Consider a 3 meter long open organ pipe. Determine its first 3 harmonics and wavelengths.

A pipe is 2.37 m long. (a) Determine the frequencies of the first three harmonics if...

A pipe is 2.37 m long. (a) Determine the frequencies of the first three harmonics if the pipe is open at both ends. Take 344 m/s as the speed of sound in air. f1 = 72.6 Correct: Your answer is correct. Hz f2 = 145.2 Correct: Your answer is correct. Hz f3 = 217.8 Correct: Your answer is correct. Hz (b) How many harmonic frequencies of this pipe lie in the audible range, from 20 Hz to 20000 Hz? 275...

An organ pipe is 1.2 m long. What are the fundamental and first two overtones is...

An organ pipe is 1.2 m long. What are the fundamental and first two overtones is the pipe is (a) closed at one end. (b) open at both ends?

Q2M.4 Consider an organ pipe 34.3 cm long that has one open and one closed end....

Q2M.4 Consider an organ pipe 34.3 cm long that has one open and one closed end. What is the fundamental pitch of this pipe? Where are the nodes (relative to the closed end) for the normal mode of the air in this pipe whose frequency is 1250 Hz??

for any five successive harmonics in a certain organ pipe, the frequency difference between the highest...

for any five successive harmonics in a certain organ pipe, the frequency difference between the highest and lowest of the five is 392 hz. if the middle frequency of one particular set of five is 1127hz (a) dettermine the fundemental feequency (b) is the pipe open or closed... explain (c) what is the pipes length if the speed of sound is 344 m/s

Determine the fundamental frequency for a 42.5 cm long pipe, open at one end and closed...

Determine the fundamental frequency for a 42.5 cm long pipe, open at one end and closed at the other. A taut string has a mass of 2 g, a length of 4.0 m and is under a tension of 5120 N. Determine which of the harmonics of the pipe, if any, are resonant with the harmonics of the string. [The speed of sound in air is 340

Consider a half-open organ pipe of a certain length. Sketch: a. the fundamental waveform b. the...

Consider a half-open organ pipe of a certain length. Sketch: a. the fundamental waveform b. the first overtone waveform c. the second overtone waveform 2. how would the frequency of the first overtone change if you closed both ends of the same pipe? explain and or show how it compares to the original frequency of the first overtone 3. how would the frequency of the first overtone change if you cut the length of the original half open pipe in...

1.An organ pipe is 151 cm long. The speed of sound in air is 343 m/s....

1.An organ pipe is 151 cm long. The speed of sound in air is 343 m/s. a. What are the fundamental and first three audible overtones if the pipe is closed at one end? Express your answers using three significant figures separated by commas. b. What are the fundamental and first three audible overtones if the pipe is open at both ends? Express your answers using three significant figures separated by commas. 2.A particular organ pipe can resonate at 252...

7). An organ pipe, closed at one end, is vibrating in its first overtone (second harmonic),...

7). An organ pipe, closed at one end, is vibrating in its first overtone (second harmonic), has length 61cm. A second organ pipe, open at both ends, is vibrating in its fundamental mode (first harmonic), has length 41cm. What are the frequencies of the tones from each?

An open organ pipe is 1.8m long. If the speed of sound is 343m/s, what are...

An open organ pipe is 1.8m long. If the speed of sound is 343m/s, what are the pipes:           a) fundamental , b) 1st overtone , & c) 2nd overtone ?

A closed organ pipe has a fundamental frequency of 100 Hz. The first overtone of an...

A closed organ pipe has a fundamental frequency of 100 Hz. The first overtone of an open organ pipe has the same frequency as the first overtone of the closed pipe. What is the length of each pipe?