One of the harmonic frequencies of tube A with two open ends is 710 Hz. The...
One of the harmonic frequencies of tube A with two open ends is 710 Hz. The next-highest harmonic frequency is 781 Hz. (a) What harmonic frequency is next highest after the harmonic frequency 355 Hz? (b) What is the number of this next-highest harmonic? One of the harmonic frequencies of tube B with only one open end is 4847 Hz. The next-highest harmonic frequency is 5109 Hz. (c) What harmonic frequency is next highest after the harmonic frequency 2489 Hz? (d) What is the number of this next-highest harmonic?
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One of the harmonic frequencies of tube A with two open
ends is 710 Hz. The...
Problem 3: One of the harmonic frequencies of tube A with two open ends is 325...
Problem 3: One of the harmonic frequencies of tube A with two open ends is 325 Hz. The next-highest harmonic frequency is 390 Hz. (a) What is the fundamental frequency of the tube A?! (b) What harmonic frequency is next highest after the harmonic frequency 195 Hz? (c) What is the number (the integer multiplied by the fundamental frequency to get the requested frequency) of this next-highest harmonic? One of the harmonic frequencies of tube B with only one open...
6. Two identical speakers are emitting sound of the same frequency. Speaker 1, located 5 m...
6. Two identical speakers are emitting sound of the same frequency. Speaker 1, located 5 m away, has a sound level of 76 dB. Speaker 2, located 10 m from you, has a sound level of 73 dB. Assuming spherically radiating sound waves, which of the two speakers is producing the sound at higher power? 7a. Express the fundamental frequency of a piano wire fixed at both ends in terms of its tension FT, length L, radius r, and the...
Question 1 Atube with one end open and one end closed creates two consecutive harmonic frequencies...
Question 1 Atube with one end open and one end closed creates two consecutive harmonic frequencies at 300 Hz and 330 Hz. If the speed of sound in air is 343 m/s, answer the following questions. a. What is the fundamental frequency of the tube? b. What is the length of the tube? c. If mith frequency is 300 Hz, find 91. 5+5+5
What frequencies (in Hz) will a 1.90 m long tube produce in the audible range (20...
What frequencies (in Hz) will a 1.90 m long tube produce in the audible range (20 Hz - 20,000 Hz) at 18.0°C for the following cases? (a) the tube is closed at one end Hz Hz Hz lowest frequency second lowest frequency highest frequency (rounded to the nearest Hz) (b) the tube is open at both ends Hz Hz Hz lowest frequency second lowest frequency highest frequency (rounded to the nearest Hz)
What frequencies will a 1.65 m long tube produce in the audible range (20 Hz -...
What frequencies will a 1.65 m long tube produce in the audible range (20 Hz - 20,000 Hz) at 17.0°C for the following cases? (a) the tube is closed at one end lowest frequency Hz second lowest frequency Hz highest frequency (rounded to the nearest Hz) Hz (b) the tube is open at both ends lowest frequency Hz second lowest frequency Hz highest frequency (rounded to the nearest Hz) Hz
Question 13: A tube with both ends open has fundamental frequency of 300 Hz. The second...
Question 13: A tube with both ends open has fundamental frequency of 300 Hz. The second harmonic of this tube and the third harmonic of another tube which is closed at one end have the same frequency. What is the length of each of these tubes? (Speed of sound 343 m s, ignore end corrections)
4. An organ pipe open at both ends has the second harmonic of 512 Hz. What...
4. An organ pipe open at both ends has the second harmonic of 512 Hz. What would the frequency of its third harmonic be if you close one end of the pipe? a) 1150 Hz b) 384 Hz c) 1410 Hz d) 896 Hz e) 640 Hz
SOLUTION (A) Find the frequencies if the pipe is open at both ends. _V 343 m/s...
