Anay Patel - Gizmos Waves

Name: Anay Patel Date: Student Exploration: Waves Directions: Follow the instructions to go through the simulation. Respond to the questions and prompts in the orange boxes. Vocabulary: amplitude, compression, crest, frequency, linear mass density, longitudinal wave, medium, period, power, rarefaction, transverse wave, trough, wave, wavelength, wave speed Prior Knowledge Questions (Do these BEFORE using the Gizmo.) 1. A buoy is anchored to the ocean floor. A large wave approaches the buoy. How will the buoy move as the wave goes by? Up and down (bob) 2. The two images show side views of ocean waves. How are the two sets of waves different? One has a higher crest and one has a longer wavelength. Gizmo Warm-up Ocean swells are an example of waves . In the Waves Gizmo, you will observe wave motion on a model of a spring. The hand can move the spring up and down or back and forth. To begin, check that the Type of wave is Transverse , Amplitude is 20.0 cm, Frequency is 0.75 Hz, Tension is 3.0 N, and Density is 1.0 kg/m. (Note: In this Gizmo, “density” refers to the linear mass density , or mass per unit length. It is measured in units of kilograms per meter.) 1. Click Play ( ). How would you describe the motion of a transverse wave ? Click Pause ( ). Notice the crests (high points) and troughs (low points) of the wave. It goes up and down but there is one full crest and one full trough the other crest is only about half. 2. Click Reset ( ). Choose the Longitudinal wave and increase the Amplitude to 20.0 cm. Click Play . How would you describe the motion of a longitudinal wave ? Click Pause . Notice the compressions in the wave where the coils of the spring model are close together and the rarefactions where the coils are spread apart. Reproduction for educational use only. Public sharing or posting prohibited. © 2020 ExploreLearning™ All rights reserved

This wave is moving side to side and the compressions are in the middle while the rarefaction are in the sides. Activity A: Measuring waves Get the Gizmo ready: ● Click Reset . Select Transverse waves. ● Set Amplitude to 20.0 cm, Frequency to 1.0 Hz, Tension to 2.0 N, and Density to 2.0 kg/m. Question: How do we measure and describe waves? 1. Observe: Click Play . Observe the motions of the hand and of the green dot in the middle. A. What is the motion of the hand? Up and down B. Turn off the Lights on the checkbox and observe the green dot. What is the motion of the green dot? It goes to the top of the crest to the bottom of the trough. C. Follow the motion of a single crest of the wave. How does the crest move? It moves through the wave and comes back to the beginning once it reaches the end. In a transverse wave , the motion of the medium (what the wave moves through—in this case, the spring) is perpendicular to the direction of the wave. So, each point of the spring moves up and down as the wave travels from left to right. 2. Measure: With the lights on, click Pause . Turn on Show rulers . A. Use the horizontal ruler to measure the horizontal distance between two crests. What is this distance? From the beginning crest to the middle crest is 160 cm. This is the wavelength of the wave. B. What is the distance between the two troughs? The wavelength is about 180 cm. The wavelength can be found by measuring the distance between two successive crests, two successive troughs, or any two equivalent points on the wave. C. Click Reset . Set the Density to 1.0 kg/m. Click Play , and then Pause . What is the wavelength of this wave? 140 cm 3. Measure: Click Reset . The amplitude of a transverse wave is the maximum distance a point on the wave is displaced, or moved, from its resting position. Turn off the lights. Click Play , and then click Pause . Use the vertical ruler to measure the height of the green trace, showing how far the green dot moved up and down. Reproduction for educational use only. Public sharing or posting prohibited. © 2020 ExploreLearning™ All rights reserved

and then back up to the starting position. Click Play , and then click Pause after exactly one cycle. (This may take a few tries.) A. How long does one cycle take? This is the period ( T ) of the wave. Around 2 seconds B. Frequency ( f ) is equal to 1 divided by the period: f = . Frequency is measured in hertz (Hz), where 1 Hz = 1 cycle/sec. What is the frequency of this wave? 0.5 Activity B: Wave dynamics Get the Gizmo ready: ● Click Reset . Check that Transverse is selected. ● Set Amplitude to 20.0 cm, Frequency to 0.75 Hz, Tension to 3.0 N, and Density to 1.0 kg/m. Question: What factors affect the wavelength, speed, and power of waves? 1. Record: The speed of a wave is the distance a wave pulse travels per second. The wave speed is displayed below the spring. Click Play . What is the wave speed? 173.2 centimeters 2. Experiment: The wavelength and speed of a wave can be influenced by many factors. Adjust the amplitude, frequency, tension, and density as described in the table below. Then report whether this causes the wavelength and wave speed to increase or decrease. Return each variable to its original value after each experiment. Adjustment Effect on wavelength Effect on wave speed Increase amplitude Stay same Stays same Increase frequency Decrease Stay same Increase tension Increase increase Increase density Increase Decrease 3. Analyze: Click Reset . Set the Frequency to 0.80 Hz, Tension to 2.0 N, and Density to 2.0 kg/m. Click Play , and then click Pause . Turn on Show rulers . A. What is the wavelength? 125 cm B. What is the wave speed? 100 cm Reproduction for educational use only. Public sharing or posting prohibited. © 2020 ExploreLearning™ All rights reserved

