Draw 2 sets of waves such that the first wave has a lower frequency the Identify the wavelength and amplitude on BOTH sets of waves from Part A.
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- Two loudspeakers are placed side by side a distance d = 4.00 m apart. A listener observes maximum constructive interference while standing in front of the loudspeakers, equidistant from both of them. The distance from the listener to the point halfway between the speakers is 1 = 5.00 m. One of the loudspeakers is then moved directly away from the other. Once the speaker is moved a distance r = 60.0 cm from its original position, the listener, who is not moving, observes destructive interference for the first time. Find the speed of sound in the air if both speakers emit a tone of frequency 700 Hz. Figure d/2 d/2 TR 1 82 1 of 1Question 3 Select all of the characteristics that can be used to describe all types of waves. A period B. crest amplitude trough frequency wavelengthDirections: On the space provided before each number, write T if the statement is true and F if the statement is false. _1. In a pendulum, the restoring force comes from the tension in the string. _2. Vibration is just mechanical oscillation. _3. The wavelength of a transverse wave is equal to the period of its corresponding sine or cosine graph. _4. The "w" in periodic motion refers to angular velocity. 5. Amplitude is unaffected when there is resonance.
- Sound waves move in air at a speed of 340 m/s. You play a piano note with a frequency of 220 Hz. The sound moves through the air first, then eventually travels through your floor. a. What is the wavelength of the wave in air? Show your work. b. In your floor, the wave moves at a speed of 2000 m/s. What is the frequency and wavelength of the wave in the floor? Explain your steps show your work.Please help thank you!5. Set the frequency to 50% run the program and pause after a few seconds. Take a screenshot of the picture and attach it below. Label where the nodes and antinodes are in your screenshot. 1 cm 0.00 Frequency min max Amplitude max ||| | || Separation 5.0 cm O Graph Question: How do you recognize the antinodes? Please explain your answer in at least two sentences.
- Task 1: Wave characteristicsA standing transverse wave is formed in a string that is 5.0 m long. Both ends of the string arefixed. Eight loops are present in the standing wave. Answer the following questions about thewave. Make sure to show all work clearly.1. Draw the standing wave. Label one node and one antinode.2. Find the wavelength of the wave. Fully explain how you found the wavelength.3. If it takes a wave 0.60 s to travel the length of the string, find the speed of the wave.4. Find the frequency of the wave.Task 2: Speed of soundAsaad, a grade 11 student, completed a lab activity to find the speed of sound in air using aclosed-air column. He measured the temperature of the room to be 21 °C. Using a tuning forkwith a frequency of 1040 Hz, he obtained the following resonant lengths for the closed air column:Copyright © 2018 The Ontario Educational Communications Authority. All rights reserved. 2TVO SPH3U ILCObservations:L1= 7.4 cmL2= 22.5 cmL3 = 36.7 cmQuestions:a) Use the…Show your complete solution to each problemA.) How many waves are pictured? Remember that 2 lobes = 1 wave. B.) State the amplitude of the waves. C.) Determine how long one wave is.