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ⓘ file:///C/Users/wheng/AppData/Local/Temp/1 1 1 %20Sp19%20-%20Lab%2004%20-%20Group%20Data.pdf create tension in the string. Adjust the position of the oscillator and the pulley such that the string is horizontal and its length between the "closed ends" is 1 meter. Hanging Mass 50 2. Starting at 0 Hz, gradually increase the frequency of the oscillator until you form a standing wave. Fine tune the frequency to achieve the largest standing wave possible, then record this frequency. Also note the number of nodes (including the ends) and number of antinodes. Continue increasing the frequency until you have measured the first 6 modes. Measured FrequencyNodes Mode L 1.00 m (Hz) nodes 5.3 2 17 4. 3 (use observations) 22.7 4 27.5 31.5 6 8:03 PM 0 Type here to search 3/18/2019 2

ⓘ file:///C/Users/wheng/AppData/Local/Temp/1 1 1 %20Sp19%20-%20Lab%2004%20-%20Group%20Data.pdf create tension in the string. Adjust the position of the oscillator and the pulley such that the string is horizontal and its length between the "closed ends" is 1 meter. Hanging Mass 50 2. Starting at 0 Hz, gradually increase the frequency of the oscillator until you form a standing wave. Fine tune the frequency to achieve the largest standing wave possible, then record this frequency. Also note the number of nodes (including the ends) and number of antinodes. Continue increasing the frequency until you have measured the first 6 modes. Measured FrequencyNodes Mode L 1.00 m (Hz) nodes 5.3 2 17 4. 3 (use observations) 22.7 4 27.5 31.5 6 8:03 PM 0 Type here to search 3/18/2019 2

Principles of Physics: A Calculus-Based Text
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter12: Oscillatory Motion
Section: Chapter Questions
Problem 10P: A 1.00-kg glider attached to a spring with a force constant of 25.0 N/m oscillates on a...
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For your experimental setup, what would be the numerical value of the wavelength ? of the 7th mode (?=7)?

 

ⓘ file:///C/Users/wheng/AppData/Local/Temp/1 1 1 %20Sp19%20-%20Lab%2004%20-%20Group%20Data.pdf create tension in the string. Adjust the position of the oscillator and the pulley such that the string is horizontal and its length between the "closed ends" is 1 meter. Hanging Mass 50 2. Starting at 0 Hz, gradually increase the frequency of the oscillator until you form a standing wave. Fine tune the frequency to achieve the largest standing wave possible, then record this frequency. Also note the number of nodes (including the ends) and number of antinodes. Continue increasing the frequency until you have measured the first 6 modes. Measured FrequencyNodes Mode L 1.00 m (Hz) nodes 5.3 2 17 4. 3 (use observations) 22.7 4 27.5 31.5 6 8:03 PM 0 Type here to search 3/18/2019 2
Transcribed Image Text:ⓘ file:///C/Users/wheng/AppData/Local/Temp/1 1 1 %20Sp19%20-%20Lab%2004%20-%20Group%20Data.pdf create tension in the string. Adjust the position of the oscillator and the pulley such that the string is horizontal and its length between the "closed ends" is 1 meter. Hanging Mass 50 2. Starting at 0 Hz, gradually increase the frequency of the oscillator until you form a standing wave. Fine tune the frequency to achieve the largest standing wave possible, then record this frequency. Also note the number of nodes (including the ends) and number of antinodes. Continue increasing the frequency until you have measured the first 6 modes. Measured FrequencyNodes Mode L 1.00 m (Hz) nodes 5.3 2 17 4. 3 (use observations) 22.7 4 27.5 31.5 6 8:03 PM 0 Type here to search 3/18/2019 2
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