C. How are the wavelength, frequency, and wave speed related? In general, the wave speed ( v ) can be calculated from the frequency ( f ) and wavelength ( λ ) using the formula v = f • λ . Speed = wavelength x frequency D. What is the wavelength of a wave with f = 0.9 Hz and v = 154.9 cm/s? To check, set Frequency to 0.90 Hz, Tension to 2.4 N, and Density to 1.0 kg/m. 172.11 cm E. Change the Density to 1.5 kg/m, and click Play . Based on the wave speed, what do you expect the wavelength to be? Measure the wavelength to check. 190 cm 4. Gather data: Click Reset , and turn off Show rulers . The power of a wave is the amount of energy it transmits each second. The power of the wave is displayed below the spring when Play is pressed. Record the wave power for each of the settings below. Amplitude Frequency Tension Density Power 20.0 cm 0.60 Hz 2.0 N 1.0 kg/m 0.402 W 40.0 cm 0.60 Hz 2.0 N 1.0 kg/m 1.6 W 20.0 cm 0.50 Hz 2.0 N 1.0 kg/m 0.2279 W 20.0 cm 1.00 Hz 2.0 N 1.0 kg/m 1.12 W 20.0 cm 0.60 Hz 2.0 N 1.0 kg/m 0.402 W 20.0 cm 0.60 Hz 4.0 N 1.0 kg/m 0.568 W 20.0 cm 0.60 Hz 2.0 N 0.5 kg/m 0.284 W 20.0 cm 0.60 Hz 2.0 N 1.0 kg/m 0.402 W Which factors increased the power of the wave? Amplitude, frequency, tension, density. 5. Compare: Click Reset . Select Longitudinal waves. Set Amplitude to 20.0 cm, Frequency to 0.60 Hz, Tension to 2.0 N, and Density to 1.0 kg/m. Click Play . A. What is the power of this longitudinal wave? 0.402 W B. Compare this power to the power of a transverse wave with the same settings. Does changing the type of wave affect its power? No, changing the type of wave does not make a difference. Reproduction for educational use only. Public sharing or posting prohibited. © 2020 ExploreLearning™ All rights reserved

Activity C: Combined waves Get the Gizmo ready: ● Click Reset . Select Combined waves. ● Set Amplitude to 10.0 cm, Frequency to 0.75 Hz, Tension to 2.0 N, and Density to 1.0 kg/m. Question: What does wave motion look like when transverse and longitudinal waves are combined? 1. Observe: Click Play . Observe the motions of the hand and of the green dot in the middle. A. What is the motion of the hand? The hand goes in circular motion. B. Deselect the Lights On checkbox. What is the motion of the green dot? The green dot goes in a circle. In a combined wave, the motion of the medium is circular. So, each point of the spring moves in a circle as the wave is transmitted from left to right. C. Click Pause . Compare the crests (high points) to the troughs (low points). What do you notice? The troughs are closer and the crests are spaced out. Combined waves, such as ocean waves, do not look exactly like transverse waves. In the Gizmo, the troughs are pointy and the crests are rounded. In the ocean, the crests are relatively pointy while the troughs are rounded. 2. Measure: Click Reset . Select Lights on and Show rulers . Set the Frequency to 1.0 Hz. Check that the Tension is 2.0 N, the Density is 1.0 kg/m, and the Amplitude is 10.0 cm. A. Measure the horizontal distance between two crests. What is this distance? 145 cm B. What is the distance between two troughs? 142 cm C. How do the wavelength, wave speed, and wave power of the combined wave compare to a transverse wave with the same settings? Explain. The wave speed is the same while the wave power and wavelength differ. D. Why do you think the combined wave is more powerful than either the transverse or longitudinal wave with the same amplitude, frequency, tension, and density? Because of the certain motion of the hand. Reproduction for educational use only. Public sharing or posting prohibited. © 2020 ExploreLearning™ All rights reserved