Standing sound waves are produced in a pipe that is 1.80 mm long. For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of Harmonics of an organ pipe. Part A If the pipe is open at both ends, determine the locations along the pipe (measured from the left end) of the displacement nodes for the fundamental frequency. Express your answer(s) in meters separated by commas, if there is more than one location. Part B If the pipe is open at both ends, determine the locations along the pipe (measured from the left end) of the displacement nodes for the first overtone. Express your answer(s) in meters separated by commas, if there is more than one location. Part C If the pipe is open at both ends, determine the locations along the pipe (measured from the left end) of the displacement nodes for the second overtone. Express your answer(s) in meters separated by commas, if there is more than one location.
Standing sound waves are produced in a pipe that is 1.80 mm long. For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of Harmonics of an organ pipe. Part A If the pipe is open at both ends, determine the locations along the pipe (measured from the left end) of the displacement nodes for the fundamental frequency. Express your answer(s) in meters separated by commas, if there is more than one location. Part B If the pipe is open at both ends, determine the locations along the pipe (measured from the left end) of the displacement nodes for the first overtone. Express your answer(s) in meters separated by commas, if there is more than one location. Part C If the pipe is open at both ends, determine the locations along the pipe (measured from the left end) of the displacement nodes for the second overtone. Express your answer(s) in meters separated by commas, if there is more than one location.
Physics for Scientists and Engineers
10th Edition
ISBN:9781337553278
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter17: Superposition And Standing Waves
Section: Chapter Questions
Problem 6P: Two identical loudspeakers 10.0 m apart are driven by the same oscillator with a frequency of f =...
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Question
Standing sound waves are produced in a pipe that is 1.80 mm long.
For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of Harmonics of an organ pipe.
Part A
If the pipe is open at both ends, determine the locations along the pipe (measured from the left end) of the displacement nodes for the fundamental frequency.
Express your answer(s) in meters separated by commas, if there is more than one location.
Part B
If the pipe is open at both ends, determine the locations along the pipe (measured from the left end) of the displacement nodes for the first overtone.
Express your answer(s) in meters separated by commas, if there is more than one location.
Part C
If the pipe is open at both ends, determine the locations along the pipe (measured from the left end) of the displacement nodes for the second overtone.
Express your answer(s) in meters separated by commas, if there is more than one location.
Part D
If the pipe is closed at the left end and open at the right end, determine the locations along the pipe (measured from the left end) of the displacement nodes for the fundamental frequency.
Express your answer(s) in meters separated by commas, if there is more than one location.
Part E
If the pipe is closed at the left end and open at the right end, determine the locations along the pipe (measured from the left end) of the displacement nodes for the first overtone.
Express your answer(s) in meters separated by commas, if there is more than one location.
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