A tuning fork of frequency 350 Hz is made to oscillate next to a tube with a variable length that is open at one end and closed at the other. How long should the tube be to resonate with the fork with its fundamental frequency at a temperature of 20° C? Question 2 of 5 Using the information from the previous question, what would be the length if the tube is open at both ends, also in the fundamental mode? Question 3 of 5 A uniform narrow tube 1:70 m long is open at both ends. It resonates at two successive harmonics with frequencies of 275 Hz and 330 Hz

A tuning fork of frequency 350 Hz is made to oscillate next to a tube with a variable length that is open at one end and closed at the other. How long should the tube be to resonate with the fork with its fundamental frequency at a temperature of 20° C? Question 2 of 5 Using the information from the previous question, what would be the length if the tube is open at both ends, also in the fundamental mode? Question 3 of 5 A uniform narrow tube 1:70 m long is open at both ends. It resonates at two successive harmonics with frequencies of 275 Hz and 330 Hz

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Question

A tuning fork of frequency 350 Hz is made to oscillate next to a tube with a variable length that
is open at one end and closed at the other.
How long should the tube be to resonate with the fork with its fundamental frequency at a
temperature of 20° C?
Question 2 of 5
Using the information from the previous question, what would be the length if the tube is open at
both ends, also in the fundamental mode?
Question 3 of 5
A uniform narrow tube 1:70 m long is open at both ends. It resonates at two successive
harmonics with frequencies of 275 Hz and 330 Hz.

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