. Problem 9-4: The pressure fluctuations in a pipe filled with air at 20°C at about 1 atm is to be measured using a static wall tap, rigid connecting tubing, and a diaphragm pressure transducer. The transducer has a natural frequency of 100000 Hz For a tap and tubing diameter of 3.5 mm, a tube length of 0.25 m, and a transducer dead volume of 1600 mm³, estimate the resonance frequency of the system. What is the maximum frequency that this system can measure with no more than a 10% dynamic error? Plot the frequency response of the system.
. Problem 9-4: The pressure fluctuations in a pipe filled with air at 20°C at about 1 atm is to be measured using a static wall tap, rigid connecting tubing, and a diaphragm pressure transducer. The transducer has a natural frequency of 100000 Hz For a tap and tubing diameter of 3.5 mm, a tube length of 0.25 m, and a transducer dead volume of 1600 mm³, estimate the resonance frequency of the system. What is the maximum frequency that this system can measure with no more than a 10% dynamic error? Plot the frequency response of the system.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Problem 9-4: The pressure fluctuations in a pipe filled with air at 20°C at about
1 atm is to be measured using a static wall tap, rigid connecting tubing, and a
diaphragm pressure transducer. The transducer has a natural frequency of 100000 Hz
For a tap and tubing diameter of 3.5 mm, a tube length of 0.25 m, and a transducer
dead volume of 1600 mm³, estimate the resonance frequency of the system. What is
the maximum frequency that this system can measure with no more than a 10%
dynamic error? Plot the frequency response of the system.
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