SOLUTION (A) Find the frequencies if the pipe is open at both ends. _V 343 m/s Substitute into whole harmonics equation, with n = 1. 11-222(2.46 m) = 69.7 Hz Multiply to find the second and third harmonics. 12 - 27 - 139 Hz 13 = 3f7 - 209 Hz (B) How many harmonics lle between 20 Hz and 20000 Hz for this pipe? 343 m/s Set the frequency in the harmonics equation equal to 2.00 x 104 Hz and...
Problem 3: A certain pipe has resonant frequencies of 234 Hz, 390 Hz, and 546 Hz,...
Problem 3: A certain pipe has resonant frequencies of 234 Hz, 390 Hz, and 546 Hz, with no other resonant frequencies between these values. (Hint: The lower frequency is not necessarily the pipe fundamental frequency) (a) Show that the difference of frequency between two adjacent harmonics has the same expression for a pipe open at both ends as for a pipe closed at one end (b) How long is this pipe? (c) Is this a pipe open at both ends...
A particular tube for a pipe organ is 4m long and open at both ends. The speed of sound is about 340m/s. Draw the fi...
A particular tube for a pipe organ is 4m long and open at both ends. The speed of sound is about 340m/s. Draw the first three harmonics and find the frequencies for the pressure wave view of sound. For each frequency, find another tube length that could also have this frequency as a harmonic. Now pretend the tube is closed at one end. Draw the first two harmonics and find the frequencies.
Problem 3: One of the harmonic frequencies of tube A with two open ends is 325 Hz. The next-highest harmonic frequency is 390 Hz. (a) What is the fundamental frequency of the tube A?! (b) What harmonic frequency is next highest after the harmonic frequency 195 Hz? (c) What is the number (the integer multiplied by the fundamental frequency to get the requested frequency) of this next-highest harmonic? One of the harmonic frequencies of tube B with only one open...
Question 1 Atube with one end open and one end closed creates two consecutive harmonic frequencies at 300 Hz and 330 Hz. If the speed of sound in air is 343 m/s, answer the following questions. a. What is the fundamental frequency of the tube? b. What is the length of the tube? c. If mith frequency is 300 Hz, find 91. 5+5+5
What frequencies (in Hz) will a 1.90 m long tube produce in the audible range (20 Hz - 20,000 Hz) at 18.0°C for the following cases? (a) the tube is closed at one end Hz Hz Hz lowest frequency second lowest frequency highest frequency (rounded to the nearest Hz) (b) the tube is open at both ends Hz Hz Hz lowest frequency second lowest frequency highest frequency (rounded to the nearest Hz)
Question 13: A tube with both ends open has fundamental frequency of 300 Hz. The second harmonic of this tube and the third harmonic of another tube which is closed at one end have the same frequency. What is the length of each of these tubes? (Speed of sound 343 m s, ignore end corrections)
4. An organ pipe open at both ends has the second harmonic of 512 Hz. What would the frequency of its third harmonic be if you close one end of the pipe? a) 1150 Hz b) 384 Hz c) 1410 Hz d) 896 Hz e) 640 Hz
SOLUTION (A) Find the frequencies if the pipe is open at both ends. _V 343 m/s Substitute into whole harmonics equation, with n = 1. 11-222(2.46 m) = 69.7 Hz Multiply to find the second and third harmonics. 12 - 27 - 139 Hz 13 = 3f7 - 209 Hz (B) How many harmonics lle between 20 Hz and 20000 Hz for this pipe? 343 m/s Set the frequency in the harmonics equation equal to 2.00 x 104 Hz and...
Problem 3: A certain pipe has resonant frequencies of 234 Hz, 390 Hz, and 546 Hz, with no other resonant frequencies between these values. (Hint: The lower frequency is not necessarily the pipe fundamental frequency) (a) Show that the difference of frequency between two adjacent harmonics has the same expression for a pipe open at both ends as for a pipe closed at one end (b) How long is this pipe? (c) Is this a pipe open at both ends...
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