For a particular instrument four of the six harmonic frequencies below 1000 Hz are: 300, 600, 750, and 900Hz. What is the fundamental frequency?
the difference between two harmonics is
f3 - f2 = 3f1- 2f1
here f1 is fundamental frequency
750 Hz - 600 Hz = f1
f1 = 150 Hz
For a particular instrument four of the six harmonic frequencies below 1000 Hz are: 300, 600,...
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...
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?...
Question 20 If 300 Hz is the fundamental frequency of a standing wave on a string, what is the frequency of the 2nd harmonic? 100 Hz 150 Hz 300 Hz 600 Hz 900 Hz
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
The lowest two resonant (standing wave) frequencies possible for a particular closed tube are 200 Hz apart. What is the frequency of the 1 st harmonic for this tube when both sides are opened? 200 Hz 250 Hz 300 Hz 350 Hz 400 Hz numbers 20-21 A 1.2 m closed tube resonates at the 5th harmonic. What is the wavelength? 0.84 m 0.96 m 1.08 m 1.20 m 1.32 m Which of the following distances from the open end will...
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...
If two successive frequencies of standing waves on a string are 225 Hz, and 2.70E2 Hz, what is the fundamental frequency of this string?
In lab, you observe a vibrating string that reaches a resonance at 300 Hz, with 4 antinodes on the string. Which harmonic is in the string? What is the value of the fundamental frequency?
A certain pipe has resonant frequencies of 165 Hz, 275 Hz, and 385 Hz, with no other resonant frequencies between these values. (a) Is this a pipe open at both ends or closed at one end? (b) What is the fundamental frequency of this pipe? (c) How long is this pipe? (Use the speed of sound in air at 20°C.)
T3-EOY-PHY40A_40 5-12 → The frequency of the standing wave below is 900 Hz. What is the frequency of the second harmonic? a 300 Hz b. 600 Hz C. 100 Hz d. 900 Hz