring tape and place the plus sign next to the body of the tape at the beginning of one compression (at the beginning NEXT PAGEof the lighter colored area). Drag the plus sign on the other end of the tape to the beginning of the next compression. Record the distance in the data table on Question 10 of your assignment worksheet. 4. Move the frequency up three ticks on the slider. Click the "Play" button and repeat Steps 2-3. 5. Repeat Steps 2 - 3 two more times by increasing the frequency by three ticks each time. 6. Observe the relationship between frequency and wavelength and answer Question 11 on your assignment worksheet.Name: Assignment: Sound Waves Online Lab PHYSICS Part 1: Movement of Particles 1. What did you observe when you clicked on the green button on the speaker? 2. What do you observe about the particles BEFORE a wave is created? 3. What do the particles do when the amplitude is very low? (Hint: Concentrate on the particles closest to the speaker.) 4. What do the particles do with a medium amplitude? How does this differ from the movement of the particles at low amplitude? 5. What do the particles do at the maximum amplitude? How does this differ from the movement of the particles at lower amplitudes? NEXT PAGE6. What is the relative pressure in the dark area (high or low)? Is this a compression or rarefaction? Explain what is happening here in terms of particles. 7. What is the relative pressure in the light area (high or low)? Is this a compression or rarefaction? Explain what is happening in this area in terms of particles. Part 2: Amplitude and Frequency 8. What happens to the intensity of the sound that is produced as the amplitude increases? When is the sound the softest? When it is the loudest? 9. What happens to the pitch of the tone as the frequency increases? Part 3: Relationship Between Frequency and Wavelength 10. Data table of frequency and wavelength Frequency Wavelength (cm) Minimum 3 ticks 6 ticks 9 ticks NEXT PAGE11. What is the relationship between frequency and wavelength

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