1. Sketch the standing wave pattern for the fourth position. 2. Would the resonance positions be...

2) Define a “standing wave”. 3) What is “resonance”? How will we know when we are...

2) Define a “standing wave”. 3) What is “resonance”? How will we know when we are at resonance in this experiment? Give another example of a resonance phenomenon. 4) Why would this experiment not work very well with a 60Hz tuning fork?

Physics 211L Prelab Questions                   Lab #14 “Resonant Air Columns” 1) What medium...

Physics 211L Prelab Questions                   Lab #14 “Resonant Air Columns” 1) What medium do the sound waves travel through this experiment? 2) Define a “standing wave”. 3) What is “resonance”? How will we know when we are at resonance in this experiment? Give another example of a resonance phenomenon. 4) Why would this experiment not work very well with a 60Hz tuning fork? 5) Write the formula that relates the frequency of a wave to its wavelength...

2)If the positions of resonance in the tube were found at: 15.00 cm, 20.2 cm, 26.2...

2)If the positions of resonance in the tube were found at: 15.00 cm, 20.2 cm, 26.2 cm, 32.4 cm, 38.2 cm, 43.7 cm, and 49.2 cm. Explain how these numbers are related to the wavelength. Calculate the wavelength. Calculate the wavelength of the wave. 3)Calculate the next position of the resonance on the tube in cm. 4)The sound propagation velocity in air is only dependent of the temperature of the air. If the room temperature is 68.9F, calculate the sound...

GROUP REPORT ANALYSIS: Only one report shall be handed in for each group. The lab number...

GROUP REPORT ANALYSIS: Only one report shall be handed in for each group. The lab number and name shall be on the report along with your instructor’s name and the lab section. Include every group member’s name on the report. Data A recording of the temperature be sure to (include units) shall be noted from Step 3, along with your calculation for the speed of sound in air. Provide a succinct description of what you did in the lab for...

1) Selena measures the total distance between the nodes on either end of a standing wave...

1) Selena measures the total distance between the nodes on either end of a standing wave pattern to be 0.75 m, and she records that there were three antinodes between the endpoints. When she calculates half of the wavelength of the pattern, using these measurements, what is the result? Express your answer in meters. 4) Jerome has added mass to the holder and created the standing wave pattern. He observes that the string appears to have nodes where it meets...

1. Which of the following actions will increase the speed of sound in air? (a) decreasing...

1. Which of the following actions will increase the speed of sound in air? (a) decreasing the air temperature (b) increasing the frequency of the sound (c) increasing the air temperature (d) increasing the amplitude of the sound wave (e) reducing the pressure of the air. Why? 2. Suppose you’re on a hot air balloon ride, carrying a buzzer that emits a sound of frequency f. If you accidentally drop the buzzer over the side while the balloon is rising...

part 1. A 9.00-m long string sustains a three-loop standing wave pattern as shown. The string...

part 1. A 9.00-m long string sustains a three-loop standing wave pattern as shown. The string has a mass of 45 g and under a tension of 50 N. a. What is the frequency of vibration? b. At the same frequency, you wish to see four loops, what tension you need to use. Part 2. a. Determine the shortest length of pipe, open at both ends, which will resonate at 256 Hz (so the first harmonics is 256Hz). The speed...

1. An object of mass M oscillates on a spring with maximum amplitude A. If the...

1. An object of mass M oscillates on a spring with maximum amplitude A. If the amplitude is doubled, how will it change the period? The period is increased by a factor of 2 The period is increased by a factor of 4 The period is decreased by a factor of 2 The period is decreased by a factor of 4 The period stays the same 2. In the “Resonance” lab, you used a “piano” to generate a frequency of...

please choose the correct just pleasant to make sure my answer is correct thank you very...

please choose the correct just pleasant to make sure my answer is correct thank you very much 1-Regions in a longitudinal wave where the particles of the medium are squeezed together are called compressions. True False 2-The sound from two identical sound producers will sound twice as loud as that from just one. True False 3-The flash from a camera is an example of a continuous wave. True False 4-Sound cannot travel through solid steel. True False 5-Reverberation can both...

a) A 1 meter long guitar string of linear mass density 2g/m3 is put under tension...

a) A 1 meter long guitar string of linear mass density 2g/m3 is put under tension until it resonates with a fundamental frequency of 440 Hz. Determine the tension that produces this fundamental frequency. Also determine the other of the first four harmonic frequencies and draw diagrams illustrating what each of these oscillations looks like on the string. b) This string will produce sound waves in the air, determine the wavelength of the sound waves. c) Suppose you had